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820576_CORRESPONDENCE_20171231
NORTH CAROLINA Department of Environmental Qua 4 7jF2 NCDENR North Carolina Department of Environment and Natural Pat McCrory Govemor J&W Swine Co. Inc J&W Swine Co. Inc 1920 Mingo Church Rd. Dunn, NC 28334 July 8, 2015 Walcrt�t��lll<r "in�f�tl81 JULt10�5 We'"alian "qin un" Resources Donald R. van der Vaart Secretary Subject: Sludge Survey Testing Dates Certificate of Coverage No. AWS820576 J&W Swine Co. Inc Animal Waste Management System Sampson County Dear AW Swine Co.. Inc: . - The Division of Water Resources (Division) received your sludge survey information on June 19, 2015. With the survey results, you requested an extension of the sludge survey requirement for the lagoons at the J&W Swine Co. Inc facility. Due to the amount of treatment volume available, the Division agrees that a sludge survey is not needed until 2019 for Lagoons #1, #3, and #6; and until 2018 for lagoons #2 & #7. The next sludge survey for lagoons #1, 43, & 96 should be performed before December 31, 2019. For Lagoons #2 & #7 sludge survey should be performed before December 31, 2018. Sludge surveys for all other lagoons should also be completed by December 31, 2015 unless a separate extension has been granted. Please call me at (919) 807-6340 if you have any questions. Please call me at (919) 807-6340 if you have any questions. Sincerely, Miressa D. Garoma Animal Feeding Operations Program cc: Fayetteville Regional Office, Water Quality Regional Operations Section Permit File AWS820576 1636 Mail Service Center, Raleigh, North Carolina 27699-1636 Prone: 919$07-64641 Intemet: hftp:rrwww.ncwaler-org An Equal Opportunity 1 Affirmative Action Employer — Made in part by recycled paper WASTE UTILIZATION PLAN Wednesday, April 13, 2011 3 _A 7-1 �C Producer : J & W Swine Inc. Farm Name: Telephone # : Type of Operation J & W Swine Farre 82-576 1920 Mingo Church Rd ©unn,NC 28334 (910) 567-2575 Feeder to Finish Swine Number of Animals: 16794 hogs design capacity Application Method: irrigation F?ECE VED JUL 14 2014 n> NR 4AYETTEWLLE REGIONAL 0FRCE The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops in the fields where waste is to be applied. This waste utilization plan uses nitrogen as the limiting nutrient. Waste should be analyzed before each application cycle. Annual soil tests are strongly encouraged so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Several factors are important in implementing your waste utilization plan in order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner. Always apply waste based on the needs of the crop to be grown and the nutrient contents of the waste. Do not apply more nitrogen than the crop can utilize. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and avaialable water holding capacities. Normally waste shall not be applied to land eroding at greater than 5 tons per acre per year, With special pre -cautions, waste may be applied to land eroding at up to 10 tons per acre per year. Do not apply waste on saturated soils, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters which is not allowed under DEM regulations. Wind conditions should also be considered to avoid drift and downwind odor problems. To maximize the value of the nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop or applied to bare ground not more than 30 days prior to planting. Injecting the waste or disking will conserve nutrients and reduce odor problems. This plan is based on waste application through irrigation for this is the manner in which you have chosen to apply your waste. If you choose to inject the waste in the future, you need to revise this plan. Nutrient levels for injecting waste and irrigating waste are not the same. The estimated acres needed to apply the animal waste is based on typical nutrient content for this type of facility. Acreage requirements should be based on the waste analysis report from your waste management facility. Attached you will find information on proper sampling techniques, preparation, and transfer of waste samples to the lab for ananlysis. This waste utilization plan, if carried out, meets the requirements for compliance with 15A NCAC 2H.0217 adopted by the Environmental Management Commission. AMOUNT OF WASTE PRODUCED PER YEAR (gallons, ft3, tons, etc.) 16794 hogs X 1.9 tons waste/hogs/year = 31908.6 tons AMOUNT OF PLANT AVAILABLE NITROGEN (PAN) PRODUCED PER YEAR 16794 hogs X 2.3 Ibs PAN/hogs/year = 38626.2 PAN/year Applying the above amount of waste is a big job. You should plan time and have appropriate equipment to apply the waste in a timely manner. The following acreage will be needed for waste application based on the crop to be grown, soil type and suface application. Se e_ p, NOTE: The applicator is cautioned that P and K may be over applied while meeting the N requirments. Beginning in 1996 the Coastal Zone Management Act will require farmers in some eastern counties of NC to have a nutrient management plan that addresses all nutrients. This plan only addresses Nitrogen. r4 J & W SWINE FIELD INFORMATION 82-576 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL NIYR 458 P22 Ra BP/OS 3.4 TONS 146150 4.155 IR 814 458 P23 Ra BP/06 3.4 TONS 146150 3.145 IR 616 458 P24 WaB BP1OS 4.1 TONS 197150 2.786 IR 688 10755 P29 Au BP/OS 4.1 TONS 197150 3.604 IR 890 10755 P30 Au BP/OS 4.1 TONS 197150 0.660 IR 163 10755 P31 Au BP/OS 4.1 TONS 197150 3.792 IR 937 10755 P32 Au BP/OS 4.1 TONS 197150 0.660 IR 163 10755 P33 Au BP/OS 4.1 TONS 197150 4.873 IR 1,204 10755 P34 Au BPIOS 4.1 TONS 197150 4.173 IR 1,031 10755 P35 Au BP/OS 4.1 TONS 197150 4.400 IR 1,087 573 P46 WaB BP/OS 4.1 TONS 197150 4.110 IR 1,015 573 P47 WaB BPIOS 4.1 TONS 14.1 197150 4.300 IR 1,062 575 1 WaB BP/OS TONS 197150 2.500 BR 618 Bermuda Total Acres= 43.158 Nitrogen Total= 10,288 10804 P1 GoA SAIWA 1101100 1.610 IR 338 C 129 125 1.610 IR 201 W 64 120 1.610 IR 193 SBDC 38 132 1.610 IR 213 SBFS 45 160 1.610 IR 258 CT 921 89 1.610 IR 143 10804 P2 NoB SANVA 1101100 3.023 IR 635 C 111 125 3.023 IR 378 W 58 120 3.023 [R 363 SBDC 34 132 3.023 IR 399 SBFS 41 160 3.023 IR 484 CT 846 75 3.023 IR 227 10804 P3 GoA SAIWA 1101100 2.829 IR 594 C 129 125 2.829 IR 354 W 64 120 2.829 IR 339 SBDC 1 38 132 2.829 IR 373 SBFS 45 160 2.829 IR 453 CT 921 89 2.829 IR 252 10804 P4 GoA SAIWA 110/100 4.163 IR 874 C 129 125 4.163 IR 520 W 64 120 4.163 IR 500 SBDC 381 132 4.163 IR 550 SBFS 45 160 4.163 IR 666 CT 921 89 4.163 IR 371 10804 P5 GoA SAIWA 1101100 3.876 IR 814 C 129 125 3.876 IR 485 W 64 120 3.876 IR 465 SBDC 1 381 132 3.876 1R 512 SBFS 45 1601 3.876 IR 620 CT 9211 891 3.876 IR 345 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL. NIYR 575 P6 NoB SAIWA 1101100 3.015 IR 633 C ill 125 3.015 IR 377 W 58 120 3.015 IR 362 SBDC 34 132 3.015 IR 398 SBFS 41 160 3.015 IR 482 CT 846 75 3.015 IR 226 575 P7 NoB SAfWA 1101100 3.260 IR 685 C ill 125 3.260 IR 408 W 58 120 3.260 IR 391 SBDC 34 132 3.260 IR 430 SBFS 41 160 3.260 IR 522 CT 846 75 3.260 IR 245 575 P8 WaB SAMA 1i0/loo 1.899 IR 212 C 73 89 1.899 IR 169 W 39 91 1.899 IR 173 SBDC 22 88 1.899 IR 167 SBFS 29 115 1.899 IR 218 CT 1 635 71 1.899 IR 135 575 P9 WaB SAIWA 1101100 5.561 IR 1,167 C 73 89 5.561 IR 495 W 39 91 5.561 IR 506 SBDC 22 88 5.561 IR 489 SBFS 29 115 5.561 IR 640 CT 635 71 5.561 IR 395 575 P10 WaB SA/WA 1101100 5.561 IR 1,167 C 73 89 5.561 IR 495 W 39 91 5.561 IR 506 SEDC 22 88 5.561 IR 489 SBFS 29 115 5.561 IR 640 CT 635 71 5.561 IR 395 575 Pll NoB SAMA 1101100 4.163 IR 874 C ill 125 4.163 IR 520 W 58 120 4.163 IR 500 SBDC 34 132 4.163 IR 550 SBFS 41 160 4.163 IR 666 CT 8461 75 4.163 IR 312 575 P12 NoB SAMA 1101100 3.374 IR 709 C ill 125 3.374 IR 422 W 58 120 3.374 IR 405 SBDC 34 132 3.374 IR 445 SBFS 41 160 3.374 IR 540 CT 846 75 3.374 IR 253 575 P13 NoB SAIWA 110/100 3.580 IR 752 C 111 125 3.580 IR 448 W 58 120 3.580 IR 430 SBDC 34 132 3.580 IR 473 IE# SBFS ICT 41 1601 3.580 IR 573 8461 7513.5801 IR 269 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL NIYR 575 P14 NoB SAIWA 1101100 1.876 IR 394 C 111 125 1.876 IR 235 W 58 120 1.876 IR 225 SBDC 34 132 1.876 IR 248 SBFS 41 160 1.876 IR 300 CT 846 75 1.876 IR 141 575 P15 NoB SAIWA 110/100 4.981 IR 1,046 C 111 125 4.981 IR 623 W 58 120 4.981 IR 598 SBDC 34 132 4.981 IR 657 SBFS 41 160 4.981 IR 797 CT 846 75 4.981 IR 374 575 P16 NoB SAIWA 1101100 3.744 IR 786 C 111 125 3.744 IR 468 W 58 120 3.744 IR 449 SBDC 34 132 3.744 IR 494 SBFS 41 160 3.744 IR 599 CT 846 75 3.744 IR 281 458 P17 NoB SAIWA 1101100 2.942 IR 618 C 111 125 2.942 IR 368 W 58 120 2.942 IR 353 SBDC 34 132 2.942 IR 388 SBFS 41 160 2.942 IR 471 CT 846 75 2.942 IR 221 458 P18 NoB SA1WA 1101100 3.446 1R 724 C 111 125 3.446 IR 431 W 58 120 3.446 IR 414 SBDC 34 132 3.446 IR 455 SBFS 41 160 3.446 IR 551 CT 846 75 3.446 IR 258 458 P19 NoB SAIWA 1101100 6.548 IR 1,375 C 111 125 6.548 IR 819 W 58 120 6.548 IR 786 SBDC 34 132 6.548 IR 864 SBFS 411 160 6.548 IR 1,048 CT 846 75 6.548 IR 491 458 P20 WaB SA/WA 1101100 6.026 IR 1,265 C 73 89 6.026 IR 536 W 39 91 6.026 IR 548 SBDC 221 88 6-026 IR 530 SBFS 29 1151, 6.026 IR 693 CT 635 71 6.026 IR 428 458 P21 WaB SANVA 1101100 6.026 IR 1,265 C 73 89 6.026 IR 536 W 39 91 6.026 IR 548 SBDC 22 88 6.026 IR 530 SBFS 29 115 6.026 IR 693 CT 635 71 6.026 IR 428 453 P36 NoB SA/WA 1101100 6.463 IR 1,357 C 'ill 125 6.463 IR 808 W 581 120 6.463 IR 776 SBDC 34 132 6.463 IR 853 SBFS 41 160 6.463 IR 1,034 CT 846 75 6.463 IR 485 6 TRACT FIELD SOIL CROP YIELD NNACRE ACRES METHOD TOTAL NNYR 453 P37 1NOB SAMNA 1101100 6.463 IR 1,357 C 111 125 6.463 IR 808 W 58 120 6.463 IR 776 SBDC 34 132 6.463 IR 853 SBFS 41 160 6.463 IR 1,034 CT 846 75 6.463 IR 485 10756 P38 Au SAMNA 1101100 5.618 IR 1,180 C 83 94 5.618 IR 528 W 44 102 5.618 IR 573 SBDC 24 96 5.618 IR 539 SBFS 29 115 5.618 IR 646 CT 683 75 5.618 IR 421 10756 P39 NoA SANWA 1101100 2034 IR 427 C 115 125 2.034 IR 254 W 60 120 2.034 IR 244 SBDC 351 132 2.034 IR 268 SBFS 45 160 2.034 IR 325 CT 871 75 2.034 IR 153 10756 P40 NoA SAIWA 1101100 3.735 IR 784 C 115 125 3.735 IR 467 W 60 120 3.735 IR 448 SBDC 35 132 3.735 IR 493 SBFS 45 160 3.735 IR 598 CT 871 75 3.735 IR 280 1359 P41 NoB SANVA 1101100 2.154 IR 452 C 111 125 2.154 IR 269 W 58 120 2.154 IR 258 SBDC 34 132 2.154 IR 284 SBFS 41 160 2.154 IR 345 CT 846 75 2.154 IR 162 1359 P42 NoA SA/WA 1101100 3.971 IR 834 C 115 125 3.971 IR 496 W 60 120 3.971 IR 477 SBDC 35 132 3.971 IR 524 SBFS 45 160 3.971 IR 635 CT 871 75 3.971 IR 298 1359 P43 NoA SANWA 11101100 5.607 IR 1,177 C 115 125 5.607 IR 701 W 60 120 5.607 I R 673 SEDC 35 132 5.607 IR 740 SBFS 45 160 5.607 IR 897 CT 871 75 5.607 IR 421 1359 P44 NoA SAMNA 1101100 1.733 IR 364 C 115 125 1.733 IR 217 W 60 120 1.733 IR 208 SBDC 35 132 1.733 IR 229 SBFS 45 1601 1.733 IR 277 CT 871 75 1.733 IR 130 I TRACT FIELD SOIL CROP YIELD N/ACRE ACRES METHOD TOTAL N/YR 1359 P45 NoA SAIWA 1101100 2.238 IR 470 C 115 125 2.238 IR 280 W 60 120 2.238 IR 269 SBDC 35 132 2.238 IR 295 SBFS 45 160 2.238 IR 358 CT 8711 75 2.238 IR 168 573 P48 WaB SA/WA 1101100 4.380 IR 1,262 C 73 89 4.380 IR 390 W 39 91 4.380 IR 399 SBDC 22 88 4.380 IR 385 SBFS 29 115 4.380 IR 504 CT 6351 71 4.380 IR 311 573 P49 WaB SANUA 1101100 4.440 IR 1,242 C 73 89 4.440 IR 395 W 39 91 4.440 IR 404 SBDC 22 88 4.440 IR 391 SBFS 29 115 4.440 IR 511 CT 635 71 4.440 IR 315 573 P50 WaB SAIWA 1101100 5.260 IR 1,262 C 73 89 5.260 IR 468 W 39 91 5.260 IR 479 SBDC 1 22 88 5.260 1R 463 SBFS 291 115 5.260 IR 605 CT 635 71 5.260 IR 373 477 2 L NoA SA/WA 1101100 17.390 BR/Sl 3,652 C 115 125 17.390 BR/SI 2,174 W 60 120 17.390 BR/SI 2,087 SBDC 35 132 17.390 BR/SI 2,295 SBFS 451 160 17.390 BR/SI 2,782 CT 871 75 17.390 BR/SI 1,304 605 1 L) NoA SAIWA 110/100 38.000 BR/SI 7,980 C 115 125 38.000 BR/SI 4,750 W 60 120 38.000 BR/SI 4,560 SBDC 35 132 38.000 BR/SI 5,016 SBFS 45 160 38.000 BR/SI 6,080 CT 871 75 38.000 BR/SI 2,850 605 2 L NoB SAIWA 110/100 5.710 BR/SI 1,199 C 111 125 5.710 BR/Sl 714 W 58 120 5.710 BRISI 685 SBDC 34 132 5.710 BR/SI 754 SBFS 41 160 5.710 BR/SI 914 CT 846 75 5.710 BR/SI 428 573 1 Au SAIWA 110/100 13.000 BR/SI 2,730 C 83 94 13.000 BR/SI 1,222 W 41 102 13.000 BR/SI 1,326 SBDC 24 96 13.000 BR/SI 1,248 SBFS 29 115 13.000 BR/SI 1,495 CT 683 751 13.000 BRISI 975 TRACT FIELD SOIL CROP YIELD N/ACRE ACRES METHOD TOTAL NIYR 10808 1 NoA SA1WA 1101100 27.310 BR/SI 5,375 C 115 125 27.310 BR/Si 3,414 W 60 120 27.310 BR/Si 3,277 SBDC 35 132 27.310 BR/SI 3,605 SBFS 451 160 27.310 BR/Si 4,370 CT 871 75 27.310 BR/SI 2,048 556 2 NoB SA1WA 1101100 16.600 BR/SI 3,486 C 1 i 1 125 16.600 BR/SI 2,075 W 58 120 16.600 BR/SI 1,992 SBDC 34 132 16.600 BR/SI 2,191 SBFS 41 160 16.600 BR/SI 2,656 CT 846 75 16.600 BRISI 1,245 476 1 Au SAMIA 110/100 13.500 BR/SI 2,835 C 83 94 13.500 BR/Si 1,269 W 44 102 13.500 BRISI 1,377 SBDC 24 96 13.500 BR/SI 1,296 SBFS 29 115 13.500 BR/SI 1,553 CT 683 75 13.500 BR/SI 1,013 617 1 L NOB SAMNA 110/100 20.860 BR/SI 4,381 C 111 125 20.860 BR/SI 2,608 W 58 120 20.860 BRISI 2,503 SBDC 34 132 20.860 BR/St 2,754 SBFS 41 160 20.860 BR/SI 3,338 CT 846 75 20.860 BR/S1 1,565 1371 1 NoA SAMIA 110/100 6.360 BR/SI 1,336 C 115 125 6.360 BRISI 795 W 60 120 6.360 BR/SI 763 SBDC 35 132 6.360 BR/SI 840 SBFS 45 160 6.360 BR/Si 1,018 CT 871 75 6.360 BR/SI 477 1371 2 NoB SAIWA 110/100 10.800 BRISI 2,268 C 111 125 10.800 BR/SI 1,350 W 58 120 10.800 BR/SI 1,296 _ SBDC 34 132 10.800 BRISI 1,426 SBFS 1 41 16501 10.800 SR/& 1,728 CT 1 846 751 10.800 BR/S1 810 1830.774 Row Crop 305.129 ac LEGEND BP = BERMUDA PASTURE OS = OVERSEED SA = SUMMER ANNUAL WA = WINTER ANNUAL C = CORN W = WHEAT SBDC = SOYBEANS DOUBLE CROPPED SBFS = SOYBEANS FULL SEASON CT = COTTON (L) = LEASED LAND ® VA TOTALS: FOt rtes/ Rcsr,-eil-rve C��s ACRES LBS AW N USED `ABLE 1 TABLE 2 3o 5, ll.7 TOTALS: 3 i l A! W .21-1 MOUNT OF N PRODUCED: 38,526 * BALANCE "* This number must be less than or equal to 0 in order to fully utilize the animal waste N produced. Acres show in each of the preceeding tables are considered to be the usable acres excluding required buffers, filter strips along ditches, odd areas unable to be irrigated, and perimeter areas not receiving full application rates due to equipment limitations. Actual total acres in the fields listed may, and most likely will be, more than the acres shown in the tables. NOTE: The Waste Utilization Plan must contain provisions for periodic land application of sludge at agronomic rates. The sludge will be nurturient rich and will require precautionary measures to prevent over application of nutrients or other elements. Your production facility will produce approximately 6213.78 pounds of plant available nitrogen (PAN) per year in the sludge that will need to be removed on a periodic basis- This figure is PAN when broadcasting the sludge. Please be aware that additional acres of land, as well special equipment, may be needed when you remove this sludge. See the attached map showing the fields to be used for the utilization of waste water. APPLICATION OF WASTE BY IRRIGATION The irrigation application rate should not exceed the intake rate of the soil at the time of irrigation such that runoff or ponding occurs. This rate is limited by initial soil moisture content, soil structure, soil texture, water droplet size, and organic solids- The application amount should not exceed the available water holding capacity of the soil at the time of irrigation nor should the plant available nitrogen applied exceed the nitrogen needs of the crop. Your facility is designed for 180 days of temporary storage and the temporary storage must be removed on the average of once every 5.92 months. In no instance should the volume of waste being stored in your structure be within 1-58 feet of the top of the dike. If surface irrigation is the method of land application for this plan, it is the responsiblity of the producer and irrigation designer to ensure that an irrigation system is installed to properly irrigate the acres shown in Tables 1 and 2. Failure to apply the recommended rates and amounts of Nitrogen shown in the tables may make this plan invalid. The following table is provided as a guide for establishing application rates and amounts. APPLICATION APPLICATION TRACT FIELD SOIL TYPE CROP RATE (infhr) ANT (incises) 575 -t AGRAM 0-6% 5G 0.60 i '1 575 t AG_RAM 0-6% BP 617 �� NORFOLK 2-6% SA j 0.50 '1 * This is the maximum application amount allowed for the soil assuming the amount of nitrogen allowed for the crop is not over applied. In many situations, the application amount shown cannot be applied because the nitrogen limitation. The maximum application amount shown can be applied under optimum soil conditions. 9 NARRATIVE OF OPERATION Acreages, nitrogen application amounts and RYE's are from a previous WUP written by Dan Bailey on 1015109. This WUP has a menu of crops to choose from. In the most restrictive crop year, when cotton is planted to all acres followed by a winter annual, there is an 11,502 lbs of nitrogen deficit for the required crops. Any combination of crops may be planted at any time. For all crops following soybeans, reduce nitrogen rate by 20 lbs/acre. For crop year 2011, bermuda pulls 8-10 and 31-35 will be disked up and planted in soybeans_ These pulls will be re -sprigged in Spring, 2012. No waste will be applied to these pulls in 2011. /L) PLANS & SPECIFICATIONS 1. Animal waste shall not reach surface waters of the state by runoff, drift, manmade conveyances, direct application, or direct discharge during operation or land application. Any discharge of waste which reaches surface water is prohibited. Illegal discharges are subject to assessment of civil penalties of $10,000 per day by the Division of Water Quality for every day the discharge continues. 2. The Field Office must have documentation in the design folder that the producer either owns or has long term access to adequate land to properly dispose of waste. If the producer does not own adequate land to properly dispose of waste, he shall provide NRCS with a copy of a written agreement with a landowner who is within a reasonable proximity, allowing him/her the use of the land for waste application for the life expectancy of the production facility. It is the responsibility of the owner of the facility to secure an update of the Waste Utilization Plan when there is a change in the operation, increase in the number of animals, method of utilization, or available land. 3. Animal waste shall be applied to meet, but not exceed, the Nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climate conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. 4. Animal waste may be applied to land that has a Resource Management System (RMS) or an Alternative Conservation System (ACS). If an ACS is used the soil loss shall be no greater than 10 tons per acre per year and appropriate filter strips will be used where runoff leaves the field. These filter strips will be in addition to "Buffers" required by DEM. (See FOTG Stantard 393 - Filter Strips and Standard 390 Interim Riparian Forest Buffers). 5. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when there is danger of drift from the irrigation field. 6. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. (See "Weather and Climate in North Carolina" in the NRCS Technical Reference - Environment file for guidance.) *7. Liquid waste shall be applied at rates not to exceed the soil infiltration rate such that runoff does not occur offsite or to surface waters and in a method which does not cause drift from the site during application. No ponding should occur in order to control conditions conducive to odor or flies and to provide uniformity of application. 8. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen. 9. Animal waste shall be applied on actively growing crops in such a manner that the crop is not covered with waste to a depth that would inhibit growth. 10. Waste nutrients shall not be applied in fall or winter for spring planted crops on soils with a high potential for leaching. Waste nutrient loading rates on these soils should be held to a minimum and a suitable winter cover crop planted to take up released nutrients. Waste shalf not be applied more than 30 days prior to planting of a crop on bare soil. 11. Any new swine facility sited on or after October 1, 1995 shall comply with the following: the outer perimeter of the land area onto which waste is applied from a lagoon that is a component of a swine farm shall be at least 50 feet from any residential property boundary and from anv aerennial stream or river (other that an irrioation ditch or canal. Animal waste other than swine waste from facilities sited on or after October 1, 1995), shall not be applied closer than 25 feet to perennial waters. (See Standard 393 - Filter Strips) 12. Animal waste shall not be applied closer than 100 feet to wells 13. Animal Waste shall not be applied closer than 200 feet of dwellings other than those owned by the landownwer. 14. Waste shall be applied in a manner not to reach other property and public right - of ways. 15_ Animal waste shall not be discharged into surface waters, drainageways, or wetlands by discharge or by over -spraying. Animal waste may be applied to prior converted croplands provided they have been approved as a land application site by a "technical specialist". Animal waste should not be applied on grassed waterways that discharge directly into water courses, except when applied at agronomic rates and the application causes no runoff or drift from the site. *16. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. *17_ A protective cover of appropriate vegetation will be established on all disturbed areas (lagoon embankments, berms, pipe runs, etc.). If needed, special vegetation shall be provided for these areas and shall be fenced, as necessary, to protect the vegetation. Vegetation such as trees, shrubs, and other woody species, etc, are limited to areas where considered appropriate. Lagoon areas should be kept mowed and accessible. Lagoon berms and structures should be inspected regularly for evidence of erosion, leakage or discharge. *18. If animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing a "closure plan" which will eliminate the possibility of an illegal discharge, pollution and erosion. *19. Waste handling structures, piping, pumps, reels, etc., should be inspected on a regular basis to prevent breakdowns, leaks, and spills. A regular maintenance checklist should be Kept on site. 20. Animal waste can be used in a rotation that includes vegetables and other crops for direct human consumption. However, if animal waste is used on crops for direct human consumption, it should only be applied as a preemergence with no other applications of animal waste during the crop season. *21. Highly visible markers shall be installed to mark the top and bottom elevations of the temporary storage (pumping volume) of all waste treatment lagoons. Pumping shall be managed to maintain the liquid level between the markers. A marker will be required to mark the maximum storage volume fpr waste storage ponds. 22. Waste shall be tested within 60 days of utilization and soil shall be tested at least annually at crop sites where waste products are applied. Nitrogen shall be the rate - determining element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. pH shall be adjusted for optimum crop production amd maintained. Soil and waste analysis records shall be kept for five (5) years. Poultry dry waste application records shall be maintained for three (3) years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina Department of Agriculture regulations. * Liquid Systems /I- APPENDIX 1.1A Animal Waste Application Windows For Common Crops Which Receive Animal Waste These application windows include 30 days prior to planting and greenup of Berrnudagrass. End 30 days before harvest. Bermudagrass Begin March 1St End September 30'' Small Grain Overseeded Begin October l' End March 31s' in Bermudagrass Corn Begin February 15d' End June 30`h Cotton Begin March 15'h End August 15' Cucumbers - Direct consumption Begin March I" (100 % at planting) - For Processing Begin April 1" End May 31 st -- (2 seasons) Begin July 1St End August 315t ,j Owl w+ e2 AYW t Cir, >~r�r) 13ej, �, Ap r� 1 �= L�-�[ �� VfjN2 A�V1d c `f E, r hes. .. S._'e.... ! s� 1t►, v! 1�1..r1. 3� Rye Begin September ls' End March 31St Barley, Oats, Triticale Begin September 151 End April 15t' Wheat Begin September 1St End April 30`h Peanuts Begin April 1St End September 30'' Sorghum/ Begin March 15`h End August 31 S' Sudan Grass Hay Soybeans Begin April 1St End September 15'h Tobacco - Flue Cured Begin March l 5`a End lune 30t1' - Burley Begin May 150' End August 15'h Fescue2 Begin August 1St Enol July 3151 ' Bates shown represent statewide limits. Planting and harvesting dates vary across the state and from year to year Actual values shall reflect site specific conditions and in no case allow application more tJtatt either 3A days prior to plaminwbmaking dormancy or less than 30 days before harvest. 5rc General Permit for food crops Mountains - limit N application during June and July, no nitrogen in December and Januar Piedmont & Coastal Plain -limit N application during June and July no nitrogen to Dec and Jan during severe winters. Semember 14. 2006 Z NAME OF FARM: J & W Swine Farm 82-576 OWNER 1 MANAGER AGREEMENT I (we) understand and will follow and implement the specifications and the operation and maintenance precedures estalished in the approved animal waste utilization plan for the farm named above. I (we) know that any expansion to the existing design capacity of the waste treatment and/or storage system or construction of new facilities will require a new utilization plan and a new certification to be submitted to DEM before the new animals are stocked. I (we) understand that I must own or have acces to equipment, primarily irrigation equipment, to land apply the animal waste described in this waste utilization plan. This equipment must be available at the appropriate pumping time such that no discharge occurs from the lagoon in a 25 -year 1 -day storm event. I also certify that the waste will be applied on the land according to this plan at the appropriate times and at rates that no runoff occurs. NAME OF FACILITY -OWNER: J & W Swine Inc. SIGNATURE:./ ���.� DATE: 7- / �f NAME OF MANAGER (if different from owner): please print SIGNATURE: DATE: NAME OF TECHNICAL SPECIALIST: Curtis Barwick AFFILIATION: Barwick Ag Services ADDRESS (AGENCY): 103 Country Club Circle Clinton, NC 28328 (910) 38 1004 SIGNATURE: DATE: 3" 7 Y i Lt Y �krM .yt. f r 6k, NO, �,�; �.. , C J' L ,Sy ;.'•, a �...y � a!s!irv' , �+ � i'I,� li±. •��s�rrt�'4��i ^"il �,•'. • 5��`� O1•11f� fJ - �.Sti.{�'��.•7'!'.! f•, 1 �,� :'�ifi5'I•;p .�,:. �L�,-.l,r.i!.r r...,l,,,i, r5,;. �,+'�^' `�, ,��'i 1� ,�,i '. S'*�'�(,,E1 I .Z '� ,r. ,=�ti;ryRy�a •� :�' I' ; r,� �,�'�. �k 1f,1,,Sti, j;l;,'' •,. �,�11!fJli �!tr'J:":��"'"��'•+s,.' .�`+.;�-v` ;?,!'''1• •t�'- l'1Si•f"a:.y 7tti`�. F;i,s�l •+.5i� _ sl:d.i}.�:". "!''r 4411�rf1/t,s�iti::�� ,rYkp �'jii .K��+�tl ,di,,�,,lrs`',ftit.�''�'•r �4••; ,`•�,. r•' rl. l},ii� � �S ;,' ,S '�.,�1 •�r'A "'+1 � •SI 4 n1r*,5 il" , a-,.•.: 1.- 'tl „�� .' 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(. ri'a„ ji,,,.- :�� �,.1.,4. 1 trl'- ,::.; .rY� qJL� .•�•`,i�Yu.•;: i:.'.•j..,'IF V Ni {' r }i 15;•� .I,1:',,�i}!' ;', 'il,•'i'.'i �'t.rk,i t,l,\'!Y!�'I„',r '�i ,!. t��,• i�!" (r'•. 1q7'� i�: 17� �I}t.,1�' 1:.:I: �, ';•' k.�•t{!j: —I', �., ,�:T. . �r� IYr��I Y�hY 'I: v'1�••5,�' r:iicy,;,.Pt,�;;.,•,,;Ii ' "���y 4}�r?�*'1�'Ij}'�r��� ;�''If','ti;i•}'' 1,,:'r,'�'r�1 :'.,1115�'i'.I, ,hi�fY.. ,,� 11 f J +l;lr�lS }rr;.F"'•,4'! ,hr E RR 1�1i' ir.y ''i+��'ii f Yr+, IY 1;. �.•t (I it 4. ..•.y �'j !'' 1:' IF ?. .4�. RC1'.%: ;: �r -r' �. rlt:f J,..,+..,;,••r:+; �,SjII,�rS�lr;�}!i.^ ,� .,..., ,r,;^' ?..;r;t•:�',?�tr�,r �i '! ,r�' ,r ,•' '{.rii'Sy • =�ti:�^It•'� :_li �°i';}^,�' r..;S{�• i° 1�' .1�":.w�''J 1'+Y Ili t iyy `�' ,, .r•ir 't /,` 'r,i.t:1SF yy!� .1 � , : i .; t1R ."_ • :'IJt f'.';i<.'� �' � :��� r of ;.•�'... t. r. a{,, �� .,E'q� ; �. ,{ 'ham 'I {t 4,, a s[ +•,4 ,, .y ••'_.�i._i �k',." •••'i:"� •F �t,.r •"[}'..�•.�mrl. ::1. 1 r �;•� t, .: s. +�na,•�.,k:�, kl�.'r. Y,'! 'G:,r ..11 ✓... ,'A����..-.:..., :'17��1�•'i r'''%�'i\ .i J it .r y ;(•.�,•~:: S*�,'rr,• .2•:,.��'ar•1'.��.�. 'i r. `���� �k `,Jr;JS! ! F�+�• � �ylr: 'Y�.. �;k ':1h4"".i l�': •''•i. i:'. •'�' '^I'�!'. wf• .i•..y4��I, .,: . North Carolina Beverly Eaves Perdue Governor Curtis Barwick 103 Country Club Cir. Clinton, NC 28328 Dear Mr. Barwick: ASA ���C�-FR�I NCDENR Department of Environment and Natural Resources Division of Water Quality Charles Wakild, P.E. Director April 17, 2012 RE: Sludge Survey Testing Dates APR 19 2-0V Dee Freeman Secretary The Division of Water Quality (Division) received your sludge survey information for many of your farms on March 29, 2012. With the survey results, you requested an extension of the sludge survey requirement for the lagoons at the facilities listed below. Due to the amounts of treatment volume available, the Division agrees that a sludge survey is not needed until 2014 for some of lagoons that are listed on the attached table. However, due to the amount of treatment volume available, and the rate of sludge accumulation, the Division feels that an extension is not appropriate for lagoon #1 at facility #25-29 (Douglas Cowan Farms), Big Lagoon at facility # 31-162 ( Glade Ridge), Lagoon -1 at facility #40-27 (David Murphrey Farm), Finishing lagoon at facility 4 51-07 (Donald Byrd Farm), Lagoon #2 at facility # 51-46 (Sandy Ridge), Lagoon 42 at facility #82-576 (3&W Swine Co. Inc.), and Lagoon # 1 at facility #82-622 (K&T Farms). The next sludge survey for these lagoons should be performed before December 31, 2012. Thank you for your attention to this matter. If you have any questions, please call me at (919) 807- 6340. Sincerel Miressa D. Garoma Animal Feeding Operations Unit Attachment: Extension List cc: Washington Regional Office, Aquifer Protection Section Wilmington Regional Office, Aquifer Protection Section Raleigh Regional Office, Aquifer Protection Section Fayetteville Regional Office, Aquifer Protection Section Central Files AQUIFER PROTECTION SECTION 1636 Mail Service Center, Ralegh, North Carolina 27699-1636 Location: 512 N. Salisbury St., Raleigh, North Carolina 27604 Phone: 91907-64641 FAX: 919-847-6496 Internet: www.ncwatergualitv.org An Equal Opportunity 1 Affirmative Action Employer One NorthCarolina Natutallr� Cirtis Barwick April 17, 2012 it Page 2 of 2 Sludge Survey Extension Requests BARWICK AG SERVICES LLC Curtis G Barwick Facilit # Owner Farm Name Countv Re ion Lazoon ID Approved Until 9-78 Oscar Autry Oscar Am , Farm Bladen FRO 2 12/31/2014 9-134 Tommv Melvin Melvin Nursery #1 Bladen FRO 1 12/31/2014 9-190 Tommy Melvin Melvin Nurser), #3 Bladen FRO 1 12/31/2014 25-29 Douglas Cowan Douglas Cowan Farms Craven WaRO 1 1213112012* 31-146 Jerry Simpson Ganders Fora: Duplin WiRO BP2 (small) 12/31/2014 31-162 Charles Edwards, Jr Glade Ride Du lin WiRO Bi21213112012* Y 40-27 LL Murphtey Co . David Mu y hre Farm Greene WaRO 1 12/3112012* 51-07 Donald Byrd Donald Byrd Farm Johnston RRO Finishin I2/31/2012* 5146 Whitley Stephenson Spring Meadow Farm Sandy Ridge Pork Johnston RRO 2 12131/2012* 54-14 Kenneth Rouse Kenneth Rouse Farrm #3 Lenoir WaRO 1 12/31/2014 54-127 Kenneth Rouse Kenneth Rouse Fame 42 Lenoir WaRO 1 1213112014 82-183 Coharie Hog Farm Lara ette Farms C-10 Sampson FRO 1 _ 12/3112014 82-183 Coharie Hog Farm Lafayette Farms C-10 Sampson FRO 2 12/31/2014 82-229 Nelson Porter P & J Farms Sampson FRO 1 12/31/2014 82-229 Nelson Porter P & J Farms I Sampson FRO 2 12/31/2014 82-232 Ernest Smith Farms Inc Garland Sow Farm Sampson FRO Second 12/3 1120 14 82-234 Allen Carmady Allen Cannad Farm Vii_? Sampson FRO 1 12/31/2014 82-275 Je , Harrell Double J Hog Farm Sampson FRO 2 12/31/2014 82-307 Stacy Moore The Hanover Farm Sampson _ FRO I (large) 12/31/2014 82-356 SDG Leasin S- Carroll Savannah Hill Farms Sampson FRO 1 12/31/2014 82-403 Howard Bros Farms LLC D & K Farm Sampson FRO 1 12/31/2014 82474 3 W Farms 3 W Farms Sampson FRO A 12/31/2014 82499 Sheral Daniels Sheral Daniels Farm Sampson FRO Prima 12/31/2014 82499 Sheral Daniels Sheral Daniels Farm Sampson FRO secondaEy large 12/31P-014 82499 Sheral Daniels Sheral Daniels Farm Sampson FRO secondary small 12/31/2014 82-563 Steve Howard Stephen Howard Farm Sampson FRO Nurse 12/31/2014 82-576: J & W Swine Co Inc J & W Swine Co Inc Sampson FRO 2 12/31/2012* 82-576 J & W Swine Co Inc J & W Swine Co lnc Sampson FRO 7 12/31/2014 82-622 Keith Tew K & T Farms Sampson FRO 1 12131/2012* 82-697 Todd Daniels Windy Creek Farms Sampson _ FRO 1 12/31/2014 96-02 Jamie Roesch 1 & T Finishing Wayne WaRO 3 12/31/2014 96-02 Jamie Roesch J & T Finishing Wayne WaRO 4 12/31/2014 * Due to the amount of treatment volume available. and the rate of sludge accumulation, DWQ feels that an extension is not appropriate for these lagoons. WASTE UTILIZATION PLAN Wednesday, April 13, 2011 .9 — .2 "�� "'Odu /-C. Producer: .t & W swine Inc. Farm Name: J & W swine Farm 82-576 1920 Mingo church Rd Dunn,NC 28334 Telephone # : (910) 567.2575 Type of operation : Feeder to Finish Swine Number of Animals: 16794 hogs design capacity Application Method. Irrigation The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops in the fields where waste is to be applied. This waste utilization plan uses nitrogen as the limiting nutrient. Waste should be analyzed before each application cycle. Annual soil tests are strongly encouraged so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Several factors are important in implementing your waste utilization plan in order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner. Always apply waste based on the needs of the crop to be grown and the nutrient contents of the waste. Do not apply more nitrogen than the crop can utilize. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and avaialable water holding capacities. Normally waste shall not be applied to land eroding at greater than 5 tons per acre per year. With special pre -cautions, waste may be applied to land eroding at up to 10 tons per acre per year. Do not apply waste on saturated soils, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters which is not allowed under DEM regulations. Wind conditions should also be considered to avoid drift and downwind odor problems. To maximize the value of the nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop or applied to bare ground not more than 30 days prior to planting. Injecting the waste or disking will conserve nutrients and reduce odor problems. This plan is based on waste application through irrigation for this is the manner in which you have chosen to apply your waste. If you choose to inject the waste in the future, you need to revise this plan. Nutrient levels for injecting waste and irrigating waste are not the same. The estimated acres needed to apply the animal waste is based on typical nutrient content for this type of facility. Acreage requirements should be based on the waste analysis report from your waste management facility. Attached you will find information on proper sampling techniques, preparation, and transfer of waste samples to the lab for ananlysis. This waste utilization plan, if carried out, meets the requirements for compliance with 15A NCAC 21-1.0217 adopted by the Environmental Management Commission. AMOUNT OF WASTE PRODUCED PER YEAR (gallons, ft3, tons, etc.) 16794 hogs X 1.9 tons wastelhogslyear = 31908.6 tons AMOUNT OF PLANT AVAILABLE NITROGEN (PAN) PRODUCED PER YEAR 16794 hogs X 2.3 Ibs PANlhogslyear = 38626.2 PAN/year Applying the above amount of waste is a big job. You should plan time and have appropriate equipment to apply the waste in a timely manner. The following acreage will be needed for waste application based on the crop to be grown, soil type and suface application. _Sae- a4-7, 2 NOTE: The applicator is cautioned that P and K may be over applied while meeting the N requirments. Beginning in 1996 the Coastal Zone Management Act will require farmers in some eastern counties of NC to have a nutrient management plan that addresses all nutrients. This plan only addresses Nitrogen. K J & W SWINE FIELD INFORMATION 82-576 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL NIYR 458 P20 WaB BP/OS 4.1 TONS 197150 6.026 IR 1,488 458 P21 WaB BP/OS 4.1 TONS 197150 6.026 IR 1,488 458 P22 Ra BP/OS 3.4 TONS 146150 4.155 IR 814 458 P23 Ra BP/OS 3.4 TONS 146150 3.145 IR 616 458 P24 WaB BP/OS 4.1 TONS 197150 2.786 IR 688 10755 P29 Au BP70S 4.1 TONS 197/50 3.604 IR 890 10755 P30 Au BP/OS 4.1 TONS 197150 0.660 IR 163 10755 P31 Au BP/OS 4.1 TONS 197/50 3.792 IR 937 10755 P32 Au BP/OS 4.1 TONS 197150 0.660 IR 163 10755 P33 Au BP/OS 4.1 TONS 197150 4.873 IR 1,204 10755 P34 Au BP/OS 4.1 TONS 197/50 4.173 IR 1,031 10755 P35 Au BP/OS 4.1 TONS 197150 4.400 IR 1,087 573 P46 WaB BP/OS 4.1 TONS 197/50 4.1 W IR 1,015 573 P47 WaB BP/OS 4.1 TONS 197150 4.3001 IR 1,062 575 1 jWa13 BP/OS 4.1 TONS 197/50 2.500L BR 1 618 Bermuda Total Acres= 55.210 Nitrogen Total= 13,264 10804 Pi GoA SA/VVA 1101100 1.610 IR 338 C 129 125 1.610 IR 201 W 64 120 1.610 IR 193 SEDC 38 132 1.610 IR 213 SBFS 45 160 1.610 IR 258 CT 921 89 1.610 IR 143 10804 P2 NoB SA/WA 110/100 3.023 IR 635 C 111 125 3.023 IR 378 W 58 120 3.023 IR 363 SBDC 34 132 3.023 IR 399 SBFS 411 160 3.023 IR 484 CT 846 75 3.023 IR 227 10804 P3 GoA SA/VVA 1101100 2.829 IR 594 C 129 125 2.829 IR 354 W 641 120 2.829 IR 339 SBDC 132 2.829 IR 373 SBFS -38i 451 160 2.829 IR 453 CT 9211 89 2.829 IR 252 10804• P4 GoA SANVA 1101100 4.163 IR 874 C 1291 125 4.163 IR 520 W 641 120 4.163 IR 500 SBDC 38 132 4.163 IR 550 SBFS 45 160 4.163 IR 666 CT 921 891 4.1631 IR t 371 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL NIYR 10804 P5 GoA SA/WA 1101100 3.876 IR 814 C 129 125 3.876 IR 485 W 64 120 3.876 IR 465 SBDC 38 132 3.876 IR 512 SBFS 45 160 3.876 IR 620 CT 9211 89 3.876 IR 345 575 P6 NoB SA/WA 1101100 3.015 IR 633 G 111 125 3.015 IR 377 W 58 120 3.015 IR 362 SBDC 34 132 3.015 IR 398 SBFS 41 160 3.015 IR 482 CT 846 75 3.015 IR 226 575 P7 NoB SA/WA 1101100 3.260 IR 685 C 111 125 3.260 IR 408 W 58 120 3.260 IR 391 SBDC 34 132 3.260 IR 430 SBFS 41 160 3.260 IR 522 CT B461 75 3.260 IR 245 575 P8 WaB SANVA 11101100 1.899 IR 212 C 731 89 1.899 IR 169 W 391 91 1.899 IR 173 SBDC 22 88 1.899 IR 167 SBFS 29 115 1.899 IR 218 CT 635 71 1.899 IR 135 575 P9 WaB SA/WA 1101100 5.561 IR 1,167 C 73 89 5.561 IR 495 W 39 91 5.561 IR 506 SBDC 22 88 5.561 IR 489 SBFS 29 115 5.561 IR 640 CT 635 71 5.561 IR 395 575 P10 WaB SANVA 1101100 5.561 IR 1,167 C 73 89 5.561 IR 495 W 391 91 5.561 IR 506 SBDC 221 88 5.561 IR 489 SBFS 291 115 5.561 IR 640 CT 635 71 5.561 IR 395 575 P1 i NoB SAIWA 1101100 4.163 IR 874 C 11i 1251 4.163 IR 520 W 58 120 4.163 IR 500 SBDC 34 132 4.163 IR 550 SBFS 41 160 4.163 IR 666 CT 846 75 4.163 IR 312 575 P12 NoB SANUA 1101100 3.374 IR 709 C 111 125 3.374 IR 422 W 58 120 3.374 IR 405 SBDC 34 132 3.374 IR 445 SBFS 41 160 3.3741 IR 540 GT 8461 75 3.3741 1R 253 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL N1YR 575 P13 NoB SA1WA 1101100 3.580 IR 752 C 111 125 3.580 IR 448 W 58 120 3.580 IR 430 SBDC 34 132 3.580 IR 473 SBFS 41 160 3.580 IR 573 CT 846 75 3.580 IR 269 575 P14 NoB SAIWA 1101100 1.876 IR 394 C 111 125 1.876 IR 235 W 58 120 1.876 IR 225 SBDC 34 132 1.876 IR 248 SBFS 41 160 1.876 IR 300 CT 846 75 1.876 IR 141 575 P15 NoB SA/WA 1101100 4.981 IR 1,046 C 111 125 4.981 IR 623 W 58 120 4.981 IR 598 SBDC 34 132 4.981 IR 657 SBFS 41 160 4.981 IR 797 CT 846 75 4.981 IR 374 575 P16 NoB SANVA 1101100 3.744 IR 786 C 1111 125 3.744 IR 468 W 58 120 3.744 IR 449 SBDC 34 132 3.744 IR 494 SBFS 41 160 3.744 IR 599 CT 846 75 3.744 IR 281 458 P17 NoB SANVA 110/100 2.942 IR 618 C 111 125 2.942 IR 368 W 58 120 2.942 IR 353 SBDC 34 132 2.942 IR 3B8 SBFS 41 160 2.942 IR 471 CT 8461 75 2.942 IR 221 458 P18 NoB SANVA 110/100 3.446 IR 724 C 111 125 3.4461 IR 431 W 58 120 3.446 IR 414 SBDC 34 132 3.446 IR 455 SBFS 41 160 3.446 IR 551 CT 846 75 3.446 IR 258 458 P19 NoB SANVA 110/100 6.548 IR 1,383 C 1111 125 6.548 IR 819 W 581 120 6.548 IR 786 SBDC 34 132 6.548 IR 864 SBFS 41 160 6.548 IR 1,048 CT 846 75 6.548 IR 491 453 P36 NoB SANVA 110/100 6.463 IR 1,357 C 1 111 125 6.463 IR 808 W 581 120 6.463 IR 776 SBDC 34 132 6.463L IR 853 SBFS 41 160 6.4631 1R 1,034 CT 846 75 6.4631 IR 1 485 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL NIYR 453 P37 NoB SAIWA 1101100 6.463 1R 1,357 C 111 125 6.463 IR 808 W 58 120 6.463 IR 776 SEDC 34 132 6.463 IR 853 SBFS 41 160 6.463 IR 1,034 CT 8461 75 6.463 IR 485 10756 P38 AU SA/WA 110/100 5.618 IR 1,180 C 83 94 5.618 IR 528 W 44 102 5.618 IR 573 SBDC 24 96 5.618 IR 539 SBFS 29 115 5.618 IR 646 CT 683 75 5.618 IR 421 10756 P39 NoA SA1WA 110/100 2.034 IR 427 C 115 125 2.034 IR 254 W 60 120 2.034 IR 244 SBDC 35 132 2.034 IR 268 SBFS 451 160 2.034 IR 325 CTF351 71 75 2.034 IR 153 10756 P40 NoA SAlWA1101100 3.735 IR 784 C 15 125 3.735 IR 467 W60 120 3.735 IR 448 SBDC132 3.735 IR 493 SBFS 451 160 3.735 IR 598 CT 871 75 3.735 IR 280 1359 P41 NoB SAANA 1101100 2.154 IR 452 C 111 125 2.154 IR 269 W 58 120 2.154 IR 258 SBDC 34 132 2.154 IR 284 SBFS 41 160 2.154 IR 345 CT 846 75 2.154 IR 162 1359 P42 NoA SAIWA 1101100 3.971 IR 834 C 115 125 3.971 IR 496 W 601 120 3.971 IR 477 SBDC 35 132 3.971 IR 524 SBFS 45 160 3.971 IR 635 CT 871 75 1971 IR 298 1359 P43 NoA SAIWA 110/100 5.607 IR 1,177 C 115 125 5.607 IR 701 W 60 120 5.607 IR 673 SBDC 35 132 5.607 IR 740 SBFS 45 160 5.607 IR 897 CT 871 75 5.607 IR 421 1359 P44 NoA SAIWA 1101100 1.733 IR 364 C 115 125 1.733 IR 217 W 60 120 1.733 IR 208 SBDC 35 132 1.733 IR 229 SBFS 45 1601 1.733 IR 277 CT 871 751 1.733 IR 130 114 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL N1YR 1359 P45 NoA SANVA 11101loo 2.238 IR 470 C 115 125 2.238 IR 280 W 60 120 2.238 IR 269 SEDC 35 132 2.238 IR 295 SBFS 45 160 2.238 IR 358 CTB635 75 2.238 IR 168 573 P48 WaB SANVA1101100 4.380 IR 1,262 C 89 4.380 !R 390 W 91 4.380 IR 399 SBDC 88 4,380 IR 385 SBFS 115 4.380 IR 504 CT 71 4.380 IR 311 573 P49 WaB SAIWA110/100 4.440 IR 1,242 C 89 4.440 1 R 395 W 391 91 4.440 IR 404 SBDC 22 88 4.440 IR 391 SBFS 29 115 4.440 IR 511 CT 635 71 4.440 IR 315 573 P50 WaB SAIWA 110/100 5.260 IR 1,262 C 73 89 5.260 IR 468 W 39 91 5.260 IR 479 SBDC 22 88 5.260 IR 463 SBFS 29 1151 5.260 IR 605 CT 635 71 5.260 IR 373 477 1 2 L) NoA SA/WA 110/100 17.390 BR/SI 3,652 C 115 125 17.390 BR/SI 2,174 W 60 120 17.390 BR/SI 2,087 SBDC 35 132 17.390 BR/SI 2,295 SBFS 45 160 17.390 BR/SI 2,782 CT 871 75 17.390 BR/SI 1,304 605 1 (L) NoA SAIWA 110/100 38.000 BR/SI 7,980 C 115 125 38.000 BRISI 4,750 W 60 120 38.000 BRISI 4,560 SBDC 35 132 38.000 BR/SI 5,016 SBFS 45 160 38.000 BR/S1 6,080 CT 871 75 38.000 BR/S1 2,850 605 2 (L) NoB SAIWA 110/100 5.710 BR/SI 1,199 C 111 125 5.710 BR/SI 714 W 58 120 5.710 BR/SI 685 SBDC 34 132 5.710 BRISI 754 SBFS 41 160 5.710 BRISI 914 CT 846 75 5.710 BR/SI 428 573 1 Au SANVA 1101100 13.000 BRISI 2,730 C 83 94 13.000 BRISI 1,222 W 44 102 13.000 BR/S1 1,326 SBDC 24 96 13.000 BR/SI 1,248 SBFS 29 1 151 13.000 BRISI 1,495 CT 6831 751 13.000 BR/S] 975 TRACT FIELD SOIL CROP YIELD NIACRE ACRES METHOD TOTAL NlYR 10808 1 NoA SA/WA 1101100 27.310 BRISI 5,375 C 115 125 27.310 BRISI 3,414 W 60 120 27.310 BRISI 3,277 SBDC 35 132 27.310 BRISI 3,605 SBFS 45 160 27.310 BR/SI 4,370 CT 8711 75 27.310 BRISI 2,048 556 2 NoB SAIWA 1110MOO 16.600 BRISI 3,486 C 111 125 16.600 BRISI 2,075 W 58 120 16.600 BRISI 1,992 SBDC 34 132 16.600 BRISI 2,191 SBFS 41 160 16.600 BRISI 2,656 CT 846 75 16.600 BRISI 1,245 476 1 Au SANVA 110/100 13.500 BRISI 2,835 C 83 94 13.500 BRISI 1,269 W 44 102 13.500 BRISI 1,377 SBDC 24 96 13.500 BRISI 1,296 SBFS 29 115 13.500 BRISI 1,553 CT 683 75 13.500 BRISI 1,013 617 1 (L) NoB SAMA 1101100 20.860 BRISI 4,381 C 111 125 20.860 BRISI 2,608 W 58 120 20.860 BRISI 2,503 SBDC 34 132 20.860 BRISI 2,754 SBFS 41 160 20.860 BRISI 3,338 CT 846 75 20.860 BRISI 1,565 1371 1 NoA SA/WA 1101100 6.360 BRISI 1,336 C 115 125 6.360 BR/SI 795 W 60 120 6.360 BRISI 763 SBDC 35 132 6.360 BRISI 840 SBFS 45 160 6.360 BRISI 1,018 CT 871 75 6.360 BRISI 477 1371 2 NoB SANVA 110/100 10.800 BRISI 2,268 C 1111 125 10.800 BRISI 1,350 W 581 120 10.800 BRISI 1,296 SBDC 34 132 10.800 BRISI 1,426 SBFS 41 160 10.800 BRISI 1,728 CT 846 75 10.800 BRISI 810 1758.462 Row Crop 293.077 ac LEGEND BP = BERMUDA PASTURE OS = OVERSEED SA = SUMMER ANNUAL WA = WINTER ANNUAL C = CORN W = WHEAT SBDC = SOYBEANS DOUBLE CROPPED SBFS = SOYBEANS FULL SEASON CT = COTTON (L) = LEASED LAND TOTALS ffit 1`Z�stl2ICT) 45 REs LBS AW YeM, N USED rOrats: (v AMOUNT OF N PRODUCED: 38,625 �- BALANCE —11,154— This 1s4— This number must be less than or equal to 0 in order to fully utilize the animal waste N produced. Acres show in each of the preceeding tables are considered to be the usable acres excluding required buffers, filter strips along ditches, odd areas unable to be irrigated, and perimeter areas not receiving full application rates due to equipment limitations. Actual total acres in the fields listed may, and most likely will be, more than the acres shown in the tables. NOTE: The Waste Utilization Plan must contain provisions for periodic land application of sludge at agronomic rates. The sludge will be nurturient rich and will require precautionary measures to prevent over application of nutrients or other elements. Your production facility will produce approximately 6213.78 pounds of plant available nitrogen (PAN) per year in the sludge that will need to be removed on a periodic basis. This figure is PAN when broadcasting the sludge- Please be aware that additional acres of land, as well special equipment, may be needed when you remove this sludge. See the attached map showing the fields to be used for the utilization of waste water APPLICATION OF WASTE BY IRRIGATION The irrigation application rate should not exceed the intake rate of the soil at the time of irrigation such that runoff or ponding occurs. This rate is limited by initial soil moisture content, soil structure, soil texture, water droplet size, and organic solids. The application amount should not exceed the available water holding capacity of the soil at the time of irrigation nor should the plant available nitrogen applied exceed the nitrogen needs of the crop - Your facility is designed for 180 days of temporary storage and the temporary storage must be removed on the average of once every 5.92 months. In no instance should the volume of waste being stored in your structure be within 1.58 feet of the top of the dike. If surface irrigation is the method of land application for this plan, it is the responsiblity of the producer and irrigation designer to ensure that an irrigation system is installed to properly irrigate the acres shown in Tables 1 and 2. Failure to apply the recommended rates and amounts of Nitrogen shown in the tables may make this plan invalid. The following table is provided as a guide for establishing application rates and amounts. See rz r r4'-'1 l lti�rJ� SYsi [ 4 � aG�I �' Q N►tsT its ' This is the maximum application amount allowed for the soil assuming the amount of nitrogen allowed for the crop is not over applied. In many situations, the application amount shown cannot be applied because the nitrogen limitation. The maximum application amount shown can be applied under optimum soil conditions. NARRATIVE OF OPERATION Acreages, nitrogen application amounts and RYE's are from a previous WUP wntten by Dan Bailey on 1015109. This WUP has a menu of crops to choose from. In the most restrictive crop year, when cotton is planted to all acres followed by a winter annual, there is an 11,502 lbs of nitrogen deficit for the required crops. Any combination of crops may be planted at any time. For all crops following soybeans, reduce nitrogen rate by 20 lbs/acre. For crop year 2011, bermuda pulls 8-10 and 31-35 will be disked up and planted in soybeans. These pulls will be re -sprigged in Spring, 2012. No waste will be applied to these pulls in 2011. /C7 PLANS & SPECIFICATIONS 1. Animal waste shall not reach surface waters of the state by runoff, drift, manmade conveyances, direct application, or direct discharge du(ing operation or land application. Any discharge of waste which reaches surface water is prohibited. Illegal discharges are subject to assessment of civil penalties of $10,000 per day by the Division of Water Quality for every day the discharge continues. 2. The Field Office must have documentation in the design folder that the producer either owns or has long term access to adequate land to properly dispose of waste. If the producer does not own adequate land to property dispose of waste, he shall provide NRCS with a copy of a written agreement with a landowner who is within a reasonable proximity, allowing him/her the use of the land for waste application for the life expectancy of the production facility. it is the responsibility of the owner of the facility to secure an update of the Waste Utilization Plan when there is a change in the operation, increase in the number of animals, method of utilization, or available land. 3. Animal waste shall be applied to meet, but not exceed, the Nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climate conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. 4. Animal waste may be applied to land that has a Resource Management System (RMS) or an Alternative Conservation System (ACS). If an ACS is used the soil loss shall be no greater than 10 tons per acre per year and appropriate filter strips will be used where runoff leaves the field. These fitter strips will be in addition to "Buffers" required by DEM. (See FOTG Stantard 393 - Filter Strips and Standard 390 Interim Riparian Forest Buffers). 5. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when there is danger of drift from the irrigation field. 6. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. (See "Weather and Climate in North Carolina" in the MRCS Technical Reference - Environment file for guidance.) *7. Liquid waste shall be applied at rates not to exceed the soil infiltration rate such that runoff does not occur offsite or to surface waters and in a method which does not cause drift from the site during application. No ponding should occur in order to control conditions conducive to odor or flies and to provide uniformity of application. 8. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen. 9. Animal waste shall be applied on actively growing crops in such a manner that the crop is not covered with waste to a depth that would inhibit growth. 10. Waste nutrients shall not be applied in fall or winter for spring planted crops on soils with a high potential for leaching. Waste nutrient loading rates on these soils should be held to a minimum and a suitable winter cover crop planted to take up released nutrients. Waste shall not be applied more than 30 days prior to planting of a crop on bare soil. 11. Any new swine facility sited on or after October 1, 1995 shall comply with the following: the outer perimeter of the land area onto which waste is applied from a lagoon that is a component of a swine farm shall be at least 50 feet from any residential property boundary and from anv perennial stream or river (other that an irriaation ditch or canal. Animal waste %� other than swine waste from facilities sited on or after October 1, 1995), shall not be applied closer than 25 feet to perennial waters. (See Standard 393 -f=ilter Strips) 12. Animal waste shall not be applied closer than 100 feet to wells_ 13_ Animal Waste shall not be applied closer than 200 feet of dwellings other than those owned by the landownwer. 14. Waste shall be applied in a manner not to reach other property and public right - of ways. 15_ Animal waste shall not be discharged into surface waters, drainageways, or wetlands by discharge or by over -spraying. Animal waste may be applied to prior converted croplands provided they have been approved as a land application site by a "technical specialist". Animal waste should not be applied on grassed waterways that discharge directly into water courses, except when applied at agronomic rates and the application causes no runoff or drift from the site_ *16. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. *17_ A protective cover of appropriate vegetation will be established on all disturbed areas (lagoon embankments, berms, pipe runs, etc.). If needed, special vegetation shall be provided for these areas and shall be fenced, as necessary, to protect the vegetation. Vegetation such as trees, shrubs, and other woody species, etc. are limited to areas where considered appropriate. Lagoon areas should be kept mowed and accessible. Lagoon berms and structures should be inspected regularly for evidence of erosion, leakage or discharge. *18_ If animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing a "closure plan" which will eliminate the possibility of an illegal discharge, pollution and erosion. *19. Waste handling structures, piping, pumps, reels, etc., should be inspected on a regular basis to prevent breakdowns, leaks, and spills. A regular maintenance checklist should be kept on site. 20_ Animal waste can be used in a rotation that includes vegetables and other crops for direct Duman consumption. However, if animal waste is used on crops for direct human consumption, it should only be applied as a preemergence with no other applications of animal waste during the crop season. *21. Highly visible markers shall be installed to mark the top and bottom elevations of the temporary storage (pumping volume) of all waste treatment lagoons. Pumping shall be managed to maintain the liquid level between the markers. A marker will be required to mark the maximum storage volume fpr waste storage ponds. 22. Waste shall be tested within 60 days of utilization and soil shall be tested at least annually at crop sites where waste products are applied. Nitrogen shall be the rate - determining element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. pH shall be adjusted for optimum crop production amd maintained. Soil and waste analysis records shall be kept for hive (5) years. Poultry dry waste application records shall be maintained for three (3) years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina Department of Agriculture regulations. * Liquid Systems APPENDIX 1.1 A Animal Waste Application Windows' For Common Crops Which Receive Animal Waste These application windows include 30 days prior to planting and geenup of Bermudagrass. End 30 days before harvest.. Bermudagrass Begin March 1" End September 30th Small Grain Overseeded Begin October I" End March 31 ` in Bermudagrass Corn Begin February 15'h End June 30'h Cotton Begin March 150' End August 1st Cucumbers - Direct consumption Begin March 1st (100 % at planting) - For Processing Begin April Is' --- (2 seasons) Begin July I' Rye Begin September 1" Bazley, Oats, Triticale Begin September 0 Wheat Begin September 12 Peanuts Sorghum/ Sudan Grass Hay Soybeans Begin April Is' Begin March 15'h Begin April 15, End May 31 " End August 31 3i I End March 31" End April I5'h End April 30" End September 30"' End August 3 I" End September 15'h Tobacco - Flue Cured Begin March 15'h End June 30th - Burley Begin May 15'h End August 15th Fescue' Begin August I' End July 31 st ' Dams shorn represent statewide hmits_ Plarumg and harvesting dates vary across The state and Eram year to ytw. Actual values shall reflect lilt specific conditions azul in no case allow appik-aton more than tither 30 days prior to pluuingtrreaking dormancy or less than 30 days before harvest. See Gencral Permit for food mops = Mountains - limit y application during Junc and July ; nu nitrogen m laccember and January Piadnumt & Coastal Plain - limit N application during Jam and July 1 rx) nitrogen in tet: and Jan dtumg severe winters. September 19, 2006 %� NAME OF FARM: J $ W Swine Farm 82-578 OWNER 1 MANAGER AGREEMENT I (we) understand and will follow and implement the specifications and the operation and maintenance precedures estalished in the approved animal waste utilization plan for the farm named above. I (we) know that any expansion to the existing design capacity of the waste treatment and/or storage system or construction of new facilities will require a new utilization plan and a new certification to be submitted to DEM before the new animals are stocked. I (we) understand that I must own or have acres to equipment, primarily irrigation equipment, to land apply the animal waste described in this waste utilization plan. This equipment must be available at the appropriate pumping time such that no discharge occurs from the lagoon in a 25 -year 1 -day storm event_ I also certify that the waste will be applied on the land according to this plan at the appropriate times and at rates that no runoff occurs. NAME OF FACILITY -OWNER: J & W Swine Inc. SIGNATURE: 1 DATE: NAME OF MANAGER (if different from owner): please print SIGNATURE: DATE: NAME OF TECHNICAL. SPECIALIST: Curtis Barwick AFFILIATION: Barwick Ag Services ADDRESS (AGENCY): 103 Country Club Circle Clinton, NC 28328 (910) 38 1080 SIGNATURE: �//J DATE:, 8 •1- '�Ai Cf h. ' r•.r. i l•; � '�rr' •,r r'.,C ,i •,%:,; �.1 ,:.:. 'i\`-. �1.1::•i • s•1: �:1' :.; 1 q: „ y1 .. 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Swine Farm 1920 Mingo Church Road Dunn, NC 28334 Dear J. W. Swine Company: Division of Water Quality Coleen H. Sullins Director August 10, 2011 DeR-Neama Secretary Subject: Sludge Survey Testing Dates Certificate of Coverage No. AWS820576 W. Swine Farm Lagoon No. — 1, 3, 4, and 5 Animal Waste Management System Sampson County The Division of Water Quality (Division) received your sludge survey information on August 1, 2011. With the survey results, you requested an extension of the sludge survey requirement for the Lagoon No. - 1, 3, 4, and 5 at the J. W. Swine Farm. Due to the amount of treatment volume available, the Division agrees that a sludge survey is not needed until 2014 for Lagoon No. -1, 3, and 4 and until 2012 for Lagoon No. -5 The next sludge survey for the Lagoon No. - 1, 3, and 4 at this facility should be performed before December 31, 2014. The next sludge survey for the Lagoon No. - 5 at this facility should be performed before December 31, 2012. Please call me at (919) 715-6648 if you have any questions. Sincerely. J.R. Joshi Animal Feeding Operations Unit CC.' Fayetteville Regional Office, Aquifer Protection Section Permit File AWS820576 1635 Mail 5ervxe C=nt� . Raieian. Nxtrt Caraiina 27599-i53o oCaWrr 2728 Canital $lvd- Raieui , Nortti Carolina 27504 ?hone: 919-733-322 i =.4K: 912-715-055,5 S - usmmar Service. 677-623-674 Interns;: wwmnmateraualiiv.or; An 5auaI crpmwnit.v i AffirmiatnVe Action=mrsioye- 0nn N ortb Cu-olina ,Akm all A119- - j HCDENR North Carolina Department of Environment and Natural Resources Beverly l=aves Perdue Governor J&W Swine Co Inc J&W Swine Co Inc 1920 Mingo Church Rd Dunn, NC 28334 Dear J&W Swine Co Inc: Division of Water Quality Coieen H. Sullins Director October 15, 2009 Dee Freeman RF�,FIVFD Secretary G rE T 2 D 2099 ,)ENh wA1 -wiii LE REGIONAL ORCE Subject: Certificate of Coverage No_ AWS820576 J&W Swine Co Ileac Swine Waste Collection, Treatment, Storage and Appheation System Sampson County In accordance with your request for a change in operation type without increasing the permitted steady state live weight, we are hereby forwarding to you this Certificate of Coverage (COC) issued to J&W Swine Co Inc, authorizing the operation of the subject animal waste management system in accordance with General Permit AWG 100000, This approval shall consist of the operation of this system including, but not limited to, the management and land application of animal waste as specified in the facility's Certified Animal Waste Management Plan (CAWMP) for the J&W Swine Co Inc, located in Sampson County, with a swine animal capacity of no greater than the following annual averages: Wean to Finish: Feeder to Finish: 16,794 Soar/Stud: Wean to Feeder: Farrow to Wean: Gilts: Farrow to Finish: Farrow to Feeder: Other: If this is a Farrow to Wean or Farrow to Feeder operation, there may be one boar for each 15 sows. Where boars are unnecessary, they may be replaced by an equivalent number of sows. Any of the sows may be replaced by gilts at a rate of 4 gilts for every 3 sows. The COC shall be effective from the date of issuance until September 30, 2014, and shall hereby void Certificate of Coverage Number AWS820576 dated October 1, 2009. Pursuant to this COC, you are authorized and required to operate the system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. Please carefully read this COC and the enclosed State General Permit. Please pay careful attention to the record keeping and monitoring -conditions in this permit. Record keeping forms are unchanged with this General Permit. Please continue to use the same record keeping forms. 1636 Mail Service Center, Raleigh, North Carolina 27699.1636 Location: 2728 Capital Blvd.. Raleigh, No, -,h Carolina 27604 Ont! Phone: 919-733-32211FAX, 919-'16.0585'lOUstorner5ervive: 1-877-623-6748 NorthiCarolina \ Internet: www.ncwatergLiaiiiy.org if J i Ln ccuai CoDonnwY t Ashnnanvw Anons,Onye l' i�ur/y 4 yr If your Waste Utilization Plan (WUP) has been developed based on site-specific information, careful evaluation of future samples is necessary. Should your records show that the current WUP is inaccurate you will need to have a new WUP developed. The issuance of this COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. Per 15A NCAC 2T .0105(h) a compliance boundary is provided for the facility and no new water supply wells shall be constructed within the compliance boundary. Per MRCS standards a 100 -foot separation shall be maintained between water supply wells and any lagoon, storage pond, or any wetted area of a spray field. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue the activity permitted under the General Permit after the expiration date of the General Permit, then an application for renewal must be filed at least 180 days prior to expiration. This COC is not automatically transferable. A name/ownership change application must be submitted to the Division prior to a name change or change in ownership. If any parts, requirements, or limitations contained in this COC are unacceptable, you have the right to apply for an individual permit by contacting the Animal Feeding Operations Unit for information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. In accordance with Condition 11.22 of the General Permit, waste application shall cease within four (4) hours of the time that the National Weather Service issues a Hurricane Warning, Tropical Storm Warning, or a Flood Watch associated with a tropical system for the county in which the facility is located. You may find detailed watch/warning information for your county by calling the Raleigh, NC National Weather Service office at (919) 515-8209, or by visiting their website at: www.erb.noaa.gov/er/rah/ This facility is located in a county covered by our Fayetteville Regional Office. The Regional Office Aquifer Protection Staff may be reached at (910) 433-3300. If you need additional information concerning this COC or the General Permit, please contact the Animal Feeding Operations Unit staff at (919) 733-3221. Sincerely, ww_;��' I ,for Coleen H. Sullins Enclosure (General Permit AWG 100000) cc: (Certificate of Coverage only for all ccs) Fayetteville Regional Office, Aquifer Protection Section Sampson County Health Department Sampson County Soil and Water Conservation District APS Central Files (Permit No. AWS820576) AFO Notebooks To: Animal Feeding Operations — Division of Water Quality Farm Name: J&W Swine Co. Inc. Facility No.: 82-576 Certificate of Coverage No. : AWS820576 Subject : Animal class change Tech. Spec.: Dan Bailey OTT OCT 0729M DE* _ FA'rFP V LLE REGIONAL 0MRCE The above referenced facility is applying for an animal class change from 1600 Farrow - Finish to 16,794 Feeder- Finish. The steady state live weight per animal Farrow -Finish is 1417 lbs.. The steady state live weight per animal unit for Feeder- Finish is 135 lbs.. The total steady state live weight'of 2,267,200 lbs. divided by the 135 lbs. equals 16,794 head Feeder- Finish. An animal waste management plan certification is included along with a revised waste utilization plan. Tech. Spec. Signature /0 -,o- )-- a e IV Date Owners Signature Date utrient Management Plan For animal Waste Utilization ]'his plan has been prepared for: This plan has been developed by: C01— �9� Developer Signature Type of Plan: Nutrient Management with Manure Only Owner/Nianager/Producer Agreement I (we) understand and agree to the specifications and the operation and maintenance procedures established in this nutrient management plan which includes an animal waste utilization plan for the farm named above. [ have read and understand the Required Specifications coucerning animal waste management that are included with this plan. 12V & 2" 4 � ZL>L�2,�I Sienatur. (oµnerl Hatt Signature (manager or producer) Date Plan Approved Bv: �`-�-- /o - a) --cf =()b-36 Dataoasv V.rsiun 3 1 M utrient Management Plan For animal Waste Utilization ]'his plan has been prepared for: This plan has been developed by: C01— �9� Developer Signature Type of Plan: Nutrient Management with Manure Only Owner/Nianager/Producer Agreement I (we) understand and agree to the specifications and the operation and maintenance procedures established in this nutrient management plan which includes an animal waste utilization plan for the farm named above. [ have read and understand the Required Specifications coucerning animal waste management that are included with this plan. 12V & 2" 4 � ZL>L�2,�I Sienatur. (oµnerl Hatt Signature (manager or producer) Date Plan Approved Bv: �`-�-- /o - a) --cf =()b-36 Dataoasv V.rsiun 3 1 0 119Li VHIIOYV] H1YON 'H'],31Y,1 SAYMW0I14 40 HOKIAI¢ NO,IVIYOdSNVYI 40 D8WIYVd36'3'H'SdVW 1653YQOV '1507 IVNIWON V IV 7 iow 3111 01 310YIWAV RNV dVW SIHI 10 S31dO3 NQSdW V5 I r i Nutrients applied in accordance with this plan ,,sill be supplied from the follo%► ine sourcem: jc�.Nc �-f%.sn•JG CJIMI%T�i,ll Fertlillfr IS 110t include! ii[ tl i� pLin. / 91::1'i-- J J Estimated Pounds o!' Plant .-available NitroLen Generated per Year Broadcasi Incorporated Injected Irrigated ^ S Max. Avail. PAN (lbs) Actual PAN /,�F ,,;lbs) PAN Surplus/ 9feMt k AeLual Volume & (Gallons) Volume Surplus/ Deficit (Gallons) Year I 7 r '193 aG.a —16Z.'�Y i-�' Waste Utilization Plan Notes: 52-576 1. This waste plan has five rotational crop sequences noted asland-5. Each rotation or combination of rotations may occur in any given year. 2. Any crop following soybeans should have its nitrogen requirement reduced by 20 lbs./acre/year. 3. The application of nitrogen to wheat is split into a fall and spring recommendation. The application is noted by (parenthesis). APPENDIX 11A Animal Waste application Windows For Common Crops Which Receive animal Waste These application window' include 30 days prior to plantin_, and geenup of Bertnudagrass. Ettd 30 days before harvest. Bermudagrass Small Grain Overseeded in Bermuda{urass Corn Cotton Be�,in Niarch 14' Begin October 1'' Benin Februar 151h Begin March 15'h End Septcmber 301h Fnd Nkirch 31'' End June 30"' End Au¢ust 1 S' Cucumbers - Direct consumption Begin Nlarch 1" ( 100 % at planting) - For Processing Bel -in April 15' End Slav 3151 (2 seasons) Begin Juk. 15' End August 3151 Rye Beain September l" Barley, Oats, Triticale Begin September 15' Wheat Begin September Vi Peanuts Begin April 15' Sorghum/ Begin Nlarch 15''' Sudan Crass Hay Soybeans Begin April 1'' Tobacco - Flue Cured Be -in March l ; - Burlev in -May 15'h Beg''' Fescue' Benin Auunist 15' End March 31" End April 15 th End April 30'h End September 30'h End Auclust 3151 End September 15'h End .tune ) End Au4,ust 15"' End Jule 3 15' I)111e4 ihowt rcprcicm ilaw' ;de lunRs 1"1;][11111_ .rnd lu]rsriun, Jaivs : ar• ]rneti5 J% Rate and ;ram Sear to y:ar WWW ',310e; shalt rellect itc ;ne.nic _ indawn, _wd in nu ;ase iIlus� .]ppl;raturn more than _nhci i{] .1a%; 'XiOr m planung lsrcakin_ lurrn.ux. or less'ihan 30 da%i heiore hu,.es]_ Sec (1kmural Permit Im ;'t]uw ;raps %luuntatm _ I]]no '' .ippi]canun 1unn lune .Lnd hls no nunr en in I)c-_cinber _rnd Jan(jar. P]etim4mt K: Coastal I'Lim - 1, mit " •tppliCau,]n dor;m_ lune and lulu no nnr,,Len ,n f)c� .ind },w luru]t ;eticr...]meri Cf•ntrmh�r i A �I)�(i r r Waste Utilization Plan Facility No: 82-576 Plan 1 Tract Field Sail Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215/50 3.023 IR 801 P3 GoA BP/OS 4.9T 222150 2.829 IR 769 P8 WaB BP/OS 4.IT 197/50 1.899 IR 469 P9 WaB BP/OS 41T T 197150 5.561 IR 1374 P10 WaB BP/OS 4.1T 197150 5.561 IR 1374 P20 WaB BP/OS 4.IT 197/50 6.026 IR 1488 P21 WaB BP/OS 4.IT 197/50 6.026 IR 1488 P22 Ra BP/OS 3AT 146150 4.155 IR 814 P23 Ra BP/OS 3AT 146/50 3.145 IR 616 P24 WaB BP/OS 4.IT 197/50 2.786 IR 688 P29 Au BP/OS 4.IT 197/50 3.604 IR 890 P30 Au BP/OS 4.1 T 197150 .66 IR 163 P31 Au BP/OS 4.IT 197/50 3.792 IR 937 P32 Au BP/OS 4.IT 197150 .66 1R 163 P33 Au BP/OS 4.1T 197/50 4.873 1R 1204 P34 Au BP/OS 4.1T 197/50 4.173 1R 1031 P35 Au BP/OS 4.IT 197150 4.40 IR 1087 P46 WaB BP/OS 4.1T 197/50 7.065 1R 1745 T575 I WaB BP/OS 4.IT 197150 2.5 BR 618 TNew09 P1 GoA SA/WA 110/100 1.610 1R 338 P4 GoA SA/WA 110/100 4.163 IR 874 P5 GoA SA/WA 1101100 3.876 IR 814 P6 NoB SA/WA 110/100 3.015 IR 633 P7 NoB SA/WA 1101100 3.260 IR 685 Pi 1 NoB SA/WA 110/100 4.163 IR 874 P12 NoB SAIWA 110/100 3.374 1R 709 P13 NoB SA/WA 1101100 3.580 1R 752 P14 NoB SA/WA 110/100 1.876 IR 394 P15 NoB SA/WA 110/100 4.981 IR 1046 P16 NoB SA/WA 1101100 3.744 IR 786 P17 NoB SA/WA 110/100 2.942 IR 618 P18 NoB SA/WA 1101100 3.446 1R 724 P19 NoB SA/WA 110/100 6.548 IR 1383 P38 Au SA/WA 110/100 5.618 IR 1180 P39 NoA SA/WA 110/100 2.034 IR 427 P40 NoA SA/WA 110/100 3.735 IR 784 P41 NoB SA/WA 110/100 2.154 IR 452 P42 NoA SA/WA 110/100 3.971 IR 834 P43 NoA SA/WA 110/100 5.607 1R 1177 P44 NoA SA/WA 110/100 1.733 IR 364 P45 NoA SA/WA 1101100 2.238 IR 470 T477 '2 NoA SA/WA 1101100 17.39 BR/SI 3652 T605 *1 NoA SA/WA 110/100 38 BR/SI 7980 * Leased Land ( ) : Fall Application WA. Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required ,vcK- - r Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576 Plan 1 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required -71,-76-3 Nitrogen Produced yS, ,z 6 L A3s - Balance — J 3, , _)r'7 Z Q '2 NoB SAlWA 110/100 5.71 BR/SI 1199 T573 I Au SA/WA 110/100 13 BR/SI 2730 T108081 I NoA SA/WA 110/100 27.31 BR/SI 5375 T556 2 NoB SA/WA 110/100 16.60 BR/SI 3486 T476 I Au SA/WA 110/100 13.5 BR/SI 2835 T617 *1 NoB SA/WA 110/100 20.86 BR/SI 4381 T1371 i NoA SA/WA 110/100 6.36 BR/SI 1336 2 NoB SA/WA 110/100 10.80 BR/SI 2268 TNew09 E47 WaB SA/WA 110/100 5.913 IR 1242 E48 WaB SA/WA 110/100 6.009 IR 1262 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required -71,-76-3 Nitrogen Produced yS, ,z 6 L A3s - Balance — J 3, , _)r'7 Z Q 10 Waste Utilization Plan Facility No: 82-576 PIan2 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215150 3.023 IR 801 P3 GOA BP/OS 4.9T 222150 2.829 1R 769 P8 WaB BP/OS 4.1T 197/50 1.899 IR 469 P9 WaB BP/OS 4.IT 197150 5.561 IR 1374 P10 WaB BP/OS 4.]T 197/50 5.561 IR 1374 P20 WaB SP/OS 4.1T 197/50 6.026 IR 1488 P21 WaB BP/OS 4.IT 197150 6.026 IR 1488 P22 Ra BP/OS 3.4T 146150 4.155 IR 8I4 P23 Ra BP/OS 3AT 146150 3.145 IR 616 P24 WaB BP/OS 4.1 T 197/50 2.786 IR 688 P29 Au BP/OS 4.1T 197150 3.604 IR 890 P30 Au BP/OS 4.IT 197/50 .66 IR 163 P31 Au BP/OS 4.IT 197/50 3.792 IR 937 P32 Au BP/OS 4.IT 197/50 .66 IR 163 P33 Au BP/OS 4.1T 197150 4.873 IR 1204 P34 Au BP/OS 4.1T 197/50 4.173 IR 1031 P35 Au BP/OS 4.1T 197/50 4.40 IR 1087 P46 WaB BP/OS 4.IT 197/50 7.065 IR 1745 T575 I WaB BP/OS 4.1T 197150 2.5 BR 618 TNew09 P1 GoA CR/WHT 129/64 1251120(50) 1.610 IR 282 P4 GOA CR/WHT 129164 125/120(50) 4.163 IR 729 P5 GOA CR/WHT 129164 125/120(50) 3.876 1R 678 P6 NoB CR/WHT 111/58 125/120(50) 3.015 1R 528 P7 NoB CR/WHT 111/58 125/120(50) 3.260 IR 571 P11 NoB CR/WHT 111158 125/120(50) 4.163 IR 729 P12 NoB CR/WHT 111/58 125/120(50) 3.374 IR 590 P13 NoB CR/WHT 111/58 125/120(50) 3.580 IR 627 P14 Nob CRIWHT 111/58 125/120(50) 1.876 IR 328 P15 NoB CR/WHT 111/58 1251120(50) 4.981 IR 872 P16 NoB CR/WHT 111/58 125/120(50) 3.744 IR 655 P17 NoB CR/WHT 111/58 125/120(50) 2.942 IR 515 P18 NoB CR/WHT 111/58 1251120(50) 3.446 IR 603 P19 NoB CR/WHT 111158 125/120(50) 6.548 IR 1146 P38 Au CR/WHT 83/44 94/102(50) 5.618 IR 809 P39 NoA CR/WHT 115/60 125/120(50) 2.034 IR 356 P40 NoA CR/WHT 115/60 125/120(50) 3.735 IR 654 P41 NoB CR/WHT I11/58 125/120(50) 2.154 IR 377 P42 NoA CR/WHT 115/60 125/120(50) 3.971 IR 695 P43 NoA CR/WHT 115/60 125/120(50) 5.607 IR 981 P44 NoA CR/WHT 115/60 125/120(50) 1.733 IR 303 P45 NoA CR/WHT 115/60 125/120(50) 2.238 IR 392 T477 *2 NoA CR/WHT 115160 125/120(50) 17.39 BR/SI 3043 T605 * I NoA CRiWHT 115/60 125/120(50) 38 BR/SI 6650 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required Nitrogen Produced Balance T Waste Utilization Plan Facility No: 82-576 Plant * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required &: / 6 V 1-,35 - Nitrogen Produced Balance r 3 �� l . *2 NoB CR/WHT 111158 125/120(50) 5.71 BR/SI 999 T573 1 Au CR/WHT 83/44 941102(50) 13 BR/SI 1872 T10808 1 NoA CWWHT t15160 125/]20(50) 27.31 BR/SI 4779 T556 2 NoB CR/WHT 111158 125/120(50) 16.60 BR/SI 2905 T476 I Au CR/WHT 83/44 94/102(50) 13.5 BR/SI 1944 T617 *I NoB CR/WHT 111/58 125/120(50) 20.86 BR/SI 3651 T1371 I NoA CR/WHT 115160 1251120(50) 6.36 BR/SI 1113 2 NoB CR/WHT 111/58 1251120(50) 10.80 BR/SI 1890 TNew09 E47 WaB CR/WHT 73139 89/91(50) 5.913 IR 822 E48 WaB CR/WHT 73/39 89/9)(50) 6.009 IR 835 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required &: / 6 V 1-,35 - Nitrogen Produced Balance r 3 �� l . Waste Utilization Plan Facility Na: 82-576 Plan 3 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215150 3.023 IR 801 P3 GoA BP/OS 4.9T 222/50 2.829 IR 769 P8 WaB BNOS 4.IT 197/50 1.899 IR 469 P9 WaB BP/OS 4.IT 197/50 5.561 IR 1374 NO WaB BP/OS 4.IT 197150 5.561 IR 1374 P20 WaB BP/OS 4.IT 197/50 6.026 IR 1488 P21 WaB BP/OS 4.1 T 197150 6.026 IR 1488 P22 Ra BP/OS 3.4T 146/50 4.155 IR 814 P23 Ra BP/OS 3.4T 146/50 3.145 IR 616 P24 WaB BP/OS 4.1T 197/50 2.786 IR 688 P29 Au BPIOS 4.1 T 197150 3.604 IR 890 P30 Au BP/OS 4.IT 197150 .66 IR 163 P31 Au BP/OS 4.1T 197150 3.792 IR 937 P32 Au BP/OS 4.IT 197/50 .66 IR 163 P33 Au BP/OS 4.IT 197/50 4.873 IR 1204 P34 Au BP/OS 4.1 T 197150 4.173 1R 1031 P35 Au BP/OS 4.IT 197/50 4.40 1R 1087 P46 WaB BP/OS 4.1 T 197/50 7.065 1R 1745 T575 I WaB BP/OS 4.1T 197/50 2.5 BR 618 TNew09 PI GoA WHT/SBDC 64138 (70)120/132 1.610 IR 325 P4 GoA WHT/SBDC 64/38 (70)120/132 4.163 IR 841 P5 GoA WHT/SBDC 64/38 70)1201132 3.876 IR 783 P6 NoB WHT/SBDC 58134 (70)120/132 3.015 1R 609 P7 NoB WHT/SBDC 58134 (70)120/132 3.260 IR 659 P11 NoB WHT/SBDC 58/34 70)120/I32 4.163 IR 841 P12 NoB WHT/SBDC 58/34 (70)1201132 3.374 IR 682 P13 NoB WHTISBDC 58/34 (70)1201132 3.580 IR 723 P14 NoB WH'I'/SBDC 58134 (70)120/132 1.876 IR 379 P15 NoB WHT/SBDC 58/34 (70)120/132 4.981 IR 1006 P16 NoB WHT/SBDC 58/34 (70)120/132 3.744 IR 756 P17 NoB WHT/SBDC 58/34 70)120/132 2.942 IR 594 Pig NoB WHT/SBDC 58/34 (70)120/132 3.446 IR 696 P19 NoB WHT/SBDC 58/34 (70)120/132 6.548 IR 1323 P38 Au WHT/SBDC 44124 (52)102/96 5.618 IR 831 P39 NoA WHT/SBDC 60/35 (70)1201132 2.034 IR 411 P40 NoA WHT/SBDC 60135 (70)1201132 3.735 IR 754 P41 NoB WHT/SBDC 58134 (70)120/132 2.154 IR 435 P42 NoA WHT/SBDC 60135 (70)1201132 3.971 IR 802 P43 NoA WHT/SBDC 60/35 (70)1201132 5.607 IR 1133 P44 NoA WHT/SBDC 60/35 (70)120/132 1.733 IR 350 P45 NoA WHT/SBDC 60135 (70)1201132 2.238 IR 452 T477 "2 NoA WHT/SBDC 60135 (70)120/132 17.39 BR/S1 3513 T605 '1 NoA WHT/SBDC 60/35 (70)120/132 1 38 BR/SI 7676 * Leased Land ( ) : Spring Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required Nitrogen Produced Balance 7 i Waste Utilization Plan Facility No: 82-576 Plan 3 * Leased Land { ) : Spring Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required �; V c/)-7 c 35 _ Nitrogen Produced 3 4-2 6 Z 13 s Balance _ 5 S '2 NoB WHT/SBDC 58/34 (70)120/132 5.71 BR/SI 1153 T573 1 Au WHT/SBDC 44/24 (52)102196 13 BR/SI 1924 T10808 I NoA WHT/SBDC 60/35 (70)120/132 27.31 BR/SI 5517 T556 2 NoB WHT/SBDC 58134 (70)1201132 16.60 BR/SI 3353 T476 I Au WHT/SBDC 44/24 (52)102/96 13.5 BR/SI 1998 T617 * I NoB WHT/SBDC 58/34 (70 120/132 20.86 BR/SI 4214 T1371 I NoA WHT/SBDC 60/35 (70)120/132 6.36 BR/SI 1285 Z NoB WHT/SBDC 58/34 (70)1201132 10.80 BR/SI 2182 TNew09 E47 WaB WHT/SBDC 39/22 (41)91/88 5.913 1R 763 E48 WaB WHT/SBDC 39/22 (41)91/886.009 IR 775 * Leased Land { ) : Spring Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required �; V c/)-7 c 35 _ Nitrogen Produced 3 4-2 6 Z 13 s Balance _ 5 S Waste Utilization flan Facility No: 82-576 Plan 4 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215150 3.023 IR 801 P3 GoA MOS 4.9T 222/50 2.829 IR 769 PS WaB BP/OS 4 -IT 197/50 1.899 IR 469 P9 WaB BP/OS 4, I T 197/50 5.561 IR 1374 P10 WaB BP/OS 4.1T 197/50 5,561 IR 1374 P20 WaB BP/OS 4.1T 197/50 6.026 IR 1488 P21 WaB BP/OS 4.1T 197150 6.026 IR 1488 P22 Ra BPIOS 3AT 146/50 4.155 IR 814 P23 Ra BP/OS 3AT 146/50 3.I45 IR 616 P24 WaB BP/OS 4.IT I97/50 2.786 IR 688 P29 Au BP/OS 4.1T 197150 3.604 IR 890 P30 Au BP/OS 4.IT 197/50 .66 IR 163 P31 Au BP/OS 4.1T 197150 3.792 IR 937 P32 Au BP/OS 4.1 T 197/50 .66 IR 163 P33 Au BP/OS 4.1T 197/50 4.873 IR 1204 P34 Au BP/OS 4.1 T 197/50 4.173 IR 1031 P35 Au BP/OS 4,tT 197/50 4.40 10, 1087 P46 WaB BP/OS 4.1T 197150 7.065 IR 1745 T575 l WaB BP/OS 4.1T 197/50 2.5 BR 618 TNew09 PI GoA CT/WHT 921/64 89/120(50) 1.610 IR 224 P4 GoA CT/WHT 921/64 89/120(50) 4.163 1R 579 P5 GoA CT/WHT 921164 89/120(50) 3.876 1R 539 P6 NoB CTIWHT 846158 75/120(50) 3.015 IR 377 P7 NoB CT/WHT 846/58 75/120(50) 3.260 IR 409 PH l NOB CT/WHT 846/58 75/120(50) 4.163 IR 520 P12 NoB CT/WHT 846/58 751120(50) 3.374 IR 422 P13 NoB CT/WHT 846158 751120(50) 3.580 1R 448 P14 NoB CT/WHT 846158 751120(50) 1.876 IR 235 Ply NoB CT/WHT 846/58 75/120(50) 4.981 IR 623 P16 NOB CT/WHT 846158 75/120(50) 3.744 IR 468 P17 NoB CT/WHT 846/58 751120(50) 2.942 IR 368 P18 NOB CTIWHT 846158 751120(50) 3.446 1R 431 P19 NoB CT/WHT 846/58 75/120(50) 6.548 1R 819 P38 Au CT/WHT 683/44 75/102(50) 5.618 IR 702 P39 NoA CT/WHT 871160 75/120(50) 2.034 IR 254 P40 NoA CT/WHT 871/60 75/120(50) 3.735 IR 467 P41 NoB CT/WHT 846158 75/120(50) 2.154 IR 269 P42 NoA CTIWHT 871/60 75/120(50) 3.971 1R 496 P43 NoA CTIWHT 871160 751120(30) 5.607 IR 701 P44 NoA CTIWHT 871/60 75/120(50) 1.733 IR 217 P45 NoA CT/WHT 871160 75/120(50) 2.238 IR 280 T477 .2 N( CT/WHT 871/60 75/120(50) 17.39 BR/SI 2174 T605 *1 N( CT/WHT 871/60 75/120(50) 1 38 BRISI 4750 * Leased Land ( ) : Fall Application WA. Winter Annual SA: Summer Annual Nitrogen Required j Nitrogen Produced SBDC: Soybean Double Cropped BP: Bermuda Pasture Balance OS: Overseed CT: Cotton WHT: Wheat } Waste Utilization Plan Facility No: 82-576 Plan 4 * Leased Land ( ) : FalI Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required s---2 =1 Li35;. Nitrogen Produced e. G 2 G L;-35. Balance *2 NoB CT/WHT 846158 751120(50) 5.71 BR/Sl 714 T573 1 Au CT/WHT 683/44 75/102(50) 13 BR/SI 1625 TI0808 1 NoA CT/WHT 871/60 751120(50) 27.31 BR/SI 3414 T556 2 NoB CT/WHT 846/58 751120(50) 16.60 BR/SI 2075 T476 l Au CT{WHT 683/44 751102(50) 13.5 BR/SI 1688 T617 *I NoB CT/WHT 846/58 75/120(50) 20.86 BR/SI 2608 T1371 I NoA CT/WHT 871/60 75/120(50) 6.36 BR/SI 795 2 NoB CT/WHT 846/58 75/120(50) 10.80 BR/SI 1350 TNew09 E47 WaB CT/WHT 635/39 71/91(50) 5.913 IR 715 —E4 —8 WaB CT/WHT 635139 71191(50) 6.009 IR 727 * Leased Land ( ) : FalI Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required s---2 =1 Li35;. Nitrogen Produced e. G 2 G L;-35. Balance Waste Utilization Plan Facility No: 82-576 Plan Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215150 3.023 IR 801 P3 GoA BP/OS 4.9T 222/50 2.829 IR 769 P8 WaB BP/OS 4.IT 197/50 1.899 IR 469 P9 WaB BP/OS 4.1 T 197/50 5.561 IR 1374 PIO WaB BP/OS 4.IT 197150 5.561 IR 1374 P20 WaB BP/OS 4.IT 197150 6.026 IR 1488 P21 WaB BP/OS 4.1T 197/50 6.026 1R 1488 P22 Ra BP/OS 3AT 146150 4.155 IR 814 P23 Ra BP/OS 3AT 146/50 3.145 IR 616 P24 WaB BP/OS 4.1T 197/50 2.786 1R 688 P29 Au BP/OS 4.IT 197/50 3.604 1R 890 P30 Au BP/OS 4.IT 197150 _66 IR 163 P31 Au BP/OS 4.IT 197/50 3.792 IR 937 P32 Au BP/OS 4.IT 197/50 .66 IR 163 P33 Au BP/OS 4.1 T 197/50 4.873 1R 1204 P34 Au BP/OS 4.IT 197/50 4.173 IR 1031 P35 Au BP/OS 4.IT 197/50 4.40 IR 1087 P46 WaB BP/OS 4. I T 197/50 7.065 IR 1745 T575 l WaB BP/OS 4. i T 197/50 2.5 BR 618 TNew09 P1 GoA SBFS/WA 45bu. 160/100 1.610 IR 419 P4 GoA SBFS/WA 456u. 1601100 4.163 IR 1082 P5 GoA SBFS/WA 45bu. 160/100 3.876 IR 1008 P6 NoB SBFS/WA 41bu. 160/100 3.015 IR 784 P7 NoB SBFS/WA 41bu. 1601100 3.260 IR 848 P! 1 NoB SBFS/WA 41bu. 160/100 4.163 1R 1082 P12 NoB SBFS/WA 41bu. 160/100 3.374 IR 877 P13 NoB SBFS/WA 41bu. 160/100 3.580 IR 931 P14 NoB SBFS/WA 41bu. 160/100 1.876 1R 488 P15 NoB SBFS/WA 41bu. 160/100 4.981 1R 1295 P16 NoB SBFS/WA 41bu. 1601100 3.744 IR 973 P17 NoB SBFS/WA 41bu. 160/100 2.942 1R 765 P18 NoB SBFS/WA 41bu. 1601100 3.446 IR 896 P19 NoB SBFS/WA 41 bu. 160/100 6.548 IR 1702 P38 Au SBFS/WA 29bu, 115/100 5.618 IR 1208 P39 NoA SBFS/WA 42bu. 160/100 2.034 IR 529 P40 NoA SBFS/WA 42bu. 160/100 3.735 IR 971 P41 NoB SBFS/WA 41 bu. 160/100 2.154 IR 560 P42 NoA SBFS/WA 42bu. 160/100 3.971 IR 1032 P43 NoA SBFS/WA 42bu. 1601100 5.607 IR 1458 P44 NoA SBFS/WA 42bu. 1601100 1.733 IR 451 P45 NoA SBFS/WA 42bu. 160/100 2.238 IR 582 T477 *2 NoA SBFSIWA 42bu. 1601100 17.39 BR/SI 4521 T605 *1 NoA SBFS/WA 42bu. 160/100 38 BR -ISI 9880 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required .I, -.T . �1�- Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576 Plan 5 * Leased Land ( ) : Fall Application WA. Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required ?3, i i a Nitrogen Produced Balance -v 4, - •• e fe-> *2 NoB SBFS/WA 41bu, 1601100 5.71 BR/SI 1485 T573 I Au SBFS/WA 29bu. 1151100 13 BR/SI 2795 T10808 I NoA SBFS/WA 42bu. 1601100 27.31 BR/SI 7101 T556 2 NoB SBFS/WA 41bu. 160/100 16.60 BR/SI 4316 T476 I Au SBFS/WA 29bu. 115/100 13,5 BR/SI 2903 T617 *l NoB SBFS/WA 41bu. 160/100 20.86 BR/SI 5424 T1371 I NoA SBFS/WA 42bu. 1601100 6.36 BR/SI 1654 2 NoB SBFS/WA 41 bu. 1601100 10.80 BR/SI 2808 TNew09 E47 WaB SBFS/WA 29bu. 115/100 5.913 1R 1271 E48 WaB SBFS/WA 29bu. 115/100 6.009 1R 1292 * Leased Land ( ) : Fall Application WA. Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required ?3, i i a Nitrogen Produced Balance -v 4, - •• e fe-> Irrigation Notes 1.Application or precipitation rate is not to exceed the maximum application rate (in./hr.) of the soil type shown in table 1. 2.The application rate in (in./hr.) for a 1.26 ring nozzle @ 50psi., 300ft. wetted diameter and a 330 degree arc angle is .468 in./hr. 3.See the Travel Speed Column (ft./min.) in Table 2 to obtain the travel speed suggested to comply with the soil infiltration rates for each irrigation arc angle less than 330 degrees. IRRIGATION SYSTEM DESIGN PARAMETERS Landowner/Operator Name: s'Y-c.1 S Gr> . Address: � /- ,`-J 66 C:rl. +44C,-) "ec! 7 ...j A/ C. h s A-1 _ - Telephone: TABLE I - Field Specifications [r . V, County.--5'r'wo3 , --, Date: �2 G_9 Field Nu�mberz Approximate Maximum Useabie Size of FieW (acres) Soil Type Slope ('/.) Crop(s) Maximum Application Rate + (Inthr) Maximum Application per Irrigation Cyc4e4 (inches) Comments C�0 14 v -2- 5f7 [J/f !' (' [ v Nr Jia C i v 'Table to be completed in its entirety by Field Office personnel and forwarded to the irrigation system designer. 2See attached map provided by the Field Office for field location(s). 'Total field acreage minus required buffer areas, `Refer to N. C. Irrigation Guide, Fietd Office Technical Guide, Section II G. Annual application must not exceed the agronomic rates for the soil and crop used. Irrigation Parameters USDA-NRCS October 1995 page -1 North Carolina Landowner/Operator Name Address Telephone: IRRIGATION SYSTEM DESIGN PARAMETERS 'r. TABLE Z - Field Specifications' County: Date: Field Number' Approximate Maximum Useable Size of Field (acres) Slope Soil Type N Maximum Application Rate+ Crop(s) (Inthr) Maximum Application per Irrigation Cycle4 (inches) comments 17 !!.'" � c's'- lures � 07 �� /..rt•eK r C .5 4, - 3V. e7 3 73 'Table to be completed in its entirety by Field Office personnel and forwarded to the irrigation system designer. 'See attached map provided by the Field Office for field location(s). 'Total field acreage minus required buffer areas. `Refer to N. C. Irrigation Guide, Field Office Technical Guide, Section II G. Annual application must not exceed the agronomic rates for the soil and crop used. Irrigation parameters USnA4Ni2CS October 11195 page -1 North Carolina IRRIGATION SYSTEM DESIGN PARAMETERS Landowner/Operator Name: -j —r iJ Address: f���v,•; a Go C h' :,2cN %9 Telephone: TABLE 1 - Field Specifications' ( �� x,'s i -',-j C") county: Date: Field Number2 Approximate Maximum Useable Size of Field (acres) Soil Type Slope (`h Maximum Application Rate'- Crop(s) (infhr) Maximum Application per Irrigation Cycle, (Inches) Comments . C A �� r /. uo 7 1 IF a 71 • A o - 2- � ` 3 G�7 ye4 ;2. ra 3O Z �r V. L '7 C G -)r G[i , rl a Q 5 ��`% 3f •i icle..i5 a— � .�' r,.sA �!� l 1 -ii S1 C Er`/f3 G v o 7 'Table to be completed in its entirety by Field Office personnel and forwarded to the irrigation system designer. 'See attached map provided by the Field Office for field location(s). 'Total field acreage minus required buffer areas. `Refer to N. C. litigation Guide, Field Office Technical Guide, Section 11 G. Annual application must not exceed the agronomic rates for the soil and crop used. Irrigation parameters USDA-URCS October 1995 page -1 North Carolina TABLE 2 - Traveling Irrigation Gun Settings Make, Model acid Type o/ Equipment: 71 ~ Fi.Rf N,,' Travel and Speed Ilyrirant Nor (ft/min) Application Rate (inrhr) TRAVEL LANE Effective Effective Width (fl) Length (ft) Wetted Nozzle Diameter Dlameter (feet) (inches) EQUIPMENT SE7' INGS operating Operating pressure pressure Gun (psi) Reel (psi) Arc Patterns -- — Comments ,app -0 isoo .3 3 a 3 l���.� I G 2,— boa 3 3 n " — ----1 I �2G2- 22 ao G. t:.a — - — T--_ _ 33 0` -• � — lam! SS 7 3 ;"7" I u— l��� :7'? 2 �-- J �o dap 'See attached map provided by the Field Office for field locat on(s). 7 thaw scoarate entries for each hydrant location In each field. 'Use the following abbreviations for various arc pe tems: F (full circle), T'4 (three quarters), TT (two thirds), H (half circle), T (one third), Q (one rivailer). May n1so use degree of arc in degrees, Irng.iiiun Parameters kJSUA-NRCS uctnUtr 1995 page -2 North Carolina TABLE 2 - Traveling irrigation Gun Settings Make, Model af7d Type of Equipment: 6i.rrf Nol and Hydrant Nor , Travel Speed (rtlmin) Application TRAVEL, LANE Rate Effective Effective (inlhr) Width (ft) Length (ft) Wetted Diameter (feet) EQUIPMENT SETTINGS Nozzle Operating Operating Diameter Pressure Pressure Arc (Inches) @ Gun (psi) Reel (psi) pattern, Comments .7 L) Y7S— f I 11/130 577 '200 veJty /7Q ~ � -- y 'See attached map provided by the Field Office for field location(s). r show erparate entries for each hydrant location In each field. lose the following abbreviations for various arc pattems: F (full circle), TQ (three quarters), TT (two thirds), W (half circle), T (one third), Q (onrr ttuailer). May also use degree of arc In degrees. Irruiallun I'ararnefets USVA•NRGS iJctobee 1995 page -2 Nurth Carolina Lagoon Notes 1. Effluent from lagoons 41,2,&3 will continue to be land applied in accordance with the waste plan, but will not have any waste discharging into them at this plan revision. 2. Lagoons #4&7 will remain per the original permit with (3200) and (4000) head respectively of feeder -finish animals. 3. Lagoons #5&6 will have (4250) and (2520) head respectively of feeder -finish animals. 4. Lagoons #4,5,6,&7 account for a total of 13,970 head feeder -finish of the total suggested permitted head of 16,794. 5. Lagoon volumes are included along with temporary storage calculations. �i 54 ��� .f' ' f I a, A i ik�• �w 'f r c .R- QI ' i .lr 1 r � ` � '� ' �i ..f■rt� 'a}. �1��•'•�'!w"y •',• ♦', •_ ` r' .t 7 � '`' a. 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L!'h#' hi:�l'?? 1: :taS�',,,,f •rJ'yy l f. nr�aiICr•% y/ •1,^r �' ta.' ; _ '•1� '� •''?'4'Y 1•.p 1'SS3 ) \ .i'SS r{r; r(. r a . ,.�4 'a .,.'. �t• •tir t ... ,C. }„t' 'i�4R�+�� `.R ' Y' •• at � r } • ��f�� �. f,L��{ ' •�' � 1 . . ' aat„ �. ` ,1 ti }•I{ �` �i' •,���� I "� r' ._tt����- t , �••,,• �^ \a"4-' jr-iA' li,. �; y�i r�'r ,r•'. mit.. ,ff.'-. �� `=�'� L� r' .����,r� s �!� , ,Y• .sr �' {.�. y i >* � •e •,�t:.Isw-•.�. �',;, �„•_• :7�+�i:V�: y,it''Z'■i ��r 5:.� .+. Lagoon volume # 1.2.3 Treatment volume should equal (433,260 cu. ft.) 2. Present lagoon dimensions # 1 (300 ft. x 75 ft. x 12 ft.) # 2 (230 ft. x 158 ft. x 10 ft.) equivalent area # 3 (150 ft. x 206 ft. x 12 ft.) equivalent area # 1 3:1 side slope # 2 1:1 side slope # 3 2:1 side slope 3. Rainfall - 25 yr. 1 day storm (above pipe) # 1 7/12 x 22,500 sq. ft. surface area (13,125 cu. ft.) # 2 7/12 x 36,340 sq. ft. surface area (21,198 cu. ft.) # 3 7/12 x 30,900 sq. ft. surface area (18,025 cu. ft.) 4. Freeboard 1 ft. (above pipe) # 1 22,500 cu. ft_ # 2 36,340 cu. ft. # 3 30,900 cu. ft. 5. Rainfall less evaporation (below pipe) # 1 7/12 x 22,500 sq. ft. surface area (13,125 cu. ft.) # 2 7/12 x 36,340 sq. ft. surface area (21,198 cu. ft.) # 3 7/12 x 30,900 sq. ft. surface area (18,025 cu. ft.) 6. Actual lagoon volume at present below pipe # 1 95,947 cu. ft. # 2 269,479 cu. ft. # 3 230,422 cu. ft. Total 595,848 cu. ft. 7. Actual volume = 595,848 cu. ft. Minus treatment area 433,260 cu. ft. Minus rainfall less evaporation 52,348 cu. ft. Equals temporary storage available of (110,240 cu. ft.) B. Temporary storage calculation 433,260 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 584 cu, ft./day needed. 110,240 cu. ft. = 188 days 584 cu. ft./day Lagoon Volume # 4 Side Slope: 3 to 1 1. Number of head of finishing shine (3,200) Treatment volume should equal (432,000 cu. ft.) 2. Present lagoon dimensions (160 ft. x 400 ft. x 16 ft.) 3. Rainfall - 25 yr. 1 day storm (above pipe) 7/12 x 64,000 sq. ft. surface area (37,333 cu. ft.) 4. Freeboard 1 ft. (64,000 cu. ft.) (above pipe) 5. Rainfall less evaporation (below pipe) 7/12 x 64,000 sq. ft. surface area (37,333 cu. ft.) 6. Actual lagoon volume at present below pipe: volume = 545,967 cu. ft. 7. Actual volume = 545,967 cu. ft. minus treatment 432,000 cu. ft. minus rainfall less evap. 37,333 cu. ft. Equals temporary storage available of (76,634 cu. ft.) 8. Temporary storage calculation 432,000 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 583 cu. ft./day needed Temporary storage available 76,634 cu. ft. 131.44 days 583 cu. ft./day Lagoon Volume # 5 1. Feeder -Finish # head 4,250 Treatment volume should equal (573,750 cu.ft.) 2.Present lagoon dimensions (depth taken from sludge survey) Section one (400ft. x125ft. x10.1Oft.) Section two (225ft. x350ft. x10.1OR.) 3.Rainfall-25yr. 1 day storm (above pipe) Section one -7/12 x50,000 sq.ft. (29,166 cu.ft.) Section two -7112 x78,750 sq.ft. (45,937 cu.ft.) 4.Freeboard 1 ft. (above pipe) Section one -50,000 cu.ft. Section two -78,750 cu.ft. 5.Rainfall less evaporation (below pipe) Section one -7112 x50,000 sq.ft. (29,166 cu.ft.) Section two -7112 x78,750 sq.ft. (45,937 cu.ft.) 6.Actual lagoon volume at present (below pipe) Section one -279,783 cu.ft. Section two -509,742 cu.ft. Total equals = 789,525 cu.ft. 7.Actual volume = 789,525 cu.ft_ minus Treatment area (573,750 cu.ft.) minus Rainfall less evaporation (75,103 cu.ft.) equals Temporary storage available of (140,672) 8.Temporary storage calculation 573,750 lbs. of animal wt. x 1.35 cu.ft. of waste per day per 1000 lbs.of animal wt. equals774.5 cu.ft. per dayof waste. A temporary storage volume available of 140,672 cu.ft. divided by 774.5 cu.ft. per day equals a temporary storage of 181.6 days. Lagoon Volume # 6 1. Feeder -Finish # head 2520 Treatment volume should equal ( 340,200 cu.ft.) 2.Present lagoon dimensions (depth taken from sludge survey) Section one- ( 460ft. x120ft. x10.2ft.) Section two-(130ft. x220ft. x10.2ft.) 3.Rainfall 25yr. 1 day storm (above pipe) Section one- 7/12 x55,000 sq.ft. = (32,200 cu.ft.) Section two- 7/12 x28,600 sq.ft. ={16,683 cu.ft.) 4.Freeboard 1 ft. (above pipe) (83,800 cu.ft.) 5.Rainfall less evaporation (below pipe) 7/12 x55,200 sq.ft. =(32,200 cu.ft.) 7/12 x28,600 sq.ft. =(16,683 cu.ft.) 6.Actual lagoon volume at present (below pipe) Section one -(308,922 cu.ft.) Section two -(150,183 cu.ft.) 7.Actual volume equals 459,105 cu.ft. minus Treatment volumeof (340,200 cu.ft.) minus Rainfall less evaporation (48,883 cu.ft) equals Temporary storage available of (70,022 cu.ft.) 8.Temporary storage calculation 340,200 lbs. of animal x 1.35 cu.ft. of waste per day per 1000 lbs. of animal weight equals 459.3 cu.ft. per day of waste. A temporary storage volume available of 70,022 cu.ft divided by 459.3 cult. per day equals a temporary storage of 152.45 days. • • f ♦ . . Lagoon Volume # 7 1. Number of head of finishing swine (4,000) Treatment volume should equal (540,000 cu. ft.) 2. Present lagoon dimensions: Section one (685 ft. x 125 ft. x 12 ft.) Section two (175 ft. x 75 ft. x 12 ft.) Section three (300 ft. x 85 ft. x 12 ft.) Side slope: 3:1 3. Rainfall - 25 yr. 1 day storm (above pipe) 7/12 x 85,625 sq. ft. surface area (49,947 cu. ft.) 7/12 x 13,125 sq. ft. surface area (7,656 cu. ft.) 7/12 x 25,500 sq. ft_ surface area (14,875 cu. ft.) 4. Freeboard 1 ft. (above pipe) Section one (85,625 cu. ft.) Section two (13,125 cu. ft.) Section three (25,500 cu. ft.) 5. Rainfall less evaporation (below pipe) 7/12 x 85,625 sq. ft. surface area (49,947 cu ft.) 7/12 x 13,125 sq. ft. surface area (7,656 cu. ft.) 7/12 x 25,500 sq. ft. surface area (14,875 cu. ft-) 6. Actual lagoon volume at present (below pipe) Section one (675.52 ft. x 115.521 ft. x 10.42 ft.) Section two (165.52 ft. x 65.52 ft. x 10.42 ft.) Section three (290.52 ft. x 75.52 ft. x 10.42 ft.) volume one equals 569,047 cu. ft. Volume two equals 51,323 cu. ft. Volume three equals 122,961 cu. ft. Total volume = 743,331 cu. ft. 7. Actual volume equals 743,331 cu. ft. minus treatment volume 540,000 cu. ft. minus rainfall less evaporation 72,478 cu. ft. Equals temporary storage available of (130,853 cu. ft.) 8. Temporary storage calculation 540,000 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 729 cu, ft./day needed. 130,853 cu. ft. 729 cu. ft./day = 179.49 days WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 1. Animal waste shall not reach surface waters of the state by runoff, drift, manmade conveyances, direct application, or direct discharge during operation or land application. Any discharge of waste which reaches surface water is prohibited. 2. There must be documentation in the design folder that the producer either owns or has an agreement for use of adequate land on which to properly apply the waste. If the producer does not own adequate land to properly dispose of waste, he/she shall provide a copy of an agreement with a landowner who is within a reasonable proximity, allowing him/her the use of the land for waste application. It is the responsibility of the owner of the facility to secure an update of the Waste Utilization Plan when there is a change in the operation, increase in the number of animals, method of utilization, or available lard. 3. Animal waste shall be applied to meet, but not exceed, the nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climatic conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. 4. Animal waste shall be applied to land eroding less than 5 tons per acre per year. Waste may be applied to land that is eroding at 5 or more tons, but less than 10 tons per acre per year providing grass filter strips are installed where runoff leaves the field. (See FOTG Standard 393 -Filter Strip) 5. Odors can be reduced by injecting the waste or disking after waste application. waste should not be applied when there is danger of drift from the irrigation field. 6. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. (See "Weather and Climate in North Carolina" for guidance.) 7. Liquid waste shall be applied at rates not to exceed the soil infiltration rate such that runoff does not occur offsite or to surface waters and in a method which does not cause drift from the site during application. No ponding should occur in order to control odor or flies. 8. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen_ 9. Animal waste shall be applied on actively growing crops in such a manner that the crop is not covered with waste to a depth that would inhibit growth. The potential for salt damage from animal waste should also be considered. Page: 9 WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 10. Waste nutrients shall not be applied in fall or winter for spring planted crops on soils with a high potential for leaching. waste nutrient loading rates on these soils should be held to a minimum and a suitable winter cover crop planted to take up released nutrients. Waste shall not be applied more than 30 days prior to planting of the crop or forages breaking dormancy. 11. Any new swine facility sited on or after October 1, 1995 shall comply with the following: The outer perimeter of the land area onto which waste is applied from a lagoon that is a component of a swine farm shall be at least 50 feet from any residential property boundary and from any perennial stream or river (other than an irrigation ditch or canal. Animal waste other than swine waste from facilities sited on or after October 1, 1995), shall not be applied closer than 25 feet to perennial waters. (See Standard 393 - Filter Strips). 12. Animal waste shall not be applied closer than 100 feet to wells_ 13. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 14. Waste shall be applied in a manner not to reach other property and public righu-of-ways. 15. Animal waste shall not be discharged into surface waters, drainageways, or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted cropland provided they have been approved as a land application site by a "technical specialist". Animal waste shall not be applied an grassed waterways that discharges directly into water courses, and on other grassed waterways, waste shall be applied at agronomic rates in a manner that causes no runoff or drift from the site. 15. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal wazte management system. 17. A protective Cover of appropriate iegetazion will be established on all disturbed areas (lagoon: embankments, berms, pipe runs, etc.). Areas shall be fenced, as necessary, to protect the vegeta--ion.. Vegetation suC- as -.rees, shrubs, and Other woody species, etC , are liml._ed t -o areas where Considerer appropriate. Laccon areas should be K?pt mowed and accessible. Berms and scruCrilres should be insl =ctad regu! arly for evidence of eresion, _leakage or discharge. Page: 10 WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 18. If animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing a "closure plan" which will eliminate the possibility of an illegal discharge, pollution and erosion. 19. Waste handling structures, piping, pumps, reels, etc., should be inspected on a regular basis Bio prevent breakdowns, leaks, and spills. A regular maintenance c'ecklist should be kept on site. 20. Animal waste can be used in a rotation that includes vegetables and other crops for direct human consumption. However, if animal waste is used on crops for direct human consumption it should only be applied preplant with no further applications of animal waste during the crop season. 21. Highly visible markers shall be installed to mark the top and bottom elevations of the temporary storage (pumping volume) of all waste treatment lagoons. Pumping shall be managed to maintain the liquid level between the markers. A marker will be required to mark the maximum storage volume for waste storage ponds. 22. Waste shall be tested within 60 days of utilization and soil shall be tested at least annually at crop sites where waste products are applied. Nitrogen shall be the rate - determining element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these ;petals approach excessive levels. pH shall be adjusted for optimum crop production and maintained. soil and waste analysis records shall be kept for five years. Poultry dry waste application records shall be maintained for three (3) years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina regulations. Page: 11 Calibrating Liquid Manure Spreaders Using the Load - Area Method 1. Determine the capacity of the manure spreader. a. gallons 2. Spread at least one full load using the regular spreading patterns of the applicator. Trial 1 Trial 2 Trial 3 b. forward speed, gear, or throttle setting c. pto speed or setting d. spreader gate setting 3. Measure the area of spread. e. spread area width f. spread area length g. spread area (e x f) h. spread area (g = 43560) 4. Compute the manure application rate: i. number of loads spread j. capacity per load (a) k. total manure spread (i x j) 1. application rate (k = h) 5. Compute the nutrient application rate: m. manure analysis, N P205 K20 n. application rate, N (1 x m � 1000) P205 K 2 0 ft ft ft2 acres gallons gallons gals/ac lbs/1000 gallons lbs/acre lbs/acre lbs/acre 6. Repeat the procedure changing one or more of the spreader characteristics ii Item 2 until the desired application rate is achieved. 5-1.8 RECEIVED Change Of Swine Integrator Registration Form OCT 03 2103 _I ©ENR-FAYETiEViLLE RECIONAL OFF Farm Name:. J /NC, Facility Number: - Physical Location of the Swine Farm: n Owner(s) Name: V" i,. . !Are-, Mailing Address: t W-0 )lv/"" Gh( r2� City, State, Zip Code: DizM& z G. 2AIL4- 01 Grower(s) Name if different than owner: wa7` Mailing Address: City, State, Zip Code:_ Current Integrator:ll S ��C� —LASZ_ Integrator Conta Mailing Address: n City, State, Zip Code:1�.L��� a��, (Ic—� K"- C/, / / 4" Owner's Signature We appreciate your cooperation. This information is required in accordanc G.S. 143-215.10H. If you have any questions contact the AFO Unit at (91 3221, otherwise please return this form to: NC Division of Water Quality Aquifer Protection Section Animal Feeding Operations Unit 1636 Mail Service Center Raleigh, NC 27699-1636 CISIR 12-15-05 a gZ,s07L rize V Change Of Swine Integrator Registration RE M-211-111 Farm Name: J' ' k✓ S��`!Q /k�. _ Facility Number: Physical Location of the Swine Farm: Owner(s) Name: S 4- CO- 1"e'- Mailing KC Mailing Address: P7.2-0 2l/Ar w c& .P47. City, State, Zip Code:_ u,6z& - C, 33 Grower(s) Name if different than owner:��G'��''/- Mailing Address: %Nz City, State, Zip Code: Current Integrator: Integrator Conta Mailing Address: City, State, Zip Code: We appreciate your cooperation. This information is required in accordar G.S. 143-215.10H. If you have any questions contact the AFO Unit at (9 3221, otherwise please return this form to: NC Division of Water Quality Aquifer Protection Section Animal Feeding Operations Unit 1636 Mail Service Center Raleigh, NC 27699-1636 CISIR 12-15-05 0 19 1 E REG ONAL.3F C4J rJ R rF ►j OCT 6 7 zoo APPENDIX 2.5A Ani Vaste Management Plan Certification SPArmation that does not re uire a si�,nature) JOENR-FAYEMLLER $ or New or Expanded (please circle one) General Information: Permit No: 4aJs1e2 o S"% 6 Name of Farm: J •d- '51-0i,jF Cc)- Facility No: e432- -- 576, Owner(s) Name: IC W��/Z � l-I�. f �NJ-7�_ Phone Nc�/D-2J7-26'�2_ Marling Address: 'q Cfy4 G7 r� �/M , � • � 3 Form Location: County Farm is located in: 5'�Iek Latitude and Longitude: it/3S� / � .3�{/ Integrator: -1��-� Please attach a copy of a county road trap with location identified and describe below (Be specific: road names, directions. milepost, etc.): t/Jf' /z u'Peo 1_' i. , a /S .47` ,J A17 f ✓Gc3 C''f e ce Ii al. I r Operation Description.- Type escription: Type of Swine No. of Animals o Wean to Feeder • Feeder to Finish o Farrow to Wean o Farrow to Feeder a Farrow to Finish o Gilts o Boars Type of Poultry No. of Animals o Layer o Non -Layer Type of Beef No. of Animals o Brood a Feeders o Stockers Other Type of Livestock: Type of Dairy o Milking o Dry o Heifers o Calves No. of Animals Number of Animals: Expanding Operation Only Previous Design Capacity: Additional Design Ca aci Total Design Capacity: Acreage Available for Application: 3 _Z - Required Acreage: A.OL1�t+ i �3 .Z 4/ 0 Number of waste structures: `] Total citv:_- '7141;rzlk 4 Cubic Feet (ft') � Are subsurface drains present on the farm: YES or 0(please circle one)t�` If YES: are subsurface drains present in the area of the waste structures (please circle one or bath as applicable) Owner / Manager Agreement I (we) verify that all the above information is correct and will be updated upon changing- I (we) understand the operation and maintenance procedures established in the approved animal waste management plan for the farm named above and will implement these procedures. I (we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a permit application and a new certification to be submitted to the Division of Water Quality (DWQ) and permit approval received before the new animals are stocked. I (we) understand that there must be no discharge of animal waste from the storage system to surface waters of the state unless specifically allowed under a permit from DWQ and there must not be run-off from the application of animal waste. I (we) understand that run-off of pollutants from lounging and heavv use areas must be minimized using technical standards developed by the USDA -Natural Resources Conservation Service (LRCS)- The approved plan will be filed at the farm and at the DWQ Regional Office and the office of the local Soil and Water Conservation District (SWCD). [ (we) know that any modification must be approved by a technical specialist and submitted to the DWQ Regional Office and local SWCD and required approvals received from DWQ prior to implementation. A change in farm ownership requires a permit application to be sent to DWQ along with a new certification (if the approved plan is changed). Name of Land caner: 27e Signature:A_T / /7 2 Date: Name of Manager (if different from owner): Signature: Date: APPENDIX 2.5A Technical Specialist Certification L As a technical specialist designated by the North Carolina Soil and Water Conservation Commission pursuant to I5A NCAC dH .010=1, I certify that the animal waste management system for the farm named above has an animal waste management plan that meets or exceeds standards and specifications of the Division of Water Quality as specified in 15A NCAC 2T .1300 (formerly 2H .0217) and the USDA -Natural Resources Conservation Service and/or the North Carolina Soil and Water Conservation Commission pursuant to i 5A NCAC 2T .1300 (formerly 2H .0217) and 15A NCAC 6F .0101-.0105. The following elements are included in the plan as applicable. While each category designates a technical specialist who may sign each certification (SD, S1, WUP, RC, 1), the technical specialist should only certify parts for which they are technically competent. 11. Certification of Design A) Collection, Storage, Treatment System Check the appropriate box Existing facility without retrofit (SD or WUP) Stora3e volume is adequate for operation capacity; storage capability consistent with waste utilization requirements. o New, expanded or retrofitted facility (SD) Animal waste storage and treatment structures, such as but not limited to collection systems, lagoons and ponds, have been designed to meet or exceed the minimum standards and specifications. Name of Technical Specialist (Please Print): Z) 34; z �Et Affiliation W -C . Coo,e4, —Date Work Completed:C'A�F�/a r.o.J� •+� /7 Address (Age): _.SS .qg IL: ck_ yrf-��� /mac „� l �:� yJ Phone No.: 5'/,> - -)_V L -- `7/ f- -'el' "-- - 'e'c ' Date: /d --o; -.2-nQ2 B) Land Annlication Site (WUP) The plan provides for minimum separations (buffers), adequate amount of land for waste utilization; chosen crop is suitable for waste management; and the hydraulic and nutrient loading rates are appropriate for the site and receiving crop. Name of Technical Specialist (Please Print): 'D,q,,/ i Q . Affiliation /(` . Co,a Date Work Completed: Address (Agent ): S- 5- 4 , �N //,�.��= '%�� �� (' / Phone No.: qjo - i y x - 7i 4.1 Signature: _ ) ,l—� _ -y , _ Date: / Q - o �-- 2 uo 9 C) Runoff Controls from Exterior Lots Cheek the appropriate box a Facility without exterior lots (SD or WUP or RC) This facility does not contain any exterior lots. o Facility with exterior lots (RC) Methods to minimize the run off of pollutants from lounging and heavy use areas have been designed in accordance with technical standards developed by MRCS. Name of Tech7 7-- Technical Specialist (Please Print): ) Affiliation tel.fC. C r a . 6:)e ' �!5•r'a . f = _ c,, - e4�7 Date Work Completed: z9 Address (Agency): -a^S� C/, _k_--, /V (f Phone No.: fe- '7161 Signature: JR Date: _ ��U APPENDIX 2.5A D). Application and Hand_1_in, Equipment Check the appropriate box .. • Existing or eXDandin; facilitv with existing waste „application equipment (WUP or 1) Animal waste application equipment specified in the pian has been either Field calibrated or evaluated in accordance with existing design charts and tables and is able to apply waste as necessary to accommodate the waste management plan: (existing application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates, a schedule for timing of applications has been established-, required buffers can be maintained and calibration and adjustment guidance are contained as part of the pian). New, expanded. or existing facility without exislin!Z waste a lication equipment fors ray irrigation. (1) Animal waste application equipment specified in the plan has been designed to apply waste as necessary to accommodate the waste management plan; (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates; a schedule for timing of applications has been established; required buffers can be maintained; calibration and adjustment guidance are contained as part of the plan)_ New. expanded, or existing facility without existing waste Uplication equipment for land spreading not using, spray irrigation. (WUP or 1) Animal waste application equipment specified in the plan has been selected to apply waste as necessary to accommodate the waste management plan; (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates; a schedule for timing of applications has been established; required buffers can be maintained; calibration and adjustment guidance are contained as pan of the plan). Name of Technical Specialist (Please Print): , x,,,1 Affiliation 00���� X� E.vr�%�� ..DEQ ✓�� Date Work Completed: Address (Age>y):_."S �a.'�.<//<<,�� P/•4c�' ; Cf•:1 Phone No.:�ia _ �9Z •- Date: / o - o > - ;Z uy! E) Odor Control, Insect Control, Mortality Management and Emereencv Action Plan (SD, SI,_WUP, RC or I) The waste management plan for this facility includes a Waste Management Odor Control Checklist, an Insect Control Checklist, a Mortality Management Checklist and an Emergency Action Plan. Sources of both odors and insects have been evaluated with respect to this site and Best Management Practices to Minimize Odors and Best Management Practices to Control Insects have been selected and included in the waste management plan. Both the Mortality Management Plan and the Emergency Action Plan are complete and can be implemented by this facility. Name of Technical Specialist (Please Print): Affiliation Ce'4a. 'cf` Date Work Completed: Address ( Signature' Z -/ Phone No.: '71r; r a ~f L - 17) 6 C, Date: Ito - v-,- �u-, I F) Written Notice of New or Expandinp_ Swine Farm The following signature block is only to be used for new or expanding swine farms that begin construction after ,tune 21, 1996. If the facility was built before June 21, 1996, when was it constructed or last expanded I (we) certify that I (we) have attempted to contact by certified mail all adjoining property owners and all property owners who own property located across a public road. street. or highway from this new or expanding swine farm. The notice was in compliance with the requirements of NCGS 106-805. A copy of the notice and a list of the property owners notified are attached. Name of Land Owner: Signature: Date: Name of Manager (if different from owner): Signature: Date: APPENDIX 2.5A 111. Certification of Installation A) Collection Storage, Treatment Installation New. expanded or retrofitted facilih- (SI) Animal waste storage and treatment structures, such as but not limited to lagoons and ponds, have been installed in accordance with the approved plan to meet or exceed the minimum standards and specifications. For existing facilities without retrofits, no certification is necessary•. Name of Technical Specialist (Please Print): Affiliation Date Work Completed: Address (Agency): Phone No.: Signature: Date: B) Land Application Site (WUP) The cropping system is in place on all land as specified in the animal waste management plan. Name of Technical Specialist (Please Print):- Affiliationr?�. Ems; r,c ✓. �� _ Date Work Completed: Address (A cy): .5-r .4. r. *.� /� - ! ; .� /-,--1 Phone No.: ll o �r z - 7/ 6 Signatur �--- Date: C) Runoff Controls from Exterior Lots (RC) Facilitv with exterior lots Methods to minimize the run off of pollutants from lounging and heavy use areas have been installed as specified in the plan. For facilities without exterior lots, no certification is necessary. Name of Technical Specialist (Please Print): Affiliation Date Work Completed: Address (Agency): Signature: D) Application and Handling Equipment Installation (WUP or 1) Phone No.: Date: a Animal waste application and handling equipment specified in the plan is on site and ready for use; calibration and adjustment materials have been provided to the owners and are contained as part of the pian. o Animal waste application and handling equipment specified in the plan has not been installed but the owner has proposed leasing or third party application and has provided a signed contract; equipment specified in the contract agrees with the requirements of the pian; required buffers can be maintained: calibration and adjustment guidance have been provided to the owners and are contained as pan of the plan. Name of Technical Specialist (Please Print): Affiliationc" i r"S J -sem '� C Date Work Completed: address{: v): S� !� .� F� / �,� -' /.��r` Phone No.: 7/i,_ Signatui l7 - -- Date: o - v APPENDIX 2.5A E) Odor Control, Insect Control and Mortality Nlanagement (SD, SI, WUP, RC or l) Methods to control odors and insects as specified in the Plan have been installed and are operational. The morality mana<izement system as specified in the Plan has also been installed and is operational. Name of Technical Specialist (Please Print): 9- ZPo-lc Affiliation (roop.: E�s•.J sEc�.� r' Date Work Completed: if Address ( agency):_ .S; �9�, ,� . c.r� {�K �� A�f �r'l, J� -� Phone No.: Ei,)-- a 14 —7/4-1 J Signature: J/ C , Date: / p r co f Please return the completed form to the Division of Water Quality at the following address: Department of Environment and Natural Resources Division of Water Quality Animal Feeding Operations Unit 1636 Mail Service Center Raleigh, NC 27699-1636 Please also remember to submit a copy of this form along with the complete Animal Waste Management Pian to the DWQ Regional Office and the local Soil and Water Conservation District Office and to keep a copy in your files with your Animal Waste Management Plan. IRRIGATION EQUIPMENT FLOW METER i FIELD CALIBRATION i iLOCAT1O`: J 7 t� 5•.• ✓ Phone: DATE OF FIELD CALIBRATION: e i FLOWMETER SERIAL `UMBER: REEL/GUN/SPRINKLER MAKE AND -NIODEL: C_'17���,,,+_� (see reverse for solid set system) S -Ai 3 MEASURED RING SIZE (from irrigation design): 1_26 inches 12 t Is ring within .01" of expected manufacturer size? If not, rin, mast be replaced 'RESSURE READINGS AT PUMP: psi (optional) AT REEL: psi (optional) AT GUN: r) psi (required) IFLOW RATE (GPI) EXPECTED: a-��m 1(from manufacturers chart MEASURED: ,2) > Qpm {anti flow meter readout) VARIANCE: % METTED DIAMETER (ft) EXPECTED: __&ft (see wettable acres determination MEASURED:ft Ifor expected diameter) IVARIA CE. le % 11f svetted diameter is greater than 13% or flo%v rate variance is greater than 10%, contact a Certified Technical Specialist or irrigation specialist for assistance. land/or Explain findings: i CALIBRATOR: {print name) (signature) Phone: NC.r�rF_I Nnrxgi,N �3T-E�,IF I NINERT r1 COOPERATIVE 4111111111111111 EXTENSION IRRIGATION EQUIPNMEt`T FLOW METER i FIELD CALIBRATION .00_aT1ON: DATE OF FIELD CALIBRATION: FLOWMETER SERIAL NUMBER: phone: M d I REEL/GUN/SPRINKLER -NIaKE :SND MODEL: ,{'fry ��-- s.�, A3-17,7 (see reverse for solid set systetn) IEASURED RING SIZE (from irrigation design): rine •vithin .U1" of expected manufacturer size`' rnot, ring must be replaced. PRESSURE READINGS AT PUMP: psi AT REEL: psi AT GUN:psi FLOW R.kTE (GPNI) (from manufacturers chart and flow meter readout) WETTED DIAMETER (ft) (see wettable acres determination for expected diameter) 1..2 to inches ( .1. 2 '�^g�ls�•.r a EXPECTED: MEASURED VARIANCE: (optional) (optional) (required) .?-S-� Qpm ;? .ia ?-Pm O EXPECTED: LU ft yIEASURED: '; / ft VARIANCE: 1,2—% iIf Fretted diameter is greater than la% or now rate variance is greater than 10%, contact a Certified Technical Specialist or irrigation specialist for assistance. end/or Explain findings: f I (print name) (signature) Phone: - ,r�tr t �« a:K�rrr N ; rti rc• t \ n V..tz�rrt COOPERATIVE �111 EXTENSION i IRRIGATION' EQUIPMENT FLONV METER FIELD CALIBRATION LOCATION: J -r I-) DATE OF FIELD CALIBRATION; FLOW -NIETER SERIAL NUMBER: A44 REEL/GUN/SPRINKLER MAKE AND MODEL:�� (see reverse for solid set system) I MEASURED RING SIZE (from irrigation design): !. 2-G inches Is rine within .01" of expected manufacturer size? r f -5 - If not, ring must be replaced. PRESSURE READINGS AT PUMP: psi (optional) AT REEL: psi (optional) AT GUN: (required) r � FLOW RATE (GPM) EXPECTED: 0.2, -pm (from manufacturers chart MEASURED: a ) tipm and flow meter readout) VARIANCE: Q I NETTED DIAMETER (ft) EXPECTED: 3.2- ft (see wettable acres determination MEASURED: Izz ft for expected diameter) VARIANCE: / % If v,-etted diameter is greater than 13% or flo►►- rate variance is greater than 10%, contact a Certified Technical Specialist or irrigation specialist for assistance. And/or Explain findings: 'CALIBRATOR: r s•' - � _ _.._ � � , ..___.i _ . (print name) (signature) " Phone: - - NCyr FI: 1"\IN Vk IIN 14iF-0- IF. I NIN rlt�rrl COOPERATIVE EXTENSION 11 r1pi � ., i�q✓ l s7 .�, r. n. Irfl�;. n, ,'1 .r4 IRRIGATION EQUIPMENT j FLOW METER I FIELD CALIBRATION rLOCATION: J 7' bd 5 ,:,/C phone: DATE OF FIELD CALIBRATION: 6 /:� 30/0 8 FLOWMETER SERIAL `UMBER: � ole- Is, REEL/GUN/SPRINKLER -MAKE a\D MODEL: (see reverse for solid set system) a0 � 3 IEASURED RING SIZE (from irrigation design): j.. & inches (l ring -within .DI" of expected manufacturer size? gnat, ring, must be replacer!. PRESSURE REaDI`GS AT PUMP: psi (optional) AT REEL: Li (optional) AT GUN: 'fr-) psi (required) FLOW RATE (GP:,I) EXPECTED: �2 i r Rpm (from manufacturers chart MEASURED: 0?pm and flow meter readout) VARIANCE: VETTED DIAMETER (ft) see wettable acres determination or expected diameter) EXPECTED: 3 n ft MEASURED: ft VARIANCE- Z e) % f wetted diameter is greater than 15% or flow rate variance is greater than 10%, ontact a Certified Technical Specialist or irrigation specialist for assistance. end/or Explain findings: CALIBRATOR Phone: (print name) NCiCrfF: E"�;it FR:f"1"1 rir:TriF E Ntr T.R,fiN COOPERATIVE EXTENSION (signature) �; � "'"�`" APPENDIX 2.5A Animal Waste Management Plan Ce�r>1Ft"l�cation� (Please tvpe or print all information that does pat reoudtfasianettmr ^ or New or Expanded lease circle one)l General Information: !)EiR-IAYIiiF>liP.erniit't o.q')_5 Name of Farm: J4- F Cca. .y ,IC . Facility No:R z -- 57 6 0wner(s) Name: " , ��Uri� ri.I�. ��}9l�(S��✓�`7� Phone Nc�l/ 7 -. Mailing address: 19,Z 0 1',V -1,A1 G a C N pec .1i %%d �� �.� i✓ c'. G? y Farm Location: Countv Farm is located in: Latitude and Longitude: 41 3S� _LI Aj ' .3e{' Integrator:_efe_2 Jv - _ lfeow Please attach a copy of a county road map with location identified and describe below (Be specific: road names, directions, milepost, etc.): flet'. sfzl ,cra'-r C zel74. 0.j Jr ,L_e'0e) '4 �' des T— 7-N /Z.-) J A,i �Go ('.,�..�ti/ ,fa%• ���..� a ,4• y,� r Operation Description: Type of Swine No. of :animals o Wean to Feeder a Feeder to Finish/ �, 7 9y o Farrow to Wean o Farrow to Feeder o Farrow to Finish o Gilts o Boars Type of Poultry No. of Animals o layer a Non -Layer Type of Beef No. of.4nimals o Brood o Feeders o Stockers Other Type of Livestock: Type of Dairy o Milking o Dry o Heifers o Calves No. ofAnimals Number ofAnimals: Expanding Operation Only Previous Design Capacity: Additional Design Ca aciry: Total Design Capacity: Acreage Avlilable for Application: Z _ Required Acreage: A�W^e'�4./ Number of waste structures: % To�Capgcity� �7'!��Cubic Feet (ft3 ) Are subsurface drains present on the farm: YES or F (please circle one) tr4 e- ere r`s �ky. S � A D If YES: are subsurface drains present in the area of the waste structures (please circle one or both as applicable) Owner I Manager Agreement (we) verify that all the above information is correct and will be updated upon changing. I (we) understand the operation and maintenance procedures established in the approved animal waste management plan for the farm named above and will implement these procedures. 1 (we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a permit application and a new certification to be submitted to the Division of Water Quality (DWQ) and permit approval received before the new animals are stocked. 1 (we) understand that there must be no discharge of animal waste from the storage system to surface waters of the state unless specifically allowed under a permit from DWQ and there must not be run-off from the application of animal waste. I (we) understand that run-off of pollutants from lounging and heavy use areas must be minimized using technical standards developed by the USDA -Natural Resources Conservation Service (ARCS), The approved plan will be filed at the farm and at the DWQ Regional Office and the office of the local Soil and Water Conservation District (SWCD). I (we) know that any modification must be approved by a technical specialist and submitted to the DWQ Regional Office and local SWCD and required approvals received from DWQ prior to implementation. A change in farm ownership requires a permit application to be sent to DWQ along with a new certification (if the approved plan is changed). Name of Land wrier: ;J�rt-- c.- cam• ice.f�s� Signature:ILI Date: Name of Manager (it'different from owner): Signature: Date: r APPENDIX 2.5A Technical Specialist Certification L As a technical specialist designated by the North Carolina Soil and Water Conservation Commission pursuant to 15A NCAC 6H .0104, f certify that the animal waste management system for the farm named above has an animal waste management plan that meets or exceeds standards and specifications of the Division of Water Quality as specified in 15A NCAC 2T -1300 (Formerly 2H .0217) and the USDA -Natural Resources Conservation Service and/or the North Carolina Soil and Water Conservation Commission pursuant to 15A NCAC 2T .1300 (formerly 2H.021 17) and 15A NCAC 6F -0101-.0103. The following elements are included in the plan as applicable. While each category designates a technical specialist who may sign each certification (SD, Si, WUP, RC, 1). the technical specialist should only certify parts for which they are technically competent. II. Certification of Design A) Collection, Storage. Treatment Svstem Check the appropriate box • Existing factlih, without retrofit (SD or WUP) Storage volume is adequate for operation capacity; storage capability consistent with waste utilization requirements - 0 New ex anded or retrofitted facility (SD) Animal waste storage and treatment structures, such as but not limited to collection systems, lagoons and ponds, have been designed to meet or exceed the minimum standards and specifications. Name of Technical Specialist (Please Print): /D,4 -/ 3.4: z - Affiliation I/ -C - f oo V, T _s671,, -/cam _ Date Work Completed:,rAfe=ze/.ar,oJsr 4,J17 Address (Agency), S5 A 2; ca Z ���r Ac C' L j .� ��.1 Phone No.: Signature al�� _ _ c ' Date: /4 -a ;-- -:2-47o I _ B) Land Agplication Site (WUP) The plan provides for minimum separations (buffers); adequate amount of land for waste utilization; chosen crop is suitable for waste management; and the hydraulic and nutrient loading rates are appropriate for the site and receiving crop. Name of Technical Specialist (Please Print): Affiliation C .C'dv r s�r>t/,s'a.1 s�'/t ��; t Date Work Completed: Address (A Signature: C r-r� c- elk 6 ,�:7 r_[' ,'� ��J Phone No.: y — _ 714r Date: 4 } -2 uo C) Runoff Controls from Exterior Lots Check the appropriate box a Facility without exterior lots (SD or WUP or RC) This facility does not contain any exterior lots. o Facilitv with exterior lots (RC) 4lethods to minimize the run off of pollutants from lounging and heavy use areas have been designed in accordance with technical standards developed by NRCS. Name of Technical Specialist (Please Print): 1� .gJ Affiliation x -f C. el xre: fl:>,a j _f .c cu, c.r Date Work Completed: Address (Agency): -��; A ,� �� ! 1�.�c� /��f C 1, _k_r A . C.Phone No.: f1a_ �r5y - 716' / Signature: Jam- - Date: 0 -0-, � e o APPENDIX 2.5A D). A_pp]ication and Handling Equipment Check the appropriate bot • Existing or expanding facility with existing, waste application equipment (WUP or 1) Animal waste application equipment specified in the plan has been either field calibrated or evaluated in accordance with existing design charts and tables and is able to apply waste as necessary to accommodate the waste management plan: (existing application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates, a schedule for timing of applications has been established; required buffers can be maintained and calibration and adjustment guidance are contained as pan of the plan)_ New, expanded, or existing facility without existing waste application equipment for spray irrigation. (1) Animal waste application equipment specified in the plan has been designed to apply waste as necessary to accommodate the waste management plan; (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates; a schedule for timing of applications has been established; required buffers can be maintained; calibration and adjustment guidance are contained as part of the plan), New, expanded, or existing facility without existing waste application equipment for land spreadin_ not using spray irrisation. (WUP or l) Animal waste application equipment specified in the plan has been selected to apply waste as necessary to accommodate the waste management plan; (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates; a schedule for timing of applications has been established; required buffers can be maintained; calibration and adjustment guidance are contained as part of the plan). Name of Technical Specialist (Please Print):_ ,4,kl 15?A,. L:F 7' Affiliation-0,91X,GX� �.✓�%vJ S ✓�c r Date Work Completed: Address (Ag=zjqy):C/,:j 71, -1 ^Phone No_: ',710, 7/4 9 ,C . Date: / p - 0 — 2 uv�t E) Odor Control Insect Control Mortalitv Management and Emergency Action Plan tSD S1, WUP, RC or 1) The waste management pian for this facility includes a Waste Management Odor Control Checklist, an Insect Control Checklist, a Mortality Management Checklist and an Emergency Action Plan, Sources of both odors and insects have been evaluated with respect to this site and Best Management Practices to Minimize Odors and Best Management Practices to Control Insects have been selected and included in the waste management pian. Both the Mortality Management Plan and the Emergency Action plan are complete and can be implemented by this facility. Name of Technical Specialist (Please Print):_ 17W�✓ 2Y,4, L Y_ Affiliation ("9,0- r <�.� �,'c Date Work Completed: Address Signa Phone No.: 7/o— - � L -'7) 6 Date: r o - c' 2LL 10 F) Written Notice of New or Expanding Swine Farm The following signature block is only to be used for new or expanding swine farms that begin construction after June 31, 1996. 1f the facility was built before June 21, 1996, when was it constructed or last expanded I (we) certify that I (we) have attempted to contact by certified mail all adjoining property owners and all property owners who own properry located across a public road, street, or highway from this new or expanding swine farm. The notice was in compliance with the requirements of NCGS 106-805. A copy of the notice and a list of the property owners notified are attached. Name of Land Owner: Signature: Date: Name of Manager (if different from owner): Signature: Date: APPENDIX 2.5A 1I1. Certification of Installation A) Collection, Storage, Treatment Installation Ne�v, expanded or retrofitted facility (SI) Animal waste storage and treatment structures, such as but not limited to lagoons and ponds, have been installed in accordance with the approved plan to meet or exceed the minimum standards and specifications. For existin- facilities without retrofits, no certification is necessary. Name of Technical Specialist (Please Print): Affiliation Date Work Completed. Address (Agency): Signature: B) Land Application Site (WUP) Phone No.: The cropping system is in place on all land as specified in the animal waste management plan. Name of Technical Specialist (Please Print): Affiliation (,2 gg- �EK -,s" £xt_ ✓ r _ _ Date Work Completed: V S No.: /�; S� - '7/1, C) Runoff Controls from Exterior Lots (RC) Facilitv with exterior lots Methods to minimize the run off of pollutants from lounging and heavy use areas have been installed as specified in the plan. For facilities without exterior lots, no certification is necessary. Name of Technical Specialist (Please Print): Affiliation _ _ Date Work Completed: Address (Agency): Phone No.:, Signature: _ Date: D) Application and Handlint Equipment Installation (WUP or 1) R Animal waste application and handling equipment specified in the plan is on site and ready for use; calibration and adjustment materials have been provided to the owners and are contained as part of the plan. o animal waste application and handling equipment specified in the plan has not been installed but the owner has proposed leasing or third party application and has provided a signed contract; equipment specified in the contract agrees with the requirements of the plan. required buffers can be maintained; calibration and adjustment guidance have been provided to the owners and are contained as pan of the plan_ Name of Technical Specialist (Please Print): D•9 --J_ Affiliation_:� L/_i c"-�;=�, _-J� '� _ Date Work Completed: Address ( v): S 14' Phone No.: `l'e- 2?.. -- 71 C i s - Signatu � `� - Date: 1 0 - 0 APPENDIX 2.5A E) Odor Control. Insect Control and Mortality Management (SD, Si. WUP. RC or I) Methods to control odors and insects as specified in the Plan have been installed and are operational. The mortality manaiacment system as specified in the Plan has also been installed and is operational - Name of Technical Specialist (Please Print): _ /29J z -jt Affiliation rf --f Z-4 er Date Work Completed: Address (Age` ): S;_�,�. cr,4//�AG'� r'/iJ Phone No.: �' c) ) z `li(e1 Signature: C. Date: 10 - 0 5- - a OO Please return the completed form to the Division of Water Quality at the following address: Department of Environment and Natural Resources Division of Water Quality Animal Feeding Operations Unit 1636 Mail Service Center Raleigh, NC 27699-1636 Please also remember to submit a copy of this form along with the complete Animal Waste Management Plan to the DWQ Regional Office and the local Soil and Water Conservation District Office and to keep a copy in your riles with your Animal Waste Management Plan. IRRIGATION EQUIPMENT FLONV iNIETER FIELD CALIBRATION !LOCATION: J sfj S."- ✓r' Phone: DATE OF FIELD CALIBR-ATION: (- /;. 3/09 FL0N%' METER SERIAL NUMBER: REEL/GUN/SPRINKLER MAKE AND MODEL: 04101=e -j (see reverse for solid set sNstem) 7 9_3 ,IEASURED RING SIZE (from irrigation design): /. .2 G inches /f s ring within .01" of expected manufacturer size? C f ►tot, ring mast be replaced. PRESSURE READINGS AT PUMP: psi AT REEL: T psi AT GUN: 6 psi LONv RATE (GP I) from manufacturers chart ind flow teeter readout) NETTED DIAMETER (ft) (see wettable acres determination for expected diameter) EXPECTED: MEASURED VARIANCE: (optional) (optional) (required) J �� ;0,12M 2 i -)anm F; % EXPECTED: -� z•—of t MEASURED- _ Z7 7 ft VARIANCE: le 1If wetted diameter is greater than 1�% or flow rate variance is greater than 10%, 'contact a Certified Technical Specialist or irrigation specialist for assistance. ;And/or Explain findings: i CALIBRATOR: /�r (print name) Phone: - (si,,nature) r ,r%ry k Ni% VR.Aril %&.r- ,.rr i Nivrkt� ;) COOPERATIVE �M[ EXTENSION - 1f�rp�n� i�r,y4•r:rr.�.u,r.f� ...:a ., IRRIGATION EQUIPMENT FLOWMETER FIELD CALIBRATION LOCATION: phime: jVATE OF FIELD CALIBRATION: 14/-1 s 1) iFLOW METER SERIAL `UMBER: 4 REELIGUN/SPRI`KLER MAKE AND MODEL: A:ef e- A3- 1": !(see reverse for solid set system) .1e J-1; INILASURED RING SIZE (from irrigation design): /..z 6, inches (1.2 s Is ring within .01" of expected manufacturer size? v I, f' not, ring must be replaced. ;PRESSURE READINGS AT PUMP: nsi (optional) AT REEL: psi (optional) AT GUN:psi i (required) I FLOW RATE (GPNI) EXPECTED: 1�r anm '(from manufacturers chart MEASURED: .� and flow meter readout) VARIANCE: D % i DIAMETER (ft) EXPECTED: .1a ft I'WETTED r(see wettable acres determination MEASURED: R ft Ifor expected diameter) 1 VARIANCE: l:z— % jlf wetted diameter is greater than 1a% or flow rate variance is greater than 10%, contact a Certified Technical Specialist or irrigation specialist for assistance. }And/or Explain findings: r -- (print name) (sinature) Phone: - ,1 err, t N;i% 4:k;rr) ITL t \A 1.It, N) NCCOOPERATIVE AIIIIIIIIIIIIIIII EXTENSION - lJ�ilrb:� r u•pL• Pyr! .ti ,,,, �, lr�f� .ri „rt r IRRIGATIO-N EQUIP-NIENT FLOW METER i FIELD CALIBRATION LOCATION: _J -r 1J Phone: ;DATE Of FIELD CALIBR-ATION: "? vg FLOW METER SERIAL NUMBER: REEL/GU /SPRINKLER -NIaKE AND MODEL: t(see reverse for solid set system) 1 MEASURED RING SIZE (from irrisation design): /. ;Z G inches 1s ring within .Q 1" of expected manufacturer size" .,., ��43,.�� If not, rin; must be replaced PRESSURE READINGS AT PUMP: _ psi (optional) AT REEL: psi (optional) AT GUN: psi (required) FLOW RATE (CPM) EXPECTED: 2 upm !(from manufacturers chart MEASURED: a;�)Rpm land flow meter readout) VARIANCE: 0% VETTED DIAMETER (ft) EXPECTED: 3� C-' ft see wettable acres determination MEASURED: I U ft or expected diameter) VARIANCE: / 1f wetted diameter is greater than 13% or flow rate variance is greater than 10%, contact a Certified Technical Specialist or irrigation specialist for assistance. And/or Explain findings: ' i - CALIBRATOR: - (print name) 0 -ii -nature) r , Phone: - - NC.f►fF. t `i� F.Ra'1'1 COOPERATIVE EXTENSION IRRIGATION EQUIPMENT FLOW iNIETER FIELD CALIBRATION LOCATION: J I,-) hone: DATE OF FIELD CALIBRATION: 6/a -3/fl g FLOW METER SERIAL NUMBER: ,(/W kle !S r Mrd REEL/GUN/SPRINKLER MAKE AND MODEL: (see reverse for solid set system) MEASURED RING SIZE (from irrigation design): f ..26, inches 0-2 57 -yo Is ring within .01" of erected manufacturer size`' VTrot, ring must be replaced. PRESSURE READINGS AT PUMP: psi (optional) AT REEL: nsi (optional) AT GUN: r) 12si (required) FLOW RATE (GPM) EXPECTED:, 9nm (from manufacturers chart MEASURED: 121:,-- and , and flow meter readout) VARIANCE: n % VETTED DIAMETER (ft) see wettable acres determination 'or expected diameter) EXPECTED: o ft MEASURED: ft VARIANCE: 1 n i i If wetted diameter is greater than 15% or flow rate variance is greater than l6°/n, j contact a Certified Technical Specialist or irrigation specialist for assistance. !� IAnd/or Explain findings: l i ,• ,moi j CALIBRATOR: (print name) (signature) Phone: - - NC,`F%FF L N'1N F.k,<Fr1 ,&r>rN. .,�i Nig Fp--nN COOPERATIVE �111111 EXTENSION it rlpin; i _.y,lr Par .tarn.. 4,f; ., Y.rq To: Animal Feeding Operations — Division of Farm Name: J&W Swine Co. Inc. Facility No.: 82-576 Certificate of Coveraee No. : AWS820576 Subject : Animal class change Tech_ Spec.: Dan Bailey RECEIVED Water Qua] it' OCT G 81r1 OENR-FA1tTMEREMNALURCE The above referenced facility is applying for an animal class change from 1600 Farrow - Finish to 16,794 Feeder- Finish. The steady state live weight per animal Farrow -Finish is 1417 lbs.. The steady state live weight per animal unit for Feeder- Finish is 135 lbs.. The total steady state live weight of 2,267,200 lbs. divided by the 135 lbs. equals 16,794 head Feeder- Finish. An animal waste management plan certification is included along with a revised waste utilization plan. Tech. Spec. Signature QC-%-o)`-moi`"/ Date Owners Signature r� Date Nutrient Management Plan For .animal Waste Utilization This plan has been prepares! for: This plain has been developed by: Developer Signature Type of Plan: Nutrient Management with Manure Only 0-vner/Manager/Producer Agreement I (we) understand and agree to the specifications and the operation and maintenance procedures established in this nutrient management plan which includes an animal waste utilization plan for the farm named above. 1 have read and understand the Required Specifications concerning animal waste management that are included with this plan. 2Z��6= Z -a- Z �-2 2 5ienature (owner? Date Signatur; (manager or producer) Date Plan .approved 6.•: I-— ��- J / n - o J — �v v i i _,111nC�sk I�CCI�SIl;i Si= iatur: L/ Dates ,t)6�)6 Dataoasc V_r;iun 3 I C�v�r Passe i :A� .. a R N E! I ` 6o, 11yu'YNt104vj mm"'14091" SAYMNS)tk !O NOMAto NO11Y11104?NY1IE lO JrQWjIvaa . .N .50W 'S guav '1503 wNIWON Y lY 3nand 3141 Of 115"VAY MY dYW SINI dO S31d02p NOSdWVS Nutrients applied in accordance with this plan will be supplied from the folio%%ing source(s): s�✓,.�c �i'✓,`s,y._JG Coinnierz,iak is nk;( Mcluded its tl:is pian. I St✓. �.- t' � J ,y rj Li l i�= ,� i / �/� ! u 7-- C ' / lc s-�` � 8 5f-�s4 /�w.J Estimated Pounds OC Plant .Avaitable Nitro_en Generated per Year Broadcasi Incorporated Injecred l rri;ated g Max. Avail. PAN (lbs) Actual PAN �F ,,lbs) PAN Surplus,` DefciiiEs Volume �F (Gallons) Volume Surplus/ Deficit (Gallons) Year 1 g 6,2 7 l -•�, 2q 717 3 0`4> --154 V, ! 76 Waste Utilization Pian Notes: 82-576 1. This waste plan has five rotational crop sequences noted asip an 1-5. Each rotation or combination of rotations may occur in any given year. 2. Any crop following soybeans should have its nitrogen requirement reduced by 20 lbs./acre/year. 3. The application of nitrogen to wheat is split into a fall and spring recommendation. The application is noted by (parenthesis). APPENDIX 1.1A Animal %Vaste application «`indowst For Common Crops NV'hich Receive :animal Waste These application windows include 30 days prior to planting and ureenup of Bmnuulairass. Ead 30 da%•s before harvest. Bermudagrass Small Grain Overseeded in Berrnudauass Corn Cotton Bevin March I'` BeL_nn October 1'' Begin February 151h Begin March 15`h End September 30`t' End March 31'` End June 30`h End August 1" Cucumbers - Direct consumption Begin March 15' (100 % at planting) - For Processing Begin April I" End lklay 315f (? seasons) Begin July I'` End .August 31'' Rve Begin September I" End N (arch 31'' Barley, Oats. Triticale Begin September l" End April 15th Wheat Begin September 13' End .April ) Peanuts Begin .April 13' End September 30'h Sorghum/ Begin March 13`h End Auaust 31'` Sudan Grass Hav Soybeans Begin April I'` End September 15 h Tobacco Flue Cured Benin March l '�'h End lune 30'J' - Burlev Be1,in %-Ia%• 13`h End .August 1;th Fescue' Be in AWILIst I'` End ful� ;1;` Dutcs ihimil rcpr_,cn[ ;tag. [Jc hrtiiz; i'luntim! .tog h:[ne,t[mt J;IUN tiUr. ,c:LI,i;he ;t.nc mid Cwm .car su .ti �ar '<cluttl •:alucS ,halt relied ii[e ;pcaric -ordaimis and to no �:uc .ttlo« ,tpplicmion more Ihan _ober ',il .Los arior m iiant m_ hrcaking Jorn;%% :u tics+ than it) dins iefur: hxr.cit Sec• (;cncral i'_rmit :Of 10A0d :rupi ihmmatm - lint[ '% applicatum 1„rtn: 111tx .U,LI Jui% no nttrnecn in Decrnibcr mJ lmuar% i'[edrn�inll CuaStaJ:'fa[.1 ;[nttl `.tpplicatntn1ur:a_ June.md Jai Mr:u[r•rcn:n!k_:u[d Len iur,n•, Waste Utilization Plan Facility No: 82-576 Plan 1 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215/50 3.023 IR 801 P3 GoA BP/OS 4.9T 222/50 2.829 IR 769 P8 WaB BP/OS 4.IT 197/50 1.899 IR 469 P9 WaB BP/OS 4.1 T 197/50 5.561 IR 1374 P10 WaB BP/OS 4.IT 197/50 5.561 IR 1374 P20 WaB BP/OS 4.IT 197/50 6.026 IR 1488 P21 WaB BP/OS 4.IT 197/50 6.026 IR 1488 P22 Ra BP/OS 3.4T 146/50 4.155 IR 814 P23 Ra BP/OS 3.4T 146150 3.145 IR 616 P24 WaB BP/OS 4.1 T 197/50 2.786 IR 688 P29 Au BP/OS 4.1T 197150 3.604 1R 890 P30 Au BP/OS 4.1 T 197150 .66 IR 163 P31 Au BP/OS 4.1T 197/50 3.792 IR 937 P32 Au BP/OS 4AT 197/50 _66 IR 163 P33 Au BPIOS 4.1T 197150 4.873 IR 1204 P34 Au BP/OS 4.]T I97/50 4.I73 IR 1031 P35 Au BP/OS 4.1 T 197/50 4.40 IR 1087 P46 WaB BP/OS 4.IT 197/50 7.065 IR 1745 T575 I WaB BP/OS 4.IT 197/50 2.5 BR 618 TNew09 PI GoA SA/WA 110/100 1.610 IR 338 P4 GoA SA/WA 110/100 4.163 IR 874 P5 GoA SA/WA 110/100 3.876 IR 814 P6 NoB SA/WA 110/100 3.015 IR 633 P7 NoB SA/WA 110/100 3.260 IR 685 PH NoB SA/WA 110/100 4.163 IR 874 P12 NoB SA/WA 110/100 3.374 IR 709 P13 NoB SA/WA 110/100 3.580 IR 752 P14 NoB SA/WA 1101100 1.876 1R 394 P15 NoB SAMA 110/100 4.981 1R 1046 P16 NoB SA/WA 110/I00 3.744 IR 786 P17 NoB SA/WA 110/100 2.942 IR 618 Pis NoB SA/WA 110/100 3.446 IR 724 P19 NoB SA/WA 110/100 6.548 IR 1383 P38 Au SA/WA 1101100 5.618 IR 1180 P39 NoA SA/WA 110/100 2.034 IR 427 P40 NoA SA/WA 110/100 3.735 1R 784 P41 NoB SA/WA 1101100 2.154 IR 452 P42 NoA SA/WA 110/100 3.971 IR 834 P43 NoA SAIWA 110/100 5.607 1R 1177 P44 NoA SA/WA 110/100 1.733 1R 364 P45 NoA SA/WA 110/100 2.238 IR 470 T477 *2 NoA SA/WA 1101100 17.39 BR/SI 3652 1605 *1 NaA SA/WA 1101100 38 BR/S] 7980 * Leased Land () : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576 Plan l * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required -71,-763 f - .9s, Nitrogen Produced- z 4 L d� Balance *2 NoB SA/WA 110/100 5.71 BR/Sl 1199 T573 I Au SA/WA 1101100 13 BRIS] 2730 T10808 1 NoA SA/WA 110/100 27.31 BR/SI 5375 T556 2 NoB SAMA 110/100 16.60 BR/SI 3486 T476 I Au I SA/WA 1101100 13.5 BR/SI 2835 T617 *1 NoB SA/WA 1101100 20.86 BR/SI 4381 T1371 1 NoA SA/WA 1101100 6.36 BR/SI 1336 2 NoB SA/WA 110/100 10.80 BR/SI 2268 TNew09 E47 WaB SA/WA 110/100 5.913 IR 1242 E48 WaB SA/WA 110/100 6.009 IR 1262 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required -71,-763 f - .9s, Nitrogen Produced- z 4 L d� Balance Waste Utilization Plan Facility No: 82-576 Plan2 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215/50 3.023 IR 801 P3 GoA BP/OS 4.9T 222/50 2.829 1 IR 769 P8 WaB BP/OS 4.IT 197/50 1.899 IR 469 P9 WaB BP/OS 4.IT 197150 5.561 IR 1374 NO WaB BP/OS 4.IT 197/50 5.561 IR 1374 P20 WaB BP/OS 4.IT 197150 6.026 IR 1488 P21 WaB BP/OS 4AT 197/50 6.026 IR 1488 P22 Ra BP/OS 3AT 146150 4.155 IR 814 P23 Ra BP/OS 3.4T 146/50 3.145 IR 616 P24 WaB BP/OS 4AT 197/50 2.786 IR 688 P29 Au BP/OS 4.1T 197/50 3.604 IR 890 P30 Au I BP/OS 4.IT 197/50 .66 IR 163 P31 Au BP/OS 4.1 T 197/50 3.792 TR 937 P32 Au BP/OS 4.1T 197150 .66 1R 163 P33 Au BP/OS 4.1 T 197/50 4.873 iR 1204 P34 Au BP/OS 4AT 197/50 4.173 IR 1031 P35 Au BP/OS 4.IT 197/50 4.40 1R 1087 P46 WaB BP/OS 4AT 197/50 7.065 1R 1745 T575 1 WaB BP/OS 4.1T 197/50 2.5 BR 618 TNew09 PI GoA CR/WHT 129/64 1251120(50) 1.610 IR 282 P4 GoA CR/WHT 129/64 125/120(50) 4.163 IR 729 P5 GoA CR/WHT 129/64 125/120(50) 3.876 IR 678 P6 NoB CR/WHT 111/58 )25/120(50) 3.015 1R 528 P7 NoB CR/WHT 111/58 125/120(50) 3.260 IR 571 PH NoB CR/WHT 111158 125/120 50) 4.163 IR 729 P12 NoB CRIWHT 111/58 125/120 (50) 3.374 IR 590 P13 NoB CR/WIIT 111/58 125/120(50) 3.580 IR 627 PI4 NoB CR/WHT 111/58 125/120(50) 1.876 IR 328 P15 NoB CR/WHT 111/58 1251120(50) 4.981 IR 872 P16 NoB CR/WHT 111/58 125/120(50) 3.744 1R 655 Pl7 NoB CR/W14T 111/58 125/120(50) 2.942 IR 515 P18 NoB CR/WHT 111158 125/120(50) 3.446 1R 603 P19 NoB CR/WHT 111158 125/120(50) 6.549 IR 1146 P38 Au CR/WHT 83144 941102(50) 5.618 IR 809 P39 NoA CR/WHT 115/60 125/120(50) 2.034 IR 356 P40 NoA CR/WHT 115/60 125/120(50) 3.735 IR 654 P41 NoB CR/WHT 111/58 125/120 50) 2.154 IR 377 P42 NoA CR/WHT 115/60 125/120(50) 3971 IR 695 P43 NoA CR/WHT 115/60 125/120(50) 5.607 IR 981 P44 NoA CR/WHT 115160 125/120 50 1.733 IR 303 P45 NoA CR/WHT 115/60 1251120(50) 2238 IR 392 T477 *2 NoA CR/WHT 115/60 125/120(50) 17.39 BR/SI 3043 T605 *1 NoA CR/WHT 115/60 125/120 (50) 38 BR/SI 6650 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576. Plant * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required (d_/, 6 V z Le:% . Nitrogen Produced -3 81, (,2.G L 8 5 Balance 23 o! ` L 35; *2 NoB CR/WHT 111/58 125/120(50) 5.71 BR/SI 999 T573 1 Au CR/WIHT 83/44 94/102(50) 13 BR/SI 1872 T10808 1 NoA CR/WHT 115/60 125/120(50) 27.31 BR/SI 4779 T556 2 NoB CR/WHT 111/58 1251120(50) 16.60 BR/SI 2905 T476 1 Au CR/WHT 83/44 94/102(50) 13.5 BR/SI 1944 T617 *'1 NoB CR/WHT 11I158 125/120(50) 20.86 BR/SI 3651 T1371 I NoA CR/WHT 115/60 125/120(50) 6.36 BR/SI 1113 2 NoB CR/WHT 111/58 125/120(50) 10.80 BR/SI 1890 TNew09 E47 WaB CR/WHT 73/39 89/91(50) 5.913 IR 822 E48 WaB CR/WHT 73/39 89/9](50) 6.009 IR 835 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required (d_/, 6 V z Le:% . Nitrogen Produced -3 81, (,2.G L 8 5 Balance 23 o! ` L 35; Waste Utilization Plan Facility No: 82-576 Plan 3 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215/50 3.023 1R 801 P3 GoA BP/OS 4.9T 222/50 2.829 1R 769 P8 WaB BP/OS 4.1T 197/50 1.899 1R 469 P9 WaB BP/OS 4.1T 197/50 5.561 1R 1374 P10 WaB BP/OS 4.1T 197/50 5.561 IR 1374 P20 WaB BP/OS 4.1 T 197/50 6.026 IR 1488 P21 WaB BP/OS 4.1T 197/50 6.026 1R 1488 P22 Ra BP/OS 3AT 146150 4.155 IR 814 P23 Ra BP/OS 3AT 146/50 3.145 IR 616 P24 WaB BP/OS 4.1T 197150 2.786 1R 688 P29 Au BP/OS 4.1T 197150 3.604 IR 890 P30 Au BP/OS 4.IT 197/50 .66 IR 163 P31 Au BP/OS 4.1T 197150 3.792 1R 937 P32 Au BP/OS 4.IT 197/50 .66 IR 163 P33 Au BP/OS 4.IT 197150 4.873 IR 1204 P34 Au BP/OS 4.1T 197150 4.173 IR 1031 P35 Au BP/OS 4.1 T 197/50 4.40 IR 1087 P46 WaB BP/OS 4.IT 197/50 7.065 1R 1745 T575 I WaB BP/OS 4.1 T 197/50 2.5 BR 618 TNew09 P1 GoA WHT/SEDC 64/38 70120/132 1.610 IR 325 P4 GoA WHT/SBDC 64/38 (70120/132 4.163 IR 841 P5 GoA WHT/SBDC 64/38 (701201132 3.876 1R 783 P6 NoB WHT/SBDC 58/34 70120/132 3.015 IR 609 P7 NoB WHT/SBDC 58/34 (70120/132 3.260 1R 659 P11 NoB WHT/SBDC 58/34 701201132 4.163 IR 841 P12 NoB WHT/SBDC 58/34 (70120/132 3.374 IR 682 P13 NoB WHT/SBDC 58/34 (701201132 3.580 1R 723 P14 NoB WHT/SBDC 58/34 (N)120/132 1.876 IR 379 P15 NoB WHT/SBDC 58134 (70120/132 4.981 IR 1006 P16 NoB WHT/SBDC 58/34 70120/132 3.744 IR 756 P17 NoB WHT/SBDC 58/34 70120/132 2.942 IR 594 P18 NoB WHT/SBDC 58134 (701201132 3.446 1R 696 P19 NoB WHT/SBDC 58134 70120/132 6.548 IR 1323 P39 Au WHT/SBDC 44/24 (52 102196 5.618 1R 831 P39 NoA WHT/SBDC 60/35 (70120/132 2.034 1R 411 P40 NoA WHT/SBDC 60/35 (70120/132 3.735 1R 754 P41 NoB WHT/SBDC 58134 70120/132 2.154 IR 435 P42 NoA WHT/SBDC 60/35 (70120/132 1971 IR 802 P43 NoA WHT/SBDC 60/35 70120/132 5.607 IR 1133 P44 NoA WHT/SBDC 60135 (70)120/132: 1.733 IR 350 P45 NoA WHT/SBDC 60/35 (70120/132 i 2.238 IR 452 T477 *2 NoA WHT/SBDC 60/35 (70120/132 17.39 BR/SI 3513 T605 •1 NoA WHT/SBDC 60/35 (70)[20/132 38 BR/SI 7676 * Leased Land { ) : Spring Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CR: Corn MMT: Wheat Nitrogen Required ,AIr'Yi C' Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576 Plan 3 * Leased Land ( ) : Spring, Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required 6 y 4(S-7 1 3s . Nitrogen Produced 39 4- z G z -,3-Y. - 7 - Balance -3s - Balance Lf3S *2 NoB WHT/SBDC 58134 (70)120/132 5.71 BRISI 1153 T573 1 Au WHT/SBDC 44124 52102/46 13 BR/Sl 1924 T10808 I NoA WHT/SBDC 60/35 70)120/132 27.31 BR/SI 5517 T556 2 NoB WHT/SBDC 58/34 (70)120/132 16.60 BRJSI 3353 T476 I Au WHT/SBDC 44/24 52102/96 13.5 BR/SI 1998 T617 *1 NoB WHT/SBDC 58134 70120/132 20.86 BR/SI 4214 T1371 1 NoA WHT/SBDC 60135 70120/I32 6.36 BR/SI 1285 2 NoB WHT/SBDC 58/34 (70)_] 20/132 10.80 BR/SI 2182 TNew09 E47 WaB WHTISBDC 39/22 4191/88 5.913 IR 763 E48 WaB WHT/SBDC 39/22 4191/88 6.004 1 IR 775 * Leased Land ( ) : Spring, Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CR: Corn WHT: Wheat Nitrogen Required 6 y 4(S-7 1 3s . Nitrogen Produced 39 4- z G z -,3-Y. - 7 - Balance -3s - Balance Lf3S Waste Utilization Plan Facility No: 82-576 Plan 4 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215/50 3.023 IR 801 P3 GoA BP/OS 49T 222/50 2.829 IR 769 P8 WaB BP/OS 4.IT 197/50 1.899 IR 469 P9 WaB BP/OS 4.IT 197/50 5.561 IR 1374 PIO WaB BP/OS 4.IT 197150 5.561 IR 1374 P20 WaB BP/OS 4.1T 197150 6.026 IR 1488 P21 WaB BP/OS 4.IT 197/50 6.026 IR 1488 P22 Ra BP/OS 3AT 146/50 4.155 IR 814 P23 Ra BP/OS 3 AT 146150 3.145 IR 616 P24 WaB BP/OS 4.IT 197/50 2.786 IR 688 P29 Au BP/OS 4.1 T 197/50 3.604 IR 890 P30 Au BP/OS 4.1T 197/50 .66 IR 163 P31 Au BP/OS 4.IT 197/50 3.792 IR 937 P32 Au BP/OS 4.IT 197150 _66 1R 163 P33 Au BP/OS 4.1 T 197150 4.873 IR 1204 P34 Au BP/OS 4.1 T 197/50 4.173 IR 1031 P35 Au BP/OS 4.1T 197150 4.40 IR 1087 P46 WaB BP/OS 4.1T 197150 7.065 IR 1745 T575 1 WaB BP/OS 4AT 197/50 2.5 BR 618 TNew09 Pi GoA CT/WHT 921/64 89/120(50) 1.610 IR 224 P4 GoA CTIWHT 921/64 89/120(50) 4.163 1R 579 P5 GoA CT/WHT 921/64 89/120(50) 3.876 IR 539 P6 NoB CT/WHT 846/58 75/120(50) 3.015 1R 377 P7 NoB CTIVVHT 846158 75/120(50) 3.260 IR 408 PH NoB CTIWHT 846/58 75/120(50) 4.163 IR 520 P12 NoB CT/WHT 846/58 75/120(50) 3.374 IR 422 P13 NoB CTIWHT 846/58 75/120(50) 3.580 IR 448 P14 NoB CT/WHT 846/58 751120(50) 1.876 IR 235 P15 NoB CT/WHT 846/58 75/120(50) 4.981 IR 623 P16 NoB CT/WHT 846/58 75/120(50) 3.744 IR 468 P17 NoB CT/WHT 846158 75/120(50) 2.942 IR 368 P18 NoB CT/WHT 846158 75/120(50) 3.446 IR 431 P19 NoB CT/WHT 846/58 75/120(50) 6.548 IR 819 P38 Au CTIWHT 683/44 75/102(50) 5.618 IR 702 P39 NoA CTIWHT 871/60 751120(50) 2.034 IR 254 P40 NoA CT/WHT 871/60 75/120(50) 3.735 IR 467 P41 NoB CT/WHT 846/58 751120(50) 2.154 IR 269 P42 NoA CT/WHT 871/60 75/120(50) 3.971 IR 496 P43 NoA CT/WHT 871/60 75/l20(50)_5.607 IR 701 P44 NoA CTIWHT 871/60 75/120(50) 1.733 IR 217 P45 NoA CT/WHT 871/60 75/120(50) 2.238 IR 280 T477 *2 NoA CTIW14T 871/60 75/I20(50) 17.39 BR/SI 2174 T605 *1 NoA CT/WHT 871160 75/120(50) 38 BR/S] 4750 * Leased Land O : Fall Application WA: Winter Annual SA: Summer Annual SBDC: Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required ,y� r: p,o` y , Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576 Plan 4 * Leased Land { ) : Fall Application WA: Winter Annual SA: Summer Annual SBDC. Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required So / to. -s7 _ Nitrogen Produced 2 G L 6S Balance *2 NoB CT/WHT 846/58 75/120(50) 5.71 BR/SI 714 T573 I Au CT/WHT 683/44 75/102 50 13 BR/S1 1625 T10808 1 NoA CT/WHT 871160 75/120(50) 27.31 MSI 3414 T556 2 NoB CT/WHT 846158 751120(50) 16.60 BRISI 2075 T476 I Au CT/WHT 683144 75/102(50) 13.5 BR/SI 1688 T617 *1 NoB CT/WHT 846/58 75/120(50) 20.86 BR/SI 2608 T1371 1 NoA CT/WHT 871/60 751120(50) 6.36 BR/SI 795 2 NoB CT/WHT 846158 75/120(50) 10.80 BR/SI 1350 TNew09 E47 WaB CT/WHT 635/39 71/9](50) 5.913 IR 715 E48 WaB CT/WHT 635/39 71/91(50) 6.009 IR 727 * Leased Land { ) : Fall Application WA: Winter Annual SA: Summer Annual SBDC. Soybean Double Cropped BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required So / to. -s7 _ Nitrogen Produced 2 G L 6S Balance Waste Utilization Plan Facility No: 82-576 Pian 5 Tract Field Soil Crop Yield Nitrogen Rate Lbs./Ac Acres Application Method Total Nitrogen Utilized TNew09 P2 NoB BP/OS 4.6T 215/50 3.023 IR 801 P3 GoA BP/OS 4.9T 222/50 2.829 IR 769 P8 WaB BP/OS 4.1 T 197150 1.899 IR 469 P9 WaB BPIOS 4.1T 197/50 5.561 IR 1374 PIO WaB BP/OS 4.IT 197/50 5.561 IR 1374 P20 WaB BP/OS 4.1 T 197/50 6.026 IR 1488 P21 WaB BP/OS 4.1T 197/50 6.026 IR 1488 P22 Ra BP/OS 3AT 146/50 4.155 IR 814 P23 Ra BP/OS 3AT 146/50 3.145 IR 616 P24 WaB BP/OS 4.1T 197/50 2.786 IR 688 P29 Au BP/OS 4.1 T 197/50 3.604 IR 890 P30 Au BP/OS 4.1 T 197150 .66 IR 163 P31 Au BP/OS 4.1T 197/50 3.792 IR 937 P32 Au BP/OS 4.1T 197/50 .66 1R 163 P33 Au BP/OS 4AT 197/50 4.873 IR 1204 P34 Au BP/OS 4.IT 197150 4.173 IR 1031 P35 Au BP/OS 4AT 197/50 4.40 IR 1087 P46 WaB BP/OS 4.1T 197/50 7.065 IR 1745 T575 1 WaB BP/OS 4AT 197150 2.5 BR 618 TNew09 P GoA SBFS/WA 45bu. 160/100 1.610 IR 419 P4 GoA SBFS/WA 45bu. 160/100 4.163 IR 1082 P5 GoA SBFS/WA 45bu. 1601100 3.876 IR 1008 P6 NoB SBFS/WA 41 bu. I60/100 3.015 IR 784 P7 NoB SBFS/WA 41 bu. 160/100 3.260 IR 848 PH NoB SBFS/WA 41bu. 1601100 4.163 IR 1082 P12 NoB SBFS/WA 41 bu. 1601100 3.374 IR 877 P13 NoB SBFS/WA 41bu. 160/100 3.580 IR 931 P14 NoB SBFS/WA 41bu. 160/100 1.876 IR 488 P15 NoB SBFS/WA 41bu. 160/100 4.981 IR 1295 P16 NoB SBFS/WA 41bu. 160/100 3.744 IR 973 P17 NoB SBFS/WA 41bu. 160/100 2.942 IR 765 P18 NoB SBFS/WA 41bu. 1601100 3.446 IR 896 P19 NoB SBFS/WA 41bu. 160/100 6.548 IR 1702 P38 Au SBFS/WA 29bu. 115/100 5.618 IR 1208 P39 NoA SBFS/WA 42bu. 1601100 2.034 1R 529 P40 NoA SBFS/WA 42bu. 160/100 3.735 IR 971 P41 NoB SBFS/WA 41bu. 160/100 2.154 IR, 560 P42 NoA SBFS/WA 42bu. 160/100 3.971 IR 1032 P43 NoA SBFS/WA 42bu. 1601100 5.607 IR 1458 P44 NoA SBFS/WA 42bu. 1601100 1.733 IR 451 P45 NoA SBFS/WA 42bu. 1601100 2.238 IR 582 T477 *2 NoA SBFS/WA 42bu. 160/100 17.39 BR/Sl 4521 T605 "] NoA SBFS/WA 42bu. 160/100 38 BR/S1 9880 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required�v"94� Nitrogen Produced Balance Waste Utilization Plan Facility No: 82-576 Plan 5 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required 63, / 10 z --w5, Nitrogen Produced z G I- 6-f Balance — 4,1, /t py- e--eS •2 NoB SBFS/WA 41 bu. 1601100 5.71 BR/SI 1485 T573 1 Au SBFS/WA 29bu. 1151100 13 BR/SI 2795 T10808 1 NoA SBFS/WA 42bu. 1601100 27.31 BR/SI 7101 T556 2 NoB SBFS/WA 41bu. 160/100 16.60 BR/SI 4316 T476 1 Au SBFSIWA 29bu. 115/100 13.5 BR/Sl 2903 T617 * I NoB SBFS/WA 41bu. 1601100 20.86 BR/SI 5424 T1371 1 NoA SBFSIWA 42bu. 160/I00 6.36 BR/SI 1654 2 NoB SBFS/WA 41 bu. 1601100 10.80 BR/SI 2808 TNew09 E47 WaB SBFS/WA 29bu. 1151100 5.913 IR 1271 E48 WaB SBFS/WA I 29bu. 115/100 6.009 IR 1292 * Leased Land ( ) : Fall Application WA: Winter Annual SA: Summer Annual SBFS: Soybean Full Season BP: Bermuda Pasture OS: Overseed CT: Cotton WHT: Wheat Nitrogen Required 63, / 10 z --w5, Nitrogen Produced z G I- 6-f Balance — 4,1, /t py- e--eS Irrigation Notes 1.Application or precipitation rate is not to exceed the maximum application rate (in./hr.) of the soil type shown in table 1. 2.The application rate in (in./hr.) for a 1.26 ring nozzle @ SOpsi., 300ft. wetted diameter and a 330 degree arc angle is .468 in./hr. Mee the Travel Speed Column (ft./min.) in Table 2 to obtain the travel speed suggested to comply with the soil infiltration rates for each irrigation arc angle less than 330 degrees. IRRIGATION SYSTEM DESIGN PARAMETERS LandownerlOperator Name: s,- •— - G." . . Address: /ft %,, u ^,-y 'ed 7J� J.a+ N.C. �8337F Telephone: TABLE - Field S ecifications'� p County: Date: d 0 y 9 Field Numbef2 Approximate Maximum Useable Size of Field3 (acres) Sall Type Slope Crop(s) Maximum Applicatlon "'t+ inthr Maximum Application per Irrigation Cycle4 (inches) Comment's /,&/o GSA 3,02-3 o " a - (I �• G a . v 'Table to be completed in its entirety by Fieid Office personnel and forwarded to the irrigation system designer. =See attached map provided by the Field Office for field location(s). 3Total field acreage minus required buffer areas. 'Refer to N. C. Irrigation Guide, Field Office Technical Guide, Section II G. Annual application must not exceed the agronomic rates for the soil and crop used. Irrigation Parameters USDA -MRCS October 1995 page -1 North Carolina IRRIGATION SYSTEM DESIGN PARAMETERS Landowner/Operator Name: Address: IJ V je-, r_ t/, C R -b-1 33 :j- Telephone: TABLE 1 - Field Specifications t C r 1I;S Ti',t G� County: 5•-� Date: ;;L uo I Field Numbers Approximate Maximum Useahle size of Fields {acres) Sail Type Slope (%) I Craps Maximum Application Date+ (inlhr) Maximum Application per Irrigation Cycles (inches) Comments 2 -6 6,.FqS v 13 /_0). /- -7 -7 f� T4,,L /A} X r c U r ID- "S?3 2313 4, o - �? •� �3 4.17'.4,,- w yy fQ c.i 4, 3 5 S.A 'Table to be completed in its entirety by Field Office personnel and forwarded to the irrigation system designer, 2See attached map provided by the Field Office for field locations). 'Total field acreage minus required buffer areas. 'Refer to N. C. Irrigation Guide, Field Office Technical Guide, Section ll G. Annual application must not exceed the agronomic rates for the soil and crop used. Irrigalion Parameters USDA -MRCS October 1995 page -1 North Carolina IRRIGATION SYSTEM DESIGN PARAMETERS Landowner/Operator Name: _„i Address: Go C 1/w /zc H �r Telephone: TABLE 1 - Field Specifications' �� x•'� F�'^� G County:r����.-� Date: Field Number Appraximaie Maximum Useable Size of Field' (acres) Slope Soil Type (%) Crop(s) Maximum Appkation Rate+ (inthr Maximum Application per Irrigation Cy0e4 (Inches) Comments 3 ! , o / . Uo 7 s� - 0—_z �3 7 7/'3 df! vT2-- ;2. .2. A 3 $ rcJa � v � �— •• ��ff3 G e � lcJti > :2 ., 'Table to be completed in its entirety by Field Office personnel and forwarded to the irrigation system designer. 'See attached map provided by the Field Office for field location(s). 'Total field acreage minus required buffer areas. `Refer to N. C. Irrigation Guide, Field Office Technical Guide, Section ll G. Annual application must not exceed the agronomic rates for the soil and crop used. irrigation Parameters USDA -MRCS October 11995 page -1 North Carolina TABLE 2 - Traveling Irrigation Gun Settings Make, Made! and Type or Equipment: Field Na' and Hydrant Not Travel Speed (ftlmin) Application Rate (inlhr) TRAVEL LANE Effective Effective Width (H) Length (tt) EQUIPMENT SETTINGS Wetted Nozzle Operating Operating Diameter Diameter Pressure Pressure Arc (feet) (Inches) 4 Gun (psq Reel (psi) Patterns Comments ! „f i 00 30C, 3vo o ap /1 600 a` ar I �J 3 3 p a V �Dv 33o .20 7 33v .. pf3 .300 20 a 3-3-" Soo 33 ` 7 � G Z � 00 -_T 0 .2 S-6 1.00 2- .g 3 i ;71 ;2 o0 7r- �aJ I .277 �7 $�,' 33,' ;� .2 -i-- o05 05 Ivo S - I Y 3 30" 'See attached map provided by the Field Office for field location(s). 7Show separate entries for each hydrant rotation in each field. 'Use the following abbreviations for various arc patterns: F (full circle), TO (three quarters), TT (two thirds), H (half circle), 7 (one third), Q (one quarter), May also use degree of arc In degrees. Irrigation Parameters USDA -MRCS October 1995 page -2 North Carolina TABLE 2 - Traveling Irrigation Gun Settings Make, Model and Type of Equipment. Field Nn' and Hydrant Not Travel Speed (Itlmin) Application Rate (irVhr) TRAVEL LANE Effective Effective Width (R) Length (eij Wetted Nozzle Diameter Diameter (feet) (Inches] EQUIPMENT SETTINGS Operating Operating Pressure Pressure @ Gun (psi) @ Reel (psi) Arc Pattern3 Comments .2 S— 4-1c, 3,10' 1.24 fo I 3 3 0 Z.2I 3- '7 370" �3Q 3 00--3 • -?& Zro (, �—.b -? 33v' �n ;t?,?� 33,- 3A'3uo 3,o so -j i3 S. I -o 5'50 s o v b',.wu 17- y — S , .3 ,'— ZeL7 33 - IOW— , .2 5,0 0 1 7o t; IL 33v" v I 'See attached map provided by the Field Office for field locafion(s). 'Show separate entries for each hydrant location in each field. 'Use the following abbreviations for various arc patterns: F (fall circle), TO (three quarters), TT (two thirds), H (half circle), T (one third), Q (one quarter). May also use degree of arc in degrees, Irrigation Parameters USDA -MRCS October 1995 page -2 North Carolina Lagoon Notes 1. Effluent from lagoons #1,2,&3 will continue to be land applied in accordance with the waste plan, but will not have any waste discharging into them at this plan revision. 2. Lagoons #4&7 will remain per the original permit with (3200) and (4000) head respectively of feeder -finish animals. 3. Lagoons #5&6 will have (4250) and (2520) head respectively of feeder -finish animals. 4. Lagoons 44,5,6,&7 account for a total of 13,970 head feeder -finish of the total suggested permitted head of 16,794. 5. 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'"y�..9`3i � � „rl .•i.,:�'^:.,"a^' A - M ru;C.,.1��L:3�- � 1a 1� A.,.,�7 _� ,� •w - Lagoon Volume # 1.2.3 -1 •. Number- of ar-FQJ6- - F e ed a F ---p gig— (-8 3 9 ) Treatment volume should equal (433,260 cu. ft.) 2. Present lagoon dimensions # 1 (300 ft. x 75 ft. x 12 ft.) # 2 (230 ft. x 158 ft. x 10 ft.) equivalent area # 3 (150 ft. x 206 ft. x 12 ft.) equivalent area # 1 3:1 side slope # 2 1:1 side slope # 3 2:1 side slope 3. Rainfall - 25 yr. 1 day storm (above pipe) # 1 7/12 x 22,500 sq. ft. surface area (13,125 cu. ft.) # 2 7/12 x 36,340 sq. ft. surface area (21,198 cu. ft.) # 3 7/12 x 30,900 sq. ft. surface area (18,025 cu. ft.) 4. Freeboard 1 ft. (above pipe) # 1 22,500 cu. ft. # 2 36,340 cu. ft. # 3 30,900 cu. ft. 5. Rainfall less evaporation (below pipe) # 1 7/12 x 22,500 sq. ft. surface area (13,125 cu. ft.) # 2 7/12 x 36,340 sq. ft. surface area (21,198 cu. ft.) # 3 7/12 x 30,900 sq. ft. surface area (18,025 cu. ft.) 6. Actual lagoon volume at present below pipe. # 1 95,947 cu. ft. # 2 269,479 cu. ft. # 3 230,422 cu. ft. Total 595,848 cu. ft. 7. Actual volume = 595,848 cu. ft. Minus treatment area 433,260 cu. ft. Minus rainfall less evaporation 52,348 cu. ft. Equals temporary storage available of (110,240 cu. ft.) 8. Temporary storage calculation 433,260 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 584 cu. ft./day needed. 110,240 cu. ft. = 188 days 584 cu. ft./day Lagoon Volume # 4 Side Slope: 3 to 1 1. Number of head of finishing swine (3,200) Treatment volume should equal (432,000 cu. ft.) 2. Present lagoon dimensions (160 ft. x 400 ft. x 16 ft.) 3. Rainfall - 25 yr. 1 day storm (above pipe) 7/12 x 64,000 sq. ft. surface area (37,333 cu. ft.) 4. Freeboard 1 ft. (64,000 cu. ft.) (above pipe) 5. Rainfall less evaporation (below pipe) 7/12 x 64,000 sq. ft. surface area (37,333 cu. ft.) 6. Actual lagoon volume at present below pipe: volume = 545,967 cu. ft. 7. Actual volume = 545,967 cu. ft. minus treatment 432,000 cu. ft. minus rainfall less evap. 37,333 cu. ft. Equals temporary storage available of (76,634 cu. ft.) 8. Temporary storage calculation 432,000 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 583 cu, ft./day needed Temporary storage available 76,634 cu. ft. = 131.44 days 583 cu. ft./day Lagoon Volume # 5 1. Feeder -Finish 4 head 4,250 Treatment volume should equal (573,750 cu.ft.) 2.Present lagoon dimensions (depth taken from sludge survey) Section one (400ft. x125ft. x10.1OR.) Section two (225ft. x350ft. x10.10ft.) 3. Rainfall -25 yr. 1 day storm (above pipe) Section one -7/12 x50,000 sq.ft. (29,166 cu.ft.) Section two -7112 x78,750 sq.ft. (45,937 cu.ft.) 4.Fieeboard 1 ft. (above pipe) Section one -50,000 cu ft. Section two -78,750 cu.R. 5.Rainfall less evaporation (below pipe) Section one -7/12 x50,000 sq.ft. (29,166 cu.ft.) Section two -7112 x78,750 sq.ft. (45,937 cu.ft.) 6.Actual lagoon volume at present (below pipe) Section one -279,783 cu.ft. Section two -509,742 cu.ft. Total equals = 789,525 cu.ft. 7.Actual volume = 789,525 cu.ft. minus Treatment area (573,750 cu.ft.) minus Rainfall less evaporation (75,103 cu.ft.) equals Temporary storage available of (140,672) 8.Temporary storage calculation 573,750 lbs. of animal wt. x 1.35 cuft of waste per day per 1000 lbs.of animal wt. equals774.5 cu.ft. per dayof waste. A temporary storage volume available of 140,672 cu.ft. divided by 774.5 cu.ft. per day equals a temporary storage of 181.6 days. Lagoon Volume # 6 1. Feeder -Finish # head 252.0 Treatment volume should equal ( 340,200 cu.ft.) 2.Present lagoon dimensions (depth taken from sludge survey) Section one- ( 460ft. x120ft. x10.2ft.) Section two -(I 30ft. x220ft. x 10.2ft. ) 3.Rainfall 25yr. 1 day storm (above pipe) Section one- 7112 x55,000 sq.ft. = (32,200 cu.fl.) Section two- 7/12 x28,600 sq.ft. =(16,683 cu.ft.) 4.1~ reeboard I ft. (above pipe) (83,800 cu.ft.) 5.Rainfall less evaporation (below pipe) 7112 x55,200 sq.ft. =(32,200 cu.ft.) 7112 x28,600 sq.ft. =(16,683 cu.ft.) 6.Actual lagoon volume at present (below pipe) Section one -(308,922 cu.ft.) Section two -(150,183 cu.ft.) 7.Actual volume equals 459,105 cu.ft. minus Treatment volumeof (340,200 cu.ft.) minus Rainfall less evaporation (48,883 cu.ft) equals Temporary storage available of (70,022 cu.ft.) 8.Temporary storage calculation 340,200 lbs. of animal x 1.35 cu. ft. of waste per day per 1000 lbs. of animal weight equals 459.3 cuff. per day of waste. A temporary storage volume available of 70,022 cu. ft divided by 459.3 cuft per day equals a temporary storage of 152.45 days. I a . Lagoon Volume # 7 1. Number of head of finishing swine (4,000) Treatment volume should equal (540,000 cu. ft.) 2. Present lagoon dimensions: Section one (685 ft. x 125 ft. x 12 ft.) Section two (175 £t. x 75 ft. x 12 ft.) Section three (300 ft. x 85 ft. x 12 ft.) Side slope: 3:1 3. Rainfall - 25 yr. 1 day storm (above pipe) 7/12 x 85,625 sq. ft. surface area (49,947 cu. ft.) 7/12 x 13,125 sq. ft. surface area (7,656 cu. ft.) 7/12 x 25,500 sq. ft. surface area (14,875 cu. ft.) 4. Freeboard 1 ft. (above pipe) Section one (85,625 cu. ft.) Section two (1.3,125 cu. ft.) Section three (25,500 cu. ft.) 5. Rainfall less evaporation (below pipe) 7/12 x 85,625 sq. ft. surface area (49,947 cu ft.) 7/12 x 13,125 sq. ft. surface area (7,656 cu. ft.) 7/12 x 25,500 sq. ft. surface area (14,875 cu. ft.) 6. Actual lagoon volume at present (below pipe) Section one (675.52 ft. x 115.521 ft. x 10.42 ft.) Section two (165.52 ft. x 65.52 ft. x 10.42 ft.) Section three (290.52 ft. x 75.52 ft. x 10.42 ft.) Volume one equals 569,047 cu. ft. Volume two equals 51,323 cu. ft. Volume three equals 122,961 cu. ft. Total volume = 743,331 cu. ft. 7. Actual volume equals 743,331 cu. ft. minus treatment volume 540,000 cu. ft. minus rainfall less evaporation 72,478 cu. ft. Equals temporary storage available of (130,853 cu. ft.) 8. Temporary storage calculation 540,000 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 729 cu. ft./day needed. 130,853 cu. ft. 729 cu. ft./day = 173.49 days � r t WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 1. Ar:imal waste shall not reach surface waters of the state by runoff, drift, manmade conveyances, direct application, or direct discharge during operation or land application. Any discharge of waste which reaches surface water is prohibited. 2. There must be documentation in the design folder that the producer either owns or has an agreement for use of adequate lard on which to properly apply the waste. If the producer does not own adequate land to properly dispose of waste, he/she shall provide a copy of an agreement with a landowner who is within a reasonable proximity, allowing him/her the use of the land for waste application. It is the responsibility of the owner of the facility to secure an update of the Waste Utilization Plan when there is a change in the operation, increase in the number of animals, method of utilization, or available land_ 3. Animal waste shall be applied to meet, but not exceed, the nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climatic conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. 4. Animal waste shah be applied to land eroding less than 5 tons per acre per year_ Waste may be applied to land that is eroding at 5 or more tons, but less than 10 tons per acre per year providing grass filter strips are installed where runoff leaves the field. (See FOTG Standard 393 -Filter Strip) 5. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when there is danger of drift from the irrigation field. 6. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. (See "Weather and Climate in North Carolina" for guidance.) 7. Liquid waste shall be applied at rates not to exceed the soil infiltration rate such that runoff does not occur offsite or to surface waters and in a method which does not cause drift from the site during application. No ponding should occur in order to control odor or flies. animal waste shall noc be acolied to saturated soils, during rain -fall events, or when the surface is _:cozen. 9. Animal .taste shall be asap l i ed on actively crowing crops in such a manner t.".ar_ ch'_ .r..r.Jp is noL covered wi it wasca �-o a depth that would 1nhibir- growth. Th-- ocent?a? for salt damage from animal waste should also be considered. Pacre : 9 WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 10. Waste nutrients shall not be applied in fall or winter for spring planted crops on soils with a high potential for leaching. Waste nutrient loading rates on these soils should be held to a minimum and a suitable winter cover crop planted to take up released nutrients. Waste shall not be applied more than 30 days prior to planting of the crop or forages breaking dormancy. 11. Any new swine facility .sited on or after October 1, 1995 shall comply with the following: The outer perimeter of the land area onto which waste is applied from a lagoon that is a component of a swine farm shall be at least 50 feet from any residential property boundary and from any perennial stream or river (other than an irrigation ditch or canal. Animal waste other than swine waste from facilities sited on or after October 1, 1995), shall not be applied closer than 25 feet to perennial waters. (See Standard 393 - Filter Strips). 12. Animal waste shall not be applied closer than 100 feet to wells. 13. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 14. Waste shall be applied in a manner not to reach other property and public right-of-ways. 15. Animal waste shall not be discharged into surface waters, drainageways, or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted cropland provided they have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways that discharges directly into water courses, and on other grassed waterways, waste shall be applied at agronomic rates in a manner that causes no runoff or drift from the site. 15. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. 17. A protective cover of appropriate vegetation will be established on all disturbed areas (lagoon embankments, berms, pipe runs, etc.). Areas shall be fenced, as necessary, to protect the vegetation. vegetation such as trees, shrubs, and other woody species, etc., are limited to areas where considered appropriate. Lagoon areas should be kept mowed and accessible. Berms and structures should be inspected regularly for evidence of erosion, leakage or discharge. Page: 10 WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 18. if animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing a "closure plan" which will eliminate the possibility of an illegal discharge, pollution and erosion. 19. Waste handling structures, piping, pumps, reels, etc., should be inspected on a regular basis to prevent breakdowns, leaks, and spills. A regular maintenance checklist should be kept on site. 20. Animal waste can be used in a rotation that includes vegetables and other crops for direct human consumption. However, if animal waste is used on crops for direct human consumption it should only be applied preplant with no further applications of animal waste during the crop season. 21. Highly visible markers shall be installed to mark the top and bottom elevations of the temporary storage (pumping volume) of all waste treatment lagoons. Pumping shall be managed to maintain the liquid level between the markers. A marker will be required to mark the maximum storage volume for waste storage ponds. 22. Waste shall be tested within 60 days of utilization and soil shall be tested at least annually at crop sites where waste products are applied. Nitrogen shall be the rate - determining element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. pH shall be adjusted for optimum crop production and maintained. Soil and waste analysis records shall be kept for five years. Poultry dry waste application records shall be maintained for three (3) years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina regulations. Page: 11 • Calibrating Liquid Manure Spreaders Using the Load - Area Method 1. Determine the capacity of the manure spreader. a. gallons 2. Spread at least one full load using the regular spreading patterns of the applicator. Trial I Trial 2 Trial 3 b. forward speed, gear, or throttle setting c. pto speed or setting d. spreader gate setting 3. Measure the area of spread. e. spread area width f. spread area length g. spread area (e x f) h. spread area (g _ 43560) ft ft ft2 acres 4. Compute the manure application rate.: i. number of loads spread j. capacity per load (a) gallons k. total manure spread (i x j) gallons 1. application rate (k v h) gals/ac 5. Compute the nutrient application rate: m. manure analysis, N lbs/1000 P2O5 gallons K20 n. application rate, N lbs/acre (1 x m 1000) P2 O5 lbs/acre K2O lbs/acre • 6. Repeat the procedure changing one or more of the spreader characteristics it Item Z until the desired application rate is achieved. J&W Swine Co Inc J&W Swine Co Inc 1920 Mingo Church Rd Dunn, NC 28334 Aub . 1 3 20 Michael F. Easley, Governor William G. Ross Jr.. Secretary Noah Carolina Department of Environment and Natural Resources i August 11, 2008 Subject: Sludge Compliance Requirement Change Dear Permittee: Coleen H. Sullins Director Division of Water Quality In accordance with Condition 111.19 of State General Permit AWG 100000, your facility is required to maintain compliance regarding sludge accumulation in your animal waste treatment lagoon(s). As you know, the previous compliance limit was to have a minimum of four (4) feet of treatment depth between the designed stop pump and the average elevation of the top of the sludge blanket. This requirement was based on NRCS Standard No. 359, which was recently modified. As of July 2008, Standard No. 359 does not use the 4 -foot requirement. Sludge compliance is now to be based on the sludge volume as a percentage of the total treatment volume. The revised Standard states that sludge accumulation in the permanent treatment zone must be less than 50% of the planned treatment volume. Also, there must be a minimum of 2.5 feet of liquid above the sludge at the pump intake location. If either of these conditions is not met then sludge must be removed or managed in accordance with an approved Plan of Action for Lagoon Sludge Reduction (POA). A new sludge survey worksheet has been developed to calculate sludge and treatment volumes to determine compliance. Our records indicate that you have filed a Sludge POA for one or more of the lagoons at your facility. Based on the changes to the sludge requirements in Standard No. 359, your lagoon(s) may already be in compliance without any sludge removal. Using your lagoon design (or as - built information) and current sludge survey measurements, complete the NEW sludge survey worksheet. If you have any difficulty in locating or understanding your lagoon design information, please contact your technical specialist or county Soil & Water office. NSM Carolina )Vatura!!r� Aquifer Protection Section 1636 Mail Service Center Raleigh, NC 27699-1636 Telephone (919) 733-3221 Internet: WWW.ncwateroualitv.or:e Location: 2728 Capital Boulevard Raleigh, NC 27604 Fax 1: (919) 715-0588 Fax 2= (919) 715-6048 An Equal OpportunitylAtfirmative Action Employer— 50% Recycled/10% Post Consumer Paper Send both sludge survey worksheets, OLD and NEW, to the address below if you feel that your lagoon(s) is in compliance and wish to withdraw your POA. Our staff will review the information and notify you of our decision_ NCDENR — DWQ Animal Feeding Operations Unit 1636 Mail Service Center Raleigh, North Carolina 27699-1636 Telephone number: (919) 733-3221 If you have any questions about the new sludge requirement, sludge survey worksheet, or any related matter please feel free to contact the Animal Feeding Operations Unit staff at 919-733- 3221. Sincerely, Keith Larick, Supervisor Animal Feeding Operations Unit Enclosures cc (w/o enclosures): Sampson County Soil and Water Conservation District Fayetteville Regional Office, Aquifer Protection Section AFO Unit Central Files - AWS820576 W A j',�9 — Michael F. Easley. Governor O� QG William G. Ross Jr., Secretary O1= North Carolina Department of Environment and Natural Resources j Alan W. Klimek, P. E., Director O -c Division of Water Quality May 1, 2003 J&W Sine Co. Inc. J&W Swine Co Inc 1920 Mingo Church Rd Dunn NC 28334 Subject: Certificate of Coverage No. AWS820576 J&W Swine Co Inc Swine Waste Collection, Treatment, Storage and Application System Sampson County Dear J&W Sine Co. Inc.: On April 28, 2003, the North Carolina General Assembly ratified Senate Bill 733 which directs the Division of Water Quality. (Division).to.extend the expiration date of the Swine Waste Operation General Permit AWG100000. Therefore, the General Permit has been re -issued by the Division to extend the expiration date to October 1, 2004. During the period of this extension the Division will be working with all interested parties on the development of a new version of the Non -Discharge General Permit. In accordance with your application received on February 11, 2003 and in accordance with the directive of Senate Bill 733, we are hereby forwarding to you this Certificate of Coverage (COC) issued to J&W Sine Co. Inc., authorizing the operation of the subject animal waste collection, treatment, storage and land application system in accordance with General Permit AWG100000. The issuance of this COC supercedes and terminates your previous COC Number AWS820576 which expired on April 30, 2003. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from the J&W Swine Co Inc, located in Sampson County, with an animal capacity of no greater than an annual average of 1600 Farrow to Finish swine and the application to land as specified in the facility's Certified Animal Waste Management Plan (CAWMP). If this is a Farrow to Wean or Farrow to Feeder operation, there may also be one boar for each 15 sows. Where boars are unneccessary, they may be replaced by an equivalent number of sows. Any of the sows may be replaced by gilts at a rate of 4 gilts for every 3 sows The COC shall be effective from the date of issuance until October 1, 2004. Pursuant to this COC, you are authorized and required to operate the system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAW -W and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. If your Waste Utilization Plan has been developed based on site specific information, careful evaluation of future samples is necessary. Should your records show that the current Waste Utilization Plan is inaccurate you will need to have a new Waste Utilization Plan developed. The issuance of this COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. VKW NZ`� NSR Non -Discharge Permitting Unit Internet httpJ/h2o.enr.state.nc.us/ndpu 1617 Mail Service Center, Raleigh, NC 27699-1617 Telephone (919)733-5083 Fax (919)715-6048 Customer Service Center Telephone 1-877.623-6748 An Equal Opportunity Action Employer 50% rec cfedf10% post -consumer paper Upon abandonment or depopulation for a period of four years or more, the Permittee must submit documentation to the Division demonstrating that all current NRCS standards are met prior to restocking of the facility. Per NRCS standards a 100 foot separation shall be maintained between water supply wells and any lagoon or any wetted area of a spray field. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue the activity permitted under the General Permit after the expiration date of the General Permit, an application for renewal must be filed at least 180 days prior to expiration. This COC is not automatically transferable. A namelownership change application must be submitted to the Division prior to a name change or change in ownership. If any parts, requirements, or limitations contained in this COC are unacceptable, you have the right to apply for an individual permit by contacting the staff member listed below for information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. This facility is located in a county covered by our Fayetteville Regional Office. The Regional Office Water Quality -Staff may be reached at (910) 486-1541. If you need additional information concerning this COC or the General Permit, please contact J R Joshi at (919) 733-5083 ext- 363. Sincerely, U for Alan W. Klimek, P.E. Enclosures (General Permit AWG 100000) cc: (Certificate of Coverage only for all cc's) Fayetteville Regional Office, Water Quality Section Sampson County Health Department Sampson County Soil and Water Conservation District Permit File AWS820576 NDPU Files F North Carolina Cooperative Extension Service 0 ' College of Agriculture and life Sciences Facility No: 82-576 Farm Name: J & W Swine Subject: Crop Revision Tech. Spec. Danny Bailey This revision is to add "soybeans" to the crop sequence of all irrigation pulls that are presently in annual crops for J & W I and J & W II. Note that crops following soybeans will have their nitrogen rates reduced by 20 lbs,/acre due to residual nitrogen from soybeans. J & W I Field Soil Ty -Pe Yield Nitrogen Rate lbs. Acre P1 GoA 42 bu. 158 P4 GoA 42 bu. 168 I P5 GoA 42 bu. 168 P6 NoB 35 bu. 140 P7 NoB 35 bu. 140 P11 NoB 35 bu. 140 P12 NoB 35 bu. 140 P13 NoB 35 bu. 140 P14 NoB 35 bu. 140 P15 NoB 35 bu. 140 P16 NoB 35 bu. 140 Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability. North Carolina State University, North Carolina A&T State University, U.S. Qeparunent of Agriculture, and local governments cooperating. • 0 Field Soil Tvne Yield Nitrogen Rate lbs./Acre P17 NoB 35 bu. 140 P18 NoB 35 bu. 140 P19 NoB 35 bu. 140 P38 Aw 25 bu. 100 P39 NoA 40 bu. 160 P40 NoA 40 bu. 160 P41 NoA 40 bu. 160 P42 NoA 40 bu. 160 P43 NoA 40 bu. 160 P44 NoA 40 bu. 160 P45 NoA 40 bu. 160 tum bf Signatu TechnicV Specialist ML iAw� Date '/ — 4 2— to 9 • cility No: rm Name: r: object. ech. Spec.. North Carolina Cooperative Extension Service f„ oge W AQrGcr*= ead Lft Seianm 82-576 J & W Swine J & W Swine Amendment to wettable acre and WUP Danny Bailey :ee the following: (1) Lengthening of p36, p37, p46 due to hose length of 1075. (2) Expanded irrigation with portable hydrants on E47 and.E48. (3) Soil series map on expanded irrigation and pump and haul fields. (4) Crops and nitrogen rates on expanded irrigation and pump and haul fields. (5) Land owner agreement. (6) Application timing. Da Lure Tech. Wec.-Signgture Date Employment and program opportunities are offered to all people regardless of race, color, national origin. sex. age, or disability. North Carolina State University, North Carolina AM State University. U,S. Department of Agriculture. and local governments cooperating. • • • Facility 82-576 Field Soil Acres Application Crops Nitrogen Rate Series Method (lbs./Ac.) T617 NoB 20.86 *P & H Corn 125 Wheat 132 Cotton 78 Soybeans 140 ** SBDC 112 WA 100 SA 110 T1371 NoA,NOB 6.36 P & H Same 10.80 P & H As Above T573,T476 Au 30 P & H Corn 94 18.98 Irrigated Wheat 108 Cotton 72 Soybeans 100 ** SBDC 72 WA 100 SA 110 WA Winter Annual SA Summer Annual *P & H - Pump and Haul **Soybeans Double Cropped (SBDC) (Note: Reduce nitrogen rate by 20 lbs./acre on any crop following soybeans.) • • • North Carolina Cooperative Extension Service College of Agiicnftwe end life Sciences Application Timing t oybeans A (Winter Annual) A (Summer Annual) otton 3ermudagrass 3.S. (Overseed - smallgrain) 30 days preplant - Tassel 30 days preplant - Boot 30 days preplant - Bloom 30 days preplant - April 30 days preplant - September 30 days preplant - By Squaring Mid -March - Sept. October - Mid --March Errrpbyrtwt rind program opportanities are ollered to all peePle regardless of race, color, national origin. Sex. age, at disability. North Carolina State Uriwersity, North Carolina W State University. U.S. Department of Agriculture. and local governments cooperating • EXI UD l" I Waste Utilization Agreement (Needed only if additional land has to be leased, etc.) 1 3 k 116 hereby give c':' 1✓ S y/ lye Co, permission to apply waste from 11'; Waste Utilization System on acres of my land for the duration of the time shown below. The fields) vi wWch waste can be applied arc shown on the attached map. 1 understand that this waste contains nitrogen, phosphorus, potassium and trace elements, and when properly applied should not harm my land or crops. 1 also undcrstand that the use of animal manure will reduce my need ti commercial fcrtilizer. LanclowncLAA Datc: �-- 3 � � CrU 1 Term of ,Agreement Q Gy1 _ � to 2� NovAry - G J My Commission ExpOes March 31. 2004 Iv, � Is r 0 EX - BIT L' Waste Utilization Agreement (Ncedcd only if additional land has to be leased, etc.) I, Christine R. Young , hcrcby giveid—fjor 6 fission to apply waste from his Waste Utilization System on 20.86 acres of my the duration of the time shown below. The field(s) on rvWch waste can be applied are shown on the attached neap. I understand that this waste contains nitrogen, phosphorus, potassium and trace cicments, and when properly applied should not harm my land or crops. I also undcistand that tic use of animal manure will rrducc my need fur commercial fcrtilizcr. L,a,ndowrtcr:,,L�A� '' Datc: March 11, 2002 Tenn of Agreement: March 11, 2002 to March 1 l , 2003 ,�jlNirrrraraa '( E R. Y �. +rrrrrr Notary CA%VAI ' WL'"C1'AOLL Al;HL CUnit`UTATIUNAI,11 ORKS111"ET I. l aim Number (Identilicaliun) Fz 74 field Numbel (idelltihcnliull) —i9y(' 102. li-ilgaliull System Doigllatiull E'Aistint; Illigntiun'System Nciv 1 Exprimletl linigntivu Syslrill J. Type of IIIigation System slatiullnly Sltlillklcl/64N �� llaltl-iltrsc'l navclt+ Ccnlcr i''tvul LIItCI{l-ll{Uv£ tiy5lcln 4. Number of Slalionviiy Spiiuklcrs It Itttellor sltlinkirm -_ _ N Fxlcliul splinklrls Number ofTi-awl Lanes , 1t lllteliur Lmlcs __-� — 11 Exledul Lmncs 5, Welled Diameter ^300 00, INclj I'lum field dale shed /0-1-0 Lenglh vl pull IUed G. Spacing 2 Z Laietal I llydi aul Silat ing [li:c1 - _r%� ins lie]millage of ~vetted thaillO 'I � Spliltklsr spacing slung Initial klcell Ins pelcelliage of tvt:llvd tha+lveirl -1. Sltriukicr or klydtaul Layout _ _Multiple 1.alrAvislllydialtts Siiigle Laltrailllydlnut — _ Excessively Spaced biltiliklclslllythanls ti. Kcad the ildplcd arca per slninklethinvel Bull rill the given wetted dinmuto Rum Ills nl,ln pti-me till) -ale olid culun{n based un pattern, sprtcil+g, alld 51111111CLe+IIIAveI iAl{C lucitilun. St:Uiuuary SpririldcrS Acres per l,letiur sliinkle+ Iiun{ 'able Cululnn IsAcres per Lxleiiut spiinklcr Iiun{ Tnlslc _-- � Column --�-- 'Traveler. (irnvc[ lnnc) (t<) Attics stni t ciid of l+till Ii un, Talnlc i 1k)[111113{ (U) 1. Acies middic lltiitiull of pull _ _ _ (i'ull l,cnglh_- liccl) X Wvnud IVidili ..___ 11t'+'I11 1 +1, 1011 _ (c) Autes stup vitt or pall ii tit{{ T;tl}le t"01111111 'Tytn1 neres lur.lulet-iur 111111 (sunt: n I it I q Tri{vcler: �l{tcriur llyili ntrl (travel lnnc) . 71 (n) Acics stall rmid ul-lnnll liuit{ I t{lTIcCG ?�(;otu,+n (. ���U) Macs nliJJlc l�ulliun ulhull [full LcngtlVof"o [I'ectj X %C JCtl EVilllltZ42— �lrctjjl �I 1 'Et�lt (t) Ata cs slug cnd ul- hull hum l ahl£ ta►hui,n Itches fur hxlcriur pull (Sufic n l U t t) 9. Multiply the tabulated irrigated acteagc valtic leer sln inklm ui 1mr-1 pull by tl+e uumfret ol'slai,klc+s tit Dull: ttt cat;ll umcl uty in lite field. Swn all vCthcse mid this is lite lutnl itIigntud aclea a t'ui the hclll- (a) Acres per 11detiot Sp6itkier out full X It Stn{inklos ur fulls = Auec% (V) Acres Iter l;xtciiur Slninkler 0r 1'011 X H Slriiuklera ur 11+dls e _ Ac;+cs oL��f'olsri Wel(rtule Acre fur field (Straw: Ya •I- 91,) Wt:ltable Acre Computation( Wviksheci CuMpleied by: I)nlc: CAWAH' kVLA l'AIJU At:ltl;1:U11i1'UIVNr11,11'Ulllsw5lll';l'�1 1. Nis tit NumUcr (ldwili icalion) OV - >rfl� Neld Numbe1(ldctllilicntion) 0 1. 11rigallun System Ucsigrtallurl Existing IlligntiVn System New 1 Lnlrllrrded lllignliuu Systctll J. 'rylm or L I igatiurtsystem 4. Number orStatiutrary Slit irtkims Nurlrbcr UrTI-evel Lancs stnliunaly splinklc1/6te / l laid -1 llnsc I'l avOu Center Pivot L111eal-111Uve Syskill 111111erillr sluinkless •__ _ _ g iiximim 41ninkins ft 1111criur Lancs _L.� a Exlcriul Litres 5. W01cd Diameter dp [Cecil Plum lield data sheer oS0 Length of ptill Ileel l G. Spacing 2 L Latma1111ydialit Spacing [lcel I _ _�,�' j11s pucctllage of wdlul 111.11110C.1l Splinklcr spaciltg alullg lateral [lcetl IRS Ileleclltage vC weltnl diametcl l 7. Sprinkler ur Hydrant Layout ��Mlrlliple LatCIRlslllydrants Single Latetallllydtan! Lxccssively slraled Sirtinklelslllydl;l+lls U. pearl thu irrigated area per Gill illklerIts avel hull for the given welled dinnlclel hurl llle n1111lullliatc 11111,11c Mid culullul based un pallet n, silncing, and splitlkletltlavel lane tuultiutl. - S[alivll:lr� SpriuWcri Acres per Interior sprinkler liunl 'Table Cullum _ Aces per L"Met im sininkler Ill oln "Table CU1011nl 'U -avcicr; Interior Bydrenl [lrttvcl lane) (R) Acr es Slat l cnld of bull ll mill Table _ '.:111nr1n1 (b) Actes Middle I+ultiunt ov dull [full Lcrlglll_ _ Ilce11 X %V1:Itc111Vidllt . _J �Iccl() I'l.i,`1;111 Au es shirr cad of pull t1:1111 'I AAA ~ t .01111111 �IVInI 11CtCS tlrr 11111!IiVI' i1uI1 �SU111: It Tvilvcicr: l,"Meriur Hydrant (lrnvcl lnnc) ,7) Aucs stall end 1,l 111111 11vill '1*11llltdR 97t~t:lAoi%+n a Amts middle 11tH Burl c1i' bull -� [full Lcugth/oro Ilccl� ;( Wcllcll �Vi111h2G [Icrlljl �I 'tt�l1 [1;) Au es stuff+ entl ol:111111 Ii Vill ! ;11+1c t:t11111+1,1 . oG �futnl Ru-ts [1,r I xlcriur pull (Sunt: n t U 11. Multilrly the tabulated irrigated actcage value per elr+illklcl of babel 111111 lly Ille IlUlAtt o sl'lUlkkin of 11u11s or each Lateply ill tilt field. Sural all u1'11►ese and this is 111c lutllt it lighted acreage Cul the field. (a) Aues lrcr Latcliur Slnjj kler u+ 1'1,11 X ff Sp+inklc+s 01 Pulls =Asoe% (6) Acres per Unlet iur Sw it+kier ur full X 0 Slu inkleta ur fulls —__ Anes p4��lt'ului Wettable ACI c r�� rlrl� tsltll,: 9a 1 yl�) Wcrl:lble Actc Culilllulalional Wulksher-t Cuh1111e1cd by; __ jJif�v CA%VAll' W>v1-1'AI1Llti ACRI6, c:vMruTATIUNAL IVUIMSlsl'll"a' ` 1. f;att{{ Number (ldetltilicaliut{) i z - 111 L lficld Numbet (ldellUmattpll) Z. h-6801iull System Designntiun l",xlsting I1ligntiun Systclll New I Eitionuded Ittigaliun Systes" 3. TylleUrllrigatiunSyslcttl StatiunalySptinklctAsf �"� iia{1l ll{,sc 1'tavtl�l Centel Ilivul Lineal -ntuve Syslrnl ,l. Number of Stationary Sptinklevs If lrtictiur sloinkiels - — _ fi I;xlcf iul sp iltklm Number o f'ravel Lancs 11 Inteliul i,mcs / 11 Exlcliul t.arles J. Wetted111:r11{t-ler �O J (leer I`{u111 field data slice l /* $+0 Length of Imil It� o 6. Spa6l1j; t 1. Laical / I lydiant Spade% [feed _ _�1�� jar llcrccnlage Uf milcd Ilia11n.11:1 j Splinkler spatting alung Inlctal jlect j (as ImCultage of" lirli dlatr,clo 7. Sprittklct ur Hydrant Layout !� Multiple I.nlelpis/llydlRills Single Latetalllfydiant Excessively spaced ifilli1k1cts11fythaldS g. I(t:;{d the il{igalcd OCR Iter sptinkletlttavcl pull Pitt the given ►vclled diameter Piuti the npplvpti;{lc lal,aic ;lord cvluuli based wt pa[tetn, satneiig, and gltlliklC1I11aVCl lane IllCilt1U11. Stadoltluy Spriultdus Acres per Inletiur saninklcr fiui{ 414ble -- Cu1u111n Actes per Extetim splinklet sium 'fable _ Culunnl Tr;ivelcr: lnteriur Uydrnul (lrnvcl Innc) (n) At;iCs 3tnit Cluj u`IIIIH IIUII1 IahlC � y allllltlll (b) Act cs diddle put tiui al- pull (!'uil Length______ (IUVII X %Voictl Width . �I-V t..I (c) Au cs stup end uI' hull Iii {III1 Table — 1:111„11111 Will ntres for Itllcrier pull (Sunt: n t 11 I t i TrImicr: Uyclt-nitt (lrnvci intle) (n) Act es slat I cold of hull Ii um Table F€73 C:uluout .13 # � sr(h) Act cs nliddle put tiun of pull --. �1'kill X Wcttcll Wi11th26 t� �4rc:t4)! •I l ;t,lt _ (c) Au cs slug cid of pill I',ullt 1 aldc T Uult1n111 7o 4.'*Tvinl ncres lur Extedur pull (Stun: n 1 h 4- t) ---~- 9. Multiply tllc labulaled ittigated acreage value per tptittklco m ttnvel pull by the nwnitco uI-sp6tlkins 1n pulls of CU01 ultca my in lion field. Suit all of lllese and this is lilt- lulnl itoigeicd au cage 1'ut the lichl. (a) Aues per httcliur 5lniAler ur Pull X It Sp6 klel>, ul Pulls = Auvr (b) Acres per Uxtctiur Sl,linkler ur pull x # St,+i++kte+s Ur Polls d _ Act vs 45 TOW Wettable Acre for ficld (Stems: yn -t- 94) Wellabic Act -c Coltiputational Wvrkahccl Cvrsipleted 4y: _ 2,f,,- Cr>,lYilil' �YI;A-i'AHLI� ACRE t;Uilil'Ul'1� 1lVNr11,11'ttilliSlll;l;l 1, l':uni Nualllcr ([dceitijicali�n) �1 _s?G Ficld Number (tdeutiticatiuu) 7.-_�.. 102.1tiigaliun System Designation J. Tyltc ur iliigaliuu Systclil 4. Number of Slatiuuaty Spiiitklers Nuitbcr ul" Travel Lancs f E,xisling Itiignlion Syslcril New / KnIm led Itiigntiult Syslctn Stliliuliaiy SpilltklCl%�,. �� ilaicl-tlu�c�li:tveic+ Center Pivot Einar-iiiuve Spit"' It hllet im slli lnklet s - �- N F mcl iat tpt iliklt t s 11 lnteliur Innes a Exlciiul 1,11les 'i. Wellcd Diameter 3• trcell Flom Belt) data sheet a 5"a Length of pull ttccl l %. Spa 6tig 2 Z- Latelat I Ilydtalit SpaeiitB tIcetl - 7�� lac prciccittagc of tvcttnl tlianletl.ij Sill ildder Spacing alulig later nl 11'ectl tas Imccnlage yr kvctttd tttanmo t 7. Sprinkler or klydraiit Layout Multiple t.tticlals/liytligills .Sirigic LalmFiviIydialit Excessively spaced Splinklcl3/1lyiliarils U. Mad llic iiiigalcd arca licr slniltklCdllavel hull cul the giveil Anitc-d diaiiictt:l tiuili the npplrt Illi tl: tnil:lir mid culumn based un pattern, spacing, and siuinklci/linvel laite luculiun. Si:itiuttat-y SpritiWcra Acres per Inlciior sluinkier Burn Table Gnittntn Acres per Exteiiur sprinkler pion{ Table _ Culunnt 'Yir:ivcicl•: lntcriur U drain lrnvcl Inlic y ( ) �s 4z'?_ (n) Aucs stnit ctid of Bull plum Table;Or `tiluiint 3 S•�jf z 3 (li) Acics inidclle lrullitsn of ltuil (Vull LcngtlrL,Ja lrcel] X Wvm:d WildihLv.3"I(Ict:111 (c:) ACies stun ctid of Imil Iitm, 'I �ll,le l'AlItI ui 15* I'Vlnl ncres flit. I111c17U1. 11111{ (Suns: n 1 it i c j Ti-sivelcr: (travel Inde) (n) Acics slaiI cid ur pull Iiuit funic CtIlutlul (1►) Aucs middle I,,,,liun of pull T�.. Tull Lcigtli _ -tinct) ,`C Wrtictl 1Vitlth ticctj�l �l t ',t,ti (t;) Acies slop cod of lrUll 1iu111 Table t,:tikttuni Will nt:res fur Exicriur p1111(Stlnl: n t 11 t- c) 9. hlultilrly the tabulated illigaled acleage valtic per spiinklcl lit lrnvcl pull by tilenuullret urapiinkkis of 1,1111x, of c:tclr t;;itcguly in the ricin. Suitt all ufihcse and 1163 ,13 the pupil iltigated ncicage Int tltc lielti. (n) Acies per Ltictiur Siitittk1er ur Pull X It Sptittkletq lit fulls - Act cc (V) Acrd jrcr l3xtelIUF Slirinkicr ur full X N Spsitskicts lit Pulls ■- _ Acues :-J/ 3 ')Pupal Wellalrle Acrc fur ficid (Stihl: Ya -t- yU) Wctt:tble Acre Computational Wurkslicct Cuinpicled loy: _ p,r,v_ CAWAIVIVETUABLE ALlll: CON-11'UTA IONAL NVURKS11k,l;l' 1. Farm Number (Idoililicativu) field Nu111bet (ldcnlilicaliun) 2. '11-lipllull SySIet11 DcSigilatioll l;ltistilig Illiplioll SyslClll 10Ncw 1 Eilpnlldett illignliurl Sys -It'll I Typt; UrIlligatium Systcml Slnliuimty Spihiklcl/G�, �- {{aid l{t15c flavtl�I Celllct Vim Liucal-muve Syslrm 4. Number vfStatiunaty Sptinkleis !1 ittletiut sptinklets _ H i:slct•tul %J11s11klrtz Number ufTlltvel Ulm 11 itlletiut Lnlle9 __—� _ H Exlcliul Lance �. Welled Diameter oy (leel] Plum field darn sheet /v.*'"+ Lenglll of 11011 Icd G. Spacilig LL s Lateral /I IYdI alit Spacing Ileelj _-.?� Jas 11crccutagc of lvclletl11ia111elt I) Splildder spacing Glut% Iatt:lnl JfeelI Jns pelcClllage of tYCuto dlamttcl J 7. Sp6itklcr or Hydtalll Layput mulliple LRICIalslllydinlits Single Lalcrallllytlta111 Excessively spaced i�1111llklc1s111ytllallls 8. 1kcad the ill-iptcd lit Cit per spltttklt;rlttavcl !lull l'ul. the givell %velted dlnmelel llulll lite npl11t111liale li ImIc and cululmm based utt pattern. spncimg, amd splimklcllll nvel laic lucnliun. Statiull:u'Y Spriu]ticry Acres per imlctiur splimklct lion! 'rabic Cullllllll0 - Acres per L"'xtctiut spliltklet lium Table Cululmn '1'ravcicr: lntcrivt' li th-a11[ (nivel l at (a) Aso cs slat! cud of pull ttuml [ nllle - -- `.,tllumul _ (b) Acres middle pul tiun til'pull (full Lcngllt_ -- ;tt:cij X Wullcil 1Vi0111 ` r��lcclJJ 1.11, )0l (c) Art vs ship end ur lntll (i %iml Tattle 0)11111111 '►-visit !teres No. interior pail (Sato: n 1 ll 1 t } li'rtivcier, Llrtcrius• l�lydrirlat (lrnvcl inmc) 9 (a) Acl es slat cilli Uf 111111 iiutlt 1 nllleit/t ?� (:tlltlllilt ' s'. ,�1 (b) At:l cq mliddlc 11ul lion ul' hull � 4 (l'u1li,cttglll,�ae„(lccl(X 1Vc61cc11Vit1111?�-y ylrttjji�{�,;t►tl (c) Attics stup end of pull li urll f a411t: t:I+11111111 0 0 TOM acrts luI• Lltlevivr 111111 tStltu: n 1 Ir I '). N{tllti11ly the tabulated ittigatcd at:tcagc value pet splillklei ut lrnvcl 111111 by the numllct ul'splinkicl.r to 111111; of cao, cawgoiy it, the field. Sunt all ul•lhese and lllis is lite lulnl it dgalcll netcnge'rul the lick!. (;1) Acres tier imlclitlr Splimkler IN i'1111 X It SptiI1kim at fulls ltf} ACESs per Uxtemiot ,SIf1i11Wty V[ Pull X It Splinklcrs ur N1113 — vo 'A"olal WeUnble !here [us- field (Sslssl: Yn -1- Yb) Wcltabic Acrc Gum mutational Wurktlhest culllpletcd by: ,9,1. % ► ; [ c f� 1,111 C: Amvs Ace c.- North Carolina Cooperative Extension Service acility No: 82-576 arm Name: J & W Swine wner: J & W Swine ubject: Wettable Acre and WUP Revision echnical Specialist: Danny Bailey �1 College of Agriculture and Lite Sciences acility No: 82-576 has two separate WUP's for waste application ince the waste handling is separate for the two sides of the arm. The following is addressed: A revised WUP for J&W 1 and &W 2. A wettable acre determination for J&W 1 and J&W 2. An pplication timing schedule for all crops. An explanation ddressing nitrogen rates and overseeding on bermudagrass. Date // - P- O d Date e Owner Signatu a Technic Special' t Signature Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability. North Carolina State University, North Carolina A&T State UniveTso, U.S. Department of Agriculture, and local governments cooperating. North Carolina Cooperative Extension Service College of Agricolters and Life Sciences Application Timing heat oybeans A (Winter Annual) A (Summer Annual) :>tton armudagrass .S. (Overseed - smallgrain) 30 days preplant - Tassel 30 days preplant - Boot 30 days preplant - Bloom 30 days preplant - April 30 days preplant - September 30 days preplant - By Squaring Mid -March - Sept. October - Mid -March 2 Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability, North Carolina State University, North Carolina A&T State University, U.S. Department of Agriculture, and local governments cooperating. North Carolina Cooperative Extension Service College of Agriculture and Life Sciences Sarnpson County Center 369 Rowan Read Clinton, NC 2X328 (910) 592-7161 (910) 592-9513 (fax) Bermudagrass overseeded with rye or ryegrass will exhibit a yield suppression of between 1200 to 2500 pounds per acre. When NRCS made the recommendation of 50 lbs. of nitrogen per acre for an overseeded ryc or ryegrass crop, they did not account for the suppression in bermudagrass yield with their computer program. Yields of between 2500 to 5000 pounds of dry matter per acre have been documented in recent studies of rye or ryegrass (see ext. publication AG -493) overseeded into bermudagrass stands. My experience has been that 50 lbs. of nitrogen/acre will not grow an overseed of rye or ryegrass from October until April in North Carolina. 1 therefore asked at the second guidance document meeting held at James Sprunt Community College if it would be appropriate to subtract a portion of the nitrogen away from the bermudagrass crop due to yield suppression, and add this to the overseed. 1 was answered in the affirmative --as long as the total nitrogen for both crops did not exceed what the NRCS computer program generated. I therefore subtracted a portion of nitrogen away from the bermudagrass commensurate with documented yield suppression, and added this amount to the overseed. I am enclosing a reprint of the article referenced in extension publication SLG -493. Respectfully, j Landowner Date Enclosure Tech- Spec. Date C-1 Employment and program opportunities are offered to all people regardless of race, color, national origin. sex, age, or disability. North Carolina Stale University. North Carolina A&I State University. U.S. Department of Agriculture, and local governments cooperating. OVERSEEDING BERM[iDAGRASS WIRYE, RYEGRASS Ovcrseeding. The grazing season can be lengthened by overseeding bermudagrass with a winter annual grass such as rye and rvegrass (Fig. 10) or a legume such as crimson clover. In recent studies, dry matter yields of 2,500 to 5,000 pounds per acre have been obtained during the cool season from winter rye or Italian ryegrass, depending on the management system. The higher yields were obtained when . the winter annuals were cut for.hay. The reductions in yield of Coastal as a result of overseeding, varied from 1,200 to 2,500 pounds. Higher net yields were obtained from utilizing rye rather than rye- urass. Some problems are yet to be resolved in overseeding bermuda- grass, but the practice is desirable under certain conditions. In areas where bermudagrass is the only pasture species available, 25 to 50 percent of the acreage may be overseeded with winter annuals in or- der to provide supplemental grazing during periods when bcrmuda is dormant (Fig. 11). Two bushels of rye per acre planted in October and fertilized with a complete fertilizer is suggested at the present time. When over - seeding bermudagrass hay fields with winter annuals, it is important that the bermuda be clipped to a stubble height of 3 inches or less. Bermuda that has been used primarily for pasture will tend to have a ,hider sod than under hay management. Therefore, grazing to a hci ;ht of i to 2 inches is advisable prior to overseeding_ Overseeding may be accomplished by using a sod -seeder or a grain drill, if the grass has been grazed to an inch or less and soil conditions permit proper penetration of the seeding implement. In other cases a light disking may be required prior to seeding with a grain drill or broadcast sefder. `#.'AULC 1: ACRES OWNEU BY P110DUCEit IELd SOIL TYPE & CLASS- CROP YIEILU LBS COMM N�' Iy %q�- ifuS DETERMINING PHASE CODE AW N PGIt ACim AW PEIZ AC AC USGU ` • A''kLIC TIME tip�f 1 V15 wa DS - ar/E�sFC 1� CS�•�CC�r�a:•:rl Iy %q�- I bA '!`ABLE' 1: ACRES OWNED BY PRODUCER /J i iincT FIELD SOIL TYPE & CLASS- YiGLU L13S COMM N PER N ACH AW DETERMINING PHASE CODE AW PER AC AC USED A''PLI.C. TIME �f gP 7: Na?4 • QV/;L 4/-. �R 3 7 V-------------- 7 9 r+a� Aloe LSA /•ate x.8 74 3f S' p �jn lieI 7 iY,. 1110'11A L z T a d f E'/ewJ- S,.Z c? a 3.0 tF '1 '�A13LL•'. k : ACHES OWNED BY P110DUCE11 a :ACT FIELD SOIL TYPE & CLASS- C1lop YIELUI Us COMM N DETERMINING PHASE CODE AW N pElt ACRES AW PEIt AC AC USED TIME f y /V D Zf µ/ ff /r 5 T % o l8' Ne [3 41.4 r c.rT rJe+/ss ''o A-1 r /i/a i� �'A !.S s .��I.r 537 !/79 1,75 1 WAX i . Y r BP PIS, -i 30 i9�- d 5 V. r .4e. /(IS - 947 Gg947 *75 P9z' A� d 5 5i. I T gv ! 4 p `�p33 A 893 I A *3 �P_ ,aER��i9 Pq:r�r,ctr' 5,4 TABLE. I: ACRES OWNED BY PRODUCER 2 f f 7- t A4 4 7 ,e q,27 3.735 7 y'/ . i olf 45.2- .7-f 7/ t5Z-.1. 3.57! F3 It F .5.4,T'7//77 /.? 33 344 - TOTAL I sue- W4CW s- PACE FIELD SOIL TYPE & CLASS- CRO!' YIELD LEIS COMt4 R ** 1,13S DETERMINING PHASE CODE AW N pull ACRUS AW PER AC AC USCU ' A�PLIC TIME f 7- t A4 4 7 ,e q,27 3.735 7 y'/ . i olf 45.2- .7-f 7/ t5Z-.1. 3.57! F3 It F .5.4,T'7//77 /.? 33 344 - TOTAL I sue- W4CW s- PACE i....�x... 1V11 k JJ111i r ` /�tr�AJs'Li TABLE- 1: ACRES OWNED l3Y PRODUCER -i'1(AC�iti FIELD SOIL 'TYPE & CLASS- CROP YIELD LUS COMM N ! ?3" e Alo X f;Elo DETERMINING PHASE CODE o77+% AW N PER ACHLS AW �/ �Qa TAr: or•�t• Ni /T �i /li • Tro J f%/r%�/� PER AC AC CRoTwr:�' L USED 7•d. /66. Go B+� . o / v �jQ�,TpT:r✓�L. C�ii�' 7uolia $a Cp7Ae* i go A/'p F"melo 41D TIME L�Ac�rJ A2 S -' �a �1a�jpr • iS 7 i -A ' Ile Al v /`r ono q. 0 FAT So A ---I ID / �d BP ! ?3" e Alo X f;Elo ��QoT.ITier�l.� o77+% 1700/01 Ale 4 �/ �Qa TAr: or•�t• Ni /T �i /li • Tro J f%/r%�/� 70o /ss.• 6., tl._• Ire/ CRoTwr:�' L C•7r• �rNeF�r 7•d. /66. Go B+� . o / v �jQ�,TpT:r✓�L. C�ii�' 7uolia $a Cp7Ae* i go A/'p F"melo 41D Na --.4t-' F;E ) Ds d T !t F R e- R a To J3 v C, ,C c+.•�. a o .3 C ok'�V ono q. 0 FAT So A ---I ID / �d w��rc.t aNM,.:�c_ Qo .ADT T r - .j8 /*7J1! AIL 775 7 2- 6397' 72- 41 77.5 6.cf-c3' '77S /7 .? f TO'TA LTr � E� .,rr K r fo��►F CIQo�Pi�'%`l-SEy�"`F'vCF �.va.Y�to�+�►1 X. eoR41 09c FAT So A ---I ID / �d nr ?,67 ti. G �a sta� TABLE. 1: ACItGS OWNED BY PRODUCER �. � •{`f I�ACT FIELD SOIL TYPE & CLASS- CROP YIELD LUS COMM N 1,U:3 AW DETERMINING PHASE CODE AW N PER hCHES SED PER AC ACU io,,OwAD }JA&tL :�,os` TIME TIME LEAF E � /// ♦1 o,viv/ � e v Q.• , / D S 41 r� ee s Afre /✓ L) W)a ��s� ` / /Yah �:E•d S� 3 Q�. ►� '�.v /oo nt� vE0 �oTlie+ ,f,Se�6s. Mrd X37 �� r-'�•e wA s /�Sa s�. �aT.I> itr ., If [ e /bs_ Sia /SFS E .O A 7.31 3277 '. A7Td � 7a•/6s. �d Allo 1 . • .y.r.+eaGEAl TOTAL 3�g 7.Zr� �..-�----- CERTIFIED ANIMAL WASTE MANAGEMENT PLAN WETTABLE ACRES WORKSHEET Farm Name: - Tti`" 4j 5s✓•:��Cr Facility Number. Y1 Manager or Producer 1(�'y wv A ?E� Phone # (1 io) .j 6 7 - X 1 �. Technical Specialist: /Y eg Phone # s"? -z - '7 / Facility Contact: k; C'&'Y Phone # (S/y ) 3'4 % - ,U -7 S� Mailing Address: _ 1:E4r2 /h: �S&Ke�,'Y ,PPed cl --- - - Was farm sited for animals prior to 10/119 e I No If No, date farm sited or animals: Irrigation System Xyge (Cheek all that apply) Stationary sprinkler with permanent pipe Stationary sprinkler with portable pipe Stationary gun with permanent pipe Stationary gun with portable pipe Center -pivot system Linear -move system ,—!Hose drag traveler Acres calculated should correspond to that shown in the Waste Utilization Plan and Form IRR -2. To the best of my knowledge, this worksheet(s) and map(s) provides an accurate representation of the system used to irrigate the animal waste generated by this operation. i r 5lgnahue (Manager or Producer) Date CAWMP HAR -RUSE TRAVELER FIELD DAIANUEET * 1. Make and model number _ 4 -lo -,44c WE -g c- 164, Af /c) .3 o &.5 2. Hose length and hose inside diameter (ID)_ -1 G o / S_ 3. Gun make and model number _ �/r 11•.1 /.Sa 4, Gun nozzle size 1-2�! inch, r/ ring orifice, taper bore orifice. (May need to measure nozzle diameter.) 5. Hydrant spacing i a �z35 feet. Indicate whether uniform, ✓random. Number of exterior hydrants Number of interior hydrants S 6. Operating pressure at hose reel psi. observed at working gauge, provided by owner. 7. Gun wetted diameter o v feet. ✓-- measured, based on gun chart. 8. Gun pressure _ .5-n _psi. observed at working gauge, based on calculations (show calculations), determined from gun charts. **9. Supply line size inch (from pump to last hydrant). * * 10. Supply line length feet (maximum pumping distance). **11. Supply line type PVC, aluminum. **12. Pump make and model number **13. Pump capacity, apm. * * 14. Engine make and model number , or ** 15. Electric motor horsepower and rpm �hp rpm &k: It is strongly recommended that operating pressure at the reel and gun wetted diameter be field determined. Locate each hydrant on a copy of the reap_ Indicate the start and stop of the sprinkler cart for each travel lane and show distance traveled. Also indicate the normal are angle of the gun for each pull through a field. Show the location of the supply line. Irrigated acres will be determined by travel lane * * Optional data, furnish where possible. * * * Information furnished by an r Si ature of Owner or Facility Representative Si a of Technical S ialist Printed Name of Owner or Facility Representative Printed nfime of TechnicalSpecialist Date_ fzi� Date / f ;)Li - Only Only the person or persons collecting the data should sign the data sheet. C;AW1v11' WL:r1`A13LE AC:1CL CUMPU'1'A'1'IUNAL WUIU.CS1 LKY 1. Farm Number (Identification) - 5 7 6 Field Number (Identification) �! 2. lirigation System Designation 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/GMK Hard -Hose Traveler Center Pivot Linear -move System # interior sprinklers # Exterior sprinklers # Interior Lanes L_ # Exterior Lanes 5. Wetted Diameter 3-00 [feet] From field data sheet ,� Qo Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] _ las percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single LateraltHydrant Excessively spaced Sprinklersfflydrants S. stead the irrigated area per sprinklerltravel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. column (b) Acres middle portion of pull (Pull Length lfeet] X Welled Width . tfeet]) / 43,560 (c) Acres stop end of pull from Table Colunur Total acres for Interior pull (Sure: a + b + c) Traveler: Exterior Hydrant (travel lane) G (r x . 7 i p (a) Acres start end of pull from Table,6' Column Ll )'(b) Acres middle portion of pull (Pull Length v.E [feet] X Wetted Width lopv [feet])/ 43,560 (c) Acres stop end of pull from Table Column /v Total acres for Exterior pull (Su in: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls s Acres /t (rl v Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: .,Lf 2<9 Lt _ Date: L CAWNIP WKrfABLX ACICK COMPUTATIONAL WUICKSULEF 1. farm Number (Identification) Y2 - 4 Field Number (identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/G.w Hard -Mose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers 4 Exterior sprittk]ers Number of Travel Lanes �y # Interior Lanes �_ # Exterior Lanes 5. Wetted Diameter d n [feet] From field data street V e o Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants .� Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diarneter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table _ column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet]) / 43,560 (c) Acres stop end of pull from Table Colulrur Total acres for Interior pull (Suri: a + b + c) Traveler: Exterior Hydrant (travel lane) . "x • 9� , Ga 7 (a) Acres start end of pull from Table c e t -Column R (b) Acres middle portion of pull I/G,rp X •9 {Pull Length 54c; 0 [feet] X Wetted Width ?;Fo [feet])/ 43,56U (c) Acres stop end of pull from Table Column 3, ox Total acres for Exterior pull (Su in: a + b + c) 9, Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres o 2.3 `total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _ ,,>•9,, S.4 % 4- 4 CAWNIP WL:"17fAULt: ACItE Coi%IPU'I'A'I'IONAL WORKSHEET' 1. Farm Number (Identification) Y,7 - S ? 6 Field Number (Identification) 3 2. Irrigation System Designation Existing Irrigation System New I Expanded Irrigation System 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Stationary Sprinkler/Gtr Hard -Hose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprinklers # Interior Lanes / # Exterior Lanes 5. Wetted Diameter o o [feet] From field data sheet g2 Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7_ Sprinkler or Hydrant Layout - Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler. Interior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [fee(] X Wetted Width. [beet])143,560 (c) Acres stop end of pull from 'Table Colutim Total acres for Interior pull (Suer: a + b + c) Traveler: Exterior Hydrant (travel lane) 4 L (a) Acres start end of pull from Table r 90 t Colunin _ / 4 9 (b) Acres middle portion of pull /0 -5/ OdP X, q (Pull Length $'o [feet] X Wetted Width .?d o [feet])/ 43,560 (c) Acres stop end of pull from Table Column .2 -FA I Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by lire number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres �. 8_? 99 Total Wettable Acre for field (Sum: 9a + 9b) Wcttable Acre Computational Worksheet Completed by:. _,p fq LG K _—� Datc: 4 CAWNIP WEYfABLE ACKE CUiVIPUTATIUNAL WOMSUEET 1. Farm Number (Identification) 6r1 - 57 d Field Number (Identification) 2. Irrigation System Designation 3- Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/GyK lard -Hose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprinklers # Interior Lanes ��� # Exterior Lanes S. Wetted Diameter a [feet Frorn Geld data sheet v:J Length of pull [feet] 6. Spacing 2g j2— Lateral / Hydrant Spacing [feet] _��^ [as percentage of wetted diameter) Sprinkler spacing along lateral [feet] [as percentage of wetted diameter) 7. Sprinkler or Hydrant Layout • -----'-Multiple LateralstHydrants Single Lateral/Hydrant Excessively spaced SprinklerstHydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) / 43,560 (c) Acres stop end of pull from Table Colunun Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) 72- (a) Acres start end of pull from 'fable C rr4 f_Column 27 (b) Acres noddle portion of pull (Pull Length (oau [feet] X Wetted WidIli , j J [feet])/ 43,560 (c) Acres stop end of pull from Table Column •iG 3 Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres Z•!4 2- Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: �Z)4A, /?,4 �-c �� Date: C:ANVIVIP WE'I-FABLE AC:itE C OMPUTATtONAL WUKKSUft't' 1. Farm Number (Identification) _ o',2 – i9 G Field Number (Identification) /�3 2. Irrigation System Designation Existing Irrigation System New f Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/161lr Hard -t -lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinlders # Interior sprinklers 8 Exterior sprinklers Number of Travel Lanes _ # Interior Lanes ! # Exterior Lanes 5. Wetted Diameter 300 [feet] From field data sheet S5_a Length of pull [feet] 6. Spacing a Lateral / Hydrant Spacing [feet] _�6 [as percentage of wetted diameter] Spdnlder spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple LateralsfHydrants Single Lateral/Hydrant Excessively spaced SprinkleratHydrants 8. Read the irrigated area per sprinkierftravel pull for the given wetted diameter from the appropriate tabale and colunui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet]) 143,560 (c) Acres stop end of pull from 'fable Colunui Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Lc -1-6 > Colunin i3 _3,,,,L ff (b) Acres middle portion of pull {Pull Length Sr a [feet) X Wetted Width .x so [feet])/ 43,560 (c) Acres stop end of pull from Table Column ii. 7LTotal acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or fulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres G Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: — Z>,f ¢ ; L �_ Date: CAWMP WErFABLE ACRE COMPUTATIONAL WOKKSUErf 1. Farm Number (Identification) #'2-- .S 7 6 Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded irrigation System 3. Type of Irrigation System Stationary Sprinkler/O-i1--_ Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes / # Exterior Lanes 5. Wetted Diameter "700 [feet].From Geld data sheet V a o Length of pull [feet] 6. Spacing o o Lateral / Hydrant Spacing [feet] �(�. [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout _Multiple Laterals/Hydrants Single Lateral/Hydrant I Excessively spaced Sprinklers/Hydrants 8. head the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colurrui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table Colum► (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet]) / 43,560 (c) Acres stop end of pull from Table Column Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) .12— (a) Acres start end of pull from Table EEC Column I? 2.1f j - (b) Acres muddle portion of pull (Pull Length 5coe [feet] X Wetted Width ge, [feet])/ 43,560 (c) Acres stop end of pull from Table Column o►s Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres o Is Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: DSA, /3.1. % Lt. Date: h CANVrV11'WLY1'ABLE ACRX COMPU'3',r TIUNAL WOlUOUKU 1. Farm Number (Identification) Field Number (identification) 2. Irrigation System Designation / Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/(rte _.Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers 4 Exterior sprinklers Number of Travel Lanes / It Interior Lanes # Exterior Lanes 5. Wetted Diameter 30-1. [feet] From Field data sheet S? 3 Length of pull [feet] 6. Spacing X o J• - Lateral / Hydrant Spacing [feet] G [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Single Lateral/Hydrant Multiple Laterals/Hydrants Excessively spaced Sprinklers/Hydratits 8. Read the irrigated area per sprinkler/travel pull for the givers wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table t X-= Q''olumui 3 .2,( ±o- (b) Acres middle portion of pull (Pull Lengtiv'7 )Ifeet] X Wetted Width z [feel])/ 43,560 (c) Acres stop end of pull from Table Column - z 4.o -Total acres for Interior pull (Sunti: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum ail of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or putts — Acres •z. Total Wettable Acre for field (Sura: 9a + 9b) Wettable Acre Computational Worksheet Completed by: P fA, CAWNIP WEFfAIILE ACHE COfvlrU'FXFIONAL WORKSUM 1. Farm Number (Identification) . �L - S? 6 Field Number (Identification) pr 2. Irrigation System Designation Existing Irrigation System New l Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/ate Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior spriiWers Number of Travel Lanes # Interior Lanes �L— # Exterior Lanes 5. Wetted Diameter �J ` [feet] From field data sheet o Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted dianieterl Sprinkler spacing along lateral [feet] [as percentage of wetted diarneterl 7. Sprinkler or Hydrant Layout - Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. head the irrigated area per sprinkler/travel pull for the given wetted diaineter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table i4olumil (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. (feel)) / 43,560 (c) Acres stop end of pull from Table Colunui Total acres for Interior pull (Sulu: a + b + c) Traveler: Exterior Hydrant (travel lane) G� (a) Acres start end of pull from Tablef fe t Column x , �. �3 9 (b) Acres middle portion of hull (Pull Lenglli2oa [feet] X Wetted Width Jo- [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Suin: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X 11 Sprinklers or Pulls - , Acres _/. rr,i 9 'Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _ .j�.9,v /�.* ; t c_ Y _- Date: CAWN11' WE1-fAULE ACHE COMPUTATIONAL WUIKStlM 1. Farm /dumber (Identification) 1 _ S % L Field Number (identification) l� 2. Irrigation System Designation �� Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Gy,r —______14ard4lose Traveler - Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes - L- -- # Exterior Lanes 5. Wetted Diameter 3 va [feet] From field data sheet pig o Length of pull [feet] 6. Spacing2 a� Lateral /Hydrant Spacing [feet] ? (as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout ��Multipie Laterals/Hydrants Single LateraltHydrant Excessively spaced SprinklerstHydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) ill •(a) Acres start end of pull from Table Colunun (b) Acres middle portion of pull (Pull Length'feet] X Wetted Width . (feet]} f 43,560 (c) Acres stop end of pull from Table Calunul Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) 7 (a) Acres start end of pull from Tablet c 9 �olunsn OF f�. • �'� I (b) Acres middle portion of pull (Pull Length vJ tfeet] X Wetted Width JLz= [feet]]/ 43,560 (c) Acres stop end of pull from Table Column . xi& / Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X 0 Sprinkler or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or fulls — Acres S. 34 1 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: ,f A, � ; Lc �� Date: 4 C:AWNP WKrFABLE ACRE COMPUTATIONAL WOO KSHEET 1. Farm Number (Identification) 12 -- 5_7 6 Field Number (Identification) �i o 2. Irrigation System Designation •� 3. Type of Irrigation System Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/atw ward -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes _ # Interior Lanes % # Exterior Lanes 5. Wetted Diameter v 0 [feet] From field data sheet o_v Length of pull [feet] 6. Spacing . 2 )— Lateral / Hydrant Spacing [feet] �[as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - ----M--ultiple LateraWHydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table, Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) / 43,560 (c) Acres stop end of pull from Table Colunin -Total acres for Interior pull (Su n: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from TableFe-9 a Column J3 it,?// (b) Acres middle portion of pull (Pull Length,?_ [feet] X Wetted Width.ZLz- [feet])/ 43,560 (c) Acres stop end of pull from Table Column s L, Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of spriolders or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres rk i Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Dater CAWNIP wKriABLE ACRE CONIr UTATIONAL WORKSULKI' 1. Tann Number (Identification) f 2 - S? 6 Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Stationary Sprinkler/CwK ---__14ard-I-1ose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprinklers # Interior Lanes -- # Exterior Lanes 5. Wetted Diameter e v [feet] From fieri data street L o o Length of pull [feet] 5. Spacing ado Lateral / Hydrant Spacing [feet] 6 [as percentage of wetted diameter] Sp►inkler spacing along lateral [feet] las percentage of wetted dianietcri 7. Sprinkler or Hydrant Layout ,---Tviultiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Statiouary Sprinldm Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table Coluirul (b) Acres middle portion of pull (Pull Length [feel] X Wetted Width, [feel]) /43,560 (c) Acres stop end of pull frons Table Colunui -Total acres for Interior pull (Suer: a + b + c) Traveler: Exterior Hydrant (travel lane) . 72— (a) Acres start end of pull from Table Column 4r 3.yy3 (b) Acres middle portion of pull (Pull Length kow [feet] X Welted Width.?S0 [feet])/ 43,560 (c) Acres stop end of pull from Table Column 1114 3 Total acres for Exterior pull (Sura: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the Feld. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres •/y 3 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: ,f A, "I : Date: CAWMP WKiTAULE ACIZIs COMPUTATIONAL WOMSUEU 1. Farm Number (Identification) 7 L Field Number (Identification) )O�i L 2. Irrigation System Designation ----IExisting irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Ci,. ---�Hard-Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # interior sprinklers # Exterior sprinklers Number of Travel Lanes j # Interior Lanes # Exterior Lanes 5. Wetted Diameter 13,0 a [feet] From field data sheet a o Length of pull jfeet] b. Spacing *2,Po Lateral / Hydrant Spacing [feet] ��_ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout • ------IMultiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colurnn based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) Gz (a) Acres start end of pull from Table,CJ-4 S�olunm .2_.75'Sf (b) Acres middle portion of pull (Pull Length 60 O [feet] X Wetted Width z OP [feet]) 143,560 (c) Acres stop end of pull from Table Colunul .39 Notal acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from "Table Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Sura: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres .3.3'7 q Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by:.9N /�.g : Lc_ Date: CAWIYI k' WKYFABLE ACRE COMPUTATIONAL WORKSIIEE't' 1. Farm Number (Identification) _may — f ` Field Number (Identification) P! 3 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/,6tw r'� iiard-Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lames _( # Interior Lanes # Exterior Lanes 5. Wetted Diameter (feet] From Geld data sheet b o o Length of pull (feet] 6. Spacing ;ZI2-- Lateral /Hydrant Spacing [feet] 7e [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple LateraWHydrants Single LateraMydrant Excessively spaced Sprinkleri/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tavale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) , (,4, (a) Acres start end of pull from Table Z1 Tb -tolumir R.. .2. fL J (b) Acres middle portion of pull {Pull Lengthka,-, [feet] X Wetted Width Al ?— [feet])143,560 (c) Acres stop end of pull from Table Colunu+ 3Ej!>-Totn1 acres for Interior pull (Sums: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull [bull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Surn: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number ofspriWders or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres I-Ey_ Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: % L K Date: 4 CALVNIP WE'L VABLE ACKE t;omrU'I'ATIONAL WORKSIIEE'l` 1. Farm Number (Identification) 6Field Number (Identification) , 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/GyK /_Hard-I-Iose Traveler Center Pivot Linear -move System 4, Number of Stationary Sprinklers # Interior sprinklers 0 Exterior sprinklers Number of Travel Lanes _ # Interior Lanes # Exterior Lanes 5. Wetted Diameter 20P [feet) From field data sheet -2 SO Length of pull [feet] 6. Spacing I / 2, Lateral / Hydrant Spacing [feet] _-__70 [as percentage of wetted dianwtcrj Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrattts S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinklerh ravel lane location. Stationary Sprinkles Acres per Interior sprinkler from' Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) LL (a) Acres start end of pull from TableiC-�-?e column F z L (b) Acres middle portion of pull (Pull LengtV pro [feet] X Wetted Width y/ L[feel]) 14 3,560 (c) Acres stop end of pull frons 'fable Colunul Total acres for Interior pull (Sunt: a + b + e) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull {Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Sun: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres ..8 Total Wettable Acre for field (Sum: 9a + 9U) Wettable Acre Computational Worksheet Completed by: ., >,f . ,¢ Lc: - Date: CAWhIV WL+',MULL- ACItL,' COrYIPU'I'A'1'LONAL WO KSI.IEI.1' 1. Farm Number (Identification) F2- - S9& Field Number (Identification) l"I 2. Irrigation' System Designation �_ Existing Irrigation System New / Expauded Irrigation System .3. Type of irrigation System Stationary Sprinkler/GFXard-I lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior spriniders Number of Travel Lanes 1 # Interior Lanes # Exterior Lanes 5. Wetted Diameter o ` [feet] From field data sheet `f Length of gull [feet] 6. Spacing 9 o!_ Lateral / Hydrant Spacing [feet] las percentage of wetted diameter) Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout /Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunut based on pattern, spacing, and sprinkler/travel lane location. Statiouary Sprinklers. Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) 4, y (a) Acres start end of pull from Tablet 6 �$7'olumn a 3 t / (b) Acres middle portion of pull (Pull LengthFJ'O [feet] X Wetted Width x -, o [feet]) 143,560 (c) Acres stop end of pull from Table Colunui 34• Ff / Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres muddle portion of pull (Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior poll (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres ±-f k 1 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Pee, CAWIYII' WLTI'AULE ACRE COMPUTATIONAL WORKSllEfi•I' 1. Farm, Number (Identification) X 7 6 Field Number (Identification) Z. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/O_i,. ________ Hard -Klose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanese # Exterior Lanes 5. Wetted Diameter [feet] From field data sheet %3_'ra Length of pull [feet] 6. Spacing /7) Lateral / Hydrant Spacing [feet] SS'_ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - ---_�FMultiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunum based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table _ roluirui (b) Acres middle portion of pull (Pull Length ifeet) X Wetted Width . [feel]) 143,560 (c) Acres stop end of pull from Table Colullui -Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) �o X , y; , ,rL J (a) Acres start end of pull from 'CableE�b" Column .2j, 9 (b) Acres middle portion of pull (Pull Length 7Xo. [feet] X Wetted Width 43,560 (c) Acres stop end of pull from Table Column 3- 7VY Total acres for Exterior pull (Sure: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls — Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres Total Wettable Acre for f eld (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: P fA, : Lc �_ Date: tJi►++ ivi1' 4M'i 1ALJU A -AL 1.01VIVUTATIUNAL 1VUIUKSULET 1. Farm Number (Identification) F.2- ,r7& Field Number (Identification) 2. Irrigatida System Designation Existing Irrigation System New f Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/cte Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes �{ # Interior Lanes _� # Exterior Lanes 5. Wetted Diameter .3a a ` [feet] From field data sheet oo Length of pull [feet] 6. Spacing -2-P0 Lateral I Hydrant Spacing [feet] ��_ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout /� Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colurnn based on pattern, spacing, and sprinklerltravel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table rolunui (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) 143,560 (c) Acres stop end of pull from Table Colunul Total acres for Interior pull (Sung: a + b + c) Traveler: Exterior Hydrant (travel lane) .7 2, 34 (a) Acres start end of pull from Table F6r9 (Column d Z' f fr L- (b) Acres middle portion of pull (Pull Lengtli5eo [feet] X Wetted Width jg rifee(])l43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Suns: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Dulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls - Acres z• s Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Lc �_ Date: t_jkwi+rr lYL:TTABL.L Actin: COMPu'I't TLONAL %VU1U' ULU 1, Farm Number (Identification) Z -,S' 7(c Field Number (Identification) Z. Itrigatioh System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/&y, � Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes 1� # Exterior Lanes 5. Wetted Diameter .3a o [feet] From field data sheet? �r Length of pull [feet] 6. Spacing ?.2j2- _ Lateral 1 Hydrant Spacing [feel] _.( , ____ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout �� Multiple LateraWydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinlder/travel pull for the given wetted diameter from the appropriate tabale and colurrut based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table'olunui (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet])143,560 (c) Acres stop end of pull from Table Column Total acres for Interior pull (Sunt: a + b + 0 Traveler: Exterior Hydrant (travel lame) . 7 Zr (a) Acres start end of pull from Table �f Column w (. (b) Acres middle portion of pull (Pull Lengtl �7s`(feet] X Wetted Width.z c [feel])/43,560 (c) Acres stop end of pull from Table Column .3.1� �b Total acres for Exterior pull (Swan: a + b + e) 9. Multiply the tabulated 'irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field, Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls a Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres 3� Total Wettable Acre for field (Sura: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _. !9N .� % Lt �'� Date_ C ��1Yj�iI' lY.lTTAl3LE AC. RL- C ONII'UTATiONAL NYURRSUEET 1. Farm Number (Identification) 8 - ✓r 7 6 Field Number (Identification) 9 2. IrrigationSystem Designation 3. Type of Irrigation System Existing Irrigation System New / Expanded irrigation System Stationary Sprinkler/6`1.1 -_� Hatd-[-lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes 1 # Exterior Lanes 5. Wetted Diameter a d [feet] From field data sheet f J_o Length of pull [feel] 6. Spacing Lateral / Hydrant Spacing [feet] i [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] t 7. Sprinkler or Hydrant La out. - Multiple Laierals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lone) (a) Acres start end of pull from Table column w (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet]} 143,560 (c) Acres stop end of pull from Table Colunul Total acres for Intcrior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) .4k (a) Acres start end of pull from Table 1�' `0 (Column ,s p. YK (b) Acres middle portion of pull � �� � ,,,� X • 9 (Pull Length f s - o_ [feet) X Wetted Width 3., o (feet])/ 43,560 (c) Acres stop end of pull from Table Column r 11L Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Putl X # Sprinklers or Pulls — Acres . YV.P Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: - .2,f A, : Lc Y� Date. L�ti►vjvll' 1V1:TTABLL AC kL- C:ULI PUTATIUNAL IVUIUKSU1JlaT 1. Farm Number (Identification) z --F74 Field Number (Identification) z m 2. Irrigation System Designation 3. Type of Irrigation System Existing Irrigation System New / Expanded Irrigation System Stationary Sprirdder/c4K Hard-llose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers 0 Exterior sprinklers Number of Travel Lanes y # Interior Lanes / # Exterior Lanes 5. Wetted Diameter 3av [feet] From field data sheet Z Length of pull [feet] 6. Spacing 255 Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] " Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] S 7. Sprinkler or Hydrant Layout - -----�Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Spriultlers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler. Interior Hydrant (travel lane) (a) Acres start end of pull from Table . - column (b) Acres middle portion of pull (Pull Length 'feet) X Wetted Width.. (feet))/ 43,560 (c) Acres stop end of pull from Table Colunut Total acres for Interior pull (Sunt: a + b + c) Traveler: Exterior Hydrant (travel lane) , M - (a) Acres start end of pull from Table EF �'rColumn L� ,g'i2yir (b) Acres middle portion of pull (Pull Length��[feet] X Wetted Width.977 [feet])/ 43,560 (c) Acres stop end of pull from Table Column G. a 2-4. Total acres for Exterior pull (Suui: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres 4. o Z Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: D.9,v,R L c Date L i �1 1�'��lk' IVL'1' 1e1 i3L1; At lu COA•IL'U'i'A'1'lUNAL 1VUlU.�SUEE'I' 1. Farm Number (identification) L - .i 7 6 Field Number (tdentiGcation) PZ 1 _ 2. Ifrigatioit System Designation Existing irrigation System New / Expanded irrigation System 3. Type of Irrigation System Stationary Sprinkler/G„,r _ 'Hard -Idose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior spriiWers Number of Travel Lanes _ # Interior Lanes # Exterior Lanes 5. Wetted Diameter ,70 [feet] From field data sheet 12- Length of pull [feet] 6. Spacing Z f') Lateral 1 Hydrant Spacing [feet] :p )�[as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple LateralstHydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. Uumn (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet]) 143,560 (c) Acres stop end of putt front Table Column Total acres for Interior pull (Sunt: a + b + c) Traveler: Exterior Hydrant (travel lune) . 7Y (a) Acres start end of pull from Table ECF s Column 43 t (b) Acres middle portion of pull (Pull Length7-5' [feet] X Wetted WidthZ-77 [feet])/ 43,560 (c) Acres stop end of pull from Table Column 6 •v 2 Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls — Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls c Acres .o LL Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: .9Lam _ Date: t_ik►vi►ir' ►VE14AULL ACRE [ )MUU't'l TIONAL 14'ORKSlll;ET Q 1. Farm Number (identification) - — S i b Field Number (Identification) )2-2- 2.' LL - 2. Irrigation System Designation Existing Irrigation System New / Expasided Irrigation System 3. Type of Irrigation System Stationary Sprinkler wr �— Bard -Klose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes �y # Interior Lanes / # Exterior Lanes 5. Wetted Diameter .30 a [feet) From field data sheet o.�> Length of pull [feet] b. Spacing ao Lateral / Hydrant Spacing [feet] 64 [as percentage of wetted diameter] ` Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout 'Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colucrui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: ;interior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length Irfeet] X Wetted Width . [feet]) / 43,560 (c) Acres stop end of pull from Table Colunin Total acres for Interior pull (Suri: a + b + c) Traveler: Exterior Hydrant (travel lane) .FY (a) Acres start end of pull from Table Fk4'Column 0 (b) Acres middle portion of pull 9�X (Pull Length Ina [feet] X Wetted Width g?_f—[feet))/ 43,560 (c) Acres stop end of pull from Table Column 41. 5�Totnl acres for Exterior pull (Suitt; a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of cacti category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls – _ Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls – Acres 1.44 3'3*'Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: 9.0 F st _ Lc )-' date: �,.►►•�►r�►vL•ti,wl,t; n�'tu: c:ui�it�u•i�iiutvnta �vut�lc5ul✓�'1' 1. Farm Number (Identification) Field Number ([denlificalion) f Z 3 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/&2 �� Hard -Hose Traveler Center Pivot Linear -move Systein 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior spriolders Number of Travel Lanes !y! # Interior Lanes # Exterior Lanes 5. Wetted Diameter o J [feet] From Geld data sheet . CXQ Length of pull [feet] 6. Spacing Zoo_ Lateral /Hydrant Spacing [feet] _� G [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout �� Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Rcad the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale aild column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) - GZ (a) Acres start end of pull from TableEs"t r—Nlumn 3 2.S'x -r—(b) Acres muddle portion of pull (Pull LengthSsc [feet) X Wetted Width.2aa [feet]) 143,560 (c) Acres slop end of pull from Table _ Colunui / )"Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Suin: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the Geld. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres IV�r'rotal Wettable Acre for field (Sulu: 9a + 9b) Wettable Acre Computational Worksheet Completed by: , D Y" ,,1 % Zc �, Date: ti t,�r.,v iwAA, 1vL' l�►tsi.L �ilrliL l U14"11'U 1�� 11U1�1A1. 11'U1lIlb1lLt:l 1. Farm Number (Identification) - k2 - :?%_ Field Number (Identification) >PZ 7C 2. Irrigation'System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler /eve ' Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes / # Exterior Lanes 5. Wetted Diameter [feet] From Geld data sheet Length of pull [feet] 6. Spacing Lateral /Hydrant Spacing [feet] • (p 6 las percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for (lie given wetted diameter from the appropriate tabale and colurrui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table rolumrt (b) Acres middle portion of pull (Pull Length[feet) X Wetted Width.. [feet]) / 43,560 (c) Acres stop end of pull front Table Colunui Total acres for Interior pull (Sunt: a + b + c) Traveler: Exterior Hydrant (travel lane) . ? L (a) Acres start end of pull from Table CCG r -Column 3 (b) Acres middle portion of pull (Pull Length Vivo [feet] X Wetted Width tz) [feet])/43,560 (c) Acres stop end of pull from Table Column .2.9b(- Total acres for Exterior pull (Sunn: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls Acres 2.7kc Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: D, k/ Fir t c.)' Date: 4 ��*,►►+�r ►YLI 11%,1J1_L ALlil, CUMPU 1'A'LLONAl., IV0106HEET 1. Farm Number (Identification) 2. Irrigation System Designation P L - S� ? 6 Field Number (Identification) Po4.T4/!&T- W [V,,w. I- Existing Irnga€ion System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6,.lr Hard -[-lose Traveler Center Pivot, Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers 0 Exterior sprinklers Number of Travel Lanes # Interior Lanes �, # Exterior Lanes 5. Wetted Diameter [feet] From Geld data sheet fl� Length of pull [feet] 6. Spacing .2 2 ? Lateral / Hydrant Spacing [feet] T }.r [as percentage of wetted diameter] " Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - -----Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced SprinklerslHydrants 8. Read the irrigated area per sprinklerltravel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary SprinWers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table 1--olumn (b) Acres middle portion of pull (Pull Length[feet] X Wetted Width . Ifeet])143,560 (c) Acres stop end of pull from Table Column Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) b7 Y— ' (a) Acres start end of pull from Tablge 7fColumn r _ .:F7/3 (b) Acres middle portion of pull (Pull Length fZ v [feet} X Wetted Width 2f,"reet]}143,560 (c) Acres stop end of pull from Table Column 4-V43 Total acres Car Exterior pull (Suin: a+ b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Tull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres 6.06 1 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: "j21f,v 7,¢ % �-c _ Date: CAMVIN 1VETIABLE AC:RL COMPUTATIONAL NVUILKSIIEE C 1. Farm Number (Identification) 'L -.5'24 Field Number (Identification) L 6 P�,eTA��F /✓rdi.�rTl. 2. Irrigation System Designation / Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6,oe Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes _1 # Interior Lanes # Exterior Lanes 5. Wetted Diameter 7011 [feet] From field data sheet �7a Length of pull [feet] 6. Spacing t 2- Ir— Lateral 1 Hydrant Spacing [feet] 17 [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of welted diameterl 7. Sprinkler or Hydrant Layout Single Lateral/Hydrant ------Multiple LateraWHydrants Excessively spaced 5prinklerslHydranls 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and spriirkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) 9 (a) Acres start end of pull from Table g 9 S-Colunuti _ 4t fe 9 (b) Acres middle portion of pull (Pull Length_So 'feet] X Wetted Width ! ?[feet]} 143,560 (c) Acres stop end of pull from Table Column ,J .5f Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Aires middle portion of pull (Pull Length [feet] X Wetted Width -[feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior hull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls – Acres 0:, Sf 7 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _ „�.9� 7.g L c Date; 1st111'IYIL' WL' TIMILL ACKE l U[!'11'U'1'r�'1'iUNAL !!'UitliSlii:k;'l' 1. Farm Number (Identification) l — .r7b Field Number (Identification) -2. Irrigatiorr System Designation fl xisl'eng Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6tr / Hard -Diose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinlders # Exterior sprinklers Number of Travel Lanes �[ , # Interior Lanes # Exterior Lanes 5. Wetted Diameter .17•a [feet) From Geld data sheet X70 Length of pull [feet] 6. Spacing 2 Z Lateral / Hydrant Spacing [feet] _7?� [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of welted diameter] T. Sprinkler or Hydrant Layout - —"Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table _ Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) L 9 (a) Acres start end of pull from Table Olumn y4.fa ? (b) Acres middle portion of pull (Pull Lengthfi a [feet) X Wetted Width feel]) / 43,560 (c) Acres stop end of pull front Table Colunut 5Xfr 7 Total Acres for Interior pull (Suu;: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pail (Sunt: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for lire field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls _ Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls s Acres ,IV. -51 71 Total Wettable Acre for field (Sum: 9a + 9U) Wettable Acre Computational Worksheet Completed by. _ 2,YA, ,-% ; Le Y ----_ Date: C:AlYMV 1V1;TTAULU AC IU C:U11 PUTA11ONAL !V(11UOUEET 1. Farm Number (Identification) Sr Z ' -76 Field Number (Identification) Z. IrOgatiodSystem Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler%hie / Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes L # Exterior Lanes 5. Wetted Diameter -1?0a (feet] From field data sheet Length of pull [feet] 6. Spacing Z 2, Lateral / Hydrant Spacing [feet] 7 i [as percentage of wetted diameter) Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout --fIM—ultiple Laterals/Hydrants Single Lateral/Hydrant Excessively spared Sptinlders/Hydrants Road the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table'olunui (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . ifeet]) 143,560 (c) Acres stop end of pull from Table Colunul Total acres for Interior pull (Sun%: a + b + c) Traveler: Exterior Hydrant (travel lane) 9i (a) Acres start end of pull from Table E, ?Column .S. 121 (b) Acres middle portion of pull (Pull Length fs-a [feet] X Wetted Widtli+z`z-- [feet])/ 43,560 (c) Acres stop end of pull from Table Column G.Slt 3 Total acres for Exterior pull (Suan: a+ b + c) 9. Multiply the tabulated 'irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. y (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres 4 - to Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _ _Z2 .9.v F sr % L c; �_ Date: l rr ►ti 1 11' 1VL IJAt1LL ACIU!. CU&IPUTAI IUNAL 1YURKStil;ET 1. Farm Number (identification) -Ex — 076 Field Number (Identification) 'VO2, 2. Irfigatiori System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/4 „- / Yard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes ! # Exterior Lanes 5. Wetted Diameter .700 [feet] From field data sheet Length of pull [feet] 6. Spacing Lateral 1 Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple LateralslHydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. 1oluinn (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) 143,560 (c) Acres stop end of pa from Table Colunul Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) 4 t (a) Acres start end of pull from Table F f D rColumn _ ,Zjy�L (b) Acres middle portion of pull z ' (Pull Length [feet] X Wetted Width?oo [feel])/43,560 (c) Acres stop end of pull from Table Column 3•LTotal acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres may► Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: PYA, o : �c �_ Date: t.,��rv�+ta� 1VL'1'1'Al3LL Ac:tu; l;t)I�11U1'11,'t'tUN�1L �VUlu�5U1✓1;'l' 1. Farm Number (Identification) fir 2 - X? b Field Number (Identification) -3 y 2. Irrigatiori System Designation 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/6j, _Hard-Ilose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprisnklers # Interior Lanes / # Exterior Lanes 5. Wetted Diameter �70 0 [feet] From field data sheet - _ Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] " Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale aid colunui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table rolumnn (b) Acres middle portion orpull (Pull Length [feet] X Wetted Width. [reel]) / 43,560 (c) Acres stop end of pull from Table Colunul Total acres for Interior pull (Suru: a + b + c) Traveler: Exterior Hydrant (travel lane) .46 (a) Acres start end of pull from Table f yrs- Column _ (b) Acres middle portion or pull (Pull Length [feet] X Wetted Width [reel])/ 43,560 (c) Acres slop end of pull from Table Column . L C Total acres for Exterior pull (Suis: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X 0 Sprinklers or Pulls = Acres . G 6 Total Wettable Acre for field (Sunil: 9a + 9b) Wettable Acre Computational Worksheet Completed by: 2,fA., ,¢ L c �� Date;________ l �,►v�►Y1' WE'1 tABLL ACRE CUIVU'UTA'1LONAL %vulU,�Slll CA, 1. Farm Number (Identification) 2 - �r 7 6 Field Number (Identification) �3 f 2. Irrigation System Designation -� 3. Type of Irrigation System Existigig Irrigation System New I Expanded Irrigation System Stationary Sprinkler/GaK Hard -Mose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers 4 Interior sprinklers # Exterior sprinklers Number of Travel Lanes _ y # Interior Lanes j� P Exterior Lanes 5. Wetted Diameter 3.. [feet] From field data sheet 45-9 Length of pull [feet] 6. Spacing Lateral I Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - Multiple LateralslHydrants ..� Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinklerliravel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) / 43,560 (c) Acres stop end of pull from Table Colullua T Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) #5-> (a) Acres start end of pull from Table Ffo-- Column G x G 3,3 7 (b) Acres middle portion of pull g (Pull Length (.;'o [feet] X Wetted Width?ra [feet])/ 43,560 (c) Acres stop end of pull from Table Column 3.7 '2-- Total acres Cor Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres 3.11 L -Total Wettable Acre for field (Sum: 9a + 9U) Wettable Acre Computational Worksheet Completed by: Pf,v �rR ; �-c �_ Date: lei++oiu- ►YL' A AiLLJLL k Ui%iVU l'ALIUNAL WUlU.SIALA 1. Farm Number (Identification) L_4? 2- __ f 7 6 Field Number (Identification) 3 2. Irrigation System Designation 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/Cow Hard -Hose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprinklers # Interior Lanes # Exterior Lanes 5. Wetted Diameter OV [feet] From field data sheet _ Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] _ (as per=tW of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - Multiple Laterals/Hydrants r--� Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [feet) X Wetted Width . [feet]) / 43,560 (c) Acres stop eud of pull from Table Colunur Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from Table F90 y -Column -i3_ (b) Acres middle portion of pull (Pull Length [feel] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column ,6G Total acres for Exterior pull (Surn: a+ b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers yr Pulls — Acres .. /,. t- - Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: J „p,y,r. FF4 ; Lt y_ Date: C:t1 ►1'IYIk' 1YL'i"I'AULI; AC KE C�UfI'11,'U'1ATIONAL NVORKSllEl T 1. harm Number (Identification) 4F-1. -1-7 b Field Number (Identification) T 3 3 2. Irtigatioh System Designation �� Existing Irrigation System New ! Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6kN l-iard-l-lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes / # Exterior Lanes 5. Wetted Diameter -7010 [feet] From field data sheet G ;io Length of pull [feet] 6. Spacing i v Lateral !Hydrant Spacing [feet]_Z, (as percentage of wetted diameter) ` Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout ---'''�Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8, Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel [one) (a) Acres start end of pull from Table column (b) Acres middle portion of pull (Pull Length'feet] X Wetted Width - [feel]) 143,560 (c) Acres stop end of pull from Table Colunui Total acres for interior pull (Sum. a + b + c) Traveler: Exterior Hydrant (travel lane) .77 (a) Acres start end of pull from Tableiyfra Column 4� i-.3 (b) Acres middle portion of pull (Pull Length./5-c;, [feet] X Wetted Width,? J [feet])/ 43,560 (c) Acres stop end of pull from Table Column sl i ?,t Total acres for Exterior pull (Sura: a + b + c) g. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres '{� Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _ _ �•9,v. ?,R ; Lc �� Date. r� ►► +ir' ►YL 1 MULL e11.,1 -.L t_UtVL1'U 1'[j TLONAL %VUIUKSUL:LT Farm Number (Idenlihcation) P L -,S~ 7 f Field Number (Identification) Z. Irrigation System Designation i Existing Irrigation Systenr New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Ct a ---�I3ard-l-lose Traveler Center Pivot Linear -prove System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes # Exterior Lanes 5. Wetted Diameter [feet] From field data sheet 16 da Length of pull [feet] 6. Spacing 4 _v Lateral ! Hydrant Spacing [feet] , [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] tas percentage of wetted diameter] 7. Sprinkler or Hydrant Layout - multiple Laterals/Hydrants Single LaterailHydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) 73 (a) Acres start end of pull from Tablee�L8n _'olunui 3, so � (b) Acres middle portion of pull (Pull Length yve [feet] X Wettest Width,75p [feet]) /43,560 (c) Acres stop end of pull from Table Colunur "Total acres for Interior pull (Suer: a + b + c) Traveler: Exterior Hydrant (travel lane) (a) Acres start end of pull from 'fable Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column Total acres for Exterior pull (Surn: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres Zj_ Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: ZfA, o ; �c � Date;____ _r_ ��ti►Yjrrl' WEI TABLE Al;KE CUAIPU•I•ATIONAL 1VORKSIll+rET 1. Farm Number (Identification) 2--5 7 L ^ Field Number (identification) 23.2 2. Irrigation System Designation 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Y Existing Irrigation System New / Expauded Irrigation System Stationary Sprinkler/&w Hard-llose Traveler Center Pivot Linear -move System # Interior sprinlders # Exterior sprinklers # Interior Lanes - ��_ # Exterior Lanes 5. Wetted Diameter 3-P-0 [feet] From field data sheet Length of pull [feet] 6. Spacing .) O Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout /� Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colurna based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lame) (a) Acres start end of pull from Table _'olumn (b) Acres middle portion of pull (Pull Length Meet] X Wetted Width . jfeet]) / 43,560 (c) Acres stop end of pull from Table Colunui Total acres for Interior pull (Sum: a + G + c) Traveler. Exterior Hydrant (travel lane) .-7 7 (a) Acres start end of pull from Table eC kJ Column J3 z (b) Acres middle portion of pull (Pull LengthJ'7> [feel] X Wetted WidUti17 [feet))/ 43,560 (c) Acres strap end of pull from Table Column qo Total acres for Exterior pull (Sura: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the Geld. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres -,/.!I o 'Total Wettable Acre for field (Sum: 9a + 9b) Wcttable Acre Computational Worksheet Completed by: ,D.�,� : Zc �_ Date: l,�f 1Y1111' ►VL'i`inllLL Al luu: l unll'U'I'l�'I'IUNAL 1VVIUkSI.IL UT 1. Farm Number (Identification) 1L - 5�9 4 Field Number (identification} �3 2. Irrigation'System Designation I Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/&� ,r Hard -I lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes � # Exterior Lanes 5. Wetted Diameter • e [feet] From field data sheet Length of pull [feet] 6. Spacing Lateral /Hydrant Spacing [feet] 7 ?� las percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout /� Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant ((ravel lane) (a) Acres start end of pull from Table . Colunut (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) 143,560 (c) Acres stop end of pull from Table Colunui Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) ? (a) Acres start end of pull from 'Fable CZ' 9' Column 17/3 (b) Acres middle portion of pull (Pull Length f;-- [feet) X Wetted Width 26 2— [feet]}143,560 (c) Acres stop end of pull from Table Column iC. VC ; Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a)' Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = — _ Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres 4,14 43 Total Wettable Acre for field (Sum: 9a + 9U) Wettable Acre Computational Worksheet Completed by: ,Pf,cf,¢ ;c Date: 4VL'ITMILL AC;RZI-; LUMPU"1'ATIUNAL 1VUM-SUEET 1. farm Number {Identification) Z j '% Field Number (Identification) „.3 "2. Irrigation'System Designation Existing Irrigation System New / Expa=rded.Irrigation System 3. Type of Irrigation System Stationary Sprinkler4r( Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Spriniders 0 Interior sprinklers # Exterior sprinklers Number of Travel Lanes �{ # Interior Lanes ! # Exterior Lanes 5. Wetted Diameter oa [feet] From field data sheet 95710 Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] '7 )� [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colurnn based on pattern, spacing, and sprinkler/travel lane location. Stationary Spriniders Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table C'olumn (b) Acres middle portion of pull {Pull Length {feet] X Wetted Width . [feet]) 143,560 (c) Acres stop enol of pull from Table Colunut -Totnl Acres for Interior pull (Surn: a + b + c) Traveler: Exterior Hydrant (travel lane) _ 13, (a) Acres start end of pull from. Table rt 7"' Column 3 S, 7i3 (b) Acres middle portion of pull {Pull Length s� a [feet] X Wetted Widt]O& z [feet])/ 43,560 (c) Acres stop end of pull from Table Column 6.V(-3 Total acres for Exterior pull (Sura: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the Feld. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres v C 3 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _ ,Z) , ,,, : Lc Date;_____. L 1.ii irivll' WWI IAULL, At -ICL: l,Ui1'II!U'1'A'I'IUNAL 1VUIUKSu1:U 1. Farm Number (Identification) Frt - ,S" Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Ctw �� ,Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers 4 Exterior sprinklers Number ofTravel Lanes # Interior Lanes �_ # Exterior Lanes 5. Wetted Diameter 300 [feet] From field data sheet o Length of pull [feet] 6. Spacing Lateral./ Hydrant Spacing [feet] _ (as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants —�' Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table'olunm (b) Acres middle portion of pull (Pull Length 'feet] X Wetted Width . [feet]) / 43,560 (c) Acres stop end of pull from Table Calunul 'Total acres for Interior pull (Sues: a + b + c) Traveler: Exterior Hydrant (travel lane) , 66 (a) Acres start end of pull from 'fable f -f - 1 -Column ff (b) Acres middle portion of pull L �..o X • g (Pull Length oa [feet] X Wetted Width 3e -p [feet])/ 43,560 (c) Acres stop end ofpull from Table Column S• �� Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls — Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres .6 jV Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: peyA, ,¢ ; L& L_ _ Date:_ 4 i \1111'�tIYETI'AtiLL AOCL, CUNIFU'1ATIUNAL 1YVItKSklLET 1. Farm Number (Identification) -S76 Field Number (Identification) 2. Irrigatiori System Designation �'� Existing Irrigation System New / Expanded Irrigation Systern 3- Type of Irrigation System Stationary Sprinkler/ate �� Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinlders # Exterior sprinklers Number of Travel Lanes T # Interior Lanes 1 #.Exterior Lanes 5. Wetted Diameter [feet] From Geld data sheet SSD Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] E 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced SprinklerslHydrauts 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Spriaklen Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. column (b) Acres middle portion of pull (Pull Length tfeet) X Wetted Width. [feet)} 143,560 (c) Acres stop end of pull from Table _ Colunus -Total acres for Interior pull (Suns: a + b + c) Traveler; Exterior Hydrant (travel lane) ,.3 3 (a) Acres start end of pull from Table f f o Column 0 /.rl,"f (b) Acres middle portion of pull X. k (Pull Length X.5 a [feet] X Welted Width /6'0 [feet])/ 43,560 (c) Acres stop end of pull from Table Column ,Z.oZy Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X 0 Sprinklers or Pulls = Acres ,q,p 311 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: 2,fA, v % L � Date: k;AWIYIP 4Y1:TTAi.tLE ACIU: CUAII'UTA"I'IUNAL WUIU.iSUEET 1. Farm Number (Identification) 912-S74 Field Number (Idendfication) SA) 2. Irrigation System Designation Existing Irrigation Systern New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Gy,r --_ Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes J # Exterior Lanes 5. Wetted Diameter [feet] From field data sheet Length of pull [feet] 6. Spacing _. Lateral / Hydrant Spacing [feet] _ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter) 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants r� Single Lateral/Hydrant Excessively spaced SprinklerslHydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table column (b) Acres middle portion of pull (Pull Length ifeet] X Wetted Width. [feet]) 143,560 (c) Acres stop end of pull from Table Colunul Total acres for Interior pull (Suite. a + U + c) Traveler: Exterior Hydrant (travel lane) , Y3 (a) Acres start end of pull from TablAi-7 T- Column �— • G X " o �—(b) Acres middle portion of pull 71 . (Pull Length o.d [feet] X Wetted WidthJv-P [feet])/ 43,560 / (c) Acres stop end of pull from Table Column A 71 Total acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = _ Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres 3 7Y '-Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: .9.v ,¢ % L t �'� Date: t,rt+toAt' �YLI 1ilk 1ULL AURL 1. AIVU 1'A11ONAL !1'Uti 6UL1'T 1. Farm Number (Identification) -4'7` Field Number (Identification) _ %die/ 2. Irrigation'System Designation �� Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/atr --'--�Hard-Klose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes I # Exterior Lanes 5. Wetted Diameter [feet] From field data sheet '71-0 Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] r 7. Sprinkler or Hydrant Layout - e----�Multiple LateraWHydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. head the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinkler's Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table. column (b) Acres middle portion of pull (pull Length [feet] X Wetted Width . [feet]) 143,560 (c) Acres stop end of pull From Table Colunui 'Total acres for Interior pull (Suitt: a + b + c) Traveler: Exterior Hydrant (travel lane) 72, (a) Acres start end of pull from Table ,EC �� Column (b) Acres middle portion of pull (Pull Length,23o [feet) X Wetted Width aLP [feel])/ 43,560 (c) Acres stop end of pull from Table Column , .1Lg Total acres for Exterior pull (Sure: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls - _ Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls T Acres �� Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed hy:._,.22,f/e .¢ % Lc �- Dale: __ �-A V141' WL•1 TABLL ACj),L, CUh'1VU•1'ATIUNAL 1VU1tkSlll✓'L'1' 1. Farm Number (identification) r Fr 2 - )77 Co Field Number (Identification) ` ,p Cy 2. Irrigatiod System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/cre _ Hard -I -lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes �{ _ # Interior Lanes J # Exterior Lanes 5. Wetted Diameter o o ` [feet] From Geld data sheet l S70 Length of pull [feet] 6. Spacing _L i D _ _ Lateral 1 Hydrant Spacing [feet] Sro [as percentage of wetted diameter] F Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout �"'J Multiple Laterals/Hydrants Single LateraVHydrant Excessively spaced Sprinklers/Hydrants Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and column based on pattem, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table ' Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table rolurnn (b) Acres middle portion of pull (Pull Length[feet] X Wetted Width . [feet]) 143,560 (c) Acres stop end of pull from Table Colullul 'Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) , 70 (a) Acres start end of pull from TableColumn 13 -1 &2_L (b) Acres middle portion of pull (Pull Length f, o [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column 3. f V Total acres for Exterior pull (Suin: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the Feld. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls - Acres A. f 71 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: ,f A, �,g ; Lc �_ Date: 4 %ii,vt o A11L`!_►t1UL.Lilk l,1lL U)til'UWviu,�.S LILT 1. Farm Number (Identification) ' 92 - 6_ L Field Number (Identification) /_ 3 2. Irrigatiow System Designation /� Existing Irrigation System New / Expanded Irrigation System 3. Type of irrigation System Stationary Sprinkler/G.r /Hard-I•lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes _ # Interior Lanes _� # Exterior Lanes 5. Wetted Diameter (feet] From Gold data sheet f d Length of pull (feet] 6. Spacing _/, O Lateral / Hydrant Spacing [feet] 3"0 [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as per=tage of wetted diameter] 7. Sprinkler or Hydrant Layout • Multiple Laterels/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Read the irrigated area per sprinklerltravel pull for the given wetted diameter from the appropriate tabale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table rolurtut (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feet]] / 43,560 (c) Acres stop end of pull from Table Caluuul 'Total acres for Interior pull (Sum: a + U + c) Traveler: Exterior hydrant (travel lane) o(a) Acres start end of pull from Table i E4 R Column '` yo -7 (b) Acres middle portion of pull (Pull Lengtli,E_[feet] X Welled Width2.2�_feet])/ 43,560 (c) Acres stop end of pull from Table Column . j4v 7 Total acres for Exterior pull (Sura: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the Geld. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls s Acres Sr,k o 7 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: - _ 27.9,cr /,,R ; Lc Y' Date. • ,. �r 1,.1 ►I L I tIILL;LL I I U I U, UUMVU Ii! I IUIVAk, 11 UIC'.,)JI E1, 1. Farm Number (Identification) ` R 2- ` Field Number (Identification) 2. Irrigation'System Designation 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Exisling Irrigation System New / Expanded Irrigation System Stationary Sprinkler/6wr Center Pivot # Interior sprinklers # Interior Lanes Hard4lose Traveler Linear -move System # Exterior sprinklers # Exterior Lanes 5. Wetted Diameter 3 o o ` [feet] From field data sheet 7 0 o Length of pull [feet] 5. Spacing -5'o Lateran Hydrant Spacing [feet]So. [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant layout - ----rMultiple Laterals/Hydrants Single Lateral/Hydrant Exccssively spaced SprinklerstHydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale aird column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres ger Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table �olunm (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) / 43,560 (c) Acres stop end of pull from Table Column Total acres for Interior pull (Suill: a + b + c) Traveler: Exterior Hydrant (travel lane) 7a (a) Acres start end of pull from fable ���e Column a (b) Acres middle portion of pull (Pull Length -o [feet] X Welled Width ZL-Tfeet])/ 43,560 (c) Acres stop end of pull from Table Column /.7jTotal acres for Exterior pull (Sunr: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulis of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or fulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls' - Acres A73.i' Total Wettable Acre for field (Suns: 9a + 9b) Wettable Acre Computational Worksheet Completed by:.9,v % �¢ % LC �� Date: iVL-iTABLL A(,RL t:UL111'U t'A 1IUNAL 11 u1u�51i1:�:1 1. Farm Number (Identification) 2. Irrigation System Designation 3. Type of Irrigation System 4. Number of Stationary Sprinklers Number of Travel Lames 2 - 5 9 6 Field Number (identification) �— Existing Irrigation System New J Expanded Irrigation System Stationary Sprinkler/6tnK -----H�ard-I lose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprinklers # Interior Lanes t # Exterior Lanes 5, Wetted Diameter 30�" [feet] From field data sheet MoD Length of pull [feet] 6. Spacing. -15-d Lateral/ Hydrant Spacing [feet] _;' V las Percentage of wetted diameter) Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] I 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants S. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunui based on pattern, spacing, and spriiWedtravel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table . Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from Table _ 1'olumt (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width . [feel] } / 43,560 (c) Acres stop end of pull from Table Colunin Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lame) .4 ;'S (a) Acres start end of pull from 'Table c: r'Ge Column - • (b) Acres middle portion of pull (Pull LengtliS'vo, [feet] X Welted Width /fes[feet]}! 43,560 (c) Acres stop end of pull from Table Column . 2 3 Y Total acres for Exterior pull (Sum: a+ b + r) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprialders or pulls of each category in the field. Sum all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or Pull X 0 Sprinklers or Pulls ¢ Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres A. X 3 9- Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: v : Lc _ Date: ') , is t 1. Farm Number (IdentificationL Field Number (Identification) T` 2. Irrigatibn'System Designation �_ Existing Irrigation Systems New 1 Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/cie �— Hard -1 -lose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes �{ # Interior Lanes I # Exterior Lanes 5. Wetted Diameter ,?_. ' [feet] From Geld data sheet 4FQ2 Length of pull [feet] 6. Spacing _ _ Lateral 1 Hydrant Spacing [feet] _ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] (as percentage of wetted diameter) 7. Sprinkler or Hydrant Layout - Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinlders/Hydranls 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colurrui based an pattern, spacing, and sprinklerlt ravel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lame) (a) Acres start end of pull from Table F column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width. [feet]) 143,560 (c) Acres stop end of putt from Table Colurrui 'Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) .A6 (a) Acres start end of pull from Table c Sa rColunlit 13 -A (b) Acres middle portion of pull (Pull Length F3 --o [feet] X Wetted Width.2 f-0 [feet])/ 43,560 (c) Acres stop end of pull from Table Column i .F?tl Total acres for Exterior pull (Surnn a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel pull by the number of sprinklers or pulls of each category in the field. Sum all of these and this is the total irrigated acreage Tor the field. (a) Acres per Interior Sprinkler or Pull X # Sprinklers or Pulls a Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls a Acres G -'k Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: D.9., 2,,r �c Y...:— Date: 4 OF WA rF9 Michael F. Easley. Governor Q William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources co 7r � Alan W. Klimek. P. E., Director p Division of Water Quality August 5, 2003`^ 1 1 4o CERTIFIED MAIL RETURN RECEIPT REQUESTED J&W Sine Co. Inc. J&W Swine Co Inc 1920 Mingo Church Rd Dunn NC 28334 Ate; 112WO Dw Subject: Application for National Pollution Discharge Elimination System (NPDES) General Permit Facility Number 82 - 576 Dear AW Sine Co. Inc.: The Division of Water Quality (Division) has been required by the U.S. Environmental Protection Agency (EPA) to develop a NPDES permit program for animal waste management systems. The Division has developed a general NPDES permit similar to the state Non -Discharge General Permit that this facility is currently permitted under. Coverage under the General NPDES permit will be required by all facilities that are at, or above, the federal threshold numbers of animals listed below, as well as any facilities that have had a discharge to waters of the state since January 1, 2001. Federal Threshold Animal Numbers: 2500 Swine greater than 55 pounds in weight 10,000 Swine less than 55 pounds in weight 700 Mature (milking cows or any cows that have calved) Dairy Cattle 1000 Beef Cattle in confinement 30,000 Poultry with a liquid waste management system 55,000 Turkeys 125,000 Chickens other than a liquid waste management system 82,000 Laying Hens other than a liquid waste management system According to our records this facility meets the federal threshold for a NPDES permit. If you are currently operating at a population above the threshold numbers please sign and submit the enclosed NPDES Short Form B - Existing Facility. Please carefully follow the instructions on the form. If you are currently operating this facility at a population below the federal threshold you may choose to submit the enclosed "NPDES Short Form B - Existing Facility" for the design capacity of the system as it is currently permitted. You may also choose to request a new Certificate of Coverage under the State Non -Discharge Permit at a population below the federal threshold. Should you choose this option, please submit the enclosed "Request for Modification to Existing Certificate of Coverage for State Non - Discharge Permit" application and updated WUP reflecting the population change. Please note that if you are issued a modified Certificate of Coverage for a lesser population, any future increases in population would require a new permit from the Division prior to increasing the animal population. Kh .0Z40 IR Permitting unit Internet http://h2o.enr.nc.state.us/ndpu 1617 Mail Service Center, Raleigh, NC 27699-1617 Telephone (919) 733-5083 Fax (919)715-6048 Customer Service Center Telephone 1 800 623-7748 An Equal Opportunity Action Employer 50% recyded/10% postconsumer paper Please submit one of the enclosed applications within 60 days from receipt of this letter. If you choose to submit the "Request for Modification to Existing Certificate of Coverage for State Non -Discharge Permit" application you must include an updated WUP. If you are unable to obtain an updated WUP you should submit the "NPDES Short Form B — Existing Facility" for your current permitted population and request a permit modification at a later date when'you have obtained a new WUP. Failure to submit the application as required may subject your facility to a civil penalty and other enforcement actions for each day the facility is operated following the due date of the application. If you have any questions about the NDPES permit, the enclosed applications, or any related matter please feel free to contact J R Joshi at 919-733-5083 extension 363. Sincerely, M_ Pahl Sherman, P.E. Cc. Sampson Soil and Water Conservation District Fayetteville Regional Office, Division of Water Quality Permit File NCA282576 Permit Application File NCA282576 -F�-V Q North Carolina Cooperative Extension Service Collage of Wearam and We Schmn acility No: 82-576 arm Name: J & W Swine Q ?` 1 �� V CJ caner: J & W Swine EC'F ubject: Amendment to wettable acre and WUP Er ech. Spec.: Danny Bailey -� 24 W See the following: a (1) Lengthening of p36, p37, p46 due to hose length of 1075. (2) Expanded irrigation with portable hydrants on E47 and E48. (3) Soil series map on expanded irrigation and pump and haul fields. (4) Crops and nitrogen rates on expanded irrigation and pump and haul fields. (5) Land owner agreement. (6) Application timing. err Si1nature Date Tech. ec. Sign ure u /—O.J- Date Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability. North Carolina State University, North Carolina A&T State University. U.S. Department of Agriculture. and local governments cooperating. acility No: arm Name: ubj ect : ech. spec. n North Carolina Cooperative Extension Service College of Agriculture and We Sciences 82--576 RECEIVED ! DENR / DM J & W swine AQWP-r Pmtedior sAdon APR 012009 Crop Revision Danny Bailey his revision is to add "soybeans" to the crop sequence of all rrigation pulls that are presently in annual crops for J & W I nd J & W II. Note that crops following soybeans will have their itrogen rates reduced by 20 lbs./acre due to residual nitrogen rom soybeans. J & W I Field soil Type Yield Nitrogen Rate lbs. Acre P1 GoA 42 bu. 168 P4 GoA 42 bu. 168 P5 GoA 42 bu. 168 P5 NoB 35 bu. 140 P7 NoB 35 bu. 140 P11 NoB 35 bu. 140 P12 NoB 35 bu. 140 P13 NDB 35 bu. 140 n P14 NoB 35 bu. 140 P15 NaB 35 bu. 140 P16 NoB 35 bu. 140 Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability. North Carolina State University. North Carolina A&T State University, U.S. Department of Agriculture, and local governments cooperating. Field Soil Type Yield Nitrogen Rate lbs. Acre P17 NoB 35 bu. 140 P18 NoB 35 bu. 140 P19 NoB 35 bu. 140 P38 Aw 25 bu. 100 P39 NoA 40 bu. 160 P40 NoA 40 bu. 160 P41 NoA 40 bu. 160 P42 NoA 40 bu. 160 P43 NoA 40 bu. 160 P44 NoA 40 bu. 160 P45 NoA 40 bu. 160 t Signature Date Technic Specialist If Date 4 a Facility 82-576 Field soil Series T617 NoB Acres T1371 NoA,NoB 6.36 10.80 T573,T476 Au 30 18.98 u Application Crops Nitrogen Rate Method (lbs./Ac.) *P & H Corn 125 Wheat 132 Cotton 78 Soybeans 140 ** SBDC 112 WA 100 SA 110 P & H Same P & H As Above v P & H Corn ; 94 Irrigated Wheat 108 Cotton 72 Soybeans 100 ** SBDC 72 WA 100 SA 110 WA - Winter Annual SA - Summer Annual *P & H - Pump and Haul **Soybeans Double Cropped (SBDC) (Note: Reduce nitrogen rate by 20 lbs./acre on any crop following soybeans.) l'kt11C'�` PIELU TABLE 1: ACRES OWNED BY PRODUCEIt SOIL TYPE & CLhSS— DETERMINING PHASE CROP lyiEliul CODE As Lus AW N PLR AC � j ! J COMM 141 PEit 1ACH"I AC AW USED rhpLlc. Time 143 Nies 14 Y,o �76 5 't. r 7"D 3. oA 3 FqQ + 3P 12J.7 �/,e 47hM' et*3 rf. 19/ • J1A / /D� . 5.¢ 3.776 oolj ' F /% 4jx 564.4 GcJ�— QY s z/ � r � rte/ J ! TOTAL, �T 3 P - .tet=.ems. dR pAsrw� E- slfE,Ae&-$C; TABLE 1: ACRES OWNED BY PRODUCER � t11C'1' FIELD SDIL 'HYPE & CLASS- CROP YICLUFWN COMM N �'�' i�US DETERMINING PHASE CODE PER ACRES AW AC USEU r P )PLIC i TIME UP �+ T• v J•J d I r SA/ 1 !o/ �a 14 9?4 ,�00 707 s/% w� tao q 75,.2 -to o 4-ill�o� �.8 7L 3 f v � 1 �lqll ,.q a I nu 44 7 G • r TOTAL —�L%rRc) Cwt �/ �PE�_t.•Re'�? •„� /-Zf,� f .7 T o .� flisJ•-� 1? �+ T• v J•J d I r SA/ 1 !o/ �a 14 9?4 ,�00 707 s/% w� tao q 75,.2 -to o 4-ill�o� �.8 7L 3 f v � 1 �lqll ,.q a I nu 44 7 G • r TOTAL —�L%rRc) Cwt �/ �PE�_t.•Re'�? •„� /-Zf,� f .7 T o .� flisJ•-� 1? 'I.RACT FIELD TABLE 1: ACRES OWNEU €3Y PRODUCER SOIL TYPE 6 CLASS - DETERMINING PHASE • CIiCi' X I C LU LUS COMM ti * LBS COUE AW N PER ACRES AW I1;R AC AC USEU P"Pilxc. TIM gyp ��I Arm P1 '7 F IcJI� /. ,FT Y-017 t.. 30 � TTe✓ /POfA� ✓� 'Ot i` 80 2 c . rro NR+ dig0 vsz 75 as r 1537 1 Q P ,,l r�fv/ 30 ml Hyo yoso Xi, 40 - Al, 46 ,Hk' 1944 x'33 1 - A �-- 3 P _ i3ERJr-wkiA �R s ru�rr�' .o;,T e TOTA 1, S6E NE'r% pA3,C 2, TABLE 1: ACRES UWN6D BY PRODUCElt � - 140fl �fRJToH 'Jogs ,9 s q., r �O .v0 rr� P3 �a � oo , .27 d�� w / ' Na q 3.57/ Fra `f z 11 -77 Ne,4 3 4 t"'!• 7 3.3 TOTA • sC� ,✓Cv� P��E SOIL TYPE& CLASS - DETERMINING PHASE CODE AW N PER AC PER AC ACRES AW USED 'Er FIELD VP IA C TIME /a � - 140fl �fRJToH 'Jogs ,9 s q., r �O .v0 rr� P3 �a � oo , .27 d�� w / ' Na q 3.57/ Fra `f z 11 -77 Ne,4 3 4 t"'!• 7 3.3 TOTA • sC� ,✓Cv� P��E i iin CJ,' 314J _ TABLE 1: ACRES OWNED UY PRODUCE3t FIGLU SOIL TYPE & CLASS- CROP YIELD LBS COMM N • 7- 1,135DETERMINING PHASE CODE AW N PER it ACitL'9 AW PER AC AC USED TIME / as WR $f /7 Wim- 45el. i J7' Ale A ,�oTC r 60 8,- .A 4 775 C�Qa Y.o,: o.• -+t- C • 2-- rrali 70o !ss• fro iv. /4 F%00/D Go 6,.. /�� 3.397 (xvTyr:a�.�+ L C.7r• lap i44- o Na 4 /=r.'/O . (,'Ne�#r 608.. �dT,OriI.-,,LjCri iN' 'Vad IA4 70cl - ee G7,�ri/...,.E. C•Trim �'Oa /6 �iCi 1440 I a /Q.7Ar:s�+ L '�•.e�// fou �r . j p�� � � Afv F E/o �s,Ewr 6. rsw. ' Tu /7. 7f 07Sr.x O T lfi+r R e Ra P C 7'•a T3 t �i ,tr�v�-� o •J t1.esc is f) rP,09AI 411-1,41C C aR.V CORN �i /O T b ,!•� . - Dec CAT Se F.v3 D S� /IF I • 7- µ/iNT&A A TO!'A L $ E� �t rc r fa.•�,F � %riF�Es.r% GRe i// SE .+E"-' TA�v.-a CORN �i /O T b ,!•� . - Dec CAT Se F.v3 D S� /IF I 4 t .2.F I _ / e -A sld / C TABLE 1: ACRES OWNED /BY PRODUCER 6o� FIELD SOIL TY P 6 & CLASS-- CROP Y I CGU LITS (3014 N IMUS DE'T'ERMINING PHASE CODE AW N Ptit ACRES AW PER AC AC USED d NAK L :Pias f .a P"PLIC 10 a 7.31 32177 /.607.4si-.4L .7710 7.00/6s. �o/3 F•s/ TIME !E_ b /99Z II � ��.�A7••orwG o.�N/ /per/S••' !AS w #! /i C7 '�r aiC ;n�E73 ,*, VMS+ 75"7x- "'/a /V ® N F iD (r//tIf & a Is.. -. i v .�. ! •• • �/ Clo Ts! rJ� r� �-� Ca.t� ! o ��• 14 •�, diRirOw�AL wA/ i�v7 N'•T.?AGEa/_ SPE cr..`.r t7 ,TOTAL .�9I 7AAll* 7_a0aA-_A1 c� I(�u7/T io ,vw C D7Ts� 7-0/4-9. /bt. / .a ¢ a 7.31 32177 /.607.4si-.4L .7710 7.00/6s. �o/3 F•s/ k,).4 /99Z N'•T.?AGEa/_ SPE cr..`.r t7 ,TOTAL .�9I 7AAll* 7_a0aA-_A1 c� AZ F.A. it N� ej T:f s qJr,•_,.. JR a A Irk jIA • 4- A�. . .... r , I hN, k Q JA 753 1-441 I J%P. J� tv ilk lu F.A. it N� ej T:f s qJr,•_,.. JR a A Irk jIA • 4- A�. . .... r , I hN, k Q JA 753 1-441 I J%P. J� +� s•�'Y e\�, �C�# ,.� r, ,y.J {' y•l1u1 44 Fbl ��• , � i3 q AQ l , +� ,�, •,�t+ • rr -a =s rj: INA-+ ' 7f • 'rs.1^ ; - w }``'/ s r Yd •!i.,f i 'r `r "".�; �; ',�' �} �� r,� '� � Int � F�1 ' �' •'1r�'.hrt ��! '¢`,�I, •i ;c�'li: �, -r,dY }' J �.1 J� .IEs�tw W 4•. .f� ,���ir �}r'�,�t,�rs L -j r,. rSt , r. ,, ; .y. rffi.'�:'` ' • I ` . j. 5'r 3 �S? >`` -'Car hi�,} .S r 1• '�_ J'? � la �;� s rl a ryr�• ` :r�,:4 ,: ;' ! •i,.J r „ �..�• �r�{�� •� } I, �'�' } s . _ .r J:'::ls.S � ! 9J �- •! i„ , ar - �%'[ ! � yi .Jr 4 - j •i � �.. \F r Ir. i^*:, =,. i'��•! !r � iJy— i-�... F -•.�. ,. n, �,:•rl� r.f �'� t '� , - � .i i'.' - ` � • ;•,�r ! �;'•w► 53 �� tia •1`�w-`' Y• � 5 �L t kr,. �:! �; • '��' p;7 �: � . Y�.} L sl,} L •• • K yyF :{5 .._ � t' J''. ,;. 4J t ,, r',. t y1.' 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Ee... _ +yl�jl w u., ' r rf • � aer r.•. lI••' In �a •o. x.5+1' ..� � rl/ � r'. � • \ �. •re � �!' � _ . ! rr.r.. t_• � mar � . ._.-��y,rl ctrl +A ` Al rl.1 d wel rf„ �rq - O tfyr ...� r • c _'\1 ' lel• + artl �. al, •[[.1 er, �+ ' r ;. y.•Va� r ' P rn.. r. 1 • •w. .r ♦� to. rf .` w•.+j a ellk r, �. t F r ylj° ...� ,1. T 11 m ...a— jLr 41. '7J I't L l ' � 7ya rte p •oc.a at' • .,O r..• • 4 'w q•, p p S a �r.tl at ..1.11[, ] Y etll YJHp'�W�I) ir.• I •rr t` =YO I ,r1. 4i•, r� +~ (r 1 of � i! ■t� �IITRI y.i ry ff• r �y '' � 1 Q N R.I MR- fj y ler, . , k rite r• ■ •i` 1 P �' _ V. •n. '� ^{ Coal �� 1. 1�1 . 1 11 aft• �� r Rr, � .,/O � rw�i i �.� •ry. ! r .n. d+l wand � fi � � to l ♦ 11 = 1 a•.yp� +., I' ,, °1• 4 `-� J - • +' � 1. 0�• 'rp C':�� r[I •--eta rug 'l.l� u�r. J �� rrl�. n•' ` �� •al r , o111 rf► ,`. ��, sy 1.. Ir• III ..r .n,9 rr l• �!! A ''off PNsv �4e t• nl. ti .a.'+•h.trl ylnl.r all, fit cc ale.1' .1•• '�t.r • =• ;F.!r—•+_4Ctw 1 ' n I 1 !� pw` .. !r 1 oe � e'ra •e[ C ya !a_ a;t•� url e. � 1 .r.. I� 4 � IIS• R � WI'w p rl+lp` rrt, b rl ro.. `! I "'1 ' • Ar Ir aI r •.v' • aq R. rl •. cr•. a•r p, 1 lP• .n rug - � •wwmwl� .e.v u.' �It� low f""�", t � I � 1+ Sol. T S Whole -Farts Nutrient Management Plan Summary Producer's name: T W S w; " r 4 34 L r/... .� 1dress: TA c s« Tim . Telephone: Fits,.: - 1d, -P-5417- 2.r7r t9 Lo tt;^1�Cf,/��tcN Rd- DU.xr stt. C ASCE Tract #: i / o go V Farm location: JEE )spg eW ft Type of operation: 5w:.✓ F ��P.e.c�..-� r rEE n 4F J Assessment of Plan for Entire Farm ■ Based on the facts and representation of the submitting party, will this plan comply with technical requirements for proper nutrient management? yes no Submitted by: Date: �apprantl ,)aration assistance by: N.C. Cooperative Extension Service 1-2 circle one ■ Is the farm in a critical watershed area? yeg no 0 Have water quality problems been identified in the watershed? yes no If yes, what are they? Does the plan consider these problems? yes no 0 Are any erosion problems apparent on the farm? yes no If yes, have the eroded areas been considered usable acres? yes no For what priority nutrient is the whole -farm plan being written? N P205 Other Varies with field X Will nutrient sources other than commercial fertilizer be used on the farm? yes no If no, skip to last item and signature section. ■ Is enough land available on farm to use all of the primary nutrient that is produced? yes no If no, have alternate plans been included for the xcess nutrients? yes no -111 Is daily spreading of nutrients necessary? yes nol N is land available for daily spreading? yes, no 0 Have plans been made to track the potential buildup_ -f nutrients other than the priority nutrient? yep no 0 Does this site/farm need additional storage facilities for best use of the ; nutrients,' both agronomically and environmentally? yes' no If yes, is the submitting party making plans for necessary storage? yes no ■ Based on the facts and representation of the submitting party, will this plan comply with technical requirements for proper nutrient management? yes no Submitted by: Date: �apprantl ,)aration assistance by: N.C. Cooperative Extension Service 1-2 III. Total Waste Produced (Produced, Collected, Stored, Plant Available) A. Class and number of animals (one time capacity) Type Production Unit Number of Animals Estimated Wasj-e Dry tons Liquid gal. Actual Waste Day tons Liquid gal. i 4ri,n/G ,jz-� o 2 Fro 1) 7V yid /7I Total B. Waste analysis values: ® Tables Actual C. Percent collected of produced /a %. D. Design time of temporary storage Type storage Time (Day) Liquid Dry 44.r..,�r E. Total plant available nitrogen, phosphorus, potassium, zinc and copper (based on application method) Pounds (PA . . Plant Available) Nitrogen Phosphorus Potassium Zinc Copper ,jz-� o 2 Fro 1) 7V yid /7I Lagoon Sludge Accumulation: � i The life expectancy of a properly sized anaerobic lagoon is uncertain at this time. However, since this nutrient plan is based on nitrogen rates, nitrogen becomes the limiting factor for land application. The nitrogen produced yearly in the sludge for this operation is So o pounds. Assuming a 24) year_, plus accumulation before sludge removal, this farmto dispose of the sludge on site by land applica-ions. ti 04-; im 4L •sci' • •. yN•� • •�. ii PS •4.ti• •l i'yJ, �.. r � ' . r�' S •.. ,l' : '" r','1 Y. r�5 � .r i ?C0. , ' ! ti`•r .� .� a! • �' ti,`".:i- J I :�'i' � n,li t�\S y .r j, � J• - 3 f: �,;;,�?�y' i ;+��• I ��. e:��, r :'' ^:,'.•tom JLfir. � „�`��" '. ��L •>' '' . �'' •... ;':• �; WC, ,1C `'�1 `�' •�.�` 'ii_'' _ �} �J\���y�+ Y. tet• Yom, r.:' •� ��:.•:�. to �.� r�.. t.1� s:i� , I.�r},�i�� ... .,r'f'r. i.. , .rK-�' ..��1 • y O¢�� T..:1�'.. - ij Lagoon Volume # 1.2.3 1. Number of head Farrow - Feeder pig (830) i Treatment volume should equal (433,260 cu. ft.) i 2. Present lagoon dimensions # 1 (300 ft. x 75 ft. x 12 ft.) # 2 (230 ft. x 158 ft. x 10 ft.) equivalent area # 3 (150 ft. x 206 ft. x 12 ft.) equivalent area # 1 3:1 side slope # 2 1:1 side slope # 3 2:1 side slope 3. Rainfall - 25 yr. 1 day storm (above pipe) # 1 7/12 x 22,500 sq. ft. surface area (13,125 cu. ft.) # 2 7/12 x 36,340 sq. ft. surface area (21,198 Cu. ft.) # 3 7/12 x 30,900 sq. ft. surface area (18,025 cu. ft.) 4. Freeboard 1 ft. (above pipe) # 1 22,500 cu. ft. # 2 36,340 cu. ft. ; # 3 30,900 cu. ft. f 5. Rainfall less evaporation (below pipe) # 1 7/12 x 22,500 sq. ft. surface area (13,125 cu. ft.) # 2 7/12 x 36,340 sq. ft. surface area (21,198 cu. ft.) # 3 7/12 x 30,900 sq. ft. surface area (18,025 cu. ft.) 6. Actual lagoon volume at present below pipe # 1 95,947 cu. ft. # 2 269,479 cu. ft. # 3 230,422 cu. ft. Total 595,848 cu. ft. 7. Actual volume - 595,848 cu. ft. Minus treatment area 433,260 cu. ft. Minus rainfall less evaporation 52,348 cu. ft: Equals temporary storage available of (110,240 cu. ft.) B. Temporary storage calculation 433,260 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 584 cu. ft./day r needed. 110,240 cu. ft. = 188 days 584 cu. ft./day 4 Field Data Sheet Field ID. _ ._ Total Crop Acres d2. 3.s, Acres Useable for Soil Sefile9 C� nn - U Blosolld Application .2• ,2L /Q Environmental Hazards or Concerns Is field classed as HEL? Application Equipment ❑ sinkholes $0 No ❑ Broadcast 13 surface water 17 Yes 17 Banded Applications 0 ; D : rc N _ Field leaching potential ,?t] Low o High 13 Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources Irrigation Equipment 0 Injection 0 Commercial Fertilizer' ❑ None o Fertigation tit] Animal Manures ❑ Traveller ❑ Sewage Sludge ❑ Portable Tillage System o Septage ❑ Center Pivot ❑ Conventional o Other By -Product ❑ Solid Set 0 Reduced Till ❑ Lateral Move 0 No Till Crops Previous Crop : • 1/� T. �T �a�� Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop fi $t) Realistic Yleld(s) Expected Plant Available N Required from Previous Crop Year (1) /i?%flCT,,yt ��� .�. / T� �. i T �6 j� /_?d JJs /sc, Year {2) �:1/Ef,. t. e- :, :2 T r� Z6 ,S� ,o JAS_ < — Year (3) e r w s3 • t_ T • 1 3` le S. /10 dx. Lc . Soil Test Results# 60,7 _...__Dote -of Soil, Sampling t/ - -Soil Class:-' 'Mineral 13 Mineral/Organic -0 -Organic-- 4 pH .f. . CEC P-1 7" K -I �?LJ1 Ca% 3 3 • �r Mg% / �� •� Mn -1 SS Zn -1 Cu -I _'2 Nutrient Recommendations: Lime: .7 T N: S ee Above P205: O K20: Mg: 5: Mn: o Zn: C) Cu: if using only commercial fertilizer, go to section 6. A Field ID Soil Series 41'a �13 Environmental Hazards or Concerns 13 sinkholes ❑ surface water b Z: fel/ Field Data Sheet Total Crop Acres �, f Is field classed as HEL? iQ No ❑ Yes Field leaching potential —40 Low Acres Useable for Blosolld Application Application Equipment ❑ Broadcast ❑ Banded Applications D High ❑ Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources Irrigation Equipment ❑ injection ❑ Commercial Fertilizer' Cl None O Fertigation •❑ Animal Manures 'Q Traveller a Sewage Sludge o Portable Tillage System ❑ Septage ❑ Center Pivot ❑ Conventional Cl Other By -Product 0 Solid Set ❑ Reduced Till. ❑ Lateral Move fl No -Till Crops Previous Crop Predicted Crop flotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yleld(s) Expected Plant Available N Required from Previous Crop Year (1) o ar .� o oLic Year (2) �• N �� "' ' Year (3) Soil Test Results: -,e v Date of Soil Sampling Soil Class, 0 Mineral ❑ Mineral/ Org is 0 Organic — — -- -- -°� pH, �, f� CEC T P -I /t L �' K-[ Ca96 r Mg% � Mrs-! _ ?�-i Cu -1 � Nutrient Recommendations: Lime: _/•4 F N: See bay& . P205: o K20: �a Mg: 0 S: Mn: o Zn: d Cu: a If using only commercial fcrtilizer, go to section b. A r Field Data Sheet Field ID Total Crop Acres 9. S(, Acres Useable for Soil Series (— a x Environmental Hazards or Concerns ❑ sink holes ❑ surface water Is field classed as HEL? .13 �No 0 Yes Field leeching potential --- y13 Low Blosolld Application 57- V0 Application Equipment 13 Broadcast ❑ Banded Applications 4 High ❑ Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources irrigation Equipment ❑ Injection ❑ Commercial Fertilizer` ❑ None ❑ Fertigation ICY Animal Manures ❑ Traveller ❑ Sewage Sludge o Portable Tillage System ❑ Septage ❑ Center Pivot ❑ Conventional o Other By -Product o Solid Set ❑ Reduced 7111 ❑ Lateral Move 13 No -Till Crops Previous Crop Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Reailsilc Yleld(s) Expected Plant Available N Required from Previous Crop Year (1 ) &;A6 f Year (2) Al: E -t /u �� / 7 a —T- Year (3) /0,1. I E i rT T / /70— Soil Test Results: Ag - ----�"`"� Dade of Soil Sampling S. -- �w Soli Class: 13' Mineral 33 Minend/Organic 0 Organic w pH CEC P-1 /:3K-1 /=2Y Call, M g % Z --Ll Mn -1 ZV., Zn -1 _Z_Zf1 Cu -I ?� Nutrient Recommendations: Lime: _f� N: See Abo c P205: D K20: U Mg: S: d 1 Mn: Zr;y Cu; If using only commercial fertilizer, go to section 6. t Field 1D J Soil Series 6n 0 Al Environmental Hazards or Concerns ❑ sink holes ❑ surface water 13 yL V. a .2-. Field Data Sheet Total Crop Acres 2� 0 Is field classed as HEL7 ❑ No 0 Yes Field leaching potential — ❑ Low Acres Useable for Blosolld Application 3. ,54 Application Equipment ❑ Broadcast U Banded Applications D High O Starter Fertilizer Rig C] Manure Spreader Nutrient Sources Irrigation Equipment ❑ Injection ❑ Commercial Fertilizer' O None ❑ Fertigation ❑ Animal Manures ❑ Traveller ❑ Sewage Sludge ❑ Portable Tillage System ❑ Septage ❑ Center Pivot ❑ Conventional ❑ Other By -Product 0 Solid Set ❑ Reduced Tilt ❑ Lateral Move O No -Till Crops Previous Crop Predicted Crop Rotation Sequence (if double -cropped, list spring crop first) Year (1) r' E.c >*A . / er Year (2) Year (3) ' Realistic Yield(s) Expected Plant Available N Required gAG.] /40 Ae —_T A. N Residue Credit from Previous Crop Soil Test Results: Date of Soil Sampling Y�'� Soil Class:�0 Mineral CI Mineral/Organic 0 Organic pH S• -S CEC 2 - / P -I � �� K -I Cab _Zk� % M8% � 2• /`' Mn -i Zn -1 15 y Cu -1 JrL Nutrient Recommendations: Lime: _/. /Jr N: See Above P205: 42 K20: Mg:y S: _ Mn: 0 7n: Cu: _Q [f using only commercial fertilizer, go to section 6. A Field Data Sheet 7-5`7 _1 Field 10 & Total Crop Acres Acres Useable for Soil Series Environmental Hazards or Concerns ❑ sink holes ❑ surface water E3 Is field classed as HEL? El No ❑ Yes Field leaching potential --'O Low Blosolld Application_ Application Equipment o Broadcast O Banded Applications o High 0 Starter Fertilizer Rig la Manure Spreader Nutrient Sources Irrigation Equipment Cl injection ❑ Commercial Fertilizer' ❑ None 0 Fertigation Cl Animal Manures 13 Traveller ❑ Sewage Sludge ❑ Portable Tillage System ❑ Septage ❑ Center Pivot ❑ Conventional ❑ Other By -Product o Solid Set 13 Reduced Till 0 Lateral Move o No -Till Crops Previous Crop Predicted Crop Rotation Sequence (if double -cropped, list spring crop first) Year (1) Year (2) 4 Year (3) Realistic 1lleld(s) Expected .2. 7i 16 Plant Available N Required N Residue Credit from Previous Crop Soil Test Results: t341e A.5oii Sampling >- ass:...1-Mineral -13 -Mineral/Organic-0 0,ganic f �` PH CEC P-1 K -l; Ca% NIS% Mn -1 Zn -1 Cu -I Nutrient Recommendatlons: Lime: N: See Above . P205: K20: Mg: S: Mn:_ 7n: Cu: if using only commercial fertilizer, go to section 6. Field Data Sheet Field 10 Total Crop Acres Acres Useable for Soil Series Environmental Hazards or Concerns 11 sink holes 13 surface water 11 Is field classed as HEI_? 17 No ❑ Yes Field leaching potential — o Low Blosoild Application Application Equipment o BWadcast o Banded Applications 0 High O Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources Irrigation Equipment 0 Injection 0 Commercial Fertilizer' 0 None ❑ Fertigation 17 Animal Manures ❑ Traveller ❑ Sewage Sludge ❑ Portable Tillage System ❑ Septage ❑ Center Pivot 0 Conventional ❑ Other By -Product 0 Solid Set 0 Reduced Till ❑ Lateral Move la No -Till Crops Previous Crop Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list Spring Crop fiTS1) Realistic Yield(s) Expected plant Available N Required from Previous Crop Year (1) aE��•.k v� / >� s. -- i / J--A� o Year (2) Year (3) '' Sall Test Results: - Date _of_Sal Sampling --b --- - Soil Class: -0–Mineral-13–MbUfAlOiganit �' 13 Organic - pH CEC P -I K -I Ca% Mg% Mn -I Zn -1 cu -1 Nutrient Recommendations: Lime: N: See Above , P205: K20: Mg: S: Mn: Zn: Cu: if using only commercial fertilizer, go to section 6. A r .r, , S•..� t f4 r,., I._ •r ,. ]. .ti a.11 1, r• ��! �� Win{ �•t'� r y ••�+ .4 f�.i ;Ff .y.+ rti . P,,.• ' It.�.. .:rte. `a .y' � _� � � .�..;::? 4r, �y V �•Wit. � l_ i`��'�t �'� �.. r.I _ I ! `�` I t sl Illi � s- •' c .. - '{ i.'� '1.-Yi�n�h t'nt.,�}�li.' ? �.,-1' 1 :l.i.:. II � I•S{/•�'�Y� RRiiiiiiittt�nn� i.l.�•`• S r� A�' 'i•..C�r •ff�1'�S �I I Yb i9. -; 5�. f� s t 1 � � • • 'ft- t 11-.� •"; ti��t ti%z� � �' "• fit( ` M t .aC fir el. -..y .5 ...•1•f: d _..:' :1�� fl; M !`:. - 1• �hr "x fir• - i�,�Ai� . ;•'r - 71 + 'Lid ' ••y]� � a �� iii/ t, {l: - :' •� � , ieli"jr y1 •` �yt 1 'c '71 _ . N ". rT SyyTTTRRR _ � �i ( `t r 1 f !i ut U rr (d• �.. a �' 'f� tot � � f`t s.. _ '�,4" r` . F�� h'1• r li � t r I � J' ` 1 � to �il�'< l � '1. f • • lI A 1 L ).-. .J 11 %-t' � r 1 }: i ',Y%J : i "` _ �. •. .1►` /. .�• , �{ �.T � ty 1 1i { 4•u �� .�.� '/1.2 r•}N a � IY.(r • K Hog F ` Whole -Farm Nutrient Management Plan Summary Producer's name:i N6- ! 9,, �S r- 17 - SG C tdress. Telephone: :X3'75' - 11,v4 r A' XS'7S1,v4rA' .M Tr}S$ ASCS Tract #: i Farm location: SEE -)*.04 - . q 4 Type of operation:L"'-4x a.IAJ , FEEbccg C-F..t.: ,jr V _ Assessment of Pian for Entire Farm circle one ■ Is the farm in a critical watershed area? yes Lno ■ Have water quality problems been identified in the watershed? yes wo If yes, what are they? ® Based on the facts and representation of the submitting party, will this plan comply with technical requirements for proper nutrient management? 0yts no Submitted by. q Date: t (app,wwd) aaration assistance by: N.C. Cooperative Extension Service 1-9.Q . i 1-2 Does the plan consider these problems? yes no 2 Are any erosion problems apparent on the farm? ;yes no If yes, have the eroded areas been considered usable acres? eyes no For what priority nutrient is the whole -farm plan being written? =N' P205 Other v Varies with field ■ Will nutrient sources other than commercial fertilizer be used on the farm? . s no If no, skip to last item and signature section. lel Is enough land available on farm to use all of the primary nutrient that is produced? hes no If no, have alternate plans been included for the xcess nutrients? yes no * Is daily spreading of nutrients necessary? yes no ® is land available for daily spreading? yes no ® Have plans been made to track the potential buildup ^f nutrients other than the priority nutrient? Oyes no ® Does this site/farm need additional storage facilities for best use of the nutrients, both agronomically and environmentally? yes o If yes, is the submitting party making plans for necessary storage? yes no ® Based on the facts and representation of the submitting party, will this plan comply with technical requirements for proper nutrient management? 0yts no Submitted by. q Date: t (app,wwd) aaration assistance by: N.C. Cooperative Extension Service 1-9.Q . i 1-2 � Z .w. c.w...I. , f _ •� sur t►` p G 4-_ +, Io / earl T^'•t r�3 1� i �. � •1. ~� � _. ., 1J ti � +'f"af � � J, '•7aY• r 7Y 1 .p, 1. r' �a 011 tM�CA.41 .4�a1 .rr• !• No r� •u� If '1N .it. ♦•� 317 , 3" .•►a �4Q .r • ti+ a ` r•1 . tar IaM! lr (''•*..•, ,. � e a r+ 9 r � u 9C �.� ' •• , •;+' . 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'+ 7423 .•t• ♦f Nw / • rr• 1�.. lilt / r v lI ,O r1 1 7 J Q ,�- I r1,nAll I III. Total Waste Produced (Produced, Collected, Stored, Plant Available) A. Class and number of animals (one time capacity) Type Production Unit Number of Animals Estimated Waste Dry . . tons Liquid gal. Actual Waste D�y . . tons Liquid gal. sw . �o✓ 3v y d ♦7 3 6 O Total / 33 el .2 71 B. Waste analysis values: Tables -_� Actual C. Percent collected of produced /'00 %. D. Design time of temporary storage Type storage Time (Day) SFE ��//e.-- �r-� `o .4 t s Liquid Dry E. Total plant available nitrogen, phosphorus, potassium, zinc and copper (based on application method) ti Pounds (PA Plant Available) Nitrogen Phosphorus Potassium Zinc Copper 3v y d ♦7 3 6 O Lagoon Sludge Accumulation: The life expectancy of a properly sized anaerobic lagoon is uncertain at this time. However, since this nutrientiplan is based on nitrogen rates, nitrogen becomes the limiting factor for land application. The nitrogen produced yearly in the sludge for this operation is yIV'3 s pounds. Assuming a 20 year plus accumulation before sludge removal, this farm does not have land to dispose of the sludge on site by land applications. Lagoon Volume # 4 Side Slope: 3 to 1 1. Number of head of finishing swine (3,200) Treatment volume should equal (432,000 cu. ft.) 2. Present lagoon dimensions (160 ft. x 400 ft, x 16 ft.) 3. Rainfall - 25 yr. 1 day storm (above pipe) 7/12 x 64,000 sq. ft. surface area (37,333 cu. ft.) 4. Freeboard 1 ft. (64,000 cu. ft.) (above pipe) 5. Rainfall less evaporation (below pipe) y 7/12 x 64,000 sq. ft. surface area (37,333 cu. ft.) 6. Actual lagoon volume at present below pipe: volume = 545,967 cu. ft. 7. Actual volume = 545,967 cu. ft. minus treatment 432,000 cu. ft. minus rainfall less evap. 37,333 cu. ft. i Equals temporary storage available of (76,634 cul. ft.) 8. Temporary storage calculation 432,000 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 583 cu. ft./day needed Temporary storage available 76,634 cu. ft. 131.44 days 583 cu. ft./day Lagoon Volume # 5 1. Number of head feeder -finish (800) Number of head farrow -feeder pig (830 sows) Treatment volume should equal (541,260 cu. .ft.) 2. Present lagoon dimensions Seection one: (400 ft. x 125 ft. x 12 ft.) Section two: (225 ft. x 350 ft. x 12 ft.) equivvlent area Side slope: 3:1 3. Rainfall - 25 yr. 1 day storm (above pipe) I Section one - 7/12 x 50,000 sq. ft. surface area (29,166 cu. ft.) Section two - 7/12 x 78,750 sq. ft. surface area (45,937 cu. ft.) 4. Freeboard 1 ft. (above pipe) Section one - 50,000 cu. ft. Section two - 78,750 cu. ft. 5. Rainfall less evaporation (below pipe) Section one - 7/12 x 50,000 sq. ft. surface area (29,166 cu. ft.) Section two - 7/12 x 78,750 sq. ft. surface area (45,937 cu. ft.) 6. Actual lagoon volume at present below pipe Section one - 318,820 cu. ft. Section two - 597,169 cu. ft. Total = 915,989 cu. ft. 7. Actual volume = 915,989 cu. ft. i minus treatment area 541,260 cu. ft. minus rainfall less evap. 75,103 cu. ft. i Equals temporary storage available of (299,626 cu. ft.) 8. Temporary storage calculation 541,260-1bs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 730 cu. ft./day needed. 299,626 cu. ft. = 410 days 730 cu. ft./day Lagoon Volume # 6 1. Nuinhct- of Bead of finishinit e,%,inc (2=10(11 Treatment volume should equal (324,000 cu. ft.) . 2. Present la"oon dimensions: Section one (460 ft. x 120 ft. x I _ 1t.) equivalent area Section two (130 ft. x 220 ft. x 121 ft-) equivalent area Side slope 3:1 3. Rainfall 25 yr. 1 day storm (above pipe) Section one 7/12 x 55,200 sq. ft. surface area (32 200 cu. ft.) Section two 7112 x 28.600 sq. ft. tiurfacc area 0 6.683 cu. ft.) 4. Freeboard 1 ft. (48.883 cu. ft.) (above pipe) 5. Rainfall less evaporation (below pipe) 7/12 x 55.200 sq. ft. surface area (32.200 cu. ft.) 7/12 x 38.600 sq. ft. surface area (16,683 cu. ft.) 6. Actual lagoon volume at present (below pipe) (one) volume = 349,656 cu. ft. (two) volume = 170,121 cu. ft. Total W (519,775 cu. ft.) 7. Actual volume equals 519,778 cu. ft. minus treatment 324,000 cu. ft. minus rainfall less evaporation 48,883 cu. ft. Equals temporary storage available of (146.895 cu. ft.) 8. Temporary storage calculation 324.000 lbs. of animal x 1.35 cu. ft. of waste per day per 1.000 Ibs. of animal weight equals 437 cu. ft./day needed. Temporary storage available 146.895 cu. ft. = 336 clays 437 cu. ft./day 1 Lagoon Volume # 7 I. Number of head of finishing swine (4,000) Treatment volume should equal (540,000 cu. ft.) 2. Present lagoon dimensions: Section one (685 ft. x 125 ft. x 12 ft.) Section two (175 ft. x 75 ft. x 12 ft.) Section three (300 ft. x 85 ft. x 12 ft.) Side slope: 3:1 3. Rainfall - 25 yr. 7/12 x 85,625 sq. 7/12 x 13,125 sq. 7/12 x 25,500 sq. I day storm (above pipe) ft. surface area (49,947 cu. t.) ft. surface area (7,656 cu. .) ft. surface area (14,875 cu. t.) 4. Freeboard 1 ft. (above pipe) Section one. (85,625 cu. ft.) Section two (13,125 cu. ft.) Section three (25,500 cu. ft.) 5. Rainfall less evaporation (below pipe) :7/12 x 85,625 sq. ft. surface area (49,947 cu ft.) 7/12 x 13,125 sq. ft. surface area (7,656 cu. ft.) 7/12 x 25,500 sq. ft. surface area (14,875 cu. ft.) 6. Actual lagoon volume at present (below pipe) Section one (675.52 ft. x 115.521 ft. x 10.42 ft.) Section two (165.52 ft. x 65.52 ft. x 10.42 ft.) Section three (290.52 ft. x 75.52 ft. x 10.42 ft.) Volume one equals 569,047 cu. ft. Volume two equals 51,323 cu. ft. Volume three equals 122,961 cu. ft. Total volume = 743,331 cu. ft. 7. Actual volume equals 743,331 cu. ft. minus treatment volume 540,000 cu. ft. minus rainfall less evaporation 72,478 cu. f . Equals temporary storage available of (130,853 cu. ft.) 8. Temporary storage calculation 1 540,000 lbs. of animal x 1.35 cu. ft. of waste per day per 1,000 lbs. of animal weight equals 729 Cu. ft./day needed. 130,853 cu. ft. 179.49 days 729 cu. ft./day Fleld Data Sheet Field 10_ 7—'i .9s -P —3 Total Crop Acres Z9,, 2- Acres Useable for glosolid Application Soil Series Lia.- !j Environmental Hazards or Concerns Is field classed as HEL? Application Equlpment o sink holes M 'No l] Broadcast 0 surface water ❑ Yes o Banded Applications O7 Field leaching potential — 0 Low D High O Starter Fertilizer Rig o Manure Spreader Nutrient Sources Irrigation Equipment 0 Injection ❑ Commercial Fertilizer` 11 None (3 Fertigation o0 ' Animal Manures (13 Traveller 0 Sewage Sludge ❑ Portable Tillage System Cl Septage o Center Pivot 13 Conventional a Other By -Product o Solid Set o Reduced 'rill 0 Lateral Move ❑ No -Till Crops Previous Crop EA-A—o.1 : 11 oL-fflo" a.E) Predicted Crop Rotation Sequence (if double -cropped, list spring crop fir () Realistic Yields) Expected Plant Available N Required Year (l } �E,e r.,��r --�+.w s�� 5� /. �-T / ?S„ 9_v Year (2) Ex - x".1 a .e e G 'f t T /. s''T i 7S- S Year (3) R6 , 3s -" w .< _ �• �- �• T T 1;,r. p,, y '' N Residue Credit from Previous Crop Soil Test Results: *v a* / ra -Date--oPfti1 Swnpttng . 5� Soil Class: "O ner' ne rganic O Organic pH .. & _ CEC V. I/ P-1 /GG r- K -t C a % ,,L5 Mg% [e --r. Mn -t C. Zn-1.CU-1 ,P- � Nutrient Recommendations; Lime: LL -r N: See Above 1`205:.-gO ` K20: /O a Mg: 6 S: Mn: a Zn:y CU: n [t using only commercial fertilizer. go to section 6. A 1 Field ID i 4S9 .- .3 A - Soli Series &_ Envlronmental Hazards or Concerns 0 sink holes ❑ surface water ❑ e Fleld Data Sheet Total Crop Acres Is field classed as HE!_? tp No ❑ Yes Field leaching potential —413 Low Acres Useable for elosolld Application g Application Equipment 0 Broadcast 0 Banded Applications o High 0 Starter Fertilizer Rig ❑ Marture Spreader Nutrient Sources Irrigation Equipment ❑ Injection ❑ Commercial Fertilizer' ❑ None Cl Fertigation 013- Animal Manures 113 Traveller ❑ Sewage Sludge ❑ Portable Tillage System ❑ Septage o Center pivot CI Conventional ❑ Other By -Product o Solid Set o Reduced Till ❑ Lateral Move o No -Till Crops j Previous Crop : 7hi//4F f,�.F Cc-. ,WLe/ Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yleld(s) Expected Plant Available N Required from Previous Crop Year (l) • rte T .e E' 3 ./ T .2.2- 7 - Year Year (2) 7b, Year (3) 7r.,'// rr' - _ j • T 2 Soil Test Results: At =,13 Z �� Date or Soil Sampling G f — 5oi ass: t7 Mineral O MinerAjOi&iic o Organic pH- 4.0 CEC � P -I Z4 r_;P K -I %,'—O- Ca96 t5 .3 Mgt /5: S Mn -1 10 1 Zn -1 !}1 Cu -1 ,5'�c Nutrient Recommendations: Lime: O N: See Abgye . P205: D K20: 2?__0 Mg: S: d Mn:__.0 Zn: �0 Cu: 0 - 'If using only commercial fertilizer, go to section 6. t J Meld ID % .P — -/ Soil Series Alo �3 Environmental Hazards or Concerns Cl sinkholes ❑ surface water ❑ Field Data Sheet Total Crop Acres .7p. VAcres Useable for Blosolld Application J Is field classed as HELT X No ❑ Yes Field leaching potential —.0 Low Application Equipment ❑ Bmadcast ❑ Banded Applications ❑ High ❑ Starter Fertilizer Rig G Manure Spreader Nutrient Sources irrigation Equipment 0 Injection ❑ Commercial Fertilizer' ❑ None ❑ Fertigation t.13 Animal Manures W Traveller ❑ Sewage Sludge 11 Portable Tillage System ❑ Septage ❑ Center Pivot ❑ Conventional ❑ Other By -Product ❑ Solid Set O Reduced Till ❑ Lateral Move 0 No -Till Crops Previous Crop : C'o��•.c.. Qyt Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop frst) Reallstic Yleld(s) Expected Plant Avallable N Required from Previous Crop Year (1) o . ,e7- a 2 T Year (2) c. -& le € C6 ems_ � 2 T"_ Year(3)cof,4e Ca CG1 ie E _ ZT T _ y ,baop Soil Test Results: ,(,,o s..L s•r �� Date of Soil Sampling _ Soil Class.--,A-MineML--O-MineraWrganic Cl Organic -- -- 01, _ ...� CEC P -I K-1 Ca% M896 Mn -1 Zn -11 Cu -1 Nutrient Recommendations: Lime: N: See Above _ P205: K20: Mg: S: Mn: Zn: � Cu: 'if using only commercial fertilizer, go to section 6. A .:a Field ID 7'4tS-9 � Soil Series W4X1 .9 Environmental Hazards or Concerns o sinkholes o surface water Field Data Sheet Total Crop Acres 3. a r-_ Is field classed as HEL? ;o •No o Yes Field leaching potential -- a Low Acres Useable for Blosolld Application 3. o Application Equipment o Broadcast 13 Banded Applications Pugh I] Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources irrigation Equipment o injection G Commercial Fenilizer o None o Fertigation !t —Animal Manures 1-3+ Traveller D Sewage Sludge ❑ Portable Tillage System ❑ Septage o Center Pivot o Conventional El Other By -Product o Solid Set ❑ Reduced Till ❑ Lateral Move 13 No -Till Crops Previous Crop : A14- k AD a ,�•�s Predicted Crop Rotation Sequence (if double -cropped, list spring crop first) Realistic Yleld(s) Expected Plant Available N Required Year (1) ��,«...�dae, ,e is —,tyc . 2 i / • /7.r- Year (2) - --•a/ ,r ,� +� �F . �. T .sem r i �? ,moi t�.10 Ae Year (3) •S} �� :z. .may c •�- T �. 1— _ /7S2e ., Soil Test Results: ,r o Date of Soil Sampling Soil Class:rMineral 13 Mineral/Organic C Organic pH CEC P-1 K-1 CA% M896 Mn -1 N Residue Credit from Previous Crop Zn -1 CU -1 Nutrient Recommendations: Lime: N: Scc�Aboye. , P205: K20: Mg: S: Mn: Zn: Cu: U using only commercial fertilizer, go to section 6. t. Field ID /0 Soil Series 44L - Environmental Hazards or Concerns El sinkholes ❑ surface water 0 Field Data Sheet Total Crop Acres Is field classed as NEL.? 13. No o Yes Field leaching potential -- 0 Low Acres Useable for Slosolld Applicatton� Application Equipment ❑ Broadcast ❑ Banded Applications 0 High 13 Starter Fertillzer Rig E3 Manure Spreader Nutrient Sources Irrigation Equipment 0 Injection E3 Commercial Fertilizer' 0 None o Fertigation 13 Animal Manures 13 Traveller Year (3) BF'A7•.✓H - �X.r (G-) C] Sewage Sludge o Portable Tillage System 0 Septage o Center Pivot 0 Conventional [t Other By -Product ❑ Solid Set ❑ Reduced Till v Lateral Move ❑ No -Till Crops Previous Crop 7p- 4:1 .,4,% f Cc Ae w z6 ) Predicted Crop Flotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yields) Expected Plant Available N Required from Previous Crop Year (1) . rc>-.� d.r i2y� � - z- T /. ,TT /i'� f 0 Year (2) (2) /c',c a.,./,. �y �,� ' 2 T �-- /' `f~ T Year (3) BF'A7•.✓H - �X.r (G-) 4. 2. T T Soil Test Results: ?960a3 -Date -of SQiI'Sarnpling" 4 5� Soil Class:-'MincraC'Q�i-ne 1lOtganic o organ -- pH• -f' 7 - CEC 41. V' P -I _Z/G, K -I '74 Ca% Z2. Sr - Mg% Mn -I ,LL zn-I 2 (, 2-- Cu -I 7Z - Nutrient Recommendations: Linc: _Z-_ V_ N: See Above , P205: D K20: � Mg: _e S: ? Mn: d Zn: 6) Cu: tf using only commercial fertilizer, go to section 9. a Field Data Sheet Field 10-7—/o T_ S,5 - l 4 Total Crop Acres Acres Useable for Biosolld Application 2 4/• Z. Soil Series Ac Environmental Hazards or Concerns ❑ sinkholes ❑ surface water O " IF .� .7 Is field classed as HEL? Application Equipment ❑ 'No 17 Broadcast ❑ Yes ❑ Banded Applications Field leaching potential — © Low t3 High o Starter Fertilizer Rig o Manure Spreader Nutrient Sources Irrigation Equipment ❑ injection Q Commercial Fertilizer` ❑ None ❑ I~ertigation c0 Animal Manures 4a Traveller _ l ?s 90 ❑ Sewage Sludge ❑ Portable Tillage System pa '• ❑ Septage o Center Pivot 17 Conventional ❑ Other By -Product ❑ Solid Set C] Reduced Till 0 Lateral Move ❑ No -Till Crops 1 Previous Crop &Ajbv r V14;tAd.J1 ZTCf ce-A 4 4-E / Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yield(s) Expected Plant Available N Required from Previous Crop Year (1) a - "e- . I/-7--7- /. _ l ?s 90 Year (2) ReAC J&Cc G� �, r /- S T pa '• Year (3) 9Ef)*e, /z e- (&2-sL. �i 'T a7S „1 5011 lest Re ults`D d Date of Soil Sampling Class. C Mineral fa Mi_ w� _O_a,.,n• c 0 Organic PH ,5. 3 CEC P-1 K•I 7o Ca% .37 Mg% 9_V Mn -I —, Zn -I 3iL Cu -I gra Nutrient Recommendations, 7 Lime: Z./ T' N: See Above P205: K2O: -2-0 Mg: O S: Mn: -4f— Zn: o Cu: If using only commercial fertilizer, go to section 6. A Field Data Sheet Field ID ri 754 otal Crop Acres G. 405'� Acres Useable for Blosolid Application Jr 99 Soil Series A& Environmental Hazards or Concerns Is field classed as NEL? Application Equipment ❑ sink holes 03 No o Broadcast ❑ surface water o Yes Cl Banded Applications QeZ...Xv�.� Field leaching potential -- o Lowpo High 0 Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources Irrigation Equipment ❑ Injection ❑ Commercial Fertilizer' ❑ None t] Fertigation Vtj 'Animal Manures ti3O Traveller E3 Sewage Sludge ❑ Portable Tillage System ❑ Septage ❑ Center Pivot ❑ Conventional ❑ Other By -Product o Solid Set o Reduced Till ❑ Lateral Move ❑ No Till Crops Previous Crop If +.c Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yleld(s) Expected Plant Available N Required from Previous Crop Year (1) Y7ri: /��7`,4 c .? 2 i / • 7– /.7e `9a 46's. Zie . Year (2) A. ;Z .[ g- .a, /• r l3 U Year (3) t .t ~ G Z '. Soil Test Results: S G 4� . __Dalt= of�Soit-SarApl�g ��_ Soil Class 0--Minerai--0--MinemVO B anic o Organic pH ✓'�•�" CEC I. L P -i _21– K-1 _(, L Ca% Z_v Mg% /U. Mn -1 S0 Zn -1 2 Cu -1 2: --- Nutrient Recommendations: Lime: 55 T N: See Aboyt , P205:.2 0 K20: -(.0— Mg: D S: 45' Mn: Q Zn: 0 Cu: Q If using only commercial fertilizer, go to section 6. A 1 Field Data Sheet (•4a i �TtslCrop Field 10 7-/0 s" �7 . 3 yZr1V Acres -� • S� Soil Seriesk Environmental Hazards or Concerns Is field classed as HEL? ❑ sinkholes U3 No Cl surface water 0 Yes ❑ t,e/o..wr� / Field leaching potential — 13Low Acres Useable for Slosolld Application 3. 3 9 Application Equipment o Broadcast 13 Banded Applications o High ❑ Starter Fertilizer Rig ❑ Manure Spreader Nutrient Sources Irrigation Equipment ❑ Injection ❑ Commercial Fertilizer' ❑ None 0 Fertigation �� "Animal Manures Traveller Cl Sewage Sludge o Portable Tillage System ❑ Septage ❑ Center Pivot o Conventional ❑ Other By -Product o Solid Set 11 Reduced Till 0 Lateral Move Q No -Till Crops Previous Crop : of Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yleld(s) Expected Plant Available N Required from Previous Crop Year (1)//4FLA'A d 2 �G � _ �. - r- _ i. 5- 7" /30 „ 9U Isr.,l11e. Year (2) �.. he W 4e 2 2 T y. /, -<-r-_ /30 26 �• Year (3) ;2-. Z T /. S-7– Soil -r Soil Test Results: _ � o Date of Sail Sampling " -� --'Soil Class: fL0 -Mineral 13 MinCrral/Organic ��o' Organic pH 5.5 CEC 3. � P-1 _ZL K -I -&k CA% f4—, _G Mg% //...5 Mn -I So Zn -1 .3-7,r Cu -1 V'2 -- Nutrient Recommendations; .Lime: -,5-r N: See Above , P205: 2-tl K20: 6 � Mg: S: d Mn:y Zn: eD Cu: � if using only commercial fertilizer, go to section 6. a Field 11) r, a -154 -- 5/ Soil Series we A Environmental Hazards or Concerns ❑ sink holes 0 surface water Field Data Sheet Total Crop Acres 41.6 3 Is field classed as HEL? ot3 'No 13 Yes Acres Useable for Blosolld Application Application Equipment 13 Broadcast o Banded Applications Field leaching potential-rgd1Uw ❑ High o Starter Fertilizer Rig Crops Previous Crop Predicted Crop Rotation Sequence N Residue Credit (if doubtt-cropped, list spring crop fir } Realistic Yield(s) Expected Plant Available N Required from Previous Crop Year 0 2. 7 i /30 //,T Year (2) a•: I/ 7- R x C C �?. ? T I. 9 r /.sn //.f i�r c. — r - Year (3) / 7 .,,� �.g T i.ro lir /;1./.se - — 5011 Test Results• aV__4 - ---Date—of-SWI-S--Apling �5 V Soil Class::�1 INinerdl��]° Mineral/Organic o Organic pH X ..5 CEC 3. 2-- P -I K -I Ca% G Mgt &. 3 Mn -1 _ S o_ ' Zn -12 73 Cu -1 V z— Nutrient Recommendations: Lime:- -?rT N: Se Aboye . P205: 2-0 K20: Mg: U S: 9=) Mn: a Zn: -D Cu: 6 if using only commercial fertilizer, go to section G. A r Cl Manure Spreader Nutrient Sources Irrigation Equipment ❑ Injection 13 Commercial Fertilizer' ❑ None 17 Fertigation eP Animal Matures 613 -Traveller ❑ Sewage Sludge O Portable Tillage System C3 Septage 0 Center Pivot ❑ Conventional ❑ Other By -Product ❑ Solid Set 13 Reduced 'rill ❑ Lateral Move D No -Till Crops Previous Crop Predicted Crop Rotation Sequence N Residue Credit (if doubtt-cropped, list spring crop fir } Realistic Yield(s) Expected Plant Available N Required from Previous Crop Year 0 2. 7 i /30 //,T Year (2) a•: I/ 7- R x C C �?. ? T I. 9 r /.sn //.f i�r c. — r - Year (3) / 7 .,,� �.g T i.ro lir /;1./.se - — 5011 Test Results• aV__4 - ---Date—of-SWI-S--Apling �5 V Soil Class::�1 INinerdl��]° Mineral/Organic o Organic pH X ..5 CEC 3. 2-- P -I K -I Ca% G Mgt &. 3 Mn -1 _ S o_ ' Zn -12 73 Cu -1 V z— Nutrient Recommendations: Lime:- -?rT N: Se Aboye . P205: 2-0 K20: Mg: U S: 9=) Mn: a Zn: -D Cu: 6 if using only commercial fertilizer, go to section G. A r Field ID_�9 a_ Soil Series "Vi 04 Environmental Hazards or Concerns 0 sinkholes O surface water Field Data Sheet Crop Acres 14.56 Is field classed as HEL7 413 No 13 Yes Field leaching potential —Ij Low Acres Useable for Blosolld Application 14-51 Application Equipment 0 Broadcast C Banded Applications a High O Starter Fertilizer Rig 0 Manum Spreader Nutrient Sources Irrigation Equipment 0 injection 0 Commercial Fertilizer' 0 None 0 Fertigation 017 Animal Manures W Traveller C3 Sewage Sludge 0 Portable Tillage System o Septage. 13 Center Pivot o Conventional 13 Other By -Product 13 Solid Set 0 Reduced Till 0 Lateral Move 0 No Till Crops / 1 Previous Crop ;ti Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realisile Yield(s) Expected Plant Available N Required from Previous Crop Year(1)V, V/c'7- E ,2. 7 i /.,7 T /So 1/a / .s. c, 01 Year (2) 7... /� E T .c _ . 7_7 / 9 T Year (3) -A-- /e7 7 A X< .2 7 /.9 T ♦S o i5— r 'Soil Test Results*4 0.S, Date of Soil Sampling`s- �" g�"� " Soil Class: O' Mineral t]Miiseral%OrganTc O ganie pH 5. S CEC 2.2-- P -I _:75; K-1 - 4 P CA% _V,0. L M8% ZL. 3 Mn -1 . Lo Zn -1 .3 73 Cu -1 `/ J Nutrient Recommendations: Lime: • S1= N: See Ahove . P205: Z 0 K20: Gy Mg: S: Mn: ) 7n: _� Cu: 0 if using only commercial fertilizer, go to section 6. w Field Data Sheet Field IO i S9 — Z•- �.E�d T tall Crop Acres 4.5-o Acres Useable for Blosolld Application . Zr"':'Soil Series A Environmental Hazards or Concerns ❑ sinkholes 0 surface water t] Is field classed as HEL? O No 17 Yes Field leaching potential—,CfLow Application Equipment ❑ Broadcast ❑ Banded Applications ❑ High o Starter Fertilizer Rig o Manure Spreader Nutrient Sources Irrigation Equipment 13 Injection ❑ Commercial Fcnilizer' ❑ None ❑ Fertigation A0 Animal Manures 013 Traveller ❑ Sewage Sludge ❑ Portable _ Tillage System ❑ Septage o Center Pivot o Conventional ❑ Other By -Product ❑ Solid Set 13 Reduced Till ❑ Lateral Move 0 No Till Crops / ! C"�- / Previous Crop : %� y� C * &.c Predicted Crop Rotation Sequence (if double -cropped, list spring cropf rst) Realistic Yleld(s) Expected Plant Available N Required Year (1) %'•+•%1' T 4 e- G _ a2_. 7 7- 1.19 T /X10, 14J.Z&e. Year (2) jv2 'Ile-r,.e 41 d- G . 7 i /• 7- Year Year (3) 2 �' G /• S ''=.. N Residue Credit from Previous Crop ISoil Test Results: ,f`a�S`- -� " Dale of 61'f79ampling S'&Zff!� Soil Class:s❑ Mineral 0 Mineral/Organic ❑ Organic pH CEC --._L P -IK -E Ca96G Mg96 ,[L,� Mrr-f „�� 7.a -i ,L7,, CU -1 Nutrient RecommendatIons: Lime: . 5-7 N: Ste Above P205: ' K20: -6-0— Mg: S: Mn: Zn: Cu: d [f using only commercial fertilizer, go to scction 6. A Field[D 7"1571—/ Soil Series 14-�-- Field Data Sheet Total Crop Acres 1/.1 Acres !Useable for 8iosolld Application_ le - V 7 Environmental Hazards or Concerns Is field classed as HEL? Application Equipment ❑ sinkholes 13 No ❑ Broadcast Cl surface water ❑ Yes ❑ Banded Applications 0 �% a �„� , Field leaching potential r.. ❑ Low 17 High 17 Starter Fertilizer Rig la Manure Spreader Nutrient Sources irrigation Equipment o Injection ❑ Commercial Fertilizer' ❑ None C] Fertigation ❑ Animal Manures D Traveller ❑ Sewage Sludge C] Portable Tillage System ❑ Septage C] Center Pivot t7 Conventional 17 Other By -Product a Solid Set ❑ Reduced Till C] Lateral Move 13 No -Till Crops Previous Crop "%JCse.r s. E Predicted Crop Rotation Sequence (if double -cropped, list spring crop first Realistic Yleld(s) Expected Plant Available N Required Year (t) �eFe-O —1.4 - .� E PC") , e. x- r �. � %' Z7S` 9aSs. c . Year (2) $E'x7r,. WA E CG f!•z. 7 - Year Year (3) ,, d� - �y E ca T 7 %"...� ♦ Ta o ., * . N Residue Credit irom Previous Crop Soil Test Results: t0-60 Date of Soil'Sampling /C f Soil Class: 0 Mineral �Cl Mineral/Organic ❑ Organic pH r. I--- CEC • % P-1 5 2,- K•1 _Zy_ Ca% s3. k Mg96Mn-I -3,C 7n-1 Cu•I Z � Nutrient Recommendations: Lime: _L7 N: Ste Aha•ye . P205: D K20: , /C d Mg: _ o S: ? Mn: Zn: Cu: if using only commercial fertilizer, go to section 5. f, a Field ID -7-s7.3 -- /.w— Sail Series A Environmental Hazards or Concerns U sinkholes D surface water Field Data Sheet Total Crop Acres /3• Y-�), Is field classed as HEL7 46 No 0 Yes Field leaching potential — ❑ Low Acres Useable for Slosolld Application /3 _ Application Equipment 0 Broadcast 0 Banded Applications ❑ High Cl Starter Fertilizer Rig 13 Manure Spreader Nutrient Sources Irrigation Equipment 0 Injection O Commercial Fertilizer` 0 None ❑ Fertigation 66, Animal Manures L11 Traveller t] Sewage Sludge 0 Portable Tillage System Cl Septage 0 Center Pivot ❑ Conventional ❑ Other By -Product 0 Solid Set 0 Reduced Till 0 Lateral Move ❑ No -Till Crops e a 1"'Q -e Previous Crop --T— Predicted Crop Rotation Sequence N Residue Credit (if double -cropped, list spring crop first) Realistic Yield(s) Expected Plant Available N Required from Previous Crop Year (l) •e t G } —et�.Zjc � Z_ er % fv 14jr. /.we . Year (2) f�.� E G �y /. s`T 90 /X, Year (3) a. ... E G _� c !•ST- 90 /6,.1.... Soil Test Results; s.,'L ,t�.,.�.,� of Soil Sampling Soil Class: 913 Mineral 0 Mineral/Organic ❑ Organic pH CEC P-1 K-1 Ca% M8% Mn -1 Zn -1 Cu -1 Nutrient Recommendations: Lime: N. See Above . P205: K20: Mg: S: Mn: Zn: Cu: if using only commercial fertilizer, go to section b. w 41 I lit 41 I • ti i � i _ •bbl. � 1 ` � ,'�� , ' �p'� E, �, • M • '% f �'�.A.r N =='y<•Q '� � . S • ,111 S.`. it VOL 41 4s •r,' a• .•1� •Tr� � ��N�M114 'f• . � v r. f 1 ,��• ' T�K �,• ti� _, :.ti,� I� %�1 it '�'� i � I v p,.•" �•/ r . � •';�~.." ; .:rte.,.: Yhy , y If Lai X41717 ,+`I •t,i , ' *, . �...M. 7 All or , r I�✓ � 1 i MJ '� /, + 1 • I ,qJ� Y .A T4i � n i' ' ir•,t�'s i 4C•^'I,'."�1 �C '�4 .'�f ' `7 �,, �F:� '� � �. �ir L 11 p \ �]'� 4 1: _. •:fir -y,•._ i:-' 3eff� i f1 ( Ra Gn . �. r 4. -?� s ��s �;' t � Wil,- 3•�� r ( )�i lu— NoA LPI - if �.' ;:� 0 � �'�': - 999 F. _- .- •�' - :.� - IVA — � �l►��•:- �. �•;• � =.iii! �d :� .�::�.�- `,�;- -_•�.�• s•� � { ,1. • _ �-�; ..may' ��`;•- A c'!'a"`k' LF.=:;f: " �•�`.� Com_ ��_r i �..?iY�• � � I iJ'. 'q ��' `_-_/ ,^s' r -' _ � ` '- J ��n�`�'��i. " �: - cam__.: _. -- ,. ��_- • . ..'.:- � � ~ `�'^i�•' ?�� ' ' J'�U� •. y_i r • r f \� �' _ � S fps r4/, `- 1 -� Y , V - ars . i/� r I` �, .T' hJ .a '• ._.. \ 3 �- �#�_____ ' ._ y� � �/'�' .U,�,• ,yti•\ �s�¢¢ ��� _ � • � � a. [�;"'r.yc.-, . u! �� .: �. ` _ i • � ,•II :41 �J }� �• l 'Y.•. rte: ] �;" '+JAR tip ' �� � 4 / ��,. � . (/\'\`��` i • ' �•y� _ �. ' + ff y 4 'R � �, a rJ�� ter:. �', yT�Nr.M �'_w' r.\' Qe� � -I � � \ �� y�+}; ! •'{r �'r p � Ij- Mv AW • _✓ ` rr � POW "'C•a1 ill f v,� ° i.• „: J "r' , — ` r _ ._ — t� .� �1,• ' • j' p, Io •__ _'''•J .• `• a V'�al� ; y,•t.' �X a hl U f7 ` i e—� r s/ r f•�%,_ t - 77 Ir— r r "�_ ,r .,c � �� , 1 • ky ` ����1 � ;::. �'D. I , '�:'"' .s. •:�G - �. ,:ter„� p, �e�.,ER� 1 �/... � 5 'r• rS1•..� � �IIS Y ,1 y � .• a, -LVi, , _ _ � • �• Y ,� - 1 ,f � `\�. r • .r'` we R � . ! - „ �` - , c J � `� � State of North Carolina Department of Environment and Natural Resources James B. Hunt, Jr., Governor Bill Holman, Secretary Kerr T. Stevens, Director CERTIFIED MAIL RETURN RECEIPT REQUESTED A.B. Jackson J&W Swine Co Inc 1960 Mingo Church Rd Dunn NC 25334 Dear A.B. Jackson: IT11kT?W'A 00 A&4 2 NCDENR NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL REsOURCEs November 6, 2000 Nov a 8 2000 FAY ETTEVILLE PEG. 0FF10c Subject: Notification for Wettable Acre Determination Animal Waste Management System J&W Swine Co Inc Facility Number 82-576 Sampson County A letter dated January 15, 1999 was sent to advise you about concerns associated with Certified Animal Waste Management Plans and the method by which the irrigated acres within the plans were calculated. Only the acres that are wetted can be credited in the waste management plan as receiving waste application. Any acreage within the plan that can not be reached by waste application equipment can not be used as part of your plan. An evaluation by Scott Faircloth on 7121199 was made to review the actual number of acres at your facility that receive animal waste during land application. The evaluation of your facility has yielded one of the following two results as indicated by the box marked with an "X". Category 1: The evaluation of your facility could not be completed due to a lack of information. Please contact your Technical Specialist to assist in providing Scott Faircloth the necessary information to potentially exempt your facility from undergoing a complete wettable acre determination. Please submit this information to Scott Faircloth, at 225 Green Street, Suite 714, Fayetteville, NC 28301, within in 90 days of the receipt of this letter. if you have any questions please contact Scott Faircloth at (910) 486-1541. If within 90 days you are unable to provide Scoff Faircloth with the information you are automatically required to complete a Wettable Acre Determination as described by Category 2 below, within 180 days of receipt of this letter. 1617 Mail Service Center, Raleigh, North Carolina 27699-1617 Telephone 919-733-3083 Fax 919-715-6048 An Equal Opportunity Affirmative Action Employer 50% recycled/IO% post -consumer paper Notification for Wettable Acre Determination Animal Waste Management System Page 2 Category 2: ❑ Your facility has been identified by the Department of Environment and Natural Resources as a facility that may have overestimated the number of acres actually receiving animal waste. Therefore, some or all of your fields may be exceeding the allowable loading rates set in your Certified Animal Waste Management Plan. In order to resolve this issue, please contact a designated Technical Specialist to have him or her conduct a Wettable Acre Determination for your facility, The Technical Specialist must be one that has been approved by the Soil and Water Conservation Commission to conduct Wettable Acre Determinations. Many Technical Specialist with the N.C. Cooperative Extension Service, the Soil and Water Conservation Districts, the Natural Resources Conservation Service, and the Division of Soil and Water Conservation have received this special designation. You may also contact a private Technical Specialist who has received this designation, or a Professional Engineer. All needed modifications to your Animal Waste Management System must be made and the Wettable Acres Determination Certification must be returned to DWQ within the next - 180 days. If the needed modifications are not made and if the form is not returned within the required time, DWO will be forced to take appropriate enforcement actions to bring this facility into compliance. These actions may include civil penalty assessments, permit revocation, and/or injunctive relief. Once a Wettable Acre Determination has been completed, a copy of the attached Wettable Acre Determination Certification must be submitted to the address listed on the form. Please note that both the owner and the Technical Specialist must sign the certification. A copy of all the Wettable Acre Determination documentation that applies to your Waste Utilization Plan must be kept at your facility. DWQ and the Division of Soil & Water Conservation Staff will review all documentation during their annual visit of your facility. An additional copy must by kept on file at the local Soil & Water Conservation District Office. Please note that if you install or modify your irrigation system, a designated Irrigation Specialist or a Professional Engineer must also sign the Wettable Acre Determination Certification. Please be advised that nothing in this letter should be taken as removing from you the responsibility or Iiability for failure to comply with any State Rule, State Statute, Local County Ordinance, or permitting requirement. If you have any questions regarding this letter, please do not hesitate to contact Sonya Avant of our Central Office staff at (919) 733-5083 ext. 571. Sincerely, Kerr T. Stevens CC' Fayetteville Regional Office Sampson County Soil and Water Conservation District Facility File State of North Carolina Department of Environment and Natural Resources Division. of Water Quality James B. Hunt, Jr., Governor Bill Holman, Secretary Kerr T. Stevens, Director A.B. Jackson J&W Swine Co Inc 1960 Mingo. Church Rd Dunn NC 28334 Dear A.B. Jackson: NCDENR NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES December 30, 1999 EC W' - ,1:yN 5 200 FAYE- 1 EViLLE REG, OFFICE Subject: Fertilizer Application Recordkeeping Animal Waste Management System Facility Number 82-576 Sampson County This letter is being sent to clarify the recordkeeping requirement for Plant Available Nitrogen (PAN) application on fields that are part of your Certified Animal Waste Management Plan. In order to show that the agronomic loading rates for the crops being grown are not being exceeded, you must keep records of all sources of nitrogen that are being added to these sites. This would include nitrogen from all types of animal waste as well as municipal and industrial sludges/residuals, and commercial fertilizers. Beginning January 1, 2040, all nitrogen sources applied to land receiving animal waste are required to be kept on the appropriate recordkeeping forms (i.e. IR.RI, IRR2, DRY 1, DRY2, DRY3, SLUR 1, SLUR2, SLD I, and SLD2) and maintained in the facility records for review. The Division of Water Quality (DWQ) compliance inspectors and Division of Soil and Water operation reviewers will review all recordkeeping during routine inspections. Facilities not documenting all sources of nitrogen application will be subject to an appropriate enforcement action. Please be advised that nothing in this letter should be taken as removing from you the responsibility or liability for failure to comply with any State Rule, State Statute, Local County Ordinance, or permitting requirement. If you have any questions regarding this letter, please do not hesitate to contact Ms. Sonya Avant of the DWQ staff at (919) 733-5083 ext. 571. Sincerely Kerr T. Stevens, Director Division of Water Quality CC.' Fayetteville Regional Office Sampson County Soil and Water Conservation District Facility File 1617 Mail Service Center, Raleigh, North Carolina 27699-1617 Telephone 919-733-5083 Fax 919-715-6048 An Equal Opportunity Affirmative Action Employer 50% recycle&10% post -consumer paper State of North Carolina Department of Environment, Health and Natural Resources Division of Water Quality James B. Hunt, Jr., Governor Jonathan B. Howes, Secretary A. Preston Howard, Jr., P.E., Director April 3, 1997 A.B. Jackson J&W Swine Co Inc 1960 Mingo Church Rd Dunn NC 28334 611T.310911111111 Dear Mr. Jackson: E)EHNR IF= r;�+ APR 0 7 1997 Fi ET TEVILLE REG. OFFICE Notice of Violation Designation of Operator in Charge J&W Swine Co Inc Facility Number 82--576 Sampson County You were notified by letter dated November 12, 1996, that you were required to designate a certified animal waste management system operator as Operator in Charge for the subject facility by January 1, 1997. Enclosed with that letter was an Operator in Charge Designation Form for your facility. Our records indicate that this completed Form has not yet been returned to our office. For your convenience we are sending you another Operator in Charge Designation Form for your facility. Please return this completed Form to this office as soon as possible but in no case later than April 25, 1997. This office maintains a list of certified operators in your area if you need assistance in locating a certified operator. Please note that failure to designate an Operator in Charge of your animal waste management system, is a violation of N.C.G.S. 90A-47.2 and you will be assessed a civil penalty unless an appropriately certified operator is designated. Please be advised that nothing in this letter should be taken as absolving you of the responsibility and liability for any past or future violations for your failure to designate an appropriate Operator in Charge by January 1, 1997. If you have questions concerning this matter, please contact our Technical Assistance and Certification Group at (919)733-0026. Sincerely, for Steve W. Tedder, Chief Water Quality Section bblawdesletl cc: Fayetteville Regional Office Facility File Enclosure P.O. Box 29535, -�MAC FAX 919-733-2496 Raleigh, North Carolina 27626-0535 % An Equal Opportunity/Affirmative Action Employer Telephone 919-733-7015 50% recycles/ 10% post -consumer paper ICA fl AT AL jl- .a -r y r u H ' �" f � . ,.}i,_•r1� fly �. Al All r ' i .!• •`.yin . .3, . 1 • !p'��• w ''4W ii� w , x ', - •- + - ` [X� �� / �_ ? �` gat � � ,* �..s � Iii • w � • *i 1-7 - � t �� �X.�-,y .�,• ; _ ,Y. l ♦ �� gra � �t � 14 .4� . � '• ` fir'` ls'j �i • Y �� a I � y mm, vi ,1 ci QL ia IE `Y. p l: 06 �. 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