Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
820154_CORRESPONDENCE_20171231
ANIMAL WASTE UTI LIZATION ILIZATION PLAN f 9y Producer: MINSON SESSOMS r 1� Location: 581 CONCORD SCHOOL RD. CLINTON NC 28328 Telephone: (910)592-4429 Type Operation: Existing Feeder to Finish Swine Number of Animals: 3330.00 hogs (Design Capacity) STORAGE STRUCTURE: Anaerobic Waste Treatment'Lagoon APPLICATION METHOD: Irrigation The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface water 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 the waste is to be applied. This waste utilization plan uses nitrogen as the limiting nutrient. 4 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: 1. Always apply waste based on the needs of the crop to be grown and the nutrient content•of the waste. Do not apply more nitrogen than the crop can utilize. 2. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at less than 5 tons per acre per year. Waste may be applied to land eroding at 5 or more tons per acre annually, but less than 10 tons per.acre per year providing that adequate filter strips are established.- 4. 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. RECEIVED 1DENR/DWQ i Aquifer Protection Section f MAR 2 7 2009 ] age: I ANIMAL WASTE UTILIZATION PLAN 5. Wind conditions should also be considered to avoid drift and downwind odor problems. 6. 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 not more than 30 days prior to planting a crop or forages breaking dormancy. Injecting the waste or disking will conserve nutrients and reduce odor problems. This plan is based on the waste application method shown above. If you choose to change methods in the future, you need to revise this plan. Nutrient levels for different application methods 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. In some cases you may want to have plant analysis made, which could allow additional waste to be applied. Provisions shall be made for the area receiving waste to be flexible so as to accommodate changing waste analysis content and crop type. Lime must be applied to maintain pH in the optimum range for specific crop production. 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.) t 3330 hogs x 1.9 tons waste/hags/year = 6327 tons AMOUNT OF PLANT AVAILABLE NITROGEN (PAN) PRODUCED PER YEAR 3330 hogs x 2.3 lbs PAN/hogs/year = 7659 lbs. 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 surface application. age: 2 ANIMAL WASTE UTILIZATION PLAN I TABLE 1: ACRES OWNED BY PRODUCER TRACT FIELD SOIL TYPE & CLASS- CROP YIELD LBS COMM N ** * LBS DETERMINING PHASE CODE AW N PER ACRES AW N PER AC AC USED ----- or ------- APPLY RESID. APPLIC METH N TIME 2300 1 NoB BP 4.6 230 0 15.1 3473 I MAR-OCT 2300 2300 2300 2300 2300 2301 2301 2301 _1 ! 2 Au -2 3 BoB -3 1 WaB 2 IAu 2301 1-2 SG �15-1 I Il 151) IO 1755 SEP-MAY BP 4.1 0; ; I I 1205 1 12.0 1410 MAR-OCT SG 1 0 2.0 I 150 f 1100 SEP-MAY BP 3.4 0 I I 1170 18.0 11360 MAR-OCT SG 1 0 I 150 18.0 1400 SEP-MAY BP 4.1 13.362738.8 1205 10, MAR-OCT SG 1 0 I 150 113.361668 SEP-MAY BP 4.1 205 D ID.3 I I I 12111.5 MAR-OCT SG 1 I 1 50 0 110.3 1515 I SEP-MAY I TOTAL112531.3 - Indicates that this field is being overseeded (i.e. interplanted) or winter annuals follow summer annuals. i ] age: 3 ANIMAL WASTE UTILIZATION PLAN NOTE: The applicator is cautioned that P and K may be over applied while meeting the N requirements. In the future, regulations may require farmers in some parts of North Carolina to have a nutrient management plan that addresses all nutrients. This plan only addresses nitrogen. 3 age : 4 ANIMAL WASTE UTILIZATION PLAN /4�1 TABLE 2: ACRES WITH NOTARIZED AGREEMENT OR LONG TERM LEASE (Agreement with adjacent landowners must be attached.) (Required only if operator does not own adequate land. See required specification 2.) TRACT FIELD SOIL TYPE & CLASS- CROP YIELD LBS COMM N ** * LBS' DETERMINING PHASE CODE AW N PER ACRES AW N PER AC AC USED ----- or ------- APPLY RESID. APPLIC METH N TIME END TOTAL10 -- Indicates that this field is being overseeded (i.e. interplanted) or winter annuals follow summer annuals. In interplanted fields (i_e. small grain, etc, interseeded in bermudagrass), forage must. be removed through grazing, hay and/or silage. Where grazing, plants should be grazed when they reach a height of six to nine inches. Cattle should be removed when plants are grazed to a height of four inches. In fields where small grain, etc, is to be removed for hay or silage, care should be exercised not to let small grain to reach maturity, especially late in'the season (i.e. April or May). Shading may result if small grain gets too high and this will definitely interfere with stand of bermudagrass. This loss of stand will result in reduced yields and less nitrogen being utilized. Rather than cutting small grain for hay or silage just before heading as is the normal situation, you are encouraged to cut the small grain earlier. You may want to consider harvesting hay or silage two to three times during the season, depending on time small grain is planted in the fall. The ideal time to interplant small grain, etc, is late September or early October. Drilling is recommended over broadcasting. Bermudagrass should be grazed or mowed to a height of about two inches before drilling for best results. age: 5 ANIMAL, WASTE UTILIZATION PLAN ** Acreage figures may exceed total acreage in fields due to overseeding. * lbs AW N (animal waste nitrogen) equals total required nitrogen less any commercial nitrogen (COMM N) supplied. The following legend explains the crop codes used in tables 1 and 2 above: CROP CODE CROP UNITS PER UNIT BP SG HYBRID BERMUDAGRASS-PASTURE SMALL GRAIN OVERSEEDED TONS AC 50 50 1 TABLE 1 TABLE 2 TOTAL ** TOTALS FROM TABLES 1 AND 2 ACRES LBS AW N USED 48.76 12531.3 0 0 48.76 12531.3 * BALANCE -4872.3 *** This number must be less than or equal to 0 in order to fully utilize the animal waste N produced. ] age: 6 ANIMAL WASTE UTILIZATION PLAN *** This number must be less than or equal to 0 in order'to fully utilize the animal waste N produced. Acres shown in each of the preceding 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. See attached map showing the fields to be used for the utilization of animal waste. SLUDGE APPLICATION: The waste utilization plan must contain provisions for periodic land application of sludge at agronomic rates. The sludge will be nutrie'nt rich and will require precautionary measures to prevent over application of nutrients or other elements. Your production facility will produce approximately 1232.1 pounds of plant availableinitrogen per year in the sludge. If you remove the sludge every 5 years, you will have approximately 6160.5 pounds of PAN to utilize. Assuming you apply this PAN to hybrid bermudagrass hayland at the rate of 300 pounds of nitrogen per acre, you will need 20.535 acres of land. If you apply the sludge to corn at the rate of 125 pounds of nitrogen per acre, you will need 49.284 acres of land. Please be aware that these are only estimates of the PAN and land needed. Actual requirements could,vary by 25% depending on your sludge waste analysis, soil types, realistic yields, and application methods. 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. If surface irrigation is the method of land application for this plan, it is the responsibility 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 ] age: 7 ANIMAL WASTE UTILIZATION PLAN 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. Tract Field Soil Type Crop Application Rate (in/hr) Applic. Amount (inches) 2300 1 NoB BP 0.50 *1--30 J.0 2300 2 Au BP 0.60 *0.96 2300 3 BOB BP 0.75 *0.65 2300 �1 SG Sc 2300 -2 2300 �3 SG 2301 1 WaB BP 0.60 *0.96 2301 2301 2 Au--` y BP 0.60 *0.96 -1 '` �� SG 2301 -2 SG * 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 -of the nitrogen limitation. The maximum application amount shown can be applied under optimum soil conditions. Your facility is designed for 180.00 days of temporary storage and the temporary storage must be removed on the average of once every 6.00 months. In no instance should the volume of the waste be stored in your stracture be within the 25 year 24 hour storm storage or one foot of freeboard except in the event of the 25 year 24 hour storm. It is the responsibility of the producer and waste applicator to ensure that the spreader equipment is operated properly to apply the correct rates to the acres shown in Tables 1 and 2_ Failure to apply t the recommended rates and amounts of nitrogen shown in the tables may make this plan invalid. 3 age: 8 ANIMAL WASTE UTILIZATION PLAN Call your technical specialist after you receive the waste analysis report for assistance in determining the amount of waste per acre and the proper application rate prior to applying the waste. NARRATIVE OF OPERATION �Q,C ma -'� Excess `� Oan k C Qmwl f.k �, O,, u 0 age: 9 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 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 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: 10 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 i-s 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, 199.5), 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 inton 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. 16. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. r 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: 11 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 50 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 thes 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 requlations. Page: 12 ANIMAL WASTE UTILIZATION PLAN WASTE UTILIZATION PLAN AGREEMENT Name of Faxm:SESSOMS HOG FARM pruner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established 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 storage system or construction, of new facilities will require a new certification to be submitted to the North Carolina Division of Environmental Management (NCDEM) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface wasters of the state from a storm event less severe than the 25- year, 24-hour storm. The approved plan will be filed on -site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDEM upon request. Name of Facility Owner: MINSON SESSOMS (Please print) Signature: Date: 51 -- Name of Manager(If different from owner) : Signature: Date: Name of Person Preparing Plan: (Please print)Wilson Spencer Affiliation:NRCS Address (Agency): Phone No. 84 County Complex Rd. Clinton NC 28328 i gn Si ature: ` Date: 1 Page: 13 Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environm®t and Natural Resources Coleen H. Sullins, Director Division of Water Quality July 1, 2007 F Minson Sessoms Sessoms Hog Farm 581 Concord School Rd Clinton, NC 28328-1162 Subject: Certificate of Coverage No. AWS820154 Sessoms Hog Farm Animal Waste Management System Sampson County Dear F Minson Sessoms: 2 l TK; In accordance with your application received on 14-Dec-06, we are hereby forwarding to you this Certificate of Coverage (COC) issued to F Minson Sessoms, authorizing the operation of the subject animal waste management system in accordance with General Permit AWG100000. 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 Sessoms Hog Farm, located in Sampson County, with an animal capacity of no greater than the following swine annual averages: Wean to Finish: 0 Feeder to Finish: 3300 Boar/Stud: 0 Wean to Feeder: 0 Farrow to Wean: 0 Gilts: 0 Farrow to Finish: 0 Farrow to Feeder: 0 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 September 30, 2009 and replaces the NPDES COC issued to this facility with an expiration date of July 1, 2007. You are required to continue conducting annual surveys of sludge accumulation in all lagoons at your facility; the one-year extension in Condition III.19 does not apply. 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. Enclosed for your convenience is a package containing the new and revised forms used for record keeping and reporting. Please pay careful attention to the record keeping and monitoring conditions in this-pertnit. Aquifer Protection Section 1636 Mail Service Center Internet: www.ncwaiemuality.om Location: 2728 Capital Boulevard An Equal Opportunity/Affirmative Action Employer- 50% Recycledlt4% Post Consumer Paper t- Carolina �turally Raleigh, NC 27699-1636 Telephone: (919) 733-3221 Raleigh, NC 27604 Fax 1: (919) 71 M588 Fax 2: (919) 715-6048 Customer Service: (877) 623-6748 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. 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 15A NCAC 02T .0111(c) a compliance boundary is provided for the facility and no new water supply wells shall be constructed within the compliance boundary. Per NRCS 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. Per 15A NCAC 02T .1306, any containment basin, such as a lagoon or waste storage structure, shall continue to be subject to the conditions and requirements of the facility's permit until closed to NRCS standards and the permit is rescinded by the Division. 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 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 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 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, for Coleen H. Sullins Enclosures (General Permit AWG100000, Record Keeping and Reporting Package) cc: (Certificate of Coverage only for all cc's) Sampson County Health Department Sampson County Soil and Water Conservation District Fayetteville Regional Office, Aquifer Protection Section AFO Unit Central Files Permit File AWS820154 r•Y ANIMAL WASTE UTILIZATION PLAN ' J1 Produce : - RECEIVED Locatio : DEC 1.9 M Telepho q�'FAYEiTEVILLEREGIONAL Type Operation: Number of Animals: (Design Capacity) STORAGE STRUCTURE: APPLICATION METHOD: NSON SESSOMS 511 CONCORD SCHOOL RD. C INTON NC 28328 0)592-4429 g�— Ism 'k,jC rs Existing Feeder to Finish Swine 3330.00 hogs Anaerobic Waste Treatment Lagoon Irrigation RECENWD/DENRJDWQ AQUIFER PROTECTION SECTION DEC Z 4 2006 The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface water and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer reau-red for the crops in the fields where the waste is to be apnlied. This waste Utilization Dian uses nitrogen as the limiting nutrient. Waste should be analyzed before each application cycly. 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: I. Always apply waste based on the needs of the crop to be grown any the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize - 2. Soil Lvpes are important as they have diff'eren-L infiltration rates, leaching potentials, cation exchange ca_Dac-ties, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at less than 5 tons per acre per year. Waste may be applied to land eroding at 5 or more tons per acre annually, but less than 10 tons per acre per year providing that adeo_ua-e filler s--rips are established. ^ Do not apply waste on sQL carat=-6 soils, w Ea-n _ is raining, or when the surface is Lrozr-=n. =itner of znese condlLlons may result in runoff Lo surface V?aters whicr'. is not allowed under 7D,N regulaLions. ] age: 1 ANIMAL WASTE UTILIZATION PLAN 5. Wind conditions should also be considered to avoid drift and downwind odor problems. 6. 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 not more than 30 days prior to planting a crop or forages breaking dormancy. injecting the waste or disking will conserve nutrients and reduce odor problems. This plan is based on the waste application method shown above. if you choose to change methods in the future, you need to revise this plan. Nutrient levels for different application methods 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. In some cases you may want to have plant analysis made, which could allow additional waste to be applied. Provisions shall be made for the area receiving waste to be flexible so as to accommodate changing waste analysis content and crop type_ Lime must be applied to maintain pH in the optimum range for specific crop production. 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.) 3330 hogs x 1.9 tons waste/hogs/year = 632V tons AMOUNT OF PLANT AVAILABLE NITROGEN (PAN) PRODUCED PER YEAR 3330 hogs x 2.3 lbs PAN/hogs/year- = 7659 lbs. PIN/year Applying the above amount of waste is a big job. You should plan time and have appropriate eauipmer_t 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 surface application. age: 2 ANIMAL WASTE UTILIZATION PLAN TABLE '!: ACRES OWNED BY PRODUCER TRACT FIELD SOIL TYPE & CLASS- CROP YIELD LBS COMM N ** * LBS DETERMINING PHASE CODE AW N PER ACRES AW Iv PER AC AC USED ----- or -------- APPLY RESID. APPLIC METH N TIME: 2300 1 NoB BP 4.6 230 0 15.1 3473 I MAR-OCT 2300 I-1 2300 2 Au 23001-2 2300 13 I 30 2300 3 2301 11 IWaB I 2301 1 2301 2 14u I 2301 I-2 END SG I I1 ISO BP �4.1 120! 1 SG 1 I 150 BP ; 3 SG I1 50 r I BP 4.1 T 1205 SG I1 ISO BP 4.1 1205 SG 11 50 T i I I 0 �15.1 / f 1755 SEP-MAY 0. 2.0 1410 MAR-OCT 0 2.0 100 SEP-MAY 0 8 _ 0 1360 MAR-- OCT - - 0 8.0 1400 SEP-MAY 0 13.36 2738.8 MAR--OCT 0 13.361668 SEP-MAY 0 10.3 12111.5 MAR-OCT 0 10.3 1515 S E P - MsAY ' TOTALI12531.3 - Indicates that this Meld is being overseeded (i.e. interplaned) or winter annuals follow summer annuals. J age: 3 ANIMAL WASTE UTILIZATION PLAN NOTE: The applicator is cautioned that P and is may be over applied while meeting the N requirements. in the future, regulations may reauire farmers in some parts of North Carolina to have a nutrient management plan that addresses all nutrients. This _Dian only addresses nitrogen. ] age : 4 ANIMAL WASTE UTILIZATION PLAN TABLE 2: ACRES WITH NOTARIZED AGREEMENT OR LONG TERM LEASE (Agreement with adjacent landowners must be attached.) (Required only if operator does not own adequate land. See required specification 2.) TRACT FIELD SOIL TYPE & CLASS- CROP YIELD LES COMM N ** * L3S DETERMINING P_L4SE CODE AW N PER ACRES AW N PER AC AC USED ----- or APPLY R ESID . APPLIC METH N TIME JND © Indicates that this field is being overseeded (i.e. ir_terplanted) or winter annuals follow summer annuals. In interplanted fields (i.e. small grain, etc, interseeded in bermudagrass), forage must be removed through grazing, hay and/or silage. Where grazing, plants should be grazed when they reach a height of six to nine inches. Cattle should be removed when plants are grazed to a height of four inches. In fields where small grain, etc, is to be removed for hay or silage, care should be exercised not to let small grain to reach maturity, especially late in`the season (i.e. April or May). Shading may result if small grain gets too high and this will definitely interfere with stand of bermudagrass. This loss of stand will result in reduced yields and less nitrogen being utilized. Rather than cutting small grain for hay or silage just before heading as is the normal situation, you are encouraged to cut the small grain earlier. You may want to consider harvesting hay or silage two to three times during Lh_ season, depending on time small grain is planted in the fall. The ideal time to interplant small grain, etc, is late September or early October_ Drilling is recommended over broadcasting_ Bermudagrass should be grazed or mowed to a height of about two inches before drilling for best results. ] age. 5 ANIMAL WASTE UTILIZATION PLAN ** Acreage figures may exceed total acreage in ftields due to overseeding. * lbs AW N (animal waste nitrogen) equals total required nitrogen less any commercial nitrogen (COMM N) supplied. The following legend explains the crop codes used in tables 1 and 2 above: CROP CODE CROP UNITS PER UNIT SP SG HYBRID BERMUDAGRASS-PASTURE SMALL GRAIN OVERSEEDED TONS AC 50 50 TABLE 1 TABLE 2 TOTAL TOTALS FROM T_ PLES 1 AND 2 ACRES LBS AW N USED 48.76 12531.3 0 0 48.76 12531.3 *** BALANCE I-4872.3 1 ------------------- *** This number must be less than or equal to 0 in order to fully utilize the animas waste N produced. ] age: 6 ANIMAL WASTE UTILIZATION PLAN *** This number must be less than or equal to 0 in order to fully utilize the animal waste N produced. Acres shown in each of the preceding 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. See attached map Showing the fields to be used for the utilization of animal waste. SLUDGE APPLICATION: The waste utilization plan must contain provisions for periodic land application of sludge at agronomic rates. The sludge will be nutrient rich and will require precautionary measures to prevent over application of nutrients or other elements. Your production facility will produce approximately 1232.1 pounds of plant available nitrogen per year in the sludge. If you remove the sludge every 5 years, you will have approximately 6160.5 pounds of PAN to utilize. Assuming you apply this PAN to hybrid bermudagrass hayland at the rate of 300 pounds of nitrogen per acre, you will need 20.535 acres of land. If you apply the sludge to corn at the rate of 125 pounds of nitrogen per acre, you will need 49.284 acres of land. Please be aware that these are only estimates of the PAST and lard needed. Actual requirements could. vary by 251 depending on your sludge waste analysis, soil types, realistic yields, and application methods. 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. if surface irrigation is the method of land application for this plan, it is the responsibility 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 ] age: 7 ANIMAL WASTE UTILIZATION PLAN 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. Tract Field Soil Type Crop Application Rate (in/hr) Applic. Amount (inches) 2300 1 NoB BP 0.50 *y. /,a G G 2300 2 Au BP 0.60 *0.96 2300 3 Bo3 BP 0.75 *0.65 2300 SG 2300 SG 2300 SG 2301 1 tniaB _4 BP 0.60 *0.96 23u1 2 Au ' BP 0. 60 *0.96 2301 -1 SG 2301 -2 SG * 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 -of the nitrogen limitation. The maximum application_ amount shown can be applied under optimum soil conditions. Your facility is designed for 180.00 days of temporary storage and the temporary storage must be removed on the average of once every 6.00 months. In no instance should the volume of the waste be stored in :your stracture be within the 25 year 24 hour storm storage or one Foot of freeboard except in' the event of the 25 year 24 hour storm. it is the responsibility of the producer and waste applicator to ensure that the spreader equipment is operated properly 7o apply the correct rates to the acres shown in Tables 1 and 2_ Failure to apply the recommended rates and amounts of nitrogen shown in to tables may make this plan invalid. ] age: 8 ANIMAL WASTE UTILIZATION PLAN call your technical specialist after you receive the waste analysis report for assistance in determining the amount of waste per acre and the proper application rate prior to applying the waste. NARRATIVE OF OPERATION r t ��11 )b 0-LA a t1o, � �x CeS S qq I age: 9 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 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 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. 6_ 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 nor covered with waste to a depth tha_. would inhibit growth. The potential for salt damage from animal waste should also be considorei- Page: 10 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 inton 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. 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.). Areas shall be fenced, as necessary, no 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: 11 WASTE UTILIZATION PLAN REQUIRED SPECIFICATIONS 18. 1f 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 anplications 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 thes metals approach excessive levels. p? 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 shail 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 or in a manner that meets North Carolina regulations. Page: 12 ANIMAL WASTE UTILIZATION PLAN WASTE UTILIZATION PLAN AGREEMENT Name of Farm: SESSOMS HOG FARM Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established in the approved animal waste utilization plan for the `arm named above. 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 new certification to be submitted to the North Carolina Division of Environmental Management (NCDEM) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface wasters of the state from a storm event less severe than ),le 25- year, 24-hour storm. The approved plan will be filed on -site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDEM upon request. Name of Facility Owner: MINSON SESSOMS (Please print) Signature: (� _ _ Date: 5` - 2- i Name of Manager (If different from owner) Signature: Date: Name of Person Preparing Plan: (Please print)Wilson Spencer Affiliation:NRCS Address (Agency): Phone No. 84 County Complex Rd. Clinton NC 28328 Signature: I n, Date: Page: 13 ANIMAL WASTE UTILIZATION PLAN ANIMAL WASTE UTILIZATION AGREEMENT (Needed only if additional land has to be leased, etc.) I, hereby give permission to aoply animal waste from his Waste Utilization System on acres of my land -for the duration of time shown below. The field(s) on which waste can be applied are shown on the attached maa. I understand that this s_-ste contains nit-rogen; phosphorous, potassium, and other trace elements and when properly applied should not harm my land or crops. 1 also understand that the use of waste will reduce my need for commercial fertilizer. Adjacent Landowner: Waste Producer: Technical Represent -alive: SWCD Renresentative: Date: Date: Date: Date: Term of Agreement: ,19, to ` (Minimum of Ten Years on Cost Shared Items) (See Required Specification No. 2.) Notary Page: 14 ANIMAL WASTE UTILIZATION PLAN r f Waste Utilization - Third Party Receiver Agreement generated by hereby agree to apply waste in a manner that meets the Waste Utilization_ Standard (633), or use an alternative waste utilization system that has been accepted in writing by the Division of Environmental Managment. Third Party Receiver: Term of Agreement: (Minimum Ten Years on Cosr--Shared Items) 0 Date: t0 Notary Page: 15 W" In, Ve PZ, tfi-2� "IF tig t,4 k vt 4.0 r7 Farm Name: Sessoms Hog Farm Facility No: 82-1 S4 Farm Owner: Minson Sessoms North Carolina Cooperative Extension Service College of Agriculture and fife Sciences Subject: Wettable Acre Correction/WUP Correction Tech. Spec.: Danny Bailey See next page(s) for acreage by irrigation pulls and VIUP revisions. r% Date i--7- n3 Date Owner Signature Tech. S 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 University, U.S. Department of Agriculture, and local governments cooperating. North Carolina Cooperative Extension Service Employment and program opportunities are offered to all people regardless of race, color, naiionaf origin, sex, age, or disability. North Carolina State University, forth Carolina A&T State University, U.S. Department of Agriculture, and local governments cooperating. WA5T9 JIT3 LJLArtc,N PLAAN TABLE 1 : Aclk 5 OW11LU BY PizUUUCLI� Xn Lc'g1EA zr �LLU CL11"5- C:1101' Y]I;LU i,U5 COMA 11 nClILS Milo' l•W ;�01L '1'Yl'i; & UL'1'1;W1114111G 1-111ASE CUUL 1�W Id 1'C A USED PER AC11 '1`lli I; A/ -F 337 A2- �� 0 .�. r. " 3 0 .2 • � � 9 o Z .23 0 rc 3 SI fa /.4c27F-I v s o . 4/80 r z z. �J� rad� arli .SOT 6yo I F I I jO,fy Alp/ C..s rj u / — c-14 AST -fA t Qi v/D CG G r -- /on 09 .f c sH WA5-rg IrTi L,1 x.ATIC,N Fi.+AN -- 7 C 'l'nULL 1: ACRLS OWNED UY PRODUCEit 'w Of [,r,g1cD 11 nc'p 1'I E L 0 ;,OIL TYPE G CbASS- C1iO1 Y I LLU LU.COMM— UL'1'LIU'{IIMIG PHASE CUUG n1J Id PER lwlut s AV, PER AC AC USLU I .�+ ,. 2u� 3•i�7 � rJ o /4 �5- 0 ie o G FA1 G ,F" Gr .✓"4 f F'AD 76 S 9 R•g' Ag" c F — I el3 0 �.Sf-y,ii^�r• � s ^r, 0 � jj � �. �`i.:i�,y;`i�"'i�. 1 .Li �l.. 7' 'Crt � ,1 i � � ■ �..��f�.�.._Ccr+.£x:a.;lw,;�eY';.�' . .010 • 1 i�.fr" ��j' ... L` 1.-� ,i Cr S�. J.I L.��+' !-vy.y.• \ +-}�, w 'ti W •� �-+V. e+�+ .+�' � •r {� �"� ;M. �S� �� 1� 3 f �'�� �� 'Jn.. _�� �s�-is,}�4s#ts = ,•� �4j\mil « �'..� .. _ � .✓ — r;'� m' ` : �� f _�qY ^'xi �.Q�' �}'1�-,�k> t'� �%� �x,.,�?�r� }Y �. L, � � if � � V :lb ` y S 4 < S �< r "H. >ti ��_ .. � 3 a S � ro f...�bys. w s ,. .�,' i', r - ��r.•i � � V �\ � �� � L"+`�i"`;'Si.s:.y < '� x� ''� €` .s � `'4. �i. "' � � r .� i�.'• .J.� •a,� � �Lit� :�.� � q fl; •y �. `�.��,�'' ��,:'�i's '`�;,::t .,,. a.°r'�tY �s ` � .p�..Y•.�z.� �.^ f.�'�'�'`�''`'i�%�'s y`-q�'"�^'�t3'"!•'::, .1 � _y �� � ' + S �1 r7' } i C' z�./ � 2- Z"I.�pp{�fV4 r'� 'S. «:r,�y-�•c � fl�E��'} �j \ �-�+. 1 it � 1i I4 �, -�A- �i. + iJ ni'.; yy�as(T'i1Z`t-r' ti sSi! .rr.1 'F S`� .. 'S�',rtd, rT �� .i ' ":-W _ ,> t•�l TT ^ ' i�G••� Y?�irs �,r,�+.,^ Yti ., -��F ,�,� -�..3 sf. j o ��_,r,. ... ,.r.� �7� - �s-fr - .....:•r` •.x y�� srnY^ dr- �'s '� �- .. �- "'�;- � ��� � '-,� � �L1 � �' �'� �\ "`^f Ss�-,: ' 's � a M� �' Q' - .,..�a:.� .. ,4,,•s� - :.c ;., T.^.. M1 � �%- s y'!1, r;d {r ' f i-+Z` s.s`. d � V � � � !� �''•."r'�'. v� r- ii�s M<-.r'd yr,s;r. L ,.•s'',1, -. , ?F1,-'.,,,,, y _�!: x-•'; 'Jk i' s r.-..- sR°. ! «.s .ri' :� i '�j,��[^ '».,, •sA., "�}r .1 �i �-i a ./t_ " ...rT�.:.�, .•ct .:.,+:.w. � ? ,f" :..%i `F :_ , ��tr�'w',� -r:` a-:o �''ffi`� •73K. �' :'t�{ �`' `. �•" x- �+;.�!�c .SrT+sl �'-b�"'?' � r.» i•:::: • _.: r srr-i�' i:. 1i+ 'i r�- !, � 1 {�{� ��+ F" ':t.: �y�il f"'�`. � ; �,sP "St ..�, i�T,; i��^,si'� 7F ,311 ` .>, y.4 ��. ti 1'Y�a• s.,' +.i:.,i..-i.c �� 1 � l 11 ' ...,:.G�r."s'�'y;r'�-'�:;:. :•,,T''�'�.•-�'-=s^��,s'.it's? �i :--� � , *►�•'�•r � : r ���`"�#i'yi-�,i�,7 �'�•. %M�,t .. �l M � .j..iij r^t+ �:.v-,ai..,['_..r .a..s�+"�'`%��Ci G,i:.��.. s .v, ::ap'�'f'J'�'f �,, ;:1•�,., x Y. r.:. �' :�•.� .� CAWMP HARD -HOSE TRAVELER FIELD DATA SHEET 1. Make and model number 2 ^2ArGC 2. Hose length and hose inside diameter (ID o . 3. Gun make and model number 4. Gun nozzle size f _� inch, ring orifice, taper bore orifice. (May need to measure nozzle diameter.) 5. Hydrant spacing .10 n feet. indicate whether uniform, �andom. Number of exten r hydrants Number of interior hydrants 6. Operating pressure at hose reel psi. observed at working gauge, provided by owner. 7. Gun wetted diameter oZ D feet. ed, _ _ based on gun chart. 8. Gun pressure 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, _ _ gpm. * * 14. Engine make and model number , * * 15. Electric motor horsepower and rpm hp _rpm _ rpm te: it is strongly recommended that operating pressure at the reel and gun wetted diameter be field determined. or * Locate each hydrant on a copy of the map. Indicate the start and stop of the sprinkler cart for each travel lane and show distance traveled. Also indicate the normal arc 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, fim-ish where possible. * * * information furnished by r and/o Signature of Owner or Facility Representative Signa of Technical Spe alist AV Printed Name of Owner or Facility Representative Printed name of Technical Specialist Date -- z- 6 — S' Date_ /L f y *** Only the person or persons collecting the data should sign the data sheet. CERTIFIED ANIMAL WASTE MANAGEMENT PLAN WETTABLE ACRES WORKSHEET Farm Name: SC Ss Ulf s �n4 _ %}%5'� �- Facility Number: Manager or Producer /ri.;v sa rs s d Phone # (2j o ) 5 9 z- - V Y 2 2 Technical Specialist: _ %�,Q.J,-� ��9:�R�'' Phone # ffzo ) =�'E 2- -_ 71 C. / Facility Contact: -W"- .1�' 15 V AS Phone # (9/ y -f-9 2- - S<y z i Mailing Address: 5 S/ C'ar✓G ne-, _5' e-&c,et- _AY - _ z- Was farm sited for animals prior to 10/1/95: o If No, date farm sited for animals: 1 1 Irrigation System Type (Check 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 ,,—__1Hose 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. Signature (Manager or Producer) 7 I z-S l 99 Date 1-r111'flll' WI"..ITAI11,L', At.,I1L. l.i)1111'll l r1 i it ll•l,u, 11'41lkk!•iIIIA.,I l . ] :u 111 I luu:lint (lticnlilivaliull) 2 — J l iclal 11u11111c1 (itlt 111i1it nlitll,} T 1 ?- 111iLa1iull.,}'sltn,Ucs1�11a11u1t �l:ltisliul; hlil;ntiun;;)'st1:n1 f lcn 1 l :I I1111111t tl 111 il;1111ml ';)-Mvltl _1- •lypu ul Ittlgahull :�y5lCtll 11. 5ltlillklcls Hulullur v1, 1*1 avcl Lnllcs `;t:llivu:+1}' ,;Ini,lklul j(4_ 11:11t1 ll„sl: 4,:lvdvl C clticl 1'ivul Lineal llulvc ,;yt,1t n1 I! 1nlctiu! sl1ti11l:1r.1 ; it I,xlrltul �lllil11;11,1 if i t11c1 it11 1.1111cs - It i'-.00I iul V .all,•; J. Wullul Diatllutcr D�Z� Iucl� Flu1,1 licltl thin sited .5 '.27 ixog1114r1 bull Ilct:lj (q.Pc ,r�.,lt f P2 e� d.�- o ; p AVCai,v �S' of i° r l,. ;;I1,luilig // Z _ l,nlclnl / llydiallt %v j:1s I1c1uc11lir ,I 1v1:tIt-,1,11:,1,,,111� - 5l>lilti lul spat i11g n1u11�; init t a1 llccl} 1:,5 I1t ICCnt�AC 111 wcllctl ali:,n,l tc11 !. Itsilll lcr or llydcallt Lnyvul rI_ MI111il,lc i.nlclnlJilythA1114 5invic Lalciallllytltnlll I;xccssivcly sunned',plillklulNil Ipitmos B. Kuml lilt: illigalutl luca ltcl Sillinklctlllavcl Trull 1=11 lllu. given v.-Ullt:tl tlinlllcict 1iu111111c t%pi 1,I,tiall• Wilall• :,,stl cvlu11111 b'.I ct l vll Itallclrl, sllat3118, ttlttl r..I,IillkiCih,:1vt:1 1011C lutn1iu11 'A-.t11u11:11-y "Iffillll•lcrs Ant es ]rcr inlcl ivt sI11 inkier li un1 I lllrlc _ l'ulun,n Aci cs }1cr L' xlcl iut s111 inklcl Bunt I nut, - — colunal — -- - 1 r:tvcicr: 1111c1'tul' 11p11-Rill kll-nvcl 11111t•) (n) Au1 cs Mail cutl uC Imil hum l :1l,lu `.'.Alllrlll (Uj ACIC; Midtllc IlU111U11 ul l,tlll - [P1111 1.c11[oIt ilccll 11"111t,11V1,1t11. jltrlj� ! 11 ',t,tt tml ul 11t111 1i1111, Tull 1 $%CI cs lur NICE iar bull (;iulu: 11 t It l t) - ] rnvclut : 1;lticriur 11}'tlsnitl ol111.0lane) Aum stall ctul t1l I1t111 ii,111, 1,11It.CE90 1'ull,1,111 3 �rl �Yf2— k1)) At:1us middle lnrlli1r11 lrI ln1Vl (l'ttlll.cll�ills?'% �Vct:4� �; 11'c14r11 11'n1111 $� 1,4rt•1jj!'I1•',1>41 (c} Ault', slut] nd UI Trull 1tt1111 /.,2 0 3 TOM nu es Ilan 1�ltic! iul 111111 �5u1i1: n I It I t ) `J. 1v1611iply 111c lavulalcd itlil,alcd auluntie value Irt:l 5l,lilllk-.1 u1 11avd I11lil l"1, lilt'tltnll4"ul ul ;1111"111,',r ul, t:adl t:ulut.pty ilt tllc Ctt:itl. ; 11111 ali ul 411csc n11a1 this is t11c 111It%I II6gnit:tl n4lt•l11_� It1s 1IIV, lic1,I hucs 11tr lilltliVl Nlil'111CIC1 all 1,111i X ---- 11 [L) !>,c, c� t,u L'•.nlc1 iu1 :i1�1 inLlcl v, full � 1! ;;1„ inklc, a u, fulls � -- _ _ - . /,, � ,•- o3 '1•u1.11 WelluLlc Ac c Jv1- licit] -1 111cllaUlc I1Ct c Ctlnlhulntiunnl �1'ull:sltcct (_.un,I,lclttl Ly: �y'_f.�� •'-.'., ! c } � I rntr. Lr111'[11t' 11'1:: 1 i Alll,i; A4;ili; l:l1I111'll VA I it lf'lf1l, 11'111u�;iili•i:l 1. l :un1 tJuutltvr (iticlllilicaliult) �� r/ ar — I icltl Ikunllltl (lllt11I1lIL:ftIIVn) } 1. ]r1i�;aiiurl :;}'slL:rrr iJt:si�ll:tlit,rl r� 1':,[istinl� Ilri1;114i1rn :;}':1r:11� f'ictr i P"A1lgill tiril I111t"1111U11 }. Tyi,cul' Illig-MitinSy5Ic111 _ _ ,;ialiunaly ;;Ininb.lvl%{.�� -- 11sltl lllr;l 11:,:i1Ls O, lltcl l'ivut — _�_--- Unum lrluvl; ;;}''trm �i. tluluUtl ul Sk�lliull;lly 5111i11k1t1s — —_� 11 lnicliul sillinl:lcls 11F.x.lrliul !1piltll-'kls l 1ts,uUt1 ul 111tvCl Lntics 1I 1111c1i111 1.111w.9 -- 11 FY'lcliill Lally ,. Wvllctl 1)ialucl�r .71 c40�1 z qvuctj Flunl livid tlaln sllccl '20 jS-50 l.clll:!lh tit Hull Ilt'Oj (,. Lt11c1al / 1lytll aut 72-- 1:1S 11NLClll1pt: ul wcllcll t11,1rnr111 j ,1111111jr,i sllaung nlung Iniclnl alic.01 — --- `;tscl i,cclll:+gc ul 1v1:11t-tl 111lau 1ul1 /,IR4 6 0 f- -ff 3_S 'a P 1 T '41111kltt 01 11y111a111 1,11yuul _-__ �1�4t111illlt 1.1t1t1nlslllytllnnts S11181c L.alrial11lythnnt --- 11-Autnssivuly sl►ncetl ;,I+lilrklelslllyrllants ll. l(uml Illy ilIIgalud amn pm ,Illillklcl/paved In111 FM illy I;ivcll Milctl tiin11101:1 {-1un1111v nllilininialr lnd1:111, ;Iml culullul basal u11 Ilallclrt, Sil1l[:.tll8' onLl slrlilLHul/llavcl lane lut:lthkln. 'Aakullary 511riulticr3 AGm pratililcl dui i;pi' tklcr liullt 1 111,1c _ l'ulu1n11 Acl cs lrul .xicl iul 511111lkicl li unt 'i nble -- t ululnn W '1•ravdvi.: lntcriur uplrnlll (11-11VO 111uc) 2 / (it) Acics'Mill ( Intl of pull litill) l ;11,lcCT 7v `.'.1,iunnl y �c . /. 535 �L►) Au c.^, middIc I,tn Win ul' I,tlll •� om Tull kul��i11�111ce1J 'X Wullt:ll 1`'lllll,°���yylrl:lj} l 1.1 '�t,11 Lut1 id m I I tuu ! :rl,it t "„I„I,1„ tal ncres lur Intel;ur 11till (;i11tn: n { 11 1 t ) i 1.11VOcr: UyAtriur 11yth-tint (l1 wr•cl Inns) (n) Ac1cv stall, crnl ul pull thrill 1 n111v l'tllullln (1,) Ata CS mid dit' I+nl l lutl ill pull (full 1.t:llglil - J1c01 ' 1`'c1l[11 1"itlill �illlj�I'1l ',;,II —� — (c) At;1 us'lull cntl ul bull hula 1 ;1i,11 l:tllmml Tulnl flu es 1u1. EAtcl km plill (511111: n 1 1) 1 t ) 1). L'lullilrly lilt lallulalutl i1liptvti nracuge value ilcl !;plilll.lu ill lt;llcl pull lly 111e lltntlllcl ul �1,1i111.1r1 : t,� l trll: ill t.W:11 u;ttvgoly ilt llie fell, 5u111 till ul lllcst aml tills is tltc Itllsll ItI11"Mud nulc.11l'�(! tut lilt'.11t•lrl W AG CS iirr lnlcrbul :i1rrur}acr to 1'1111 X — _ 11 ")Ii`ulls r — - - A,,i, (b) Aes 1, rrci Lxtcrivt �il,rirrklce kit 1111 ;i -- N ;;l,rir,4.lc,s yr 1•1111% - A -2.IV 1 Total )YO(alale Au v [tut- liuld k.jmlr: 9a 1 )It) 'tYcltahlc Ac[c Cumpulationul Wmknitccl cun,lrlcictl l,y; �L�f '-, 7 i 'L 1 r111r1111' 11'1';1 lMILE rllAU, L;t)kIl'jyIA'1Il1NAL 1VtlliKWIA':1. ,p 1. l :ulu I�ulnE�tr (lticrtlilicalivii} L - i� `� Field Hkillihct (ltltnlilicntiun) _--! 3 I. ll,it;aliurt :;��4lclrl llcsil;nalivn � :.1. '1yp o1 111ig:1tiun Sy51c111 _ �I. Humbur ul-Stationary Spiinkicls Hiliuki. ul-l-invci Latics E,itistiIII. IIIII ;nlit It t :,yslIn n Nov l Fx11111111VA 116g,16011 Slationaly `;It1in1 ic1/G4� - / 111tt1 l lt,a: l I;lvtlt.l (;clttcl Pious — -- — Lineal -1rluvt !! lrllclilll gI6111:Icls .. 11 Fxlrliol slitirll;ll•Is 1I 1111cliut basics If V.xlt:liul I.atll•" 'i. Wt llctl l}i:tnlcicr r? a (st et) i roar lichl tlaln slices _73 - Ixoglll VI' pill IIvu � G. Slr;1t ilig Laletni l i lytll alit Spacing Bieck � _7 � {as I,t:lctlllagc ul tvt•.tlr,1 tlianlHI•I � Sltliuklcr spacing nlullg Initial [kut] — j;+s l,ctmiingc ul tvullct11161110c1I 7. Sim illklcr ur llydiant Loyma --_- / MulliMic l .ntcl Assn lylllnuts Single Lalclnllllydialit ___ UAuc;sivtly npwn ttl',plillklclIII lythaills t!. is u;ld lilt: illigatud Rica llcr splinklcllilavcl hull I-ul the given ►vtlit:tl tlinlllol:l iiunl III(, Blip olltia r lnhall• :t1st1 t;ulultul Uasud u1, pallclu, S1111t;1118, anti sMlioklc1111nv0 1:111t'. Iut:nliu+l. 5E:1[it)11:11•y �111�i11lticra Aul l:3 Im. 111lcl for slit ilikltt lion, 'I'ltlllc - l'olull+I, Acies slur L'•xtctiur sprinkler hunt Tnblu t_:ulutlut '1•r:lvtlty: 1111crior Bydi-alit (tt-nvcl I1111C) (11) A4t C5 stni t CIld t1I pull Il uill 'l .1111t 7�� :olouul /3 3.oSo (b) Aucs ulitltlle Mullion of Iltlll (1't111 1.cnl_,11173 0 ,1cc1 ` ;i 11't•.11t�t1 1V1t11i1 .�S 2--lalcr.lj� 1.1,1.51,n Nui CS Slull crib of brill It uns -�f�/a'1vEnl nuts lur 11+1triur bull (:itllil: it l 1! + t1 Yvilv6C.I.: l;iticriul• llytlrmil (turves 11111t) (a) Aut is start cord ol- I,llll hum l n111r. t •oltlnul kh) At -its 111itialir. I,oi lioli t,l' Inill (1'1,11 i.tnNth `secs` v Wdtct111`it1111 11crl;jl l l ',1,11 Actcs 51up cots vl' Iloll IiIt] ll 1 :tlrlt: - l :t,lllt1111 )Cusps 11CxCS lur EXICIkir 111111 (�111n: A 1 11 1 1 9. lvltikiitly 111c WbUla[Ctl illigalctl Rtacngt value pus splillklr.l of linvc] lrtili lly 111C Ilttti111C1 111 C1,fiItY.II'I.'. t,l I1tllk k?I'Cacll t;.Mcguly ill 111e Belts. Surd till of llitsc nuts this is lltc tulnl ittil,:tlt:tl nuCIlge leis 111t: lit -lit (-.') At;I c8 per 1111,ct iur 1,1 i1►kicr o1 full X ti till i„b.1e1 h "t 1'u11s r --.. - - - /t,., e- z (b) Acres Ircr lirctCI it t 51,1 iuklcr vI 1'%III IN 11 ::l» i I I CI s v1 furls r Av, . , SL y 0 Tu(:11 Wettable Acre for Brits (5uur: 9a -+- Yl,) Wc;llaWc Acrc CulltPulationnl Wurks1mr-L Cur11111c1ut1 by: t ,��vnll WE- VI*AIIL,F, At:IC1,', k"M111.1 VA 11t111AI, )Vtlltr,:;BIJ.,1 1, F:u1uNumber (iliclitilicatiuil) _�ZZ Vicki Hur„lic, 1.. lti;gal;ult syslem Ucsigtiatiur, I;ltisliwp; 1tlil;teiiloi+,�yslt_,,, Nciv 1 ti;niululletl Itl;l;rlliuri 'Iystinil .1. 1 ypt; ul, 116B.'ltiufl 'Sysiclll :;wIlulutly Sp6liklul fG"`� 11�it1 l lus+: l,:,vt 11a cell1v Pivot Unual 11 un ,,y;lvm �i. HkIlullcr or Ntatlumu y Silt inklui 5 _ iI 11lIL'l1111 Sill llli:IL'1•s fl I .xl+'Ifni ! Ill iill;ir'1 C i'11111111t:r u! 1 illVCl LnIICS � ,% i li 1111c1i1H I,nllcs ._.._ _— II l�.xlciilli i.anr.^, ';. Wclit;tl Dialllcicr 1 rfc /76•T�iclj Fiutn liclti thin sllcct 73v-_ i.rn th u1 1,ull )fcttj �. 1;-.tuiiB 7f . 5-- Late! nl 1 I lydi aril 'Opaciiil; Ifert1 7 3 ja; i,CICC11i:;�L` I11 tVS:ili',1,Vi:u„rl, i SIninklci silauiiig niuq Iniclnl 11'cctj I 1. 5priuklcr or Ilydimil Lnyutll _- ,, lMulliple l .niciMAlytllarlly Sinl;le Lai uallllythnut - l;xucssivciy sl►nuetl;+lllinklctsliiytll;lltts 1S. Kull 111C III-igatcll Ilion llcr sill lllklclltlavrl 111111 IUI 111c givcll lvt:licil a 111111 ll•i liun111fe ni,l,it+i,liair. tllhair aiLd uuIumn based un iianum, sllnuing, and r-ptiuklellliavul laitc luunliuu. :ii:lt;utt:u-y Sils•iultlCr3 Aures l,cr lntcliur sltiinkicl hum I ltllic _ f t 1111111111 ALres per Lxtri'm s111 inkirt hum -1 nllic A-_ - C:ulllnul — -_-.- l't ;lvcicr: 1111eriur Bydrant (irttvCi 11111e) - q 2- (n) Act cs vitll l cntl uC bull li u111 i al,lt CT7o '.'.tlluilu+ l3 - +`75:7 (b) Aucs nlitklic liuliiutt ul" hill (l't1i11,c11�,111 t+,ictt) ;� WtAll.11 Wi,lthi7, _- 1-d1) ! (c) Au us, stv1l vitl ul ImIl I; u„i t :,1,1+' _- t :++1unr++ .?.)77 '11ullil ntrcc tur llltcriur hull (:iltrli: n 1 11 1 tl I•rnvcicr: Exteriur llytlrnlll (lrnvci Inns' (n) Au ei mail curl of in111 i;utit l 11Llt. t t,ll,ntl, (b) Auirs millliiv.. 1,1r16tin Ill hill jhlll Lulgill jllclI �; lti'tllctl 1'itlllt 44a1:1j}! l l '+t,tl 51t111 c116 ul'l,ull hum l atilt - l.:ulun,ii lutnl 1tCIC5 Im. Extuiur pull (sum: n l 11 t r) `1. Ivllilii�ily t11c 4.111u1attrll iiiil;alutl nucul;c valtic ilcl rl„i111;1c1 u1 l,avcl hull 4,y the 1lllliilicl u[ sprilll.lc:T in t+,+Il; ui Caul! , ,ticguly ilt 11m i . ICU Sum till uI-lhcsc wit1 Oils is 111c tultll itlit,n1c11 m;iclige I'M lilt 111611 (a) Aetas llcr hattiur S11iinklet [li 11u11 X _ —11 ;;1„6lllJulq ul !'r+llf --- Ak.i1 - (U) /lcres lrcr Enic,ior u+ 1'1111 C 1',+11r. 3 377 Total Wettable Acre for liciti (.5uss1: Ya i yli) 1' ull:tillc Acre Cumputntional Wutkshr-cl Cul++llletcd by: �1�_ff ;• �. } ' llntc: —_ — ts�llvnii� 11'iSi l�tlit i' nt i[t:, [ OMI'li'vIVI IcrNM' WMI,K:;iil,t,r i. l :iilli l�ulllllcr (lllcnlilicatiwl) e 2l -/ �r� l�icl(l hltitullct (lalctililicnliun) _- � - 1- li ri(;:tliuli :;y'slcnt Ucsil;n:llivii G;>tisti„I; h,ij;nliun :;ystt�ut hlt'n' 1 l�;titltntir.ti iltil;nliutt ;;yslt'n, S. •i'ypt: ul-llliptiuil SySlCiil :;laliuu;lly ;;ininklci/c;y� ihltl-llusl: I iav111t Lctltcl Pivot Ullcal •illnvc ;�}'slrlll 'l. I,111111 lcr u1, 11 1111cliol slllillklcis ._ . --- 11 Fxlriitll s1111114-'Irls 1 lulnhur u1' fillvcl Lmics _ Id lillcliul hillc9 !! Extellm l.aw.r. 'i. W cllul Uiattltacr -2 I-)tt'ud j hum livid llaln sl►ccl 6 yo _ i,ellglli tlf ituil 1Ic01 (,. ;; ;1611i /G 3 Wei nl if l lyrli aul Sllacilll; I1'eci L 6 fits ltci t:cntaRt: nl lvctlr,l tli:i,iit'tt•t j SjnEiiMcr spauliig nluq Itllcinl lrcelj — — las i,ciunligu ul Ivulictl dial„Ou l 7- Spunkier or llyclraut Lnyout __-- MulIilllc I.nlcinl'jll.ythnnty Single Laim alli lydi Rut V'xct;ssivt:ly '91m ti 1,111illklel A lyth alils ti. 1[cad llll: ilriBatctl area ilcr slllink1c111lavul hull 1M 111t l,ivcll lvcllctl khIlIlicicl plum the n1,illul,l6h. ttlil:l{r alltl Lulu,lm Uast;d uil italtctil, siinuillg, and s1millcict/11;tvcl Line lkputtiull. L&Itiullary Sliriuidel-s Autos pru har- iut sl,iiukict hum Tnl,lc ['uhllnn _ AGtcs llcr i_.xlciiut sits'mV.1m liut,l -1 nue Culunul 1't-av6cr: 1111crior lly(li-nnl (trllvcl lnilc) (il) At;tes Blatt curl uritl,ll 1111111 '1 able - '.Alilii,nl (b) Ades middle imottill ttrinill (Pklil Luli th ilccl) X 11'1•.tlr--11 Wi+lilt �lrr.ijl ! 1.1 '1t�11 _ -- — (u) Aut to stvil ciltl tll lolill li it,,, V al,lc t ),lunni TUIIII 11tres lur 1111ti iur hull (;inili; u 1 1) 1 c] -- 1'ruvcici : l >llcripr 11yt1ralil (11-111-cl II111C) . 2 3 (n) Act t:9 stni t mid or imil liuut l t+hll t 6f t lthnun /3 /../f 7 ill) Ault-, illitltllr. iulllilltl ltrinill jl'ulll.ctli,lhGo jlccl� `; 11'ctictlll'itltl,�/.�',lttil)1 14',t,u (c) ALi cs slt►ll cull ur pull hum /.V17Tuliil our ltfl )E�1llCllui ItIIII ` 11141; n 1 li I r) 9. Multiply 111c labulatud 111,1gatcll nutcal;c value i,cl spiil,l,Icl ill t m'd pull ily the llu,lilitt klfsplilll.irl� t„ pith; urcadl Liltc.guly Ill 111C I16J. Dull, all ul 11te5C mid lilts is the Ictllil ttlij,:t 'A ncIC.111 V lul the fitlrl (a) AAA C-S Vtcr Iill c, ivr Sin i„I Vcr t,r i'u1V X lI ;;1r, irrl ICr a v, fulls — /�i.i r: M Acres rter EXIV Ur ;;Illirrl;ICr Vt I'„!l Y It NI'1'11LPJ1CF3 w I'u115 — r11t'; I-CIZ % Tul:tl W-6( ble Acre fur litltl (5uu,*: 9.1 -1 }}ditl.tUfc Act CuiiTulalio,lnl Wori glruct tJ-ut,tl,lcic>t 1,}': t t f111'i11i' 11'1!: i 1r111i.,i'; r�l,lll'; l:l}{11111 IWl 10HA1, WOItll;it11',l;i- l- ]�al n1 I�luttlilcr (lticltlilicaliuli) L- j 1`icltl 1•lttmllct tklcutiliunliun) __-�g_._. 1.- 111 i� ,1tiu11 :;�'slt t1t llcsil;lt tliult _ f� E1lt;sliul; III il;ntiolt ,;yslcnt fycw 1 i;xl,nlltlul tlligntiul, :7ysltnl J. •lypu of hilgaliull Sy5te111 :;t:ltiuti:lly tilllinklci/�,k� _ attHlow 1I,-tvdvI C loci i'ivul Lint:ilt-rllnvcSy;1r111 Humbur y S111illklCls i it 1111C1im rilli114:1C1S II 1i.xll'ilol rilli114.11-ts HLII1141cr urTi tivel Latin if 1111t I'l(II I.1111C9 !I I 'Oul int i •nrlrs 'i. W t:ll A Uiamu'lur a 5<d jtcct} F1mil lick! tlrlln shed 14S-0 1xilgtll u1 11u11 �lcc1 � 6, ;,lt;lcillg plctnl / IlydI-.11lt ICLI� - - �ae l,cluIllagr or tvt:llctl ttiam ll-I Slnink-lel spou'llig n1ung Inlcinl ji'co] jas l,cicollagc "I wcllvil6:1111dul1 T Sllriiiklcr of Hydrant Layuut _—�— Alulli111c 1.nlelnlslllydtnllts Silll;lc Laic1 a111lyth ant —_ Exucssivcly sllnud ;,Illillklcl sit lyth mils IS. 1Ccod 111c illibalctl amn 11cr 5111illklo/it:lvcl (lull f01 lilt Vtvt;ll ►vcllutl tiinuidt.-i Iium lilc n1'11tuptialt-lnllalr ,11itl culunul basIA Ult llalkc111, sllnuitig, null Rill inklt:+lit avti 1:1nt; lm, ,thin :Aativnary spriultic1-3 Auf cs llcr I lltct lut spl 111kict li ut11 t xlllt _ l'ulunut Acres pur Exietiut slititllticl. Iiullt Tnllle _ cUItlIIIII --- - 1 r:►vticl : Wtcriut' I.ly(lt'nttl (trt►vcl 11111c) (ri) Aul cs stnt t cud uF hull hum l al,lc - `.:kiltillill (1J) llt:lt's 1111601c Jim tiull tit-I1nll Tull I..cn1�111 ;ltt:l� 11't:llt.1l 11'111t1, . [ic1:l 11 l'4.4,`,t,11 (c) Auies stul, cull of I,ttll I', kill, A Mlle l'„1,1u1n lvini ncrus luv lntcl ivs- 111111 (5t1tn: 11 1 i1 I tj - 1'1 Ilvcit r: 1 lticrivr Ilytlrntit (lrnvri innc) . Y (a) Aui cs Mail cntl ur lrtlll 11 un1 l ni,it.� ¢a l nitlntn �3 .2.2 3 r �Ii) Aut vs n,i6dir.. l,nl litnl ul' llull �l'u1l1'elleOli/ra J4V.Ul} X 11't-tkt:tlWitlill2y�ylt'ri�)I'1t',t,ll Act cs sltlll ctltl ul l,ttll li,lilt 1-Mll : l:t,klM11 �.. �5l '��ulnl ltcrc5 iur !'�1llCl-141T 1f1111 tllln: A 111 1 r� 9. tultihiply 111C labulalCtl iiIiptud nlCU8C valtic 11ci 511,I111.1t:.I t1t itaVCl Iltlll I,, 111C 11t1InlIC1 t,l-sl„i111.1:•1s t,l 1,1111- uVt;atll J,-Mcgoly in tllc Ctclti, 11)*u111 kill ul kllt:sc ntul this is tllc it,lnt iIIig-Meal nt.icnkrc 1w 11tc 1,1011 (a) Au cs I,cr 11%kC1 iUV S1,l iuklui t1, full X 1) 51n ir,�lc, n uk 1'ullr Ai., c (l>? /kits I,cr Emciivr S1ni„ 1Jc,n "s fulls F? G 3 `1. u1.11 Wellable Acre For iielti (jusis: ya -1 ylt) Ny It:tlllc A(;Ic CunIIiuInlioIItk V,'Url:311cct LU11t1,lcIr Ly: �L_f�� 1.;r111'AIV NY11,11,_YAI1Lk; AtJ(l'; l:l}f11VVI Al It. N1�I, %1'1)It Ii;iIII.,v '� l'IClll C'lllltltlCi 1ti[;t1llllt:nllVl+ ]- 111 Talton :;}'slt u1 Dcsigilalicnl �— iClti�iis,I; 111il�Irlit,ll .;)'slt;nl New / Ii:11111111Ic11 I1lig.1111t1t1 Ny.rlt:nl J. 'lypt: ul-llligatiull Systc111 _ _ ;;llllit,llaly ;;III it1k1C1%(,wK — Ilaltl s,; 1+avclt, cclltcl Vivut I,incnl 1llllvu;;y:ltill �}. Htnnilcl.ul•5tatiulmiy Shlilikicls _ if I111cliul slllillklcl; f1Fxlrlinl sltlili4.l,-Is i•IlIIIIIIJU U1 l HIVCI 1,0I1Cs If 1111c1iu1 1,111M / 11 1�AIclItit I.ant 'i. Wcllcd Uiaulcicr �1�-- �fcci� i�l�lln ficlll tia[n sllr:ct _Sd__ l.r.n)�;lll ui I+tlkl jlcl:l i 6. S 11;1c itlg / r, _ Latei Itl I l lydi aW Spacing [ ict:l -..r: Z . i:t: 11c1 Ct 1d tgc ui 1vt:11c1) ,li:lluct, t j Sllliukler sllacillg slung InIcIal 11,col — Ins 11cICoOngc ul 1VCtIvII 1I1:1111[•lc, i J. S1lrilikicr or llydialli Lnyotll __ fi ikihilllc l.nictnIJI l.ylllnnls Singlc Lntclalliiytllnnl l xucssivcly sllnt;Cti ,tlllillkiCls/Iiytil-lilts 11. IZcatl Ills illigaiccl nrcn llcr slllink1UL1IInvcl 11uII I'M 111U VIVCrl wuhctl tlinmv.k1 1 hum 111c nl1l,[t+l,6all: Inllaly aml uvlullln llascd un llatlettl, slult;illg, nntl sll1iltk1C1/11:AVeI Ianc lut;alitlll. Jtaliultar}' S11rin1tlCr� Acr c5 11Cr 111tc1 iur s1n inklc! li ulll I ntllc (tliunul Acres llcr Exicliur 311Iitl'v,1cr iiuill i nllic — - C01n1111 TI-avcitr: llitcriur Byltrmil (lrnvtl Imir) (n) Acics stall clld urinlll Iitnu l ;1111c - I.:,+111n111 (U} ACICS Iniddit 11olliull III-IIIIII Pkill I.,vilg1h i U01 !i 11 dluil WI(llll . lit'O ji J 1.1 '11,t1 Attics slt)ll cull Ul I+tlll I',tlllt V :,l,lc 1:,litluu+ Tutni Ilt:ves lux, 1111criul. IIIIII 1'rn�cltr: l;nitriur llytlrltlxt (irnvcl111ne) r 3 31 (n} Act cs slnl t c11t1 t) I1ttll Ii kill, l nl,lt:l �� n l .t114111111 A1:t t:s IllltldlC 11114iun IIV 111,111 •�5� �1'tlll 1,Cn1;tI1,�p >{lct:ll \ 1�'rllctl 1;"it1111 /2-� jlrt:l�jJ �l1•',l,ll cs Stull cud Ui bull I -I till+ t,1411r. (-.tlitlltu, .48� I ulna Iru'e3 fur I�xtcriar bull �S11n1: n 1 ll 1 l� 9. Ivitilliilly t11c labulated iI11g;1lcd AUcogr- valllc 11c1 sill Ilik i ul 11;IvCi pull 11y 111c 111111111cl I ;III 1111-1r,': I," I,tllk ul,1:;161 Catvguly ill 111C 116d. SUtll all U1,t11t:sc nud this is the lulnt i11i1,;+lotl nctt.nl;c I'm lilt Bald. (A) At:ecs I1ar 1111clior ;ilni11k1c1 ul full X _ _ 11 �;Ir+i,"b.lc+a vt 1,01, At.i1.- (V� /\crc3 y,cr Gxlclior :ilr+ii&1cr vt 1'1111 ll .`I„iul,lc�a vt t',ills . CSC) 'J,'01:11 licl-c For field (,' ntmr V:, + ylr) NYuHaUlc Acvc Compuln1iorlxtl wofl;9ilcC1 t��l„1,1cicc] by 1.A14 MV N!'i;1-1*,�t{l-,V 11L [A kE [-:M I V I Yl A 1 Ik)NA I, Wl,Htl-,';III% V. F 1, F.Il Ill IIUII]Scr (1dClI[i[ic2liun) 2. 111Iptiun :;}'slclll Ucsigllaliun J. '1'Ypt: 01,1111galiun 5yslcltl Z — , 3— `f Vicltl IdtllnllCl 0(1cltlilit:nlikill) �- i�;xi�linV; itlil�n[iut, ;�yslt:nl V Ncll' I l�;�I►nuticil lltiltnli1111 :;yslL+n :�I'll iun:lty'Slniuiic1f�wK — ��~iIll d-14s,st:1Ioyv.lu Lclltcl Pivul Unuar ultivc 'Sy'lrnl Humbur ul-Nialiunaly SI1 inklurs i- 11 lnlciiol F11114,11'ls 11 ExIvii111 s161li.lt•l� l' umbui ul l lnvcl Lancs f 11 111lcliU1 1,1►11t:s 11 Fx1t:Iiu1 l,allur. '1. Wcllt:tl Ilialilcicl- tUeelj I'Iulll liclil ►lain sliccl �a _ 1xil 1h►t[ hull jled4 Gam V. J11;luing _Lnle1n1111ydia1►l jai pulLClllagcill %vultudth.mit-VIj Sjninklcl. sllat;ing nlullg Inlcl al 1I'ccl j — — j:+s pr-ICC1llogr UI 1vOlull t11:11IIIACI j T S11lil1kkF or lly[ltaul Layout �_ ,911llilllc l-ntclnisl11 lly1nntq 5itiglc Latcl al/l lytli ntit l xt t ssivcly sllncctl ;rplilikki sli lyt11 a111s li. Ru;16 111c illigatud trim 11cr sill inklclIll avci pull call 111c };ivcll 1vc11tni ditullovi hum 111c n1+11ml,lialr tt11mil. :uttl culuntn basal un llatirm, spirluille, and slltinklc+/1lavcl Innu luculittn. :�l:lliuuarp �I11'iulticr� Aum 11Cr 1t11Ctiut npintkiN hum Talk ('uluuul ht cs 11cr 13mmiui s111iukim Burn I talk Culuu1i1 - '�-ravcicr: 1iltcriut' i1y[lrnnt (t►nvcl lnue) a�(n) N;I cs star t curl uC 11%111 h mil '-�ctlllnitl /3 317 fir 2,_Z�4(b) Aucs initltllc lm limn ul-poll 1..ct11�i11650 po �1[c.lj 11'taictl 1ti'nllil �v [Irr.lj} 1 11 ',t,tl ` d ) D _ — (c) Aui cs shalt ciltl ul' litill [i t+n1 ! alrlc [ a,Iu+ttn -2 nti cs lur lnlcl ivl I1t1li [5ut11: It t It I t 1 - 11iy� •1•I-Ilvt!1ct-: 1L>tictiut 113-tlrnnl (ll-11N.011111c) (n) AUI C4 stall CIO ul bull li tlul l sllllt: t'l,lunut �It) nt:lcs tltit4tllc llutBull ul 1tt111 (I'[ill 1rLirl>11t JIcctj X' Wullt:tl WhItll 'I1.',ito _--(c) Maus slult ctltl u1 1x144 lttrnl 1:11,1r. - t:u4ntnu lutltil noes ltlr Lidnillr (dull �511111: n 1 11 1 c.) `1. [vll116111y 111c libulatud iiiigatctl ncical;c vallic pu �1,1inl:icl ill 11avcl 111111 lIy 01c nulullcl trt hulk ul c;lcll t::Ilcl;uly ill111C Iicltl.'"U111 nil Ul t1it:5L' nlltl Otis 15 111c Illtnt ittil,atcal lt,t Vit:ltl Arcs ticr lrllCriOt iittir+l cr ut full J: _ _ it :itrlit+L.ict r v+ V%1115 (1J) Aeres pee. UnICr 0T 'ilriinklcr v, full _ 11 tit„inkiero yr I'ullx __._--- r+ ,r .2 , So 1 Tui:11 Wcilnblc Acre fur- iiciil -I- q1t Wdtablc Acic Culnputaliollal Wuju sliccl {uteri by: l ,\!!'1111' 1!'iS i i,�lil,k; r�l lti'; C'O1\1pjI l r� l li?11r11, 11't1111:,'iVll,h; l' 1, I.;unl Numbu (Iticnlificatiun) Fidd l`1t11111lul (lcltiililicnl+utt) _ �/ }�_ 1.. ltii�alivu :;yat n1 1}esii;italiun / Flxisli111; 111i1;11liull ;;yslt:nl New 1 l;Allltiidul lllignlitli+;;y.Lici+i } -1ypuU1,It1iga1iu11System ;;lativll:tly,�lllillkiul lavOvtl t;elttcl 1'ivut Lit ual-unlvu;;}';lr1n ,l. 1`1t1111Ut:r of'Slatiuiitlly Spi'mkicrs _ It 1111clim FillillHt�.ls 1i FMI'litii zluilli:lt+� Plumber u! 1 ravel Lntics It Intetitll 1,111ics II l'.xlclikil 'i. Wt ilCtl Ui;1111elcr Z % -o 11061 hulli iiclll tlaln shctl $�d� I.rnXhli trl mill jftxt� 0. Jp;lGlllg ijy Wei al1Ilytliani'Spaciul;l,[CO j -- �_.Z-.-- 4:islrci�clilagcnttvl�lit'+1lVi,u,n�trlj 51niiiMer sllactilg nlung Intu al [1-to j l:tS 11clCcitl:+gt: ul tvcllttl tlial+u•tcl l 1. Spiluklcr or Hydrant Layout -- �_ NAIIIlillle I.nietolslll.01nills Single Lalciailflytlinnl Exccssivcly slincctl ,,Iilink1cls/llytl+lulls E. Ruiul thlC illigalud alca 11cr 511liliklelillavcl pull 1-01 ll+l: givl;ll Ivl,'Ikd tlinllit;tll hunt lilt nllltity,ii.+lr.1t111,+1{ :tittl uulullul Uascd Uli lialtcru, xllat;iiig, aid spiukludli:lvcl hiliv luci+tiuii. Slaliu>i:u��• Slii•iulrlcrs ACtts 1►cr tiitcli�r sluitiklci iiuiu 'l nlilc ._ �. l'ultun++ _-- .__... Acres pur Exteliur sflil-i-tM ~t ftuill I n111C - Uitiiilii _-- - Tv.1velcr: 1111criur Uytlunnt (llrnvtl lnitc) .37 &7,fG%� "'lli+illm �3 .2.754 (U) Acics uiitltlic Vitlrlitiii uCllull (I'tlll l-,cnhlli�a�'11ct:1] X 11't.ilt•.tl Witlill `lrcljj A u i cs sitrlt uml t1l i,till hum { ;tl,lc t 11lt+t Ft11 ,j. /L `Fl�ulnl ncrt5 lur iiilcrivr llittl (`,iititi: n i ti i cJ ---- I i uvticr: Exttriur Dytlrntil (trnvcl Intic) (n) Autcs xlalh r-1it1 Ul' Il++ll Viuiit l ulllt. t t,l+lt+tii ill) Auit:s itlitltllt. 111tlhiutl t1l'liull (fulll,ciigtl+ �lt.cl]X,1`'t'ltrtlll'n1111 - `lttltj�J lt',l,il At;IUS shill c1111 ul Imil Built V;+111t �:ult+ilwl TOM nr.res I'm. Extuillr 111111 (S11111: n 1 l) l c) 9. Multiply 111C tabulated iliigatctl aulclll;c vnitic pul spiilll.11;l ui tlavcl 111111 by lilt: lluil bu uI rill iitkl,•is +,l pull.; t+1 t:1t11 tattl;vly in tltc licltl- Ou111 all ul lllcsC nitcl 11115 is ll+c lulitl it,il,alcll nciclll'u Vol lllc lit -lit, (a) Ades pr-F liriclm 1%111i,tklul ul Pttll ;i _ 1! Si,ti��L.lc�q v+ (U) Acica 1)rn Lxtciivr :i1ni,t11cr vt )'t,li i! tii,ti„Y,Ec, vs E'itlls - --- ' Aci. - 3. 12- V-T01:tt Wettable Acrt Tur Iicltl (.' imu: V:, + ylr) WLIlable Act Computational WuFkshe Cuit111lcictl by: l r111'nl1' 1!'1; 1 1,�1►I�,1, nl lu; t,ur,ll 1.1 1,� i IllNA1, 11'l.11tl6ltl.l.l I . ]�arllk hlu[kt�cr (141ct11ilicaliolt) --� z- - / �`� 1'[chl I'i4lkl+tic4 (Iti�:n4il4�nliun) --�/�- - J,. It[il alitl[I ;;)': lcttt Ucsil;natiun slis+l+, ltlil,s+lion :;yslt:n+ 1yc1v / ExImMIC-11 It'iLVnliull y�•1cn! �. �1•Yi1t; ul-Ik1il;aliun Syslcnl _ ;;Ilt1iu11:+tY ;iI1li1lklck fr;4H ._-- -/ llaktl-114+:t; l+avt�lta (;clitct Pivul Ullt:al-unlvc;;}'0rin ,1, 1`111E11bcr J Stationary S111inkluis i Il 1111clim ';11ti111:1cls !1 1'.xlt'11411 s11111l1;irt5 idttmUcr �1 Irnvcl Lnucs ll' 11111►iiul I,lutcs -� — +! 1'.x1clitn kailr. 12 o� 'i. Wcllctl Diamcicr a-'f ttcclj Flulu licid thin skied yo-vI,c.t,Kllt ill' 111111 11co u Du U. Lnlclal / I lytlkant S11aC ng jFed I -.....gj Z—..._ In Imlcctlinge 141VOIt'11 [li:ul,rlt I j 511llllklcr slinking Along Ia1Crn1 t1,c01 �— Ins I1c[cadagc ul 1volul dinuu-101 1. Slitinklcr ur Hyclrallt Layout—��1��4kllilllc I.nlc-1RI'lilylllAtli s Single Lalcl alh lytll n1ll --- l xt c ;sivcly 9paiml "'Ill inklcl s/i lytlt alkts Ii. 1Zc;4t1 like ilrig;llcei arcn Iler splinkicllllavcl hull lick 111c givckl 1vcllml tiinnkt:lek hum llle nl,lntll+tialt: tt,l,aly ;1116 culutlul Uasctl un pattul11, sl au,1ng, hurl sill ittkict/IIivcl lame lucnliull. �Ltliult:rr,y' S116111rlcr•3 At;tcs 11cr 1[ttckiul sltlinkicl lmul 'l oleic _ t'ulunnt - Acres per Extcliur slninklm Butn -I Able �- Guiukrn! _--_ 1'r:tvcler: L[tcriur Up li-nrlt (travel laic) 'I'rt[vcicr — kit) Act cs stak t t;irtl uC pull li utn I a111c - '.'4,lnllln (U) Aul cs 1114161n hill liurl ul, Indl Vull I.,cnl_,I11 ilm l ;'t i1dlud W1,1111 _ jlt-t:11) / •1.1."IM --- (�) /1ci es s1k)p cntl ul' 1,u11 li kiln l :lLlc t ailu,nn 1�111[l nir-cs lur 1111eriur 111111 (tiu1u: it 1 11 I t) - criur 11y11rrrrl ((rstv'cl 11111e) 7 (a) ALL cs s1141I cntl ul' bull 1.1 t1n4 I nl,lt'. �C G o l .tsl,t,ntk /3 3, 03c (lr) Al -,1es inititlIc Innufilitlt11'1,u11 tl'ttll 111001 X Wt•llBI Withll 7 �`�ItTl I}! 'I 1,'1(it) l:l us slide Cnti uf 1"[ll I', utu I Ill,lt / 5 y— 1.:4t1t,llt1l 3•V9c) ` -0111 ncres lur li Alcriur 1►1111(S11u1: n 1 11 1 c) A Ivltillilmy Jim labWaled illik;alctl ackcoge value lkel slllilimel ul hav'cl Ind! by A nulttltcl ul sl11i141 ens I" I+t, ; U1 t:[lt;ll cMUly it tl[L' UK. mll all UI thuse Fall 116a 1s ll,c two nlll,mud nt:kclgc lu1 OW hdtl (n) Atlw lrcr 1111criul Npgi4.1vur ur full X _ _ 11 `;il1�.lci; vi I'%ills — Ak.lr ltcr 1_-r.tciivr JEHIl11"IL1 v1 I'vltl { 3 ��l?D1,ulal WC11Mblc Acre fur lidd (Sul": `a t 91!) 1Ycllablc Acic Cutnpuloliona114'u[ksiny C;ylnl,lcrctl by: CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) 72- Field Number (identification) i 7 2. Irrigation System Designation _�� Existing Irrigation System New / Expanded Irrigation System 3_ Type oflrrigation System 4. Number of Stationary Sprinklers Number of Travel Lanes Stationary Sprinkler/6-1 __� Center Pivot # Interior sprinklers # Interior Lanes Hard -Hose Traveler Linear -move System # Exterior sprinklers # Exterior Lanes 5, Wetted Diameter 2 51fy _ [feet] From field data sheet o a Length of pull [feet] 6. Spacing 1 Lateral I Hydrant Spacing [feet] 'Ul [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout / Multiple Laterals/Hydrants Single LateraVHydrant 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 an 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 Column Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel iarle) 4 8 (a) Acres start end of pull from TableEc 7S Column /3 3 - �f3 P' (b) Acres middle portion of pull (Pull Length'7yv [feet] X Wetted Width �� [feet])/ 43,560 (c) Acres stop end of pull from Table Column .9le 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 9 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: P l— i?,, . / Date: CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) q Field Number (Identification) 2. Irrigation System Designation / Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6 ,v .� Center Pivot 4. Number of Stationary Sprinklers # Interior sprinklers Number of Travel Lanes / # Interior Lanes 5. Wetted Diameter Z Vo [feet] From field data sheet Hard -Hose Traveler Linear -move System # Exterior sprinklers # Exterior Lanes 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 9. 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) ,it,/ (a) Acres start end of pull from TablecF - 'Column �f� 7 (b) Acres middle portion of pull (Pull Length z 7[feet] X Wetted Width/ [feet]) / 43,560 (c) Acres stop end of pull from Table Column /3 % Total acres for Interior pull (Sum: 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 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 .13 7 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: CAWMI' WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. farm Number (Identification) SZ !' ; Field Number (Identification) Y21 I 2. Irrigation System Designation ��~ Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6t r 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 c,<a [feet] From field data sheet 70c Length of pull [feet] 6. Spacing / 't Lateral / Hydrant Spacing [feet] 7JI [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 9. 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 Column Total acres for Interior pull (Suns: a + b + c) Traveler. Exterior Hydrant (travel lane) 4Zd' (a) Acres start end of pull from Table ? Column 13 _V3 k- 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 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 7. y/ Y Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: Mortality Management Methods (check which method(s) are being implemented) ❑ Burial three feet beneath the surface of the ground within 24 hours after nowledge of the death. The burial must be at least 300 feet from any flowing stream or public body of water. Rendering at a rendering plant licensed under G.S. 106-168.7 i� Complete incineration - ��� 2,.c o ❑ In the case of dead poultry only, placing in a disposal pit of a size and design approved by the Department of Agriculture L! Any method which in the professional opinion of the State Veterinarian would make possible the salvage of part of a dead animal's value without endangering. human or animal health_ (Written approval of the State Veterinarian must be attached) December 18, 1996 SAMPSON COUNT EMERGENCY ACTION PLAN DIVISION OF WATER QUALITY (DWO) 910-4B6-1541 EMERGENCY MANAGEMENT SERVICES (EMS) 910-592-B996 SOIL & WATER CONSERVATION DISTRICT (SWCD) 910-592-7963 NATURAL RESOURCES CONSERVATION SERVICE (NRCS) 910--592-7963 CD❑PERATIVE EXTENSION SERVICE (CES) 910-592-7161 This plan will be implemented in the event that wastes from your operation are leaking, overflowing, or running Gaff the site. You should NOT wait until wastes reach surface waters or leave your property to consider that you have a problem. You should make every effort to ensure that this does not happen. This plan should be posted in an accessible location for all employees at the facility. The fallowing are some action items you should take. 1. Stop the release of wastes. Depending on the situation, this may or may not be possible. Suggested responses to problems are listed below: A. Lagoon overflow -possible solutions are: a. Add soil 'to berm to increase elevation of dam, any permanent alteration of the dam should -be approved by' a qualified technical specialist. b. Pump wastes to field at'an acceptable rate. c. Stop all additional flow to the lagoon -hold waste in the . house if possible. d. Call a pumping contractor. e. Make sure no surface water is entering lagoon. B. Runoff from waste application field -action include: a,. Immediately stop waste application. b. Create a temporary diversion or berm to contain the waste. c. Incorporate waste to reduce further runoff. d. Evaluate and eliminate the reason(s).that caused the runoff. e. Evaluate the application rates for the fields where runoff occurred. C. Leakage from the waste pipes and sprinklers -action include: a. Stop recycle (flushing system) pump. b. ,top irrigation, pump. c. Close valves to eliminate further discharge. e. Repair all leaks prior to restarting pumps. D. Leakage from flush aystem, housea, solids separ-ators-acts ores include: a. Stop recycle (flushing system) pump. b. Stop irrigation pump. c. Make sure no siphon effect has been created. d. Stop all .flows in the house, flush systems, or solid separatdrs. e'. Repair all leaks prior to restarting pumps. E. Leakage from base or sidewall of lagoon. ❑ften this is seepage as opposed to flowing leaks -possible action: a. Dig a small sump or ditch to catch all seepage, put in a submersible pump, and pump back into lagoon. b. If holes are caused by burrowing animals, trap or remove animals and fill holes and compact with a clay type soil. c. Have a professional evaluate the condition of the side walls and the lagoon bottom as soon as possible. 2. Assess the extent of the spill and note any obvious damages. a. Did the waste reach any surface waters? b. Approximately how much was released and for what duration? c. Any damage noted, such as employee injury, fish kills, or property damage? d. Did the spill leave the property? e. Does the spill have the potential to reach surface waters? f. Could a future rain event cause the spill to reach surface waters? g. Are potable water wells in danger (either on or off of the property)? h. How much reached surface waters? 3. Contact appropriate agencies. a. During, normal business hours,.call your DWR (Division of Water Quality) regional office, at 910-4B6-1541, after hours, emergency number:919-733-3942. Your phone call should include: YOUR NAME, FACILITY, TELEPHONE NUMBER, THE DETAILS OF THE INCIDENT FROM ITEM #2 ABOVE, THE EXACT LOCATION OF THE FACILITY, AND.THE LOCATION OR DIRECTION OF MOVEMENT OF THE SPILL, WEATHER AND WIND CONDITIONS. THE CORRECTIVE MEASURES THAT HAVE BEEN UNDER TAKEN, AND THE SERIOUSNESS OF THE SITUATION. b. If spill leaves property or enters surface waters, call local (EMS) Emergency Management Services at 910-592-9996. c. Instruct EMS to contact local Health Department. d. Contact local SAMPSON Soil and Water Conservation District (SWCD), Natural Resources Conservation Service (NRCS) office at 910-592-7963 and Cooperative Extension Service (CES) at 910-592-7161 for advice/technical assistance. 4. If none of the above works Gall 911 or the sheriffs Department and explain your problem to them and ask that person to contact the proper agencies for you. 5. Contact the contractor of your choice to begin repair- of the problem to minimize off -site damage. a. Contractors Name: _ its#a� b. Contractors Address: c. Contractors Phone: W-5771 b. Contact the technical specialist who certified the lagoon (!ARCS, Consulting Engineer, etc.) a. Name: ow e b. Phone: S' J 7. Implement procedures as advised by DWO and technical assistance agencies to rectify the damage, repair the system, and reassess the waste management plan to keep problems with release of wastes from happening again. G. If you are a contract swine grower associated with a swine company integrator, contact the company representative at 1-910-592-5771 Insect Control Checklist for Animal Operations Source Cause BMPs to Control Insects Site Specific Practices ,[quid Systems Flush Gutters • Accumulation of solids ZKFlush system is designed and operated sufficiently to remove accumulated solids from �tiers as designed. emove bridging of accumulated solids at discharge Lagoons and Pits + Crusted Solids Maintain lagoons, settling basins and pits where pest breeding is apparent to minimize the crusting of solids to a depth of no more than 6 - t hes over more than 30% of surface. Excessive Vegetative • Decaying vegetation j7 Maintain vegetative control along banks of Growth lagoons and other impoundments to prevent accumulation of decaying vegetative matter along watces edge on Impoundment's perimeter. ems. Feeders • Feed Spillage Design, operate and maintain feed systems (e.g., bunkers and troughs) to minimize the umulation of decaying wastage. Clean up spillage on a routine basis (e.g., 7 - 10 da interval during summer; I5-30 day interval ring winter). Feed Storage • Accumulations of feed residues Fr Reduce moisture accumulation within and around Immediate perimeter of feed storage areas by insuring drainage away from site and/or providing adequate containment (e.g., covered bin for brewer's grain and similar high moisture grain products), 0 Inspect for and remove or break up accumulated solids in filter strips around feed storage as needed. AMIC - November 11, 1996, Page I Swine Farm Waste Management Odor Control Checklist Source Cause BM.I's to Minimize Odor _ _ _Site Specific Practices_ Farmilead • Swine production Pr V gctalive or wooded buffers; It.ecomtnended best management practices; Good judgment and common sense Animal body surfaces • Dirty manure -covered animals flours Floor surfaces • Wet manure -covered floors 2Iled floors; ; Waterers located over slotted floors; ❑ feeders at high end of solid floors; ❑ rape manure buildup from floors; oor vcntiialion for drying Manure collection pits • Urine; XFrequent manure removal by flush, pit recharge, • Partial microbial decomposition or scrape; ❑ Underfloor ventilation Ventilation exhaust fans • Volatile gases; cemaintenance; Dust %��fcientair movement Indoor surfaces • Dust Washdown between groups of animals; ❑ feed additives; ❑ FSvler covers; 9111feed delivery downspout extenders to feeder Covers , Flush tanks Agitation of recycled lagoon ❑ Flush tank covers; liquid while tanks are filling + ❑ Extend fill lines to near bottom of tanks with -siphon vents Flush alleys Agitation during wastewater Underfloor flush with underfloor ventilation conveyance Pit recharge points • Agitation of recycled lagoon ❑ Extend recharge lines to near bottom ofpiis liquid while pits are filling with anti -siphon vents Lift stations Agitation during sump lank ❑ Sump lank, covers filling and drawdown Outside drain collection Agitation during wastewater Cl Box covers or junction boxes conveyance AMOC - November 11, 1996, Page 3 Source Cause UMI's to Minimize Odor Site Specific Practices End of drainpipes at 0 Agitation during wastewater 0 Extend discharge point of pipes underneath lagoon conveyance lagoon liquid level Lagoon surfaces • Volatile gas emissions; Proper lagoon liquid capacity; • Biological mixing; �orreci lagoon startup procedures; • Agitation AT Minimum surface area -to -volume ratio; )Minimum agitation when.pumping; ❑ Mechanical aeration; ❑ Proven biological additives Irrigation sprinkler • iligh pressure agitation; on dry days with little or no wind; nozzles . Wind drift irrigate , ' iimum recommended operating pressure;' Purnp intake near lagoon liquid surface; ❑ Pump from second -stage lagoon Storage tank or basin • Partial microbial decomposition, D Bottom or midlevel loading; surface . Mixing while filling; C] Tank covers; • Agitation when emptying . ❑ Basin surface finals of solids; O Proven biological additives or oxidants Sett6g basin surface • Partial microbial decomposition; CI f",xtend drainpipe outlets underneallt liquid • Mixing while filling; level; Agitation when emptying ❑ Remove settled solids regularly Manure, slurry or sludge • Agitation when spreading; C] Soil injection of slurrylsludges; spreader outlets • Volatile gas emissions ❑ Wash residual manure from spreader alter use; CI Proven biological additives or oxidants Uncovered manure, • Volatile gas emissions while ❑ Soil injection of slurry/sludges slurry or sludge on field drying ❑ Soil incorporation within 48 lirs.; surfaces ❑ Spread in thin uniform layers for rapid drying; Proven biological additives or oxidants Dead animals • Carcass decomposition vEr'—I'roper disposition ofeureasses Dead animal disposal Carcass decomposition ❑ Complete covering of carcasses in burial pits; pits A5r-__Kroper local ion/construction ol'disposal pits Incinerators Incomplete combustion 13 Secondary stack burners AMOC -November 11, 1996, Page 4 Source Cause I,-,' 11MPs to Minimize Odor Site Specific Practices Standing water around • Improper Grade and landscape such that water drains facilities Microbial decomposition of away from facilities organic matter Manure lracked onto 0 Poorly malnlAlned access roads Form access road maintenance public roads IYoin farm access Additional lnformatlon : Available From ; Swine Manure Management ; 0200 Rule/BMP Packet NCSU, County Extension Center Swine Production Farm Potential Odor Sources and Remedies ; EBAE fact Shcet NCSU - DAE Swine Production racility Manure Management: Pit Recllarge - Lagoon Treatment ; EDAE 128-88 NCSU - DAE Swine Production facility Manure Management: Underfloor Flush - Lagoon Treatment ; EDAE 129-88 14CSU - DAE Lagoon Design and Management for Livestock Manure Treatment and Storage ; E13AE 103-83 NCSU - 13AE Calibration of Manure and Wastewater Application Equipment ; EBAE Fact Sliect NCSU - BAE Controlling Odors from Swine Buildings ; rill-73 NCSU - Swine Extension Environmental Assurance Program ; NPPC Manual NC Pork producers Assoc Options for Managing Odor ; a report from the Swine Odor Task Force NCSU Agri Communications Nuirance Concerns in Animal Manure Management: Odors and flies ; 11110107, 1995 Conrerence Proceedings Florida Cooperutive Extension AMOC . November 11, 1996, Page 3 ANIMAL FACILITY ANNUAL CERTIFICATION FORM .... C oC =W - Certificate of Coverage or Permit Number /y t✓ A 7- 9� I Z-Couijty,_�ZAM PS0/1/ - Year 2,04 j Facil.ity.Name.(as shown on Certificate of Coverage or Permit) �SCSS;% S If �6-� �f rPrUf 'Op6rat6r `in Charge for this Facilitym' 10/V t&7f J"T DA V Certification# Z G 838 Land application of animal waste as allowed by the above permit occuirred during the past calendar year ✓YES NO. If NO, skip Part I and Part 1I and proceed to the certification. Also, if animal waste was generated but not land applied, please attach an explanation on ho%% the animal waste was handled Par_ t I : Facili , Information: 1. Total number of application Fields or Pulls +'(please check the apl,: opriate box) in the Certified Animal Waste Management Plan (CAWMP): 15-f.4_ Total Uscable Acres approved in the CNWMP 2. Total number of Fields or Pulls (please check the appropriate bo..'- on which land application occurred during the year: Total Acres on which waste wu, applied 3 44, A' 3. Total pounds of Plant Available Nitrogen (PAN) applied during the year for all application sites: 4. Total pounds of Plant Available Nitrogen (PAN) allowed to be lam' applied annually by the CAWNIP and the permit: v if - ~ 5. `'Estimated' amount of total manurL, litter and process wastewater sL:±.i or given to other persons ar:d.taken off site during the .year, L. tans or gallons (plea.,; ;.heck the appropriate box) 6. Annual average number of animals by type at this facility during th (,�.revious-year: 7. Largest and smallest number of animals by type at this facility at a►,.yr one time during the previous year: Largest 3 d d-0-- Smallest 1 � D (These numbers are for informational purposes only since the only I.,:mit limit on the number of animals at the facility is the annual average numbers) 8. Facility's Integrator if applicable: Part II: Facility Status: IF THE ANSWER TO ANY STATEMENT BELOW IS "NO", PLEA"JE PROVIDE A WRITTEN DESCRIPTION AS TO WHY THE ;=AGILITY WAS NOT COMPLIA' iT, THE DATES OF ANY NON COMPLIANCE, AND EXPLAIN CORRECTIVE ACTION TAKEN 01, PROPOSED TO BE TAKE,-d TO BRING THIS FACILITY BACK INTO COMPLIANCE, 1. Only animal waste generated at this facility was applied to the pern the past calendar year. AFACF 3-14-03 1 �D e!� No FEB 0 9 2006 DaVR-FA'� LLEREGIQNALOFFICE 2. The facility was operated in such a way that there was no direct runoff of waste from v-Y�es No the facility (including the houses, lagoons/storage ponds and the application sites) during the past calendar year. 3. There was no discharge of waste to surface water from this facility during the past YY7es No calendar year. 4. There was no freeboard violation in any lagoons or storage ponds at this facility during K�yes No the past calendar year. 5. There was no PAN application to any fields or crops at this facility greater than the tomes No levels specified in this facility's CAWMP during the past calendar year. 6. All land application equipment was calibrated at least once during the past calendar year. 0Yes No 7. Sludge accumulation in all lagoons did not exceed the volume for which the lagoon Jfes No was designed or reduce the lagoon's minimum treatment volume to less than the volume for which the lagoon was designed. S. A copy of the Annual Sludge Survey Form for this facility is attached to this Certification. VYes No 9. Annual soils analysis were performed on each field receiving animal waste during the KYes No past calendar year. 10. Soil pH was maintained as specified in the permit during the past calendar Year? Yes No 11. All required monitoring and reporting was performed in accordance with the facility's V'es No permit during the past calendar year. 12. All operations and maintenance requirements in the permit were complied with during ti/Yes No the past calendar year or, in the case of a deviation, prior authorizaiio„ was received from the Division of Water Quality. 13. Crops as specified in the CAWMP were maintained during the pas: calendar year on all VIYes No sites receiving animal waste and the crops grown were removed in accordance with the facility's permit. 14. All buffer requirements as specified on the permit and the CAWMF for this facility were ✓Yes No maintained during each application of animal waste during the past calendar year. "i certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualifi :1 personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the sy:.tem, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. 1 am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." Permittee Name and Title (type or print) Signature of 3 0>3 Date Signature of Operator in Charge Date (if different from Permittee) AFACF 3-14-03 2 Lagoon Sludge Survey Form A. Farm Permit or DWQ Identification Number Pa- B. Lagoon Identification M, �F c r n m T. C. Person(s) taking Measurements D. Date of Measurements -I 6 - OS E. Methods/Devices Used for Measurement of: a. Distance from the lagoon liquid surface to the top of the sludge layer: b. Distance from the lagoon liquid surface to the bottom (soil) of lagoon: __ (aa4)6Pars c. Thickness of the sludge layer if making a direct measurement with "core sampler"- F. Lagoon Surface Area (using dimensions at inside top of bands): � ..i (acres) (Draw sketch of lagoon on a separate sheet and list dimensions, and calculate surface area.) G. Estimate number of same! ing points: a. Less than 1.33 acre: Use 8 points b. If more than 1.33 acre, -� J acres x 6 = IV , with may imum of 24. (Using sketch and dimensions, develop a uniform "grid" that has number of intersection points that match most closely with the estimated number of sampling points needed. Number the grid intersection points on the lagoon grid to correspond with the data to be recorded for points of measurement.) H. Conduct sludge survey and record data on "Sludge Survey Data She, -A". I. At time of sludge survey, also measure the distance from the Maxinr.:in Liquid Level to the Present Liquid Level (measure at the lagoon gage pole): - -3 J. Determine distance from Maximum Liquid Level to Minimum Liquid Level: 1.13 (Determine from Plan or othci, lagoon records) - K. Calculate distance from present liquid surface level to Minimum Liq,�id level: Item J - Item 1, assuming present liquid level is below Max. Liq. Level: 1,7 L. Record from sludge survey data sheet the distance from the present liquid surface level to the lagoon bottom (average for all the measurement points): lI. M. Record from sludge survey data sheet the distance from the present liquid surface level to the top of the sludge layer (average for all the measurement points): N. Record from sludge survey data sheet the average thickness of the Audge layer: O. Calculate the thickness of 'the existing Liquid Treatment Zone (Item Al - Item K): (Note: If Item Q is less than 4 ft., a sludge removal and utilization plan may be required by N. C. DWQ. See your specific permit or contact DWQ for more information.) P. Proceed to Sludge Volume Worksheet if desire to calculate sludge vulume for rectangular shaped lagoon with uniform side slope. Completed by- r ?yam �j Date: Print Name (J Signature Wh:te - Office Yellow - Producer Sludge Survey Data Sheet Lagoon IdenliFlcation: Sludge Survey Data Sheet Completed by: Date: -! 6 - c,.S Print Name Sid ature (A) (8) (C) (C)-(g) Grid Point No. Distance from liquid surface Distance from liquid surface Thickness of sludge to to of slud a to lagoon bottom soil la ter Ft. & inches Feet tenths Ft. & Inches Feet tenths Ft. & Inches Feet tenths 1 2 3 4 5 S -- 6 7 8 9 10 11. 6.a 12 a 13 14 0 15 16 17 18 19 20 21 22 23 24 �-veragel 7,1 f ! , z q. I *All Grid Points and correspcndinE sludge layer thickness must be�iown on s sketch attached to this Sludge Survey_Data Sheet. See Appendix 6 for conversion from inches to tenths of feet. White - Office Yellow - Producer OF WA '1 9 Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources 0 Alan W. Klimek. P.E. Director Division of Water Quality June 21, 2005 CERTIFIED MAIL RETURN RECEIPT RE UESTED F. Minson Sessoms Sessoms Hog Farm 581 Concord School Road Clinton NC 28328 Re: Request for Information Facility Annual Average Sessoms Hog Farm NCA282154 Sampson County Dear F. Minson Sessoms: DENR - FAYtiTNLLE REGIONAL OFRCE Based on information submitted with the facility's Animal Facility Annual Certification Form, the Division of Water Quality (DWQ) is requesting additional information related to the annual average of animals for the year 2004. The Certificate of Coverage (COC) NCA282154 of your NPDES Permit states: "This approval shall consist of the operation of system, including, but not limited to, the management of animal waste from the Sessoms Hog Farm located in Sampson County, with an animal capacity of no greater than an annual average of 3,300 Feeder 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 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 Division received your annual certification form on February 25, 2005. On that form, you indicated that your annual average was 4,642. This exceeds the annual average specified in your COC of 3,300 Feeder to Finish. To avoid possible enforcement action for a violation of your permit, please submit the facility's stocking records for the year 2004 within thirty (30) days to the following address: t,'011lia J'YIfl1./ Aquifer Protection Section 1636 Mail Service Center Raleigh, NC 27699-1636 Phone (919) 733-3221 Customer Service Internet: httpJ/tt2o.enr.state.nc.us 2728 Capital Boulevard Raleigh, NC 27604 Fax (919) 715-0588 1-877-623-6749 Fax (919) 715-6048 An Equal OpportunitylAffnmative Action Employer— 50% Recyded/lD% Post Consumer Paper F. Minson Sessoms Page 2 June 21, 2005 Keith Larick Division of Water Quality 1636 Mail Service Center Raleigh, NC 27699-1636 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 Statue or permitting requirement. If you have any questions regarding this letter, please do not hesitaie io contact me at (919) 715-6185 or the Fayetteville Regional Office at (910) 486-1541. Sincerely, Keith Larick Animal Feeding Operations Unit CC' File 82-154 Fayetteville Regional Office ANIMAL FACILITY ANNUAL CERTIFICATION FORM Certificate of Coverage or Permit Number !{/e l f SZ If4 County 5,A-MP59 Year 200 Facility Name (as shown on Certificate of Coverage or Permit)SZ:�,SSo us 1A06 F r' / Operator in Charge for this Facility 1Pr LDh/ .T>fi W Its_ Certification# 2-6 6 Land application of animal waste as allowed by the above permit occurred during the past calendar year c` YES NO. If NO, skip Part I and Part II and proceed to the certification. Also, if animal waste was generated but not land applied, please attach an explanation on how the animal waste was handled. Part I : Facility_ Information: 1. Total number of application Fields elor Pulls ❑ (please check the appropriate box) in the Certified Animal Waste Management Plan (CAWMP): L� Total Useable Acres approved in the CAWMP 2. Total number of Fields [9"or Pulls ❑ (please check the appropriate box) on which land application occurred during the year: LA- Total Acres on which waste was applied 3 , 3. jotal pounds of Plant Available Nitrogen (PAN) applied during the year for all application sites: - 517 �f 4. , Total pounds of Plant Available Nitrogen (PAN) allowed to be land applied annually by the CAWMP and the permit: Fr 3 G n 5. Estimated amount of total manure, litter and process wastewater sold or given to other persons and - taken off site during the year _ J,�/' tons ❑ or gallons ❑ (please check the appropriate box) 6. Annual average number of animals by type at this facility during the previous year: 7. Largest and smallest number of animals by type at this facility at any one time during the previous year: Largest 417 Smallest p (These numbers are for informational purposes only since the only permit limit on the number of animals at the facility is the annual average numbers) 8. Facility's Integrator if applicable:-�.►,_. Part II: Facility Status: IF THE ANSWER TO ANY STATEMENT BELOW IS "NO", PLEASE PROVIDE A WRITTEN DESCRIPTION AS TO WHY THE FACILITY WAS NOT COMPLIANT, THE DATES OF ANY NON COMPLIANCE, AND EXPLAIN CORRECTIVE ACTION TAKEN OR PROPOSED TO BE TAKEN TO BRING THIS FACILITY BACK INTO COMPLIANCE. 1. Only animal waste generated at this facility was applied to the permitted sites during O'Yes ❑ No the past calendar year. RECEIVED AFACF 3-14-03 1 FEB 2 5 2005 DENR-EAYE1TE UEREGIONAL0FRCE 2. The facility was operated in such a way that there was no direct runoff of waste from Yes ❑ No the facility (including the houses, lagoons/storage ponds and the application sites) during the past calendar year. 3. There was no discharge of waste to surface water from this facility during the past ILf Yes ❑ No calendar year. 4. There was no freeboard violation in any lagoons or storage ponds at this facility during Q Yes []No the past calendar year. 5.- There was no PAN application to any fields or crops at this facility greater than the R Yes []No levels specified in this facility's CAWMP during the past calendar year. b. All land application equipment was calibrated at least once during the past calendar year. ID'Yes; ❑ No 7. Sludge accumuiaiion in aiI lagoons did not excPpd the volume for which the lagoon © -yes []No was designed or reduce the lagoon's minimum treatment volume to Iess than the volume �-L 0 • : for which the lagoon was designed. 8. A copy of the Annual Sludge Survey Form for this facility is attached to this Certification. LJ Yes ❑ No 9. Annual soils analysis were performed on each field receiving animal waste during the H-Yes ❑ No . past calendar year. 10. Soil pH was maintained as specified in the permit during the past calendar Year? aYes ❑ No 11. All required monitoring and reporting was performed in accordance with the facility's IrYes ❑ No permit during the past calendar year. 12. All operations and maintenance requirements in the permit were complied with during Yes ❑ No the past calendar year or, in the case of a deviation, prior authorization was received from the Division of Water Quality. 13. Crops as specified in the CAWMP were maintained during the past calendar year on all E`Yes ❑ No sites receiving animal waste and the crops grown were removed in accordance with the facility's permit. 14. All buffer requirements as specified on the permit and the CAWMP for this facility were 211yes ❑ No maintained during each application of animal waste during the past calendar year. "I certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." =r; IliNsav SES�o ttee Name and Title (type or E Signature of Operator in C:h, (if different from Permittee) Date --r, a 5- Date AFACF 3-14-03 2 Lagoon sludge Survey Form ErE'V D FEB 2 5 2005 OENR - FAYEI�TENILLE REGIONAL OFRCE A. Farm Permit or DWQ Identification Number $,�t� / B. Lagoon Iderrllflcation 5 e. D (n�► t r �C; i- r"► lr f4/ C. Person(s) taking Measurements -rca C, 7 D. Date of Measurements E. MetIxxlwDevicea Used for Measuement of: a. Distance from the lagoon liquid surface to the top of the sludge layer. b_ Distance hom the lagoon liquid surface to the bottom (soft) of lagoon: Pc &- LA' th_1reZaremeat c. Thickness of the sludge layer If making a direct measurement with 'core sampler' /'Jj 2 - - F. lagoon Surface Area (Using dimensions at the Inside top of bank): (acres) (Draw sketch of lagoon on a separate sheet and fist dimensions, and calculate surface area.) G. Estimate number of sampling points: a. Less than 1.33 acres: Use 8 points b. If more than 1.33 acres. 3 acres z 6 = *th maudmum of 24. (using sketch and dimensions, develop a uniform 'grid' that has number of Intersection points that match JJJ most closely with the estimated number of sampling points needed. Number the grid Ind points on the lagoon grid to correspond with the data to be recorded for points of measurement) H. Conduct sludge survey and record data on 'Sludge Surrey Data Sheer. 1. At the time of sludge survey, also measure the distance frorn the Maximum Liquid Level to the Present Liquid Level (measure at the lagoon gage pole): , J. Determine distance from Maximum Liquid limit to Minimum Liquid Level: , (Determine from Plan or other lagoon records) K. Calculate distance from present liquid surface level to Minimum Liquid Level. ItemJ - Item I, assuming present liquid level is below Max- Llq_ Level: L. Record from sludge survey data sheet the distance from the present fiqukt surface level 1 to the lagoon bottom (average for all the measuement paints): M. Record from the sludge survey data sheet the distance from the present liquid surface level to the tap of the sludge layer (average for all the measurement points): e 3 N. Record from the sludge survey data sheetthe average, thickness of the sludge layer. O. Calculate the thickness of the existing Liquid Treatment Zone (Item M - Rem K): 4 , �— (Note: If item O Is less than 4 ft.. a sludge removal and utilization plan may be required by N.C. DWQ. See your speciRc permit or contact DWQ for more Irrtormation.) ' P. Prooeed to the sludge Volume Worksheet if desire to calculate sludge volume for rectangular shaped lagoon with uniform side slope. Completed by-._VO55�E-��le rs •, � Date: 0 ` Sludge Survey Data Sheet Completed By: O 'e fef"50'% Print Name Lagoon Identification: .-4" - Signature Date: Grid Point No. Distance from liquid surface to top of sludge Distance from liquid surface to lagoon bottom (soil) r Thickness of sludge layer =- * All Grid Points and corresponding sludge laver thickness must be shown on a sketch attached to this Sludge Survey Data Sheet. Conversion Table From inches to Tenths of feet Inches Tenths of feet Inches Tenths of feet 1 0.1 7 O.B 2 0.2 8 0.7 3 0.2 9 0.7 4 0.3 10 0.8 5 0.4 11 0.9 fi 0.5 12 1.0 North Carolina Cooperative Extension Service College of Agriculture and Life Sciences Fi Cam., k n .r 1 3 - - ___7 ANY 1 i3 2003 Farm Name:. Sessoms Hog Farm Facility No: 82-154 Farm Owner: Minson Sessoms Subject: Wettable Acre Correction/WUP Correction Tech. Spec.: Danny Bailey See next page(s) for acreage by irrigation pulls and WUP revisions. s'- 7 - `' 3 Date 7_ a 3 Date RECEIVED WATER QUALITY SECTION MAY Q 9 2003 Non -Discharge Permitting t Owner Signature Tech. Sp c ignature 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 govemments cooperating. North Carolina Cooperative Extension Service College of Agriculture and Life Sciences Corrected Wettable Acres Facility No.: 82-154 Field Acres PI 1.203 P2 (ARC angle to overlap) 2.149 P3 3.490 P4 3.377 P5 1.427 P6 Deleted P7 Deleted P8 2.651 P9 Deleted P 12 Deleted P13 (move to 150' Ln_ Sp.) .480 P14 (move to 150' Ln. Sp.) 2.509 P15 (Hyd. Located O.K..) 3.124 P16 (Hyd. Located O.K.) 3.480 P17 * 3.918 1318 * 3.137 P19 * 3.918 Total 34.863 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&7 State University, U.S. Department of Agriculture, and local governments cooperating. WA.5rg JtTj s,i.ZAr..EC,a PUAN TABLE 1.: ACRES uwttLU UY PRODUCLIt (A Cr I --I L;Dlb TYPE )x CLASS-- CROP DETERMINING 1-111ASE CUU1; f I/ Y 11;LU 1,U5 I All 14 t'L,lt AC lm� CUf'{I'i 11 Lli:i 1'Lll ACUS AW AC USLU T 114 I; i.?v3i 337 I .2- 02r �v Oro .2.3oIYr 7 9V4 1 � i �r I r• I 4 l i { -- �� /30 / 5 $ 3 /22 PI .2a s 0 3.12V '127 FSF,�, NEeT ���4C.oTJa.cr i,'>�,,, rop),u..C1A PAsfYg rc �Xol-,A L S�� % . cy WAST9 IITI L,ILATt0" f LAN p* TA13LE I: ACRES OWNED UY PRUDUCE}t F IULU 7� �Lfq —SOIL TYPECLASS-Clt�t' YIi:LU It15 -CvMi UL`TEItI�'IIHIIJG E-1IIASE coU AW 14 i'Llt ACRES PUR AC AC USLU � I 1 vo CO 30 Zoe o G Fk/ /Pec`52c.' :dc t l7 1'l1'i'n L 11g S A1: Te J G ,--" %G .r q �•q /94 c F — / Sl 3 o CERTIFIED ANIMAL WASTE MANAGEMENT PLAN WETTABLE ACRES WORKSHEET Farm Name: Facility Number: 9� - /S f Manager or Producer -97..v sohn= s n Phone # (. o )_f I-- S' V 2-y Technical Specialist: Y &4-- L t Y Phone # (jzo -) -ors L -- 7! 4 / Facility Contact: s s s � � 4--�i Phone # (9/y ) S-f 2- — V V 2 9 Mailing Address: _ SJ_, C'o�ye, •.�y s �h'd. [1 Wd -- Was farm sited for animals prior to 10/1/95: _No If No, date farm sited for animals: I I Irrigation System Type (Check 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 -,---lHose 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. Signature (Manager or Producer) Date w CAWMP HARD -HOSE IRAVELER_FIELD DATA SHEET * 1. Make and model number ::Z:.PR 2. Hose length and hose inside diameter (ID a' V" 3. Gun make and model number 4. Gun nozzle size inch, ring orifice, taper bore orifice. (May need to measure nozzle diameter.) 5. Hydrant spacing.10 d feet. Indicate whether uniform, _�random. Number of exteri r hydrants _ Number of interior hydrants_. 6. Operating pressure at hose reel _ _ psi. observed at working gauge, provided by owner. 7. Gun wetted diameter Z 1/ D feet. L,�measured, based on gun chart. 8. Gun pressure psi. observed at working gauge, based on calculations -(show calculations), determined from gun charts. * * 9. Supply line size inch (from pump to last hydrant). * * 1 Q. Supply line length feet (maximum pumping distance). * * 11. Supply line type PVC, aluminum. * * 12. Pump make and model number * * 13. Pump capacity, _ gpm. * * 14. Engine make and model number , or ** 15. Electric motor horsepower and rpm hp rpm `141•e: 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 map. Indicate the start and stop of the sprinkler cart for each travel lane and show distance traveled. Also indicate the normal arc 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 �%l�—b�►�- and/o Signature of Owner or Facility Representative Signa of Technical S list fesf, i'_5 _ J�9Nr % /3A" I C7 Printed Name of Owner or Facility Representative Printed name of Technical Specialist Date 7 - z-f — F% Date L,P// * * * Only the person or persons collecting the data should sign the data sheet. CAWA11' Wt, I"I'AIII..I, 11l)NAL Wt1l NMI11"V 1, No lquiltLcr (ldcniilicaliou) $ 2 — ,� Hill bul (Idcoliticnliutr)! I _--- 1. I++iLaliuu S}'slcni l�esi uatiun _ Existilln 1161,nlitm Nyslcili New 1 EAl►uitt1cd Iilil,nliun':}'slcnl :l. •! ylic ul•ltiil;;►tiun SySlclti _ :ilatiunaly ;illlinklcl�l;�K -_y� Ilattl ill,sr.-li:ivelt:i Lcnttl I'IVU1 I,il1t:;1i-InilvC ;i}'slriii �1, l`llliill}l'E Ur�t:tllUil;lly S11,inklcis dl flElciitil slninklcis 11 AM in S11twon Huntbcr U1• FInvci Lnlics _ 11 Inteliul l,nncs J _ fl ExlUhn Lent•, 5. Wclled Dkinder O 1za�lcct) Fit"" licltl thin sl►ccl 17_ I.rtiglli ul Imll Ilcclj 0. ,�li;lt 1111; / �_ US 1 l lydiai►l !illndng INo %!' Ins IICICCr nge III VVl'iin! tli;ir"011 Slt,iliklcr sir 6ng slung Inlclnl tievil Ins ImCcnt:igc vl wcnr,l ilinwricrl �. Sll6l►klC1- or 1iyt11alit Lnyotlt _ __�_ hikillilticnl I.t:lnlclllythnnh Singlc Lalclall[ lyclinul _ _ 1.-'-mxnsivuIy simuttl ;,luinklclAIytil;nlliz ll. KCild lilt' illigalt:d nlcn llcr splil►klt:iltlnvcl pull I'm the given welted dinit ovi fiuni 111c e1�Int�lr+i,tlr. 1n1r;1lr ;hill culu+lul basud u11 Ilattclt►, slIE161 %, and sl►tiitklcr111;1vc1 last: lucnliuii, :Aalitiilary S11iit►ldel-3 Aulm 11cr Inlcliul 5111illklcl liuut 'I nlrlc t'ulmlm Acics per L'•xtcliui slninkim Hum 'I nlrle -_ - (,ulttnut - - 11;ivcltr: 1111criur Upli-mil (trnvcl hint) _ (it) Atti us stal l cad ur lnlll 1, mii I alrlc - '.'t+linos (U) llctes n►i(Itllc Itutliun ul•!,till [I'tlil LC1111111 .. ilct'I] X 11'olcd W1,1111 .__j1t-C1jl l •11"11.0 Aums situp cml urlitill lists L'utlll Im CS lur lnlcriur 111111 (.;urns: 11 1 11 1 t '11r11vtIm Exteriur Ilyt.lrittil (Irnvel Inns} .../_ (a) Atacs Mai entl ul 111111 Bunt I nlrlceE70 t'Olrinn µ?X YIfg-(ir) Ames (1liddIr. Irtnliun trl'hull (full l,cngtlij2'j 1Ir.elI X 11'cllctl Widlli It, cljp! l i ',t,t1 (C) AGiI's slult eml u1 Ittlll IIt1t1I I ;ilrlc t:rdlnnii 0 3 'l'ultll ncl-cs lulr LJOCI iUr Imll (,'S11111, n 1 11 1 t) 9. IV11116llly 111C tabulated higated n[aC p valuc lie► sliiillklm ui I1,'tvd I1111I by lire Itttl,s i urq,lin6w in jw—, ul• each u;ilcl;ut y Ili w IQ Sunl all UI UICSC ntltl lids is We Iul nl ii r t}WMed nt:1 mTe It,r NOW W (a) Act es l,cr,ntciiur Spiiiik,cr us Pull X _ 11 N11611MU,a U, Pull% r A,.,, (b) Act es l,ci 1Uxicriu, Sl„iotkic, u, full `C iI Slit i,iklc,s v, Tulin --_- --- A,,. o Tutstl Wcl(nblc 1 rue for licltl -I. qIq Wt:UAIC Aci'C Cumputatioijal Wulkshcct U1 jrlctud tty: C r111'1111' 11'1;1`l'�ll1Ll; r\lAU, (:t)1111't}TA I IoNAI, 11't, I(KNlll-,1;1' I. l aril I�utltUcr (ldenlilicatiu„� Or2• �/ �r`f Field Idu11111c► (Iticulilicnitun Z -- - ---- J. It i ivalit111 �}'sleni UcsiL;naliull E1656111+ 1161 111 ,;ystt.11l Ncty I !`,r1►imilc11 I►Iit;,ttim, ;:)slc►l, I). I Y11e u1,11l igaliun Syslclll _ slnlitl„ai p SpI ll,kICI A., t;clticl I'ivul Istnt:,tl-nurvc ;;}'siru, d. 1,111111 t:f ur Stilliunm y Slu llli!(lci s _ _ !! 1111cl llll s11111Ik lel s 11 I' xl['l llll �I,l itll:lt l � 11timbur urTtnvel Latical _ . 1i inlcliut I,nncs _ 11 1.ttictitn i.�nre '�. 1Nt;tled Diameter Z V OCI `�I�e1l I rVt1I reltl tlaln sltcul/SSo I.rnl{II► III lull IItx l � G. ;;lricitig / % _ Latctnl / Ilydiaw Sa 1►aciiig jlct) 72, Ias limmifage nl,vullu►l ilia►,►t•I,•i) zLNlll lltklw spat;ing niking lnlci ttl 1iccl j — has lictcclllagc vi tvellrtl 46111du, I Re— L T e a VhF L c qdP .� X .o 1. Sltlillkler of llydrartt Lnyvtll __/_ i�itllliltic 1.nlclnl�llytllnnly Single Lalclallllydlnttl I xccssivOy allacctl ;,plinkiclAlyllolds It, RULI tht; ittigail:d atcn lieu sltlililklullllavcl Hull 101 1IIG t;Ivclt welird 06111cicl livin Ills n1,11it,111ia11. InF1;►11. aml culu,lut based ult liallem, spncing. nrit) %Illillklc111►avvi l:tltc Icicl,liul,. Slalivu:u-y SpAllIticra At;Ics pet Illict iul s111 i11kicl h oill Tnllle _ k; uklt►ut Actcs per Lxlcl iu1 sl►l illklcl li wil f idle (""thin — -- 1'ravcicr: 111ter'lur 11yd1•ncll (lrnvcl lnuc) (a) At;ies stn11 end of I1ull 1, un, I a111c�T 7v'.:t,l,mu► 4 y Y- • /. �� I (b) Act es Iltitltilc lim IM11 t,l' lltlll [l'kill Let ;lII [ltel) � iYtalr.,l11'uhll��zZ`Itrl��1l�'�l,U l/g? __ — (c) Ault,;sttip cuts t11'j,i11 li „u► nt+c1 lUr lulcriur hull (;iuta: 11 I 11 t t 1 C'ruvcicl-: 1. atcriur llydrnnt (travel laur) (n} Acte9 slap entl of l+t►11 litllu 'I tll�le _ i'1,hu1,i11 kit) Macs Illitl(llt. pollion ill' pull O'till Lullpoll jlv.vlI X 1l'clictl Width 11rt•iUl 11,'�l,It (c) Act t:s sltllt ct,tl kly l►tlll I', tllll 1 al►lt, l:t,hiliui 1 ullll nuts Tur t o iar 11u11(Sulu: n 1 h 1 t) 9Multiply llte tabulated iiii8alcd 11t:lcli8c value pul s111 i11klcl tit Navel Irlill by lilt liu,lil,ct trl' sl,i i111,A1.1 � lit l,t,ll : kit•cacll catuguly it% the licld. Sum nil ul'thlesc niltl this is lite Ikit nl itIil,atc,l nutc.ligc Itn lilt lict,l (a) Au CS l,cr iuletioa Sptinklc, u, full X _ 11 til„inklc,a Ut I'ulla A%jk--, (b) Auics pm I:xtciiv, Sp6itklct ve full :C _2. /V 9 Tut:11 Welliablc Acre fur field (5tom.- y:, -l- 91r) NvOlabic Acte Cullipulatiomi Wvtkahccl Cumpictetl by:-- CANVAlr 1V1;"t""1•A1.1LE ACItE (:untl'll"t'rj'I 10NA1, w oIt1ctillEFIT l . i ;,tttl Nullll�cr (ldcnlilicaliott) �'L - 7 I icld iduntUcl tklcutiticnituu) _- ,v13 7. 111Igaliull System Ocsignatiolt e-�` 3. Tyilc of llligaliun Syslenl I. H11111bcr ofSlationaty Slit inklcls Humber of Travel Latics / ElAisli111; 111i1;11livn ;:yslt:n, New / 1i;11llnlltictl h6plittkl Nyslcm S11l1y sl1Iitiklelf6,,i _ Ilatd Ilt,sr, l,avtltt Lcutcl I'ivul Lil,cak-milvc ,;yslrttt 11 1111cl iur slrl ilkklla s -- 11 Exirl iul sln inl:llri 5 _ 11 ltlicliul l,nncq - It 1;x1cliul Lalw^ �. WCUtt.1 1Ji;1u1c[cr r2 d ll'cclj l lunl licit) thin sheet _73 b LrIlgillul Trull Ikv.1� G. Spat;iLatclnl/Ilyt)IalttSl,acinl;�lct:t' y -�� - l:kspcitcnlagca[tivt'iIt'llllkankrltkl Splitlkler spacillg alung Inlclal Jfcclj 1.11 pelcrillageurwrltrtl t11amuictI /. Sprillklcr or Ilydrant Uput �_ Mulliplc I.nielnislllydlnl,tq Single Lalclal/Ilydtwit _ Excessivcly spnccd ;, III inMCI $111yIII n111s Ii. Read lllc ilrigatud arch l:cr splitlklel/tlavel hull 1M 111c given welled dintncict Burn tits t,111 loptialu 111bAr ;ultl tulunulllascd oil paltctu, sirntirog, and Sluiuklct ill avO lanclucaliun- Slatiull:try Silg.iulders Acics tlt:r Init:liut spliltklcl lium "1"n111c ('uiuulkl Actes pur Exlcliur si11ittklcr Rom 'I-alrlc Lulututt "I'l-avelcr: Illtcriur iaytll•rilll (travel Inllc) y� (n) Auks sin, I cnti or I1u11 ii kill, l :rlrlt dF1 7 :,llunrtk i3 3. o ro (6) Ades 1111dt1le 11tn lion (,l' I1u11 - Vull Lcilgili73D ilcell !t lYcllt:t11Vt111h:/$�{ct:ljl / II,',l,lt /luaus sluir t:ntt of ptlll li 1,n1 I al,lc - ta,It11r1u .3.9t9p f"u1111 nt:res lug. Inicriur hull (5anl: 11 1 11 1 c) 'I'r11vt:tcv: Ifxtcl iul 11yt11-mil ((rnvrl Inlle) (n) Arl cs Star l curl tri' 1,u11 li uu1 i"lklilt 1:,,1,t1+kn (11) /1ta cs 1ltiddle lulu litnl 1& 11,111 1l'ull Lcllgll, jieclj ,'� 1Vcltcd 11'i,hlr `irtl}j! �11 ',I,tl ----,—(�) /)cues s1t►p ctul ul purl) litrttt Taliic -- _ t-:tlluunl 'l•uinl ll�res fa' l�xlcriur pltll (S11t11. >ti 111 I c.) 9. N1616,111y the tabulated itligated aclrugc value pt:l s111illklcl ul lk,•tvcl pull by 111c luuul,ct uI illV.lr1� w 1,111k. uicach ctticguly ill 111c field. Suns all UFIllesc mid this is 111e 1u1nl itIiplivki 1,t;lcltyc fin 111t:1idll. (a) Actcs per title, iur %,,lirtklcr trr bull X _ It Splinklcln ut 1'X111R r Aiacc (b) Acres per Unlesivr Spl ittkle, yr t'ull X It Nln i+iklct9 v1 fulls .469 O Tula) Wet (able Acre for ficltf (Suul: Y.l -1- ytr) Nvullable Acrc Culltpulatiorlal Wutkahect Cumpleled by: c:, M11' 1vl�,l-1'Al31.,1,; rLlIAE COMI'VITA4It1NA1, l��tllu�Slu,t:l 1. l ;uul NuIIILcr (ItJcrllilit;aliort) ��'2 —/� licltl Mutt,llct (ldct,lilicntlull) "l.. lrril;;liiur, Syslt:nr llcsign;tliurt I�;xislina; Isti};r,titrrs Syslt:ur New ! Exl,nutled 1161;lI it,n ,;}'Slc,u 1. '{ylrt ul ilti};aliuu Systcnt Slaliunmy Sprinkicl/(,r,. -- iia,d-llt,St; l,,,vrltr t_,CIIIm Pivot l,inc;tr In+rvc ,;}'S1rn, -1. Number of station -my Sltlillklcrs It Ilticliol splinkicu; !I 1�xlrlit}I 'i,Iiul:l+Is i-lulnbcr uC•l.ravel Lanus f 11 lnlcl iu1 I'mics .xlcr itn l.arn s S. Wt:ttcd Ui;ultcter 1 Vv /76.TaiciJ FIuIII Iicid dala sltcct 73 Length tri'hull f Ictll 6. Simuinl; ?� Lalclltl 1 l {ytll aul tiiracitl}; � li cl) -73 has l,crccnlagt: III ivrllyd sli:tlt„•111 l Splin{t{cr spacilsg nluog Intel at 11ccl) �— ias pc,ccnlagr ul wellrt) tG:turrlc, { T Sprinkler or l.lydrant Layout I M1111i0c I Aclnlcll lytkAlit y Singlc Lalctxllllytllanl _ l�xcesstvcly 9llalcll ,,p,inklc,slllyd,nnls li. Kcad Ills: ilrignicta area per gninkic11tinvel pull lire flit`, given ivcllyd tiinlucicl liunl [lie ni,pl,till ialr. hbalr Mid culutn,t WSW ulr Itattcln, spacing, nail slum„ kietll,avci lar,c luctiiiu,,. 5tatiultury Sllrilllticr s Acres llcr htictiur spriitkict burn Tnllle _ _ ('ululr,n Acres per Lxtcliur sprinkler Bunt i a111e Cultll,ns__ __ I'ravcicr: interior Hydrant (lr:tvt:t Innt) 2— (il) AL'1 us slal i cllti ur pllil Ii ,I,1 I itlrlL' CT7o '.:,,haul, Z •19S.7 (b) Aci us middle pul iiun uT hull �l'tril {,cnglh �7i'o1 liev.11 t 1Vt:tIt,1 (t;) Ac, us sl op csid trl' l,tsll h nr„ 'I .110'c - t :,,lu,„„ 3 - LZ 7-71"DIIIl ncrts ttlr 1111rdur lull (sent: it 1 11 1 r) I'rrtvcicr: Exteriut• Hytlrlutl (Irrivri {nt+t) (a) Aui es sta, I cnd ur plill ii ui„ l nl,h: }:Mona, (i1) Amcs n,itldle. i,inliun of pail l,hill X 1Vcilt.d 11'10111 jlrcilll I (t;) At:t vs slug cntl of }lull I',till, 'l trill{ tares lur b(criur pull tS11111: n I {1 I c) 9. Mulli�riy llle. tairulMed ilIigalcd nt;tcngc vnluc pcl -Ill inklcl Ill II,nvcl Imill by the immlin ul'spi14,lr,,I, Imlk vi cacl, c;ticguly ill tlsc licltl. Sum all ul ll,csc Stud this is llic lulnl iln alai nc,cnl;c I'm Ilse licltl. (a) Acres Iscr liticsivr tilr,iAlci vt Ptill X 11 4IIs,likic19 VI fulls (L) Acres per U ntcrivr Sl,Iinklcr v+ full X it Sluinklcie VI 1'111h; 377 T011a1 Wet(able Acue for field + yl�) Wc1lablc Acrc Curnputatiflrsat Wurkslsccl C;urnlrlcictl by: CAW1111' WE'lTA111,1; A AU, 11'01lll'U,1-j�-1 IoNAL 11't.II(ICSIII•.1': f 1. 1'aitii Nutii(ter(1i1c11lilicalion} ez —/�r� field 11milliet Qdolliliciitiuti) _ l e __- - 2. Illigaliun Syslt:trl Ucsiglialitttt Exisliilit lilil,nlitrii ;;yslcni New 1 f:rrllntuled Iiiigulittir tiyslc+ri :l. 'lypevrlitil;alivnSystenl w titnlivntuytilrlil,klctfGy�+ llaitl-llt,sr.i+:�vclt•.r Leitict k'ivul Lincainulvc tiyslcut �l. Nunil�cr taf Sl�tliultary Sluinklt rs i! Inlciiur spinkicis -- �! I.xirliui sltlilrl:lT'r% Humber ur1-iavel Latics II knlctitis I,nncs II I:xiclim I.alics Wcllcd Diameter ZS`o .�,�lcel] Fiunl lidd daln sliccl d, Yo _ Length t1I bull }Icrll G. Spacing 163 Lalci a1 ! 1 kytlt rant Spncink � tct:l j - =G 8 - l as pcmillage ur tvcUcd dt:uirt.lrr l _.Sininkler spaciiig aiutig Inletni [reel] Ins pciccnlagc ur weltrd thall,ctcr I 1. SpOoklcr yr llydraid Layout _ — Mullililc I.nic-104l ly[1101114 Single LaIrmUllydtau! Iixt:essivcly SIMUd S111iliklcisr1lythanls ll. head Iht: illigatud nrcn leer slninkludlinvel Trull tut tlic given ivelictl dialiiclul 11uill (lie nllp11lnialr.lnhnlr arrd culuiitn based utl patiein, syncing, and -ptittklcilliavel hme hictiliurl. Stalivuary Spi•iitltlers Acics licr lnlctiut aplinklul liuni TOPIC _ — l'ulmiri) _--.-._.... Acres I1t:r Exletiut slititikler lium 'I able _—_ Culmim _ Yravvier. 111teriur llydrnitt (lrnVel Inue) (a) Acres strait end url►till liutii l'alric _ '.:t,lunrri (b) Aui cx middle lira Iitrn nr hull �Puil Lcngllt. ... ;lu:l] X 1VOlt'.11 Widill : tice11j l •l.l"loo (c) Aui cs siulr Intl ul' ptill li tint 1b1111 noes lur 1111c1 iur pull (Suiu: 11 t 11 i c) - '1•r-uvt: a: Exlcriur llytkrnni (ti•sivcl Intic) 2 3_ (n) Autcs sum cull vl' lruN liutii Ttill i13 X � q4r 4 / S 7 (li) Aci es middle, 1t111 t ttil o llUll (full 1xllrr,111_Gyo 11cell X lvcllutk 1�'itlllr8/�a'�"]Iccl�)1 II,'+till Avi cs stop elul vl 11 1 h utit f alric - V larluiiur I-VZ 7'll'via] nuns Itri• 1;AtC17Ul' Iliikk tS[Itit: n 4 11 t r? 9. Iti uhijily the labulaled istigalcd ncicnge valtic put spilitUct t1t iravcl pull by Ille liuinlici ul-splilikit•rs t,r I„111; ur cach calcgusy in the licld. Suitt all uk•th:'se alit] tliis is the lulnl iriigaled ttt:mpe I'M lire licit. - (a) Acres per liitcriur Spr inkicr or Null X _ 1! Sir, ir►kicr s up Pulls (V) Ac:res Ares Lxtcriur Sinirrkier ur 11u11 7i �_ I/ Niniiikicrs v, 1'uiis V17 Tt11:11 Wt_tlallle Acre for field (Sui11: y:1 -i- t111) Wcilable Acic Cur11ImIntiOrinl WUrkahco C.uirrlrlocti by: CAIVAll' IVKYTADI- 1, MJU, tA)AII,JjTi�-1 IONAL W0ItKSII ',i l' 1. 1 artlh Nuntbcr (1LIC11l1fICaIiV11) _ j field lytnnbet (lllell lilicaliun) 1. III it;a iull System Desiglialiull—l�;,tistiu}; {11il;ntimnl Systrill New I Fxignitlletl il6plittll System 3. 'l'yl1C l,I ltlil;aliolh Syslt itl �taiiunaty Spiinklci%GMK — - a+tl tlt,st:'I Ixvelv.l ctilirl Pivot 611cal-11111ve Syslcm ,1. Number of Suatiuntlry Splinkk:rs It Inlclior slitinkicis -- 1I l"xlrlim spiittl:lt•is Humber uffinvel Lanes If {nlcliul hairs J 11 Uxlcliol Lank-1 W61cd i)i.tiihcicr ate_ (Iie1J flulrl licld tlaln Riled SZI.engtliuf 11111 IIccll G. Spacing _�L—stcial ! I IYdI ntll Spacing;1I,ccl �115 pciccnlagc t1f lvctlrll diallls 11, l ' Spiinkler spacilhg along Inlet at [reel _ - 4ns pciccillige or tvt:ltrll aiantric, 7. SprilhkIcr or Ilytlratli Laynul _ h'iulliple I mIcInlclll.ydinnla Singlc LalclallllytliBill __ l,xce5stvcly Rllntcd „p+inklCtslllytl+ants li. Kcatl llll: ittilu'awd aml IMF sptinklcillinvel hull tin llte gimi tvclled dinimlo Bunt lite njillivpdalc 1111MIr mid t;ulumn based ult pattern, spnuing, and sp6ilk1cllllavvI I: ite I1 oilllNi- 5laliuuary Sliriulilcra Autes per llitcliut spiink{ci glum Tnitic - � t'ullnlul Actcs per Extei iut slit inkler hum fable �_ Cuhiuut _ _ TI-avcler: Interior 13yt{r ut (travel inns) (n) Ades stniI cud urpull I'iunr l a111e - '.:ullnnn (b) Act cs middle put lima t4 pull �l'till l..cnflll llccll X 11't: led NVIIII11 , - lit:111) l l.t St,U stub cut) of Imll limn„ A Mlic t:trllnn,t Cvin{ acres Nr lrticrivt- putt (Soul: it 1 Travelcr: Ex{criur Ilytlrnnt ((rnvcl {ntic) . Yz (n) At;ics stall cntl mil lltill lit,ni I nl,lt yo r 0111111111 13 (lt) At;i cs ntitldlc I,mi litm of Bull ocean .cj (1'ttll lxllp,111_4 pc tic -ell X wolv..tl 1`Iit11112Yrs jlct:l�ll l l ',t,1t 1 o �� _ _— — (c) Au t:s sl op end ui- pull Ii u+lt I +Lk: t:mdnllnr acres Iur Exlcriur p1111(5utn: n I It I r) 9. NStillijlly the labulatl:d iiiigatcd at;lcngt: value pcl sptinkici tit Ravel pall 11y the ntmilm (1l-SI)IIII m m 11111k. tit• match catcIply III the lleltl. Suitt all u{ llirse aiul this is llle Ililnt illigilcml noent;c fu1 mile fit•.111. (a) Acres per inlet lot- Spl ittkict err 1'1111 X _ 11 titre ittkici a v1 fulls Ats t--, (11} Acres lrct- 1?nlctivt 5lstittklet vt ptell X 11 Nptirtkicta ut I'ulls •-A,.,v . L'l<'ut:ll Wettable Acre for Neill (Ntilii: y:t -1- yt,) Wcllablc At;rc Cumputatiollal Wurks{ICCI C:u111111cle by: CA%V 1IP WV ITAIIIJI- AtAU, C0511'U Al ION AI,1VORKSl1EE,I' I. l ;unt Nunlllc: (ldcntilicaliatr) _� 2—/ ),rc% Fieltl IJtlnlllcl (I1lcnlilicnlitru) !,3_. . J. IItiL;ttiuta Systctll Ucsi�naliun I:xiclinl; 116r.111iull :;yslcnt New / I xpitnticll Illigntiun tiyslc+n J. Typt; u[ Illigaliull System �I. Mutulrer uiSlilliunary Splinkicrs HLIIIIIJU ul Timvel Lancs Sialiun;uy Slitinklt:l laid-Ilavvh.l Centel I'ivul lineal nnlvc SYMvi,l Il 1111clitrr sillinkiels ... .. ---- rl E.xlt'liul .rluin1,Ic1 rr ltltclitrr i,nI1C9 � �� l;xletltll l.al[['^ i. wotO Uialllcter liccl] i rlrllt ficid diln shccl .S�— Imiglll tit' poll JIcc1J (i. Sll;lc;ilrg �__ Laiclal 1 liydl;llrl Sllacillg jfecl) (�._-..._ Jsls Ilclt:cntagc of tvrilc{I diatnl�lrtj —� Sillinklcr Spacing alurlg Intel nl [feel ul, ivelicll J1111a•to J 1. Sprinkler or hydrant Layout -----lAtillillle I.nlclnlclllydlanls Single Lalclallilytllant __ Exccssivuly spaced ,,11611klctIII lylll;usls lt. heart lilt: illig;llcd alai I►cr splinklelhlavcl (lull 1,61 the givell vulled dinlll[;Icl liuill the npill plialr-11111,IIr Mitt culuntit u;tsvd un ITatictn, spituing, and Sillinklet111nvcl lane lut:Itliurl. 'itatiullary Spr'illltfcrs Acura Itcr 1111cliur s;nillklct liunt I nllie t'ullnnn Acres ITcr Lxteliur 5illillklt:r Iiu111 1'r;tvcicr: litteriur llytlratlt (travel Inese) (a) Ataes stall tint! of pull lium 1:1111e _ ._____ '.adunln _ (U) Ac1cs nlidtllu. llulliull tll' Imil (I'[lll l..tntlh 111CCll X 1V01ct1 Iv111111. (Icv.IJJ 1.1.1,',t,11 At:tt:s stint entt t7I 11tIII It11111 I mile t., hmil, 1<V111I ncres lur 1111criur• 111111 (N11111: 11 1 11 1 Q - 1 1'l1Vl'ICl': Exterior' Hydrant (Irnvel lnrtc) 33`1 (n) At:scs stnit eml ofImil iiulrl t:l,i[In,11 (I1) AI:ICQ middle. 1,111t1[TI1 itl II[III .�s (l'ullLcugll+Sp (Iccl� X lvcllvll1Vi11111/2a (1ccIJ)1 I1,',t,ll _ (v) At;lcs slidl end ul loth hol+T 'f:tMc 01himil .'V8d Tutni Mures Iur Exteriur 111111(S11111: n 1 lr 1 c) - `1. Mtiltijily the tabul;tled illignted ac;tcage value llci sininuc1 ul ll,tvcl 111111 by Ills 11u1,Ilics ul's1,114.11•I� til ptI117. itl cash t:alcguly ill the field. Sum all ul•tlluse alit) tttis is the total itIip"Itctl nl:lcnl;C Iu1 I11e. lit:l,l. (n) Acres leer Inlctiur Sinittklcr yr t'ull X _ Il ti11611ktcl9 u+ Pulls; (l1) Acres per Lxtct ivr St,o inkler ve full X _ It 51n irakrce s us fulls . d T01:11 Wettable Acre fur lick! (Suter: y:r -1- 91)) _R 1Ncliablc Acrc Cuutllulativllal Wwkshecl C;utttlrletcd by:_— (.!VIVA' 1V1;'1-1 ABLIS 11iAU, (a)fil l'il F1' ,I It}NAL WOItlisill' E I I . I`:Il lit NU11tl�ei' (1c1Ct11lllcattVll) "l. lr1i1;;1liun Syslclll Ucsigttaliau :3. •!•yllt: ur h ligation Systelll 8 2 — Field ;,1u11111cr (tticillilic:Dtiull) '1. Numbur of Slaliunary Slttinklers Humber of Travel Latics _ N:rt1361111 Illiplllioll Syslclll New / I xpattilrtl Inigntit►1t Syst011 Statimmiy Splinklct%Gw,. _ �Ilalcl llusc'lr;lvcicl Cclticl Pivot Lilltal -Imm tiysklll II lnlel iul spl inklel s - It EXII'l iul spl ilikirl; II 111letitn 1'nitcs II l-.:tltiiul Laws ';. Welled Diameter -.2 Putil Floill liultl chin silccl ,�v_ 1.r.ng111u1'111111 llc:rl G o� G. ,;jm i11L f f-9 �- Latesal / 1lycll:lnl Spacing ifevil..... -G.L l:is I,ciccnlagc of tvrllctl cliarncll 11 SpliuMer spacing alum lnicinl [[cul] 1.11 lrclCollage ul"lvcltc,l 661110cr I 7. Sllrillkler or Ilydraul Layout I_ hilllliple I'nielnlsll lydlntlls Single La1C1 all[ lytll Dill _ lsxt e.;sivcly spat cd ,,i11 inklcl sli lytll;ltlts It. Mad 1111; itligatetl Rica per sill illklcl/1lnvcl pull I'ul lilt given tvellttl tlin111cicl lium file n11111i,116,11c tall;llc ;md cvlu im based ull pallcln, spncillg, and spunklellll;lvel latic Imitiltllt. SUILimiary Spi-hildes'a Ades per hiirniut slnitikici lium TnUe _ — l'ulllntrl Acres per Exieliur splinklm lium TRble Culu11n1 _ t'r;lvcicc: Interior Hydrant (travel Inns) . / ar(it) At;les slats emi orinlii liutlt C:t111ce^L`gGo'::ulrrrllil /3 .2.. 3Az Akb) Act es mitltlle pm lion ul* pull }Pull 1c111/50 oA '11CO) t 1Vt:itt.tl W1i1ill llcr.l}� ! l i '►111t dJ0 _ —_— (c} 11c1es slul► cat) uI 1rti11 Iit►u1 l ;unit V11h1u1r, 1 �r �. 3'og'1•vl:1l Im-Cs fu1• Inlcriur 111111 tNlml: it t lr 1 t) - I'ruvcicr: Ex(criut' 11yt[rnrli (lrnvel lnitr) (n) As stall a1t1 uI'pull licrlll 1 f11dc l i1Ilf11111 (l►) Am vs midtlle pollit,n t1l-ilull thill Letlglli- ..._ 41ct1I ,v, Wvllutl wIIIIII - lIUc.l}}1 4l ',t111 Ades slug tlltl ul'puil r,tpil Tal11c l:tllurlrir 'fulfil flats lur LAlt:riul. pull ['511111; n 1 11 1 r) - �). M11111111y the tabulated ifiignictl at;lcnge Value lin splinkicl tit haVC1 p1111 by llte num11c1 t1I s111i1tb•Icr : tit mill uruadi (;alcguly ill llte field. Suit, all UhIlcse Dull this is llte lulnl inil,alctl tx:leat;e ful lilt; livill- (z) Acres I)Cr hlteiiur Slninklcr ur yell X _ 11 SInillklcrs u1 Pulla i1c11c (la) Acres per [ xteriur Sl►riltkfcr u1 full 7i � 1! Stn;uklc+a ur fulls � _ --- . M:,, Weli>,Lle Acre for field (Suin: ya -r- yll) Wctlablc Acrc Cumpulatiolial Wurksllect C:ut1111icted by: CAWA11' WETTABLE' AtAU, t;ttnll'tl'r,�'I IONAI ,11't)IttiSltl,t;l' i . 1 at ill Number (ldcntilicatiuu} F2 - )"� t-/ 1' ieltl 1Jtlnlllct (lticntilicntiun) _ J. 2. hilgaliun System Ocsigltaliui It"Xistiul; I16I;nliuhl Sysiclll New 1 li,R11111111c11 Illil;nlivi SYsiclll I I Ylte of lttil;;t[wu SySlctlt Slaliulmly Sill inklel/U4,f llaltl 1l[,Cr. I,aveh:l Ceillet Pivot Lineal -move NysIvi,l �I. Nulllllei- urStatiuiiaiy Sltiiiklers !! llliciitlr sptinklms ... . .. --_ I1 hilrtim villil-Aril i,itilllller orativel Lanes A lnlctiut Lnncs It Exiehiul Lane.; `i. W c11etl Diameter 2 `f O tivel1 l'itllll 11c1[I (laln slleel $"mod__ 1,cligtll tll 111111 )IC['1 G. Si,;icing i Sy Wei all ! I lytlinut Spacing f feetj Z j;+s pcItCnlag[ uI [vclle[I11i:nnt1r1l _ Spliukler spacilig alulig laletnl [1,cc11 -- `Rs pciccnlagc Ur welted tlianlcict { 1. Sltriuklcr or Ilydrail Layout Mulliple LnICIRIVI lytlinnta Siuglc Laimal]llytliant _ l.xte.,sivt:ly 91)ncc[l .OpluMc, AIyd'mll 8. Kcatl the Migalcd arcs llcr sptinkici/tinvrl pull lM [lie given tvelictl tlimlhcicl I'tum(lie Ri'i+itlphi;hlr.11lll;dr mid column based uu pauctu, spnciig, vind splulkleduavcl Ielhe luctlllull. Slatiull:lry Spriuldcra Acies per lltictim spiinklcs hum •I-nlllc _ — t'ultillul Acres per Lxtctiur sinilikicr hum 'Filble -__- Culttunt -_ - Travcicr: .[interior Uyt1 -wit (travel Imic) (n) Act us slai n clttl ul pull li tom I s[I11L'Cj` � '.'s,lumll �3 es middle put lime ul, 111111 (Pull L_,cni,ilt�.am'11cull X Wcllk:.d W111111.L ° �icrlj) ! I! '1111t ([ } Act cs slut► cn[I tlr pull li tnn 'kith l alinunl /Z`,OC1'u1l11 ncres Iur Illtcrivr hull (Shill: 11 1 It I c) - 1'ravidev: Extcriur Ilytlrnit (trnvel hike) (R) nit es slal i curl tlr pt111 li tlnl rnlllt: l :tduhlul (l,) Aui vs middle pun titlll 0* hull Vuli Imip'lli- 11C.01 X Wt•lttxl willill - jIto 1)1'11."I,11 (c) Act es slop end ul' dull Ii um Talk, l'.u11111111 'l ulnl Itc.l-cs lur LAW iur p1111(Sulu: n 1 11 1 Q 9. Mulllllly llic tabulated iiiigatcd acicnl;c valtte llt:i splillklct ill travel inlll by lite tiumbel ul sl,li14.1ri sill 11111k uvcach u-mc;uly ill the licid. Sum nil ul'tllese Rnd this is 111c WIM illil,;ll[:[I Rulclipc Im 1I1C1101I- (�) Ac:res per Iilaiivr Splirlkics us full X 11 Sirlirlklels u1 fulls r Aciv- tb) Acres jeer Exicliur Slllinkltr us V'keil X — A tilninkiria vi Ptilix 3. /1 V-'f,'utal WOW ble Acre for field -I. 9l►) WeRable Acrc Cum;lulatiollul WoskAFF1 C:ulllplcled Uy: L1\1Y[11l' 1UA` A1114" MIME (:t)1111'1y1'r�'l IONAL 11't)1tKS111-.1;T 1. Fal III Nulllber (Identification) 8 2 `f 1 icld 1 kllnlbel (ldclllilit:nliun) l.. 11lil;;ttiutl .iystcut Ucsil;nalittu Exislinl; l;ligilliun;;ysicllt New / 1?xImIldol 111itnliltn tiyslctll J. 'i•yllt: ul•ltli);.11lutt SySICllt Staliuualy Slit illkic,/G4K __� tltl-11tlsr. 11avC1r1 Centre POW Liltcal-Intive;iyMull' 'I. Hullther of Statitmary Sininklels � It hiletiur slrtirlkins _ 11 l'.nlrllm rilllllklrl.� Humber mber ul•Tinvel Lanes — — 11 lntenkil Panes — 11 FAIClitrl l.;tnt ,Z v Weltt:d Diameter 1 v (Icc1J Flulll lield daln shed ohoI.cnglll %?I'pull IlCv.1 � vo G. ; 11;1611U / 5—U Latetal I Hyde nut Sllacinb 11ect Z..._ 1.1311CICCII Age! to[ lVOVII lliarllrlrl ) Slrirukler S11a611g alullg Intel [1*eel 1-Is 11CICC111.1ge Ul %volud 111t111it'lc•I l 7. S1llillkler or Ilydraul Layout I.nlclnlslll,ytllnnts Siublc Latetallllythaid Vxt:l:sslvJy S11ncCt11.1111nkIrlAlythaltts h. Kc:lkl 111e itIigalt:d atrn per 5111inkleduavcl bull iul the t1ive11 wellcd dinnit:Irl lium llte nl1ln11111ialc 11111air wed culumn bawd un 11alleltt, slrncillg, nud spiiltkiedlinvcl lalte Itictlliult- Slstiuuary S1lritilllcrs Acres per hllcliur slttiltklcl hum Tnlllc ['uknlln Actes per L,met iut sllliuklcr lium 'Unllle Culunln Travcicr. latcriur Uydt•nul (trrlvt:l lnur) (a) Act us slat t end ur hull li tint Table - '. A1lunlrl . (i1) Act es ltlidtllc ltul tiu11 O' lltlll Ial1t1111.cttltlI]. 11CO1 Y 1vOlud 1v1111ll : Ih•ta1) 141+5t,tr Au es s1u11 Cutl trr I11111 li u111 t ,It,lt t :1111nnn lt'ulul ncres for 1111Crivr- 111111 (tiunl: it 1 11 1 v) - '1'11tvClcr: 1 xlcl iur klytlrnul (lrnvel Inttc) Aga es slab vid tit';still liti111 1 ltltlt Gof llllllltit /3 o 3 o (lr) Acics middle. pit11ia1�r1'1r1111 /f ®� thill Imleill.7 tic-6I X ;valet; W10111 ? Irt.Iljl'I1"'ittI J° — (L'} Awes 5t1111 Clttl U ptir i1tint i atilt: J5 I,"OtIlim 1 Y.VS?O TOM acres (ur Exlcriuv 111111 [Sum: n 1 it 1 r) 13 Y� 9. mi,11111 Ily the tabulated isIigalcd acicllge value llcl sill inklcl tit 11.1VC1 ;;till 11y Ille 11tn1111r1 (IF sill IIIHvI!Z• III 1+,111s vvCad k cal. Cguly ill the field. Stull all ul these null tills is l.IIt: IkiIal ilIigat c(l noCal;C I'M Itie Iit-Ill . (a) Acres leer beletiut Slrtittkler us t'I1ll X — 11 Slit i1iklatn u1 l'ullt — - Ativc QJ) Act es lrer Lirtrctiur Sloeinklcr ut I'mil X 11 Nlninklr19 vt hills 'l'u1st1 WellaLle Ac1•e tum- Bell; (Stint: Y:1 + 910) Wcllable Acic Cutull'utational Wutksllcct Cumpleted try: CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) 72 / 5-Y Field Number (Identification) / 7 .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/6yw Center Pivot # Interior sprinklers # Interior Lanes Hard -Hose Traveler Linear -move System # Exterior sprinklers # Exterior Lanes 5. Wetted Diameter 2 9(y _ [feet] From field data sheet o v 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] C • 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 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 Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lade) $4 J* (a) Acres start end of pull from TableEC 975_ Column /3 3 • V3 P' (b) Acres middle portion of pull {Pull Length 17yv [feet] X Wetted Width �� [feet]}/ 43,560 (c) Acres stop end of pull from Table Column -7 -2,�R 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 lfr. Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) 6L Z — 75'q, Field Number (Identification) Irrigation System Designation 3. Type of Irrigation System Existing Irrigation System New / Expanded 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 # Exterior Lanes 5. Wetted Diameter Z Sfv [feet] From field data sheet L j Length of pull [feet] 6. Spacing lfj�l 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 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) 'Iz�/ (a) Acres start end of pull from Tables r7 j�Column (b) Acres middle portion of pull {Pull Length 27[feet] X Wetted Width/,PV [feet]) / 43,560 (c) Acres stop end of pull from Table Column Y -; '/ Total acres for Interior pull (Sum: 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 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 3 '7 Total Wettable Acre for field (Sum: 9a + 9b) •Wettable Acre Computational Worksheet Completed b : �.�� Date: P P Y . CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) 8'2, — Z. 5' 1 _ Field Number (Identification) il/ y Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/, y r ' Hard -Hose Traveler Center Pivot Linear -move System 4. Number of Stationary Sprinklers # Interior sprinklers # Exterior sprinklers Number of Travel Lanes # Interior Lanes f # Exterior Lanes 5, Wetted Diameter 'Vo [feet] From field data sheet 7go Length of pull [feet] 6. Spacing /,E� 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 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 Interior pull'(Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) sGd' (a) Acres start end of pull from Table CL?SColumn �3 3. 03fr(b) Acres middle portion of pull {Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column 3 . y;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 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 Sl Y Total Wettable Acre for field (Sum: 9a + 9b) S Wettable Acre Computational Worksheet Completed by: e? 4---, Date: Michael F. Easley, Govem ?r William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P. E., Director Division of Water Quality April 9, 2003 F. Minson Sessoms Sessoms Hog Farm 581 Concord School Road Clinton NC 28328 Subject: Certificate of Coverage No. NCA282154 Sessoms Hog Farm Swine Waste Collection, Treatment, Storage and Application System Sampson County Dear F. Minson Sessoms: On March 14, 2003, the North Carolina Division of Water Quality (Division) issued an NPDES General Permit for swine facilities. The -General Permit was issued to enable swine facilities in North Carolina to obtain coverage under a single permit that addresses both State and Federal requirements. In accordance with your application received on January 6, 2003, we are hereby forwarding to you this Certificate of Coverage (COC) issued to F. Minson Sessoms, authorizing the operation of the subject animal waste collection, treatment, storage and land application system in accordance with NPDES General Permit NCA200000. The issuance of this COC supercedes and terminates your COC Number AWS820154 to operate under State Non -Discharge Permit AWGI00000. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from the Sessoms Hog Farm; located in Sampson County, with an animal capacity of no greater than an annual average of 3300 Feeder 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 July 1, 2007. 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 General Permit. Since this is a new joint State and Federal general permit it contains many new requirements in addition to most of the conditions contained in the current State general permit. Enclosed for your convenience is a package containing the new and revised forms used for record keeping and reporting. Please pay_ careful attention to the record keeping and monitoring conditions. in. this _permitThe Devices to Automatically Stop Irrigation Events Form must be returned to the Division of Water Quality no later than 120 days following receipt of the Certificate of Coverage. The Animal Facility Annual Certification Form must be completed and returned to the Division of Water Oualitv by no later than March 1st of each Year. Non -Discharge Permitting Unit 1617 Mail Service Center, Raleigh, NC 27699-1617 Customer Service Center An Equal Opportunity Action Employer Internet httpJ/h2o.enr.state.nc.us/ndpu Telephone (919) 733-5083 Fax (919)715-6048 Telephone 1 800 623-7748 50% recycled/10% post -consumer paper i.. 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. 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 15A NCAC 2H .0225(c) a compliance boundary is provided for the facility and no new water supply wells shall be constructed within the compliance boundary. 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, the Clean Water Act and 40 CFR 122.41 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 NPDES 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, for Alan W. Klimek, P.E. Enclosures (General Permit NCA200000, Record Keeping and Reporting Package) cc: (Certificate of Coverage only for all cc's) Sampson County Health Department Fayetteville Regional Office, Water Quality Section Sampson County Soil and Water Conservation District Permit File NCA282154 Permit File AWS820154 NDPU Files ti ANIMAL WASTE UTILIZATION PLAN 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. Tract Field Soil Type Crop Application Rate (in/hr) Applic. Amount (inches) 2300 1 NoB BP 0.50 2300 2 Au BP 0.60 *0.96 2300 3 BoB BP 0.75 *0.65 2300 '1 SG A.".1 2300 SG 2300 "3 SG 2301 1 WaB BP 0.60 *0.96 2301 2 Au BP 0.60 *0.96 2301 -1 " ; SG 2301 -2 SG * 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 -of the nitrogen limitation. The maximum application amount shown can be applied under optimum soil conditions. Your facility is designed for 180.00 days of temporary storage and the temporary storage must be removed on the average of once every 6.00 months_ In no instance should the volume of the waste be stored in your stracture be within the 25 year 24 hour storm storage or one foot of freeboard except in the event of the 25 year 24 hour storm. It is the responsibility of the producer and waste applicator to ensure that the spreader equipment is operated properly to apply the correct rates to 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. ] age: 8 t ' ANIMAL WASTE UTILIZATION PLAN Call your technical specialist after you receive the waste analysis report for assistance in determining the amount of waste per acre and the proper application rate prior to applying the waste. NARRATIVE OF OPERATION �e.ML ass va,11 Excess 1 Os � CQmovCk n �com ] age. 3 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 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 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: 10 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 inton 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. 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.). 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: 11 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 thes 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 requlations. Page: 12 y ANIMAL WASTE UTILIZATION PLAN WASTE UTILIZATION PLAN AGREEMENT Name of Farm:SESSOMS HOG FARM Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established 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 storage system or construction of new facilities will require a new certification to be submitted to the North Carolina Division of Environmental Management (NCDEM) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface wasters of the state from a storm event less severe than the 25- year, 24-hour storm. The approved plan will be filed on -site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDEM upon request. Name of Facility Owner: MINSON SESSOMS (Please print) Signature: ( Date Name of Manager (If diffeyrent from owner) Signature: Date: Name of Person Preparing Plan: (Please print)Wilson Spencer Affiliation:NRCS Address (Agency): Phone No. 84 County Complex Rd. Clinton NC 28328 Signature: y Date: Page: 13 ANIMAL WASTE UTILIZATION PLAN ANIMAL WASTE UTILIZATION AGREEMENT (Needed only if additional land has to be leased, etc.) I, hereby give permission to apply animal waste from his Waste Utilization System on acres of my land for the duration of time shown below. 1 The field(s) on which waste can be applied are shown on the attached map. I understand that this waste contains nitrogen, phosphorous, potassium, and other trace elements and when properly applied should not harm my land or crops. I also understand that the use of waste will reduce my need for commercial fertilizer. Adjacent Landowner: Waste Producer: Technical Representative: SWCD Representative: Term of Agreement: Date: Date: Date: Date: , 19_ to (Minimum of Ten years on Cost Shared Items) (See Required Specification No. 2.) Notary i Page: 14 ti ANIMAL WASTE UTILIZATION PLAN r Waste Utilization - Third Party Receiver Agreement I, hereby agree to apply waste generated by in a manner that meets the Waste Utilization Standard (633), or use an alternative waste utilization system that has been accepted in writing by the Division of Environmental Managment. Third party Receiver: Date: Term of Agreement: to (Minimum Ten Years on Cost -Shared Items) Notary Page: 15 o %rk r. I . 41, A A. WgTE9pG Michael F_ Easley, Governor William G. Ross Jr_, Secretary o�OF North Carolina Department of Environment and Natural Resources CO ; r Alan W. Klimek, P. E., Director Division of Water Quality December 19, 2002 CERTIFIED MAIL RETURN RECEIPT REQUESTED F. Minson Sessoms Sessoms Hog Farm 581 Concord School Road Clinton NC 28328 Subject: Application for new National Pollution Discharge Elimination System (NPDES) General Permit Facility dumber 82 - 154 Dear F. Minson Sessoms: 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 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 The NPDES permit contains several differences from the State Non -Discharge General Permit that this facility is currently covered by. Attached is an informational sheet noting the major differences between the two types of permits. Information sessions were held by the Division in August and September to inform producers of the requirements of the NDPES General Permit. 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. Non -Discharge Permitting Unit 1617 Mail Service Center, Raleigh. NC 27699-1617 Customer Service Center An Equal Opportunity Action Employer fML ENR Internet httpJ/h2o.enr.no.state.us/ndpu Telephone (919) 733-5083 Fax (919)715-6048 Telephone 1 800 623-7748 50% recycled/10% post -consumer 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 new NDPES permit, the enclosed applications, or any related matter please feel free to contact J R Joshi at 919-733-5083 extension 363. Sincerely, Kim H. Colson, P.E. Cc: Sampson Soil and Water Conservation District Fayetteville Regional Office, Division of Water Quality Permit File AWS820154 Permit Application File NCA282154 Information Sheep NPDES GENERAL PERMITS FOR CAFO MAJOR CHANGES FROM PREVIOUS GENERAL PERMITS This is not intended to be a complete listing of all the changes from the current State issued Non -Discharge Permits. It is only intended'to identifi, some of the major new requirements contained in the recently issued NPDES General Permits. Please read the entire permit carefully in order to completely understand all the permit requirements. The new permits were developed for compliant facilities. Various conditions of the permit direct additional monitoring and reporting requirements for facilities with a history of compliance problems. 1. The NPDES permits are both State and EPA Permits and are therefore enforceable by both the State and EPA. (Conditions IV. 1 and VI. 1.) 2. All amendments to the CAVi'MP. along• with an explanation identifi°inp all amendments, shall be submitted to the appropriate DWQ regional office within 10 working days of the amendment. (Condition I. 3.) 3. Within six (6) months of receiving notification from DWQ, a producer must conduct an evaluation of the facility and its CAWMP under the requirements of "NRCS's near Phosphorus loss standard to determine the facility's ability to comply with the Standard. (Condition I. 6.) 4. In no case shall land application rates result in excessive pondinR (see new definition on page 17 of the General Permit) or any runoff during any given application event. (Condition II.4) 5. If the facility has above normal mortality rates and the animals are buried, DWQ shall be notified prior to burial and trrounch ••ater monitoring may be required. The burial sites must be mapped and the dates and number of animals buried by type must be recorded. (Condition 11. 9.) 6. The producer must either install, operate and maintain devices on all irrigation pumpslegWpment designed to automatically stop irrigation acti«ties during precipitation or commit to provide the presence of the ORC or the designated backup ORC at all times during the land application of waste_ (Condition II. 16.) August 23, 2002 S Information Sheet 7. if the producer chooses to install, operate and maintain devices on all irrigation pumps/equipment designed to automatically stop irrigation activities during precipitation, they must still have the ORC, the designated backup ORC or a person under the supervision of the ORC or back-up ORC inspect the land application site as often as necessary to insure that the animal waste is land applied in accordance with the CAWMP. In no case shall the time between inspections be more than 120 minutes during the application of waste. (Condition 1I. 15.) 8. All waste application equipment must be tested and calibrated at least once per year. (Condition IL 23) 9. The permittee must maintain monthly stocking records for the facility and make the records available upon request. (Condition II. 24) 10. Crops must be removed from the application sites and properly managed and utilized. Harvested crops shall not be allowed to become unusable due to prolonged exposure to the weather. (Condition II.25) 11. A rain gauge must be installed to measure all precipitation events and the precipitation type and amount must be recorded daily on forms supplied by or approved by DWQ. (Condition M. 3. A.) 12. If there is a discharge from the facility to the surface waters or wetlands, the permittee is responsible for insuring that samples are taken of the discharge and that the samples are properly collected and shipped to a certified lab for analysis in accordance with EPA approved methods. (Condition III. 9.) 13. An annual certification report must be filed with DWQ's Central Office and appropriate Regional Office by March I" of each year on forms supplied by or approved by DWQ. If the facility was not in compliance, the annual certification must be used to summarize all noncompliance during the previous year, actions taken or proposed to be taken to resolve noncompliance and explain the current compliance status of the facility. (Condition III. 12.) 14. The permittee must conduct a survey of sludge accumulation in all lagoons within one (1) year of receiving coverage under a NPDES general permit and every year thereafter. If the sludge accumulation is greater than the volume for which the la ,00n -was designed or reduces the lagoon's minimum treatment volume to less than the volume for which the Iagoon was designed, a plan must be submitted to DWQ within 90 days which documents removal and waste utilization procedures to be used. (Condition 1B. 16.) 15. The permittee must submitt any requested information related to the operation of the animal waste management system to DWQ within 5 days of receiving the request. (Condition III. 19.) August 23, 2002 State of North Carolina Department of Environinerit and Natural Resources Division of Water Quality Animal Waste Management Systems Request for Modification to Existing Certificate of Coverage for State Non -Discharge Permit The following questions have been completed utilizing information on file with the Division. Please review the information for completeness and make any corrections that are appropriate. If a question has not been completed by the Division, please answer it to the best of your ability. Do not leave any question unanswered. By submitting this application you are requesting a modification to the current Certificate of Coverage for this facility to reduce the permitted number of animals. Should you wish to increase your animal numbers in the future, you will be required to apply for a modified Certificate of Coverage and be may be issued coverage under the NPDES permit as appropriate. 1 Facility Number: 82 - 154 or Permit Number: AWS820154 2 Facility Name: Sessoms Hog Farm 3 Landowner's name (must match the name on the Certified Animal Waste Management Plan): F. Minson Sessoms 4 Landowner's Mailing address: 581 Concord School Road City, State: Clinton NC Telephone Number (include area code): 910-592-4429 Zip: 28328 5 County where facility is located: Sampson 6 Farm Manager's name (if different from Landowner): Lucille Sessoms 7 Farm Manager's telephone number (include area code): Submit a copy of a modified Waste Utilization Plan for the requested animal numbers with this application. - The Waste Utilization Plan must be signed by the owner and a technical specialist. I attest that this application has been reviewed by me and is accurate and complete to the best of my knowledge_ I understand that if all required parts of this application are not completed and that if all required supporting information and attachments are not included, this application package will be returned to me as incomplete. Note: In accordance with NC General Statutes 143-215.6A and 143-215.613, any person who knowingly makes any false statement, representation, or certification in any application shall be guilty of a Class 2 misdemeanor which may include a fine not to exceed $10,000 as well as civil penalties up to $25,000 per violation. (18 U.S.C. Section 1001 provides a punishment by a fine of not more than $10,000 or imprisonment of not more than 5 years, or both for a similar offense.) Printed Name of Signing Official (Landowner, or if multiple Landowners, all landowners should sign. If Landowner is a corporation, signature should be by a principal executive officer of the corporation): Name Title: Signature: Date: THE COMPLETED APPLICATION SHOULD BE SENT TO THE FOLLOWING ADDRESS: NORTH CAROLINA DIVISION OF WATER QUALITY WATER QUALITY SECTION NON -DISCHARGE PERMITTING UNIT 1617 MAIL SERVICE CENTER RALEIGH, NORTH CAROLINA 27699-1617 TELEPHONE NUMBER: (919) 733-5083 FAX NUMBER: (919) 715-6048 Request for Modified COC N • CERTIFIED ANIMAL WASTE MANAGEMENT PLAN WETTABLE ACRES WORKSHEET Farm Name: _ sc 5 s O� s _. /�h'� y-- Facility Number: t� - 1-5-- Manager or Producer A1..y SoA_ s s yt - 5 Phone # (,, o ) -5 7 2- - V V Technical Specialist: �.-� / .9,Phone # (f i -�rf z -- 7i 4 / Facility Contact: s s Phone # (9.,0) -ff I- -- S' u 2- Mailing Address: 58/ ee,✓C ,o -4D- s_e yo-z- C^/i.' /--, 1,'e-�.5 . '23Lj?__ Was farm sited for animals prior to 10/1195: �0 1 If No, date farm sited for animals: I I Irrigation System Tvue (Check 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 Linear -move system /Hose drag traveler Z Acres calculated should correspond to that shown in the Waste Utilization Plan and Form IRIR 2. To the best of my knowledge, this worksheets) and map(s) Irovides an accurate representation of the system used to irrigate the animal waste generated by this operation. Signature (Manager or Producer) Date w J � CAWMP HARD -HOSE TRAVELER FIELDVATA SKEET 1. Make and model number 2. Hose length and hose inside diameter (ID o L,? . 3. Gun make and model number 4. Gun nozzle size ^mac inch, ring orifice, _ taper bore orifice. (May need to measure nozzle diameter.) 5. Hydrant spacing io o,%IA,�( feet. Indicate whether uniform, --Z-r�ndom. Number of exter 6r hydrants _[4;1 . Number of interior hydrants 7 6. Operating pressure at hose reel psi. observed at working gauge, provided by owner. 7. Gun wetted diameter �? V D feet. measured, based on gun chart. 8. Gun pressure j(X— psi. --"�observed at working gauge, based on calculations (show calculations), determined from gust charts. **9. Supply line size inch (from pump to last hydrant). * * 10. Supply line length feet (maximum pumping distance). **I 1. Supply line type PVC, aluminum. * * 12. Pump make and model number ** 13. Pump capacity, gpm. ** 14. Engine make and model number , or * * 15. Electric motor horsepower and rpm hp rpm `I =: 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 map. Indicate the start and stop of the sprinkler cart for each travel lane and show distance traveled. Also indicate the normal arc 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 and/o Signature of Owner or Facility Representative Signa of Technical Spe alist Printed Name of Owner or Facility Representative Date Printed name of Technical Specialist Date 7/4L -12 * * * Only the person or persons collecting the data should sign the data sheet. E 7 .� 4 y.. r� i j., 4�Ir +%'.. � ni y ., _"1 {ia1. t �';y . �✓ r 'J�'�' �'� .i: ,�,bi r __..f i ,! }f—ti r al',7 s•y3rt _ S G'�t. Via. t w �#' • }� ', r �!!` },'Y+' t. 1.} � , ..ate! � * 1'� ��4}!�[yL4� 04a��� ' . _ ti , f r � . - � r ` - )>�� C �' i- r'+ • 7"�, f 1"r� � 7� r"`' r 7 • �S r..w Z J� - k. *- . 'N' y1"fn�•,� .� 4 '.{tea+ tr � r " x ,%MW A. 1 r+r .� t .F•",' Ssasr%r r !' ' a: , - , •q Yl3„iy.�r+S.:,i t ff1� T '7 Y� • , ,t f JY • '�y y�.,�J �' • { r. _l t; i _ '•"�}—ir , �', i �,,.' � t, '7 t', �'� t4 � L,t � �"r�� � L.. '�" ''#:-•NJr,V',rfi7�' � `l k � y i -.ti" �j s ._ ! 4?�, x•'is i :l i.�t-� �x'�if tr sr �tti-,'i TV�x:i•t�hY,,Lti't ,."w[Tr y'•.3y�c' S + .J 4�r'.q'i � �r�,�rr i+� • r '' x�R� �� i .1 t� .j� i `s a -� � ,� x+'r.'�'� i S t r^ti. ��rCk ~.Jy,�R.� �,, - ,y. -.T y� �• r\� �+Et,*..� +- .�� ' N' ,, atq � y"�j"d�`��a1,a}..�iy�'�,�4�fJ����i��;✓r'j;�#.��4�,���;;1 1 �i _ j „h.� :.3aM(• 1+ ' r i'W'k. •i' s '✓ r Eh F {��` `k�? �+a'C•F�� ' Y 'i� ''i � A�'�r hh kz } �l���Ti �y+�= l��jRiz k _ �.i•'y _ `'7•sss _ '•,! -T'3�• taj .»Lni; .iG t?s42���f•},F7 .•` { i n r ''rya ,��; Y. - : �� �• �I t�µs�,-�� �'r,?�s j � � W w j.� k.M P � �x � P �s.�� �y : i Yy �k'�, y.'' �� y}� `K. •`+�,� ty,. N - #•2.c, wL � „#•�"'' � u. '�1r �,. ql, �y 1 r„ : n � '�. / .y.. i� 1. : ,j + s Pt<<Ini-ig,y'x��;.F`;'ri Pa l n )6 rit K + ♦ •er^' ~ �.;r.,;,(a+:7�i 95 � p n r t, t it N nF � (r y r1. 5' � r' ,qy 5 6 ' w ',i.t� 5.: � �-' •`�� _ �Cb r � p i F t �ti� 7+� � r��i� "11� �.� �+ri�k�;� � d•+, ��ji. ,r�� w ;. � �•. r � ; r+r ; � ,+' '�.'ti'�, ,yi G �i'�; �' � n� ��,�nn�r��Sh�j�T`�� ��1 .:t u � — \ �q • �3 O ' < mg i{R"i.y. r .i",l' t-• i O ,�'>�},��.At•S''✓ •` y (, } i _ f x l� j `2J�f! �. T, • , y ..cy f l� iayi��'�13 ��+�♦>K}�c t �'..! '4���-# ''I�f '� h f, �( y `.1r�� � � \ S{ n' � J . T j$�,}.`y „ F _ g:ik ; gg �•`+ ',� �F.` "?r ' i=F ; *]`If +�h ✓ y'i i+e, rS �tY.{- cpt 717 y, �_�t�int4StreWO ♦, r3-e'' s ap._ Op` '` gi y j //aj 4t`y*t•y,M'{LL 7. at �7@ 'l ,�= dr; k ,�•s�:,' � ,} .�..�,: -;fir A ''�.�, : �'+d }S. t �f ry Y a{•��� 5 h ice.. {, i(- � •ty local � �_ �� �t r�r�rY}�Y4 �� � + ����� t, H� � •� ; r 4 E'�`,}...��, a' _r. _ IK,-1iy`� 7 r ��}rL�r41iT4'Y�fS��� + r .C"�(-,;tir:•� ! i; CAWIVIP wETFABLE ACIUL C's)lVtl'UTATLONAL WORKSBEVF 1. Farm Number (Identification) 2 �.,/� � field Number (Identification) L I 2. Irrigation System Designation 3. Type of Irrigation System Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/atr Ilard-Bose Traveler Center Pivot . Linear -move System 4. Number of Stationary Sprinklers It Interior sprinklers # Exterior sprinklers Number of Travel Lanes 4 Interior Lasses / 9 Exterior Lanes 5. Wetted Diameter 1,2 Y6 (feet] From field data sheet Length of pull tfeet] G. Spacing ZU Lateral / Hydrant Spacing (feet] _ 2) [as percentage of wetted diameter) Sprinkler spacing along lateral [feel] (as percentage of wetted diameter) 7. Sprinkler or Hydrant Layout . �_ _ Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinkiers/Hydrants S. Read the irrigated area per sprijWcr/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 Colunul Acres per Exterior sprinkler frorn Table Column Traveler: Interior Hydraztt (travel Lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of pull (Pull Length [feet] X Wetted Width [feet]) 143,56U (c) Acres stop end of pull from 'fable Colunin Total acres for Interior pull (Sung: a + b + c) Traveler: Exterior Hydrant (travel Iaue) � (a) Acres start end of pull front 'rabic 7�(__ Colunul .?i 2_ (b) Acres middle portion of pull (Pull LcngtlU'Vf—_ [feet] X Wetted Width /d'D [feel])/ 43,560 (c) Ac;-es stop end of pull From 'fable Column acres fur Exterior pull (Suns: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel bull by the number of sprinklers or pulls of each category in the field. Surat all of these and this is the total irrigated acreage for the field. (a) Acres per interior Sprinkler or full X U Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres ,?-. 73 z—Total Wettable Acre for field (Suer: 9a + 9b) Wettable Acre Computational Workslteet Completed by: _.F,.� i3•r.% Date: A —. % t ,%ii „ L 11 itULL At RE COMPUTATIONAL WOW(SIIEEF 1. ParmlNumber (Identification) _ X2Z - ./>� _ Field Number (Identification) )02— 2. Irrigation System Designation Lxisting Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler fate liard-Bose `l'raveler Center Pivot . Linear -move System 4. Number of Stationary Sprinklers 4 Interior sprinklers # Ewerior sprinklers Number of Travel Lanes / 4 Interior Laiies # Exterior Lanes 5. Wetted Diameter 1 LA [feel] From field data sheet _7_5o Length of pull [feet] G. Spacing 17 �— Lateral / Hydrant Spacing [feet] 70 [as percentage of welted diameter) Sprinkler spacing along lateral [feel] [as percentage of wetted diatncter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants B. Read the irrigated area per sprinkicr/travel pull for the given wetted diameter from the appropriate labale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprittlders Acres per Interior sprinkler front Table Colunul Acres per Exterior sprinkler from Table Column `traveler. Ltterior Uydrant (travel lane) ,1-#70 11. _ (a) Acres start end of pull from 'Table Column: 3 �,� • �y�= . �-' 3.Q� 7 (b) Acres middle portion of pull (Pull Length Ira [feet] X Wetted Width /7? [feet]} / 43,560 (c) Acres stop end of pull from 'fable Column ��%2 Total acres for Iuterior hull (Suet: a + b + c) Traveler: Exterior hydrant (travel lane) (a) Acres start end of pull from Table Column (b) Acres middle portion of bull (Pull Length [feet] X Wetted Width [feet])! 43,560 (c) Acres stop end of pull fronn 'fable Column Total acres for Exterior pull (Suut: a + b + c) 9. Multiply the tabulated irrigated acreage value per spriiMer or travel pull by llte 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 fi Sprinklers or Pulls - Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls - Acres 3-. a Total Wettable Acre for field (Suns: 9a + 9b) Wettable Acre Computational Workslieet Completed by: _ �.v.� /� • /_ � � :1 _ Date: r CAWNIV NVEYVAME ACRI r_:l_aMPUTATIONAL WOIUKSUEET +1. Farm Ntimber (Identification) Z _ / (-/ field Number (Identification) 2. Irrigation,System Designation Existing irrigation System New / Expanded Irrigation System 3. Type of Irrigation System 4, Number of Stationary Sprittlders Number of Travel Lanes 1 StationarySpritdcler/6yK —hard-Hose *l'iavcIer Center t'ivot , Linear -move Syslem it Interior sprinklers It Interior La:yes # Exterior sprinklers !# Exterior Lades 5. Wetted Diameter .2 Y o [feet] From field data sheet 7.3 a Length of pull [feet] G. Spacing Ik a Lateral 1 Hydrant Spacing [feet] 6 jas percentage of wetted diameterl Sprinkler spacing along lateral [feet] [as percentage of wetted diameterl 7. Sprinkler or Hydrant Layout Multiple LateralstRydrants Single Lateral[Hydrant Excessively spaced SpriiMers/l-lydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tr,'Jaic and colunui based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table — ____ Colunut Acres per Exterior sprinkler from 'fable Colunut Traveler: Interior Hydrant (travel lane) ,-,f o ^ (a) Acres start end of pull froth '1'ablel1 G f'—Colunvt __ -2-7f7i' (b) Acres middle portion of pull (Pull Length 73 o [feel] X Wetted Width,/4 7 lfecl]l 143,5G0 (c) Acres slop end of pull from. 'rabic Column .7_ / 9 fTotal acres for Interior pull (Sutn: a + b + c) Traveler: Exterior Hydrant (travel lnne) (a) Acres start end of hull from 'fable _ Culuttiit (b) Acres middle portion of pull (full Length [feet] X Wetted Width_ _ jreet]1/43,5G0 (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 (ravel hull by the number of sprinklers or pulls of each category in the field. Sum all of these and (Iris is (lie total irrigated acreage for the field. (a) Acres per Interior. Sprinkler or full X # Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or full X # Sprinklers or Pulls = Acres TY Total Wettable Acre for field (Suut: 9a + 9b) Wettable Acre Computational Workslieet Completed by: Date: CAWMP WE I`I'ABLE ACRE C!)ryll'U'I'A'I'IONAL 1YURKSH EE'I' I.' Farm Number (Identification) 8Z - Jz) Field Number (Identification) _ f 2. Irrigation System Designation 3. Type of Irrigation System Existing Irrigation System New / Expanded Irrigation System Stationary SpriiWer/,�yy liard-hose Traveler Center Pivot . Linear -move System 4. Number of Stationary SprUders ff Interior sprinklers 11 Exterior sprinklers Number of Travel Lanes 11 interior Lanes # Exterior Lanes 5. Wetted Diameter ,2,10 [feet] From field data sheet _ 61,o - Length of pull [feet] 6. Spacing f (eo Lateral 1 Hydrant Spacing [feet] 6) (as percentage of wetted diameterl Sprinkler spacing along lateral tfeet] [as perwitage of wetted diamcter) 7. Sprinkler or Hydrant Layout Multiple LateraWydranis Single Lateral/Hydrant Excessively spaced Spri rsll-IydrPlt B. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from (Im a r�iria�t ale and column based on pattern, spacing, and spri»kler/travel lane location. o -S�r Stationary Sprinklers n. S.. Acres per Interior sprinkler from Table Colunut (P �,;0 Acres per Exterior sprinkler from Table Colunui V �; 1 ".A Traveler: Interior Hydrant (travel lane) 1 5 ` • o - (a) Acres start end of pull from TablerG Colu"111 �. Vx y_ (b) Acres middle portion of pull f� (Pull Length LG a [feet] X Wetted Widdi/y a Meet)) /-43,560 (c) Acres stop end of pull from 'fable Co1u11113 .2.k ?Z Total acres for Interior hull (Suet: a + b + C) Traveler: Exterior hydrant (travel lane) (a) -Acres start end of pull from 'fable COIU1tlil (b) Acres middle portion of bull (Pull Length_____ [feet] X Wetted Width [feet])143,560 (c) Acres stop end of bull from 'fable Column Total acres for Exterior pull (Suns: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel lull 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 full X /I Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or full X . # Sprinklers or fulls — Acres ,? Total Wettable ,Acre for field (Sure: 9a + 9b) Wettable Acre Computational Worksheet Completed by: __'� �..� ,, .%� Date: �.r 4� i%11' ►1'LI 1AULL ACKE CU11 PUTATIUNAL WUltl(SUEL"l, 1. FarnitNumber (Identification) 2. Irrigation System Designation 3. Type of Irrigation System 4. Number of Stationary SpritMers Number of Travel Lanes field Number (identification) Existing Irrigation System New / Expanded Irrigation System Stationary Sprinkler/6�k,r Hard-klose Traveler Center Pivot . Linear -move Systetlt It Interior sprinklers 0 Exterior sprinklers It Interior Lanes J 4 Exterior Lanes 5. Wetted Diameter d? �_-O [feet] From field data sheet -700 Length of pull [feet) G. Spacing /G * Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] _ [as percentage of welted diatttcter) 7. Sprinkler or Hydrant Layout ' Multiple Laterals/Hydrants Single LateraltHydrant Excessively spaced Spriaklers/Hydrants 8. head the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate tabale and colunur based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Colunin Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) (a) Acres start end of pull from 'Table Colunut (b) Acres riddle portion of pull (Pull Length [feet) X Wetted Width [feet]] 143,560 (c) Acres stop end of pull from 'fable Column Total acres for Interior pull (Suns: a + b + c) Traveler: Exterior hydrant (travel lade) ,y G (a) Acres start end of pull front fable Ce- ,-' Column 73 (b) Acres middle portion of putt (Pull Lengtl oo [feet] X Wetted Width/G a [feet))/ 43,560 (c) Acres stop end of pull front 'fable Coluittit Total acres for Exterior pull (Suit: 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 11 Sprinklers or Pulls — Acres (b) Acres per Exterior Sprinkler or full X If Sprinklers or Pulls — Acres /./-f v Total Wettable Acre for field (Sure: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: ��� ►► OR' %VEI litBLk: ACitl: I-UAII'U'I'A'I'IUNAL 1VURKSUEI:'I' I. Farm`Number (Identification) �S2 -Y_ Field Number (Identification) P(o 2, Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of irrigation System Stationary I-lard-I-lose'Traveler Center Pivot . Linear -move Syslettt 4. Number of Stationary Sprinklers # Interior sprinklers 11 Exterior sprinklers Number of Travel Lanes # Interior Lanes _ ! _ # Exterior Lanes S. Wetted Diameter V0 [feet] From field data sheet _jz J Length of pull [feet] G. Spacing /,po Lateral I Hydrant Spacing [feet] Tj� [as percentagc of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diatueter) 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprink.lers/I-Iydrants 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the appropriate labale and colunui based on 'pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from Table Colunut Acres per Exterior sprinkler from Table Colunut Traveler: Interior hydrant (travel lane) (a) Acres start end of pull from Table Colunut (b) Acres middle portion of pull (Pull Length [Ceti] X Wetted Width [feet]) / 4 3,5 60 �(c) Acres stop end or pull from Table Column Total acres for Interior hull (Suet: a + b + c) Tr avcler: Exterior Hydrant ((ravel lane) .34 - (a) Acres start end oC pull front 'fable t E?i Coltmtn _ �3 3 . SS' )'-- (b) Acres middle portion or pa (Pull Length .2 �[Ceet) X Welted Width l yc7 [feel])/ 43,560 (c) Acres stop end or pull front 'fable - Column 9o-) Total acres for Exterior Trull (Suet: 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. Surat all of these and this is the total irrigated acreage for the field. (a) Acres per Interior Sprinkler or full X 0 Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls — Acres o '— Total Wettable Acre for field (Suui: 9a + 9b) Wettable Acre Computational Worksheet Completed by: 3,f- I, Dater i .e CAWNIP WETfAi3LL AC RE COMPUTATIONAL \VOIUI SUEE'r 1. Farm Number (Identification) 2. Irrigation System Designation 3. Type of Irrigation System Z� 1:FY_ field Number (Identification) �f Existing Irrigation System New / Expanded Irrigation System ? 7 Stationary Sprii&Jer/GyK Hard-I-loscTraveler Center Pivot . Linear -move System 4. Number of Stationary Sprinklers # interior sprinklers it Exterior sprinklers Number of Travel Lanes # Lrterior Lanes # Exterior Lanes 5. Wetted Diameter [feet] From field data sheet ,, O Length of pull [feel] G. Spacing IS-g Lateral / Hydrant Spacing [feet] '7 j ~ [as percentage of wetted dianneler] Sprinkler spacing along lateral [feet] [as percentage of wetted diaincter) 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single LateraltHydraut Excessively spaced Sprinklers/Hydrants 8.. Read the irrigated area per spri,&Jcr/travel pull for the given weltcd diameter from the appropriate labale and column based on pattern, spacing, and sprinkler/travel lane location. Stationary Sprinklers Acres per Interior sprinkler from 'fable Coiunur Acres per Exterior sprinkler from Table Column Traveler; Interior Hydrant (travel lane) (a) Acres start end of pull from 'rabic Column (b) Acres middle portion of pull (full Length [feet] X Wetted Width [feet]) / 43,560 (c) Acres stop end of pull front 'fable Column Total acres for Interior bull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) • 3 G (a) Acres start end of pull from 'l'7ble Calttiuui 21 (b) Acres middle portion of pull (Pull Length 5e) [feet] X Wetted Width /7o [feet])143,560 (c) Acres stop end of pull from 'fable Column ..!rV 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 lhis is the total irrigated acreage for line field. (a) Acres per Interior Sprinkler or full X /I Sprinklers or Pulls = Acres (b) Acres per Exterior Sprinkler or Pull X 0 Sprinklers or Pulls = Acres .-r7 ' Total Wettable Acre for field (Suw; 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: A /Y [ «J CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) Yr2 — rSG Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Gyw ' 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 field data sheet J� Length of pull [feet] 6. Spacing / S--y Lateral / Hydrant Spacing [feet] -- V [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 tabaie 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 Column Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) 7o X , �� , J i(a) Acres start end of pull from Tabled C=v Column a.�39, (b) Acres middle portion of pull (Pull Length b 7) [feet] X Wetted Width ./ 7v [feet])/ 43,560 (c) Acres stop end of pull from Table Column ;2 5�5 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 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _:� .� ��' f7 Date: • - /SAC u.a ' CAWMP WETTABLE ACKF COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) F2_- ./,7Y 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 V-"y Stationary Sprinkler/G„K Hard -Hose Traveler Center Pivot Linear -move System # Interior sprinklers # Exterior sprinklers # Interior Lanes `� # Exterior Lanes 5. Wetted Diameter [feet] From field data sheet s1-3& Length of pull [feet] 6. Spacing /)rV Lateral / Hydrant Spacing [feet] _ a [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 tabaie 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 Column Total acres for Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) . 31 (a) Acres start end of pull from Table Column X • /,f,,7 r (b) Acres middle portion of pull (Pull Length 143a [feet] X Wetted Width t 7v [feet])143,560 (c) Acres stop end of pull from Table Column /. F f 3 Total acres far 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 L. EZ Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: .. , ... ..A.,..k_%ji%ll a i�iL t IUoikL 11 Ukk61ILL i 1. r-pxmNumber (Identification) V L - _I_j'V Field Number (Identification) 2. Irrigation System Designation ` Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/GMN 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 a--S/� [feet] From field data sheet 2 / U Length of pull [feet] 6, Spacing a 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 f 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 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 Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) _ j 3 rl •3 3 7,� (a) Acres start end of pull from Table& L 4 `' Column �— ' 7' x 9 (b) Acres middle portion of pull (Pull Lengtl�/ U _ [feet] X Wetted Width i7o [feet])/ 43,560 (c) Acres stop end of pull from Table Column /. /a'G 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 /"_ Total Wettable Acre for field (Sum: 9a + 9b) Nettable Acre Computational Worksheet Completed by: 13A. -/ e Y _ Date: CAWMP WETTABLE ACRE'COMPUTATIONAL WORKSUEET 1. Farm Number (Identification) 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/Gye �r Center Pivot Hard -I -lose Traveler Linear -move System # Exterior sprinklers 9 Exterior Lanes 5. Wetted Diameter Z V o [feet] From field data sheet V Sy Length of pull [feet] 6. Spacing L o o Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] # Interior sprinklers # Interior Lanes 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sprinklers/Hydrants 8. Rea' d 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) . / yr(a) Acres start end of pull from Table C�rG Column a . 9G (b) Acres middle po of pull i (Pull Lengt� [feet] X Wetted Width —j, , [feet]) / 43,560 (c) Acres stop end of pull from Table Column Total acres for Interior pull (Sinn: 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 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: �(�.+.-� %3¢. /—� Date: 4 CAWMP WETTABLE ACRE COMPUTATIONAL WOI KSIIEET 1. Farm Number (Identification) r 2- / s Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/G.,,r 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 _ZYC) [feet] From field data sheet 74a Length of pull [feet] 6. Spacing j pp 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 SprinkSers/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) .z0' (a) Acres start end of pull from Tablet�a Column /3 /.7y !f (b) Acres middle portion of pull (Pull Length_ e v [feet] X Wetted Width i [feet]) / 43,560 (c) Acres stop end of pull from Table Column /. Total acres for Interior pull (Sum: 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 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 /. Yy Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: CAWMP WETTABLE ACRE COMPUTATIONAL WORKSUEET 1. r Farm Number (Identification) e2- ` I S Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/G.,, 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 2- [feet] From field data sheet 7IVJ Length of pull [feet] 6. Spacing vcv Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diamcter] 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) .. ;Zfc Y- - (a) Acres start end of pull from Table C 4- Column L Y 7fo (b) Acres middle portion of pull {Pull Length [feet] X Wetted Width loo [feet]) / 43,560 (c) Acres stop end of pull from Table Column ?_off otal acres for Interior pull (Sum: 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 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 W Acres �. 0Y V Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: % Date:_____ ___ CAWMP WETTABLE ACRE COMPUTATIONAL WORKSHEET 1. Farm Number (Identification) z - Field Number (Identification) 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System T Stationary Sprinkler/6.we Center Pivot 4. Number of Stationary Sprinklers # Interior sprinklers Number of Travel Lanes # Interior Lanes / 5. Wetted Diameter ZSlo _ [feet] From field data sheet e / o P/6 Hard -Hose Traveler Linear -move System # Exterior sprinklers # Exterior Lanes Length of pull [feet] 6. Spacing zoo Lateral / Hydrant Spacing [feet] �IZ_ [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diaincter] 7. Sprinkler or Hydrant Layout _ Multiple Laterals/Hydrants Single LateraUHydrant 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 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 Interior pull (Sum: a + b + c) Traveler: Exterior Hydrant (travel lane) 3�7(a) Acres start end of pull from Table,6 Column Z,/ G / (b) Acres middle portion of pull (Pull Length?./ E) [feet] X Wetted Width /'70 [feet])/ 43,560 (c) Acres stop end of pull from Table Column 3. q l y 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 Feld. 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 W Acres (b) Acres per Exterior Sprinkler or Pull X # Sprinklers or Pulls = Acres Y. �LfE Irotal Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: - Z),+ - �-� __ _ Date: CAWMP WETTABLE ACRE COMPUTATIONAL WORKSIIEET 1. Farm Number (Identification) X 2- r f S y _ Field Number (Identification) / 7 2. Irrigation System Designation T Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Gylr f 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 21/0_ [feet] From field data sheet o v Length of pull [feet] 6. Spacing Lateral / Hydrant Spacing [feet] [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted d:ametcr] 7. Sprinkler or Hydrant Layout / Multiple Laterals/Hydrants Single Lateral/Hydrant Excessively spaced Sp6rtld 8. Read the irrigated area per sprinkler/travel pull for the given wetted diameter from the a 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 (b) Acres middle portion of pull {Pull Length [feet] X Wetted Width (c) Acres stop end of pull from Table Total acres for Interior pull (Sum: a + b + c) Colun��k__ [feet]) / 43,560 Column Traveler: Exterior Hydrant (travel lade) i48 (a) Acres start end of pull from TableE67,7�_Column 3 `/3 P' (b) Acres middle portion of pull (PullLength'7yv [feet] X WettedWidth��[feet])/43,560 (c) Acres stop end of pull from Table Column JeR 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 categoryin the field. Sum all of these and tliis 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 •Fr Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: CAWMP WETTABLE ACkE COMPUTATIONAL WORKSIIEET 1. Farm Number (Identification) T .5-IV Field Number (Identification) "I" SJ 2. Irrigation System Designation / Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/Cir 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 Z VO [feet] From field data sheet l L j Length of pull [feet) 6. Spacing ! Lateral / Hydrant Spacing [feet] 7d" [as percentage of wetted diameter] Sprinkler spacing along lateral [feet] [as percentage of wetted diameter] 7. Sprinkler or Hydrant Layout Multiple Laterals/Hydrants Single LateraVHydrant 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 Spritilders Acres per Interior sprinkler from Table Column Acres per Exterior sprinkler from Table Column Traveler: Interior Hydrant (travel lane) ,st,/ (a) Acres start end of pull from Tables r-7 ]'Column 3_ �Z (b) Acres middle portion of pull {Pull Length Z [feet] X Wetted Width/,Fy [feet]) / 43,560 (c) Acres stop end of pull from Table Colunui 3,13 7Total acres for Interior pull (Sum: 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 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 13 7 Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: Date: CAWMP WETTABLE ACRE COI PUTATIONAL WORKSUEET 1. Farm Number (Identification) KI !� _ Field Number (Identification) y 2. Irrigation System Designation Existing Irrigation System New / Expanded Irrigation System 3. Type of Irrigation System Stationary Sprinkler/6y- // 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 qa [feet] From field data sheet %o 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 LateraVHydrant 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: Lxterior 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 Interior pull (Suns: a + b + c) Traveler: Exterior Hydrant (travel lane) (Ld' (a) Acres start end of pull from Table �2? Column 13 Z_j�Ob) Acres middle portion of pull {Pull Length [feet] X Wetted Width [feet])/ 43,560 (c) Acres stop end of pull from Table Column 3.F1 TotaI acres for Exterior pull (Sum: a + b + c) 9. Multiply the tabulated irrigated acreage value per sprinkler or travel Null 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 7. y/Y Total Wettable Acre for field (Sum: 9a + 9b) Wettable Acre Computational Worksheet Completed by: _e? 4✓ Be . / -1 Date: North Carolina Cooperative Extension Service College of Agriculture and life Sciences arm Name: Minson sessoms acility No. 82-154 ubject: Wettable Acre Amendment echnical Specialist: Danny Bailey revised field summary showing the nitrogen balance is included long with the wettable acre determination. Owners Signature Technica Specialis Signature ZR--'y zY ,�Fy _ Date Date Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability. North Carolina State University, Pforth Carolina A&T State University, U.S Department of Agriculture, and local governments cooperating. t'linC'1 �Rp�wce �'"fi Id115'1'1 UTILIZATION PLAN •�7i-✓S""` st ss�~S TABLE 1: ACRES OWNED BY PRODUCER FIELD SOIL 'TYPE & CLASS:: DETERMINING PRASE CROP CODE YIELD LI35 AW N PER AC COMt4 tJ PER AC ** ACRES * LLS Aw USED ' A"PLIC. TIME if/ /, ,, !r D4 J"As7,..ec iP�J — .P.Yf � YFPx��•J 3 . /%V w —v /I a3o 23 0 A /S 93 H -•a f / 7 a /7a �•1 y ,�c�/ 1.170 F/, ys.3 337 _ TOTA L F e J WASTE UTILIZATION PLAN TABLE l: ACRES OWNED UY PRODUCER FIELD 50IL TYPE & CLASS-- CROP YIELD Ll3S Cc DETERMINING PHASE CODE AW N I' PER AC 's ,Q MM NI ER AC ** I ACRES * Ll3S AW USED 1+'�kLIC. ',DIME r, ,03 /7 rr ;F e 7, 7 rr ry 6 V 3 •r TQTAL n r:T WASTL•' UTILIZATION ELAN TABLE 1: ACRES OWNED BY PRODUCER FIEL..I) SOIL TYPE & CLASS— CROP YIELD ' LBS COMM N ** * IaBS DETERMINING PHASE CODE AW N 11Ell ACRES AW PER AC AC USED A"PLIC. TIME v _ • �3 �y >07 .,r r J� 5C) —5 U 5 C) So 50 S� 5o ,?•73L /37 3..2 i7 /G 3 /Ga /.1 r y 60 /00 IOTA L ,------- m -- '. WASTE U'TILI•LA'TION PLAN TABLE 1: ACRES OWNED BY PRODUCER FIELD SOIL 'TYPE & CLASS- CROP YIELD LDS Comm tJ ** * Lf3S DETERMINING PHASE CODE AW N PER ACRES AW PER AC AC USED r A."PLIC TIME Ors ,. i v� /J 407?s 7 State of North Carolina Department of Environment and Natural Resources Division of Water Quality James B. Hunt, Jr., Governor Wayne McDevitt, Secretary A. Preston Howard, Jr., P.E., Director August 17, 1998 J. Minson Sessoms Sessoms Hog Farm 581 Concord School Rd Clinton NC 28328 ITLT-W,A 1 • • � lL NCDENR N04D OF ENMRC OECff RCES AUG 2 o'1998 FAYETTEvi LLE REG. OFFICE Subject: Certificate of Coverage No. AWS820154 Sessoms Hog Farm Swine Waste Collection, Treatment, Storage and Application System Sampson County Dear J. Minson Sessoms: In accordance with your application received on July 1, 1998, we are forwarding this Certificate of Coverage (COC) issued to F. Minson Sessoms, authorizing the operation of the subject animal waste collection, treatment, storage and land application system in accordance with General Permit AWG100000. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from the Sessoms Hog Farm, located in Sampson County, with an animal capacity of no greater than 3330 Feeder to Finish and the application to land as specified in the Certified Animal Waste Management Plan (CAWMP). The COC shall be effective from the date of issuance until April 30, 2003. 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, with no discharge of wastes to surface waters. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this farm. Any increase in waste production greater than the certified design capacity or increase in number of stocked animals above the number authorized by this COC will require a modification to the CAWMP and this COC and shall be completed prior to actual increase in either wastewater flow or number of animals. 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. Upon notification by the Division of this COC's expiration, you shall apply for its renewal. This request shall be made within 30 days of notification by the Division. This COC is not automatically transferable. A namelownership change application must be submitted to the DWQ 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 non -discharge permit by contacting the engineer listed below for P.O. Box 29535, Raleigh, North Carolina 2762E-0535 Telephone 919-733-7015 FAX 919-733-2496 An Equal Opportunity Affirmative Action Employer 50% recycled/ 10% post -consumer paper Certificate of Coverage AWS820154 Sessoms Hog Farm Page 2 information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. The subject farm is located in the 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 Peiinit,-please contact J R Joshi at (919) 733-5083 ext_ 363. Sincerel , /_ A. Preston Howard, Jr., P.E. cc: (Certificate of Coverage only for all cc's) Sampson County Health Department Fayetteville Regional Office, Water Quality Section Sampson County Soil and Water Conservation District Permit File i State of North Carolina Department of Environment and Natural Resources AV OP, 5K Division of Water Quality FJO Non-Discharge Permit Application Form (THIS FORM MAYBE PHOTOCOPIED FOR USE AS AN ORIGINAL) .• General Permit - Existing Liquid Animai'Waste Operations The following questions have been completed utilizing information on file with the Division. Please review the information for completeness and make any corrections which are appropriate. If a question has not been completed by the Division, please complete as best as possible. Do not leave any question unanswered. 1. GENERAL INFORMATION: 1.1 Facility Name: Sessoms Hog Farm 1.2 Print Land Owner's name: F. Minson Sessoms 1.3 Mailing address: 581 Concord School Rd City, State: Clinton NC Zip. 28328 Telephone Number (include area code): 910-592-4429 1.4 County where facility is located: Sampson 1.5 Facility Location (Directions from nearest major highway. Please include SR numbers for state roads. Please include a copy of a county road map with the location of the farm identified): Approx. 2 1/2 miles out of Roseboro NC on Hwy. 242 g ing towards Elizabethtown NC. Turn off 242 on a (dirt lane where there is 4 chicken houses, two on each side of 242, and two small ponds next to each other. Follow dirt road to the 5 h_ og houses. 1.6 Print Farm Manager's name (if different from Land Owner)— 1.7 Lessee's / Integrator' name (if applicable; please circle which type is listed): Prestage Farms 1.8 Date Facility Originally Began Operation: 01/01/88 E[If S 1 � �,,-o S a3 1.9 Date(s) of Facility Expansion(s) (if applicable): -I— a[ o R�— 7'o7i t- S� 2. OPERATION INFORMATION: 17,68 2.1 Facility No.: _82— (county number); l (facility number). 2.2 Operation Description: Swine operation v -F-e-eTe-r to Finish 3300- Certified Design Capacity is the above information correct? yes; Mno, If no, correct below using the design capacity of the facility The "No. of Animals" should be the maximum number for which the waste management structures were designed. Type of Swine . No. of Animals Wean to Feeder Feeder to Finish Farrow to Wean (# sow) Farrow to Feeder (# sow) Farrow to Finish (# sow) Type of Poultry No. of Animals Layer Non -Layer Turkey T e�+p_ of Cattle No. of Animals Dairy Beef 6-b Other Type of Livestock on the farm: No. of Animals: FORM: AWO-G-E 5/28/98 Page 1 of 4 82 - •154 2.3 Acreage cleared and available for application (excluding all required buffers and areas not covered by the application �system): 35.00 ; Required Acreage (as listed in the AWMP). 24 2.4 Number ol Cgoon)sstorage ponds (circle which is applicable): t 2.5 Are subsurface drains present within 100' of any of the application fields? YES or NO (please circle one) 2.6 Are subsurface drains present in the vicinity or under the lagoon(s)? YES or 6�a (please circle one) 2.7 Does this facility meet all applicable siting requirements? (Swine Farm Siting Act, NRCS Standards, etc.) (Swine Only) or NO (please circle one) What was the date that this facility's swine houses and lagoon were sited? What was the date that this facility's land application areas were sited? � . , 9— _: _ f 7 7 1" 3. REQUIRED ITEMS CHECKLIST Please indicate that you have included the following required items by signing your initials in the space provided next to each item. Applicants initials 3.1 One completed and signed original and one copy of the application for General Permit - Animal Waste Operations; 3.2 Two copies of a general location map indicating the location of the animal waste facilities and field locations where animal waste is land applied; 3.3 Two copies of the entire Certified Animal Waste Management Plan (CAWMP). If the facility does not have a CAWMP, it must be completed prior to submittal of a general permit application for animal waste operations. The CAWMP must include the following components: 3.3.1 The Waste Utilization Plan (WUP) must include the amount of Plant Available Nitrogen (PAN) produced and utilized by the facility. 3.3.2 The method by which waste is applied to the disposal fields (e.g. irrigation, injection, etc.) 3.3.3 A map of every field used for land application. 3.3.4 The soil series present on every land application field. 3.3.5 The crops grown on every land application field. 3.3.6 The Realistic Yield Expectation (RYE) for every crop shown in the WUP. 3.3.7 The PAN applied to every land application field. 3.3.8 The waste application windows for every crop utilized in the WUP. 3.3.9 The required NRCS Standard specifications. 3.3.10 A site schematic. 3.3.11 Emergency Action Plan. 3.3.12 Insect Control Checklist with chosen best management practices noted. 3.3.13 Odor Control Checklist with chosen best manageinerit practices. noted. 3.3.14 Mortality Control Checklist with the selected method noted. 3.3.15 Lagoon/storage pond capacity documentation (design, calculations, etc.). Please be sure to include any site evaluations, wetland determinations, or hazard classifications that may be applicable to your facility. 3.3.16 Operation and Maintenance Plan. If your CAWMP includes any components not shown on this list, please include the additional components with your submittal. FORM: AWO-G-E 5/28/98 Page 2 of 4 82 - 154 Facility Number: 82 - 154 Facility Name: Sessoms Hog Farm 4. APPLICANT'S CERTIFICATION: I, , ��% --- (Land Owner's name listed in question 1.2), attest that this application for ,5 s -o M5 f-to G plet tm (Facility name listed in question 1.1) has been reviewed by me and is accurate and complete to the best of my knowledge. I understand that if all required parts of this application are not completed and that if all required supporting information and attachments are not included, this application package will be returned to me as incomplete. Signature am ,�,, . Q�, r Date 5. MANAGER'S CERTIFICATION: (complete only if different from the Land Owner) (Manager's name listed in question l .6), attest that this application for V pp (Facility name listed in question 1.1) has beep reviewed by me and is accurate affd complete to the best of my knowledge. I understand that if all required parts of this application are not completed and that if all required supporting information and attachments are not included, this application package will be returned as incomplete. Signature Date �11 ZIT —re THE COMPLETED APPLICATION PACKAGE, INCLUDING ALL SUPPORTING INFORMATION AND MATERIALS, SHOULD BE SENT TO THE FOLLOWING ADDRESS: NORTH CAROLINA DIVISION OF WATER QUALITY WATER QUALITY SECTION NON -DISCHARGE PERMITTING UNIT POST OFFICE BOX 29535 RALEIGH, NORTH CAROLINA 27626-0535 TELEPHONE NUMBER: (919) 733-5083 FAX NUMBER: (919) 733-0719 FORM: AWO-G-E 5/28/98 ' Page 3 of 4 82 -154 . I1 f DIVISION OF WATER QUALITY REGIONAL OFFICES (1/98) Asheville Regional WQ Supervisor 59 Woodfin Place Asheville, NC 28801 (704) 251-6208 Fax (704)251-6452 Avery Macon Buncombe Madison Burke McDowell Caldwell Mitchell Cherokee Polk Clay Rutherford Graham Swain Haywood Transylvania Henderson Yancey Jackson Fayetteville Regional WQ Supervisor Wachovia Building, Suite 714 Fayetteville, NC 28301 (910)486-1541 Fax (910) 486-0707 Anson Moore Bladen Richmond Cumberland Robeson Harnett Sampson Hoke Scotland Montgomery Winston-Salem Regional WQ Supervisor 585 Waugbtown Street Winston-Salem, NC 27107 (910) 771-4600 Fax (910) 771-4631 Alamance Rockingham Alleghany Randolph Ashe Stokes Caswell Surry Davidson Watauga Davie Wilkes Forsyth Yadkin Guilford Washington Regional WQ Supervisor 943 Washington Square Mall Washington, NC 27889 (919)946-6481 Fax (919) 975-3716 Beaufort Jones Bertie Lenoir Chowan Pamlico Craven Pasquotank Currituck Perquimans Dare Pitt Gates Tyrell Greene Washington Hertford Wayne Hyde Mooresville Regional WQ Supervisor 919 North Main Street Mooresville, NC 28115 (704)663-1699 Fax (704) 663-6040 Alexander Lincoln Cabarrus Mecklenburg Catawba Rowan Cleveland Stanly Gaston Union lredell Raleigh Regional WQ Supervisor 3800 Barren Dr. Raleigh, NC 27611 (919)571-4700 Fax (919) 733-7072 Chatham Nash Durham Northampton Edgecombe Orange Franklin Person Granville Vance Halifax Wake Johnston Warreu Lee Wilson Wiltningtou Region. WQ Supervisor 127 Cardinal Drive Extension Wilmington, NC 28405-3845 (910) 395-3900 Fax (910) 350-2004 Brunswick Carteret Columbus DuPrm New Hanover Onslow Pender FORM: AWO-G-E 5/28/98 Page 4 of 4 ANIMAL WASTE UTILIZATION PLAN f=-9j Producer: MINSON SESSOMS Location: 581 CONCORD SCHOOL RD. CLINTON NC 28328 Telephone: (910) 592--4429 Type Operation: Existing Feeder to Finish Swine Number of Animals: 3330.00 hogs (Design Capacity) STORAGE STRUCTURE: Anaerobic Waste Treatment Lagoon APPLICATION METHOD: Irrigation The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface water 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 the 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: 1. Always apply waste based on the needs of the crop to be grown and the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. 2. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at less than 5 tons per acre per year. Waste may be applied to land eroding at 5 or more tons per acre annually, but less than 10 tons per. acre per year providing that adequate filter strips are established. 4. 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. ] age: 1 ANIMAL WASTE UTILIZATION PLAN 5. Wind conditions should also be considered to avoid drift and downwind odor problems. 6. 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 not more than 30 days prior to planting a crop or forages breaking dormancy. Injecting the waste or disking will conserve nutrients and reduce odor problems. This plan is based on the waste application method shown above. If you choose to change methods in the future, you need to revise this plan. Nutrient levels for different application methods 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. In some cases you may want to have plant analysis made, which could allow additional waste to be applied. Provisions shall be made for the area receiving waste to be flexible so as to accommodate changing waste analysis content and crop type. Lime must be applied to maintain pH in the optimum range for specific crop production. 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.) 3330 hogs x 1.9 tons waste/hags/year = 6327 tons AMOUNT OF PLANT AVAILABLE NITROGEN (PAN) PRODUCED PER YEAR 3330 hogs x 2.3 lbs PAN/hogs/year = 7659 lbs. 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 surface application. ] age: 2 - ANIMAL WASTE UTILIZATION PLAN TABLE 1: ACRES OWNED BY PRODUCER TRACT FIELD SOIL TYPE & CLASS- CROP YIELD LBS COMM N ** * LBS DETERMINING PHASE CODE AW N PER ACRES AW N PER AC AC USED ----- or ------- APPLY RESID. APPLIC METH 4.6 N TIME 2300 1 NoB BP 230 0 15.1 3473 I MAR-OCT 2300 1 I IIG 11 150 10 �5.1 1755 MAY 2300 2 BP 4.1 0, 2.0 JAU I 1205 1 1410 MAR-OCT 2300 SG 1 J-2- 1 I 150 10, 12.0 1100 SEP-MAY 2300 3 BP 3.4 0 8.0 1130B I 1170 11360 MAR-OCT 2300 SG 1 0 I �50 �8,0 1400 SEP-MAY 2301 1 BP 4.1 13.362738.8 jWaB 1205 10, MAR-OCT 2301 SG 1 50 0 P ll 113.361668 SEP-MAY 2301 2 BP 4.1 205 D lAu T 110.3 12111.5 MAR-OCT 2301 2 SG 1 50 D 515 I 11o.3 SEP-MAY END _T I TOTAL 1 12 5 31 . 3 - Indicates that this field is being overseeded (i.e. inter -planted) or winter annuals follow summer annuals. 1 ]age: 3 • ANIMAL WASTE UTILIZATION PLAN NOTE: The applicator is cautioned that P and K may be over applied while meeting the N requirements. In the future, regulations may require farmers in some parts of North Carolina to have a nutrient management plan that addresses all nutrients. This plan only addresses nitrogen. ] age: 4 ANIMAL WASTE UTILIZATION PLAN TABLE 2: ACRES WITH NOTARIZED AGREEMENT OR LONG TERM LEASE (Agreement with adjacent landowners must be attached.) (Required only if operator does not own adequate land. See required specification 2.) TRACT FIELD SOIL TYPE & CLASS- CROP YIELD LBS COMM N ** * LBS DETERMINING PHASE CODE AW N PER ACRES AW N PER AC AC USED ----- or ------- APPLY RESID. APPLIC METH N TIME END I TOTAL 10 Indicates that this field is being overseeded (i.e. interplanted) or winter annuals follow summer annuals. In interplanted fields (i.e. small grain, etc, interseeded in bermudagrass), forage must be removed through grazing, hay and/or silage. Where grazing, plants should be grazed when they reach a height of six to nine inches. Cattle should be removed when plants are grazed to a height of four inches. In fields where small grain, etc, is to be removed for hay or silage, care should be exercised not to let small grain to reach maturity, especially late in'the season (i.e. April or May). Shading may result if small grain gets too high and this will definitely interfere with stand of bermudagrass. This loss of stand will result in reduced yields and less nitrogen being utilized. Rather than cutting small grain for hay or silage just before heading as is the normal situation, you are encouraged to cut the small grain earlier. You may want to consider harvesting hay or silage two to Lhree times during the season, depending on time small grain is planted in the fall. The ideal time to interplant small grain, etc, is late September or early October. Drilling is recommended over broadcasting. Bermudagrass should be grazed'or mowed to a height of about two inches before drilling for best results.. ] age: 5 ANIMAL WASTE UTILIZATION PLAN ** Acreage figures may exceed total acreage in fields due to overseeding. * lbs AW N (animal waste nitrogen) equals total required nitrogen less any commercial nitrogen (COMM N) supplied. The following legend explains the crop codes used in tables 1 and 2 above: CROP CODE CROP UNITS PER UNIT BP SG HYBRID BERMUDAGRASS-PASTURE SMALL GRAIN OVERSEEDED TONS AC 50 50 TABLE 1 TABLE 2 TOTAL TOTALS FROM TABLES 1 AND 2 ACRES LBS AW N USED 48.76 12531.3 0 0 48.76 12531.3 * BALANCE -4872.3 *** This number must be,less than or equal to 0 in order to fully utilize the animal waste N produced. ] age: 5 ANIMAL WASTE UTILIZATION PLAN *** This number must be less than or equal to 0 in order to fully utilize the animal waste N produced. Acres shown in each of the preceding 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. See attached map showing the fields to be used for the utilization of animal waste. SLUDGE APPLICATION: The waste utilization plan must contain provisions for periodic land application of sludge at agronomic rates. The sludge will be nutrient rich and will require precautionary measures to prevent over application of nutrients or other elements. Your production facility will produce approximately 1232.1 pounds of plant available nitrogen per year in the sludge. If you remove the sludge every 5 years, you will have approximately 6160.5 pounds of PAN to utilize. Assuming you apply this PAN to hybrid bermudagrass hayland at the rate of 300 pounds of nitrogen per acre, you will need 20.535 acres of land. If you apply the sludge to corn at the rate of 125 pounds of nitrogen per acre, you will need 49.284 acres of land. Please be aware that these are only estimates of the PAN and land needed- Actual requirements could.vary by 25% depending on your sludge waste analysis, soil types, realistic yields, and application methods. 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. If surface irrigation is the method of land application for -,this plan, it is the responsibility 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 I ] age: 7 ANIMAL WASTE UTILIZATION PLAN 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. Tract Field Soil Type Crop Application Rate (in/hr) Applic. Amount (inches) 2300 1 NoB BP 0.50 *1.30 2300 2 Au BP 0.60 *0.96 2300 3 BoB BP 0.75 *0.65 2300 `1 SG 2300 '2 SG 2300 `3 SG '2301 1 WaB BP 0.60 *0.96 2301 2 Au BP 0.60 *0.96 2301 _1 SG 2301 `2 SG * 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 of the nitrogen limitation. The maximum application amount shown can be applied under optimum soil conditions. Your facility is designed for 180.00 days of temporary storage and the temporary storage must be removed on the average of once every 6.00 months. In no instance should the volume of the waste be stored in your stracture be within the 25 year 24 hour storm storage or one.foot of freeboard except in the event of the 25 year 24 hour storm. It is the responsibility of the producer and waste applicator to ensure that the spreader equipment -is operated properly to apply the correct rates to the acres shown in Tables 1 and 2. Failure to apply i the recommended rates and amounts of_nitrogen shown in the tables may make this plan invalid. i j age: 8 ANIMAL WASTE UTILIZATION PLAN Call your technical specialist after you receive the waste analysis report for assistance in determining the amount of waste per acre and the: proper application rate prior to applying the waste. NARRATIVE OF OPERATION t� ,�.1 �o e, c u� -�o r � a � Excess ZQcMtx�nc a5 S o,n k ��Gm J�11-6�1 . age: 9 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 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 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: 10 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 Lake 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 - FilterStrips). 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 W 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 inton 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. 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.). Areas shall be fenced, as necessary, to protect the vegetation. Vegetation such as trees, shrubs, dnd other woody species, etc., are limited to areas where cons'idered appropriate. Lagoon areas should be kept mowed and accessible. Berms and structures should be inspected regularly for evidence of erosion, leakage or discharge. j 1 Page: 11 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 thes 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 requlations. Page: 12 ANIMAL WASTE UTILIZATION PLAN WASTE UTILIZATI.ON PLAN AGREEMENT Name of Farm:SESSOMS HOG FARM Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established 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 storage system or construction of new facilities will require a new certification to be submitted to the North Carolina Division of Environmental Management (NCDEM) before the new animals are stocked_ I (we) also understand that there must be no discharge of animal waste from this system to surface wasters of the state from a storm event less severe than the 25- year, 24-hour storm. The approved plan will be filed on -site at the farm office and at the office of the local Soil and water Conservation District and will be available for review by NCDEM upon request. Name of Facility Owner: MINSON SESSOMS (Please print) Signature:Date: i' --- Z i --P� Name of Manager (If different from owner): Signature: Date: Name of Person Preparing Plan: (Please print)Wilson Spencer Affiliation:NRCS Address (Agency): Phone No. 84 County Complex Rd. Clinton NC 28328 r_- Signature: l 1' Date: Page: 13 SAMPSON COUN EMERGENCY ACTION PLAN DIVISION OF WATER QUALITY (DWD) 910-486-1541 EMERGENCY MANAGEMENT SERVICES (EMS) 910-592-8996 SOIL. & WATER CONSERVATION DISTRICT (SWCD) 910-592-7963 NATURAL RESOURCES CONSERVATION SERVICE (NRCS) 910-592-7963 COOPERATIVE EXTENSION SERVICE (CES) 910-592-7161 This plan will be implemented in the event that wastes from your operation are leaking, overflowing, or running off the site. You should NOT wait until wastes reach surface waters or leave your property to consider that you have a problem. You should make every effort to ensure that this does not happen. This plan should be posted in an accessible location for all employees at the facility. The following are some action items you should take. 1. Stop the release of wastes. Depending on the situation, this may or may not be possible. Suggested responses to problems are listed below: A. Lagoon overflow -possible solutions are: a. Add soil 'to berm to increase elevation of dam, any permanent alteration of the dam should be approved by'a qualified technical specialist. b. Pump wastes to field at'an acceptable rate. �• c. Stop all additional flow to the lagoon -hold waste in the house if possible. d. Call a pumping contractor. e. Make sure no -surface water is. entering lagoon. B. Runoff from waste application field -action include: a. Immediately stop waste application. b. Create a temporary diversionor berm to contain the waste. c. Incorporate waste to reduce further runoff. d. Evaluate and eliminate the reason(s) that caused the runoff. e. Evaluate the application rates for the fields where runoff occurred. C. Leakage from the waste pipes and sprinklers -action include: a. Stop recycle (flushing system) pump. b. Stop irrigation pump. C. Close valves to eliminate further discharge. e. Repair all leaks prior to restarting pumps. D. Leakage from flush system, houses, solids separators -actions include: C a. Stop recycle (flushing system) pump. b. Stop irrigation pump. -. C. Make sure no siphon effect has been, created. d. Stop all.flows in the house', flush systems, or solid separators. e. Repair all leaks prior to restarting pumps. E. Leakage from base or sidewall of lagoon. Often this is seepage as opposed to flowing leaks -possible action: a. Dig a small sump or ditch to catch all seepage, put in a submersible pump, and pump back into lagoon. b. If holes are caused by burrowing animals, trap or remove animals and fill holes and compact with a clay type soil. c. Have a professional evaluate the condition of the side walls and the lagoon bottom as soon as possible. 2. Assess the extent of the spill and note any obvious damages. a. Did the waste reach any surface waters? b. Approximately how much was released and for what duration? c. Any damage noted, such as employee injury, fish kills,'or property damage? d. Did the spill leave the property? e. Does the spill have the potential to reach surface waters? f. Could a future rain event cause the spill to reach surface waters? g. Are potable water wells in danger (either oh.or'off of the property)? h. How much reached surface waters? 3. Contact appropriate agencies. a. During normal. business hours, call your DWQ (Division of Water Quality) regional office, at 910-486-1541, after hours, emergency number:919-733-3942. Your phone call should include: YOUR NAME, FACILITY, TELEPHONE NUMBER, THE DETAILS OF THE INCIDENT FROM ITEM #2 ABOVE, THE EXACT LOCATION OF THE FACILITY, AND THE LOCATION OR DIRECTION OF MOVEMENT OF THE SPILL, WEATHER AND WIND CONDITIONS. THE CORRECTIVE MEASURES THAT HAVE BEEN UNDER TAKEN, AND THE SERIOUSNESS OF THE SITUATION. b. If spill leaves property or enters surface waters, call local (EMS) Emergency Management Services at 910-592-8996. c. Instruct EMS to contact local Health Department. d. Contact local SAMPSON Soil and Water Conservation District (SWCD), Natural Resources Conservation Service (NRCS) office at 910-592-7963 and Cooperative Extension Service (CES) at 910-592-7161 for advice/technical'-7 assistance. 4. If none of the above works call 911 or the sheriffs Department and explain your problem to them and ask that person to contact the proper agencies for you. ' 5. Contact the contractor of your choice to begin repair of the problem to minimize off -site damage. a. Contractors Name: b. Contractors Address: c. Contractors Phone: ?1`271 6. Contact the technical specialist who certified the lagoon (NRCS, Consulting Engineer, etc.) a. Name: 1W e 4l b. Phone: S - 7 7. implement procedures as advised by DWO and technical assistance agencies to rectify the damage, repair the system, and reassess the waste management plan to keep problems with release of wastes from happening again. B. If you are a contract swine grower associated with a swine company integrator, contact the company representative at 1-910-592-5771 iy 1 u , 1' - , 1 rr - •�� ��7 IM 'y +° C +:\ ji Z. 7 01 1 i• IN L yy Z" VI- �; .. is ..• �� Irl r r I• F� � /' ✓ y rj� 1 It L, YY iC 5� LE �FJ Swine Farm Waste Management Odor Control Checklist Source Cause UMPs to Minimize Odor Site Specific Practices Ptlrmilt;Ad Swine production Y gettilivc or wooded buffers; Recommended best management practices; �ood judgment and common sense Animal body surfaces • Dirty manure -covered animals floors Floor surfaces • Wet manure -covered floors tted floors; Waterers located over slotted floors; O Feeders at high end of solid floors; rape manure buildup from floors; Y�*ffoor ventilation for drying anure collection pits • Urine; XFrequent manure removal by flush, pit recharge, • Partial microbial decomposition or scrape; ❑ Underfloor ventilation Ventilation exhaust fans • Volatile gases; ;J;Pr-10 maintenance; Dust �cient air movement Indoor surfaces • Dust )3' Waslidown between groups of animals; O Feed additives; ❑ Fe r covers; ecd delivery downspout extenders to feeder covers Flush tanks • Agitation of recycled lagoon ❑ Flush tank covers; liquid while tanks are filling ❑ Extend fill lines to near bottom of tanks with pitr-siphon vents Flush alleys • Agitation during wastewater Underfloor flush with underfloor ventilation conveyance 4 Pit recharge points • Agitation of recycled lagoon ❑ Extend recharge lines to near bottom of pits liquid while pits are filling wills anti -siphon vents Lift stations • Agitation during sump tank O Sump tank covers filling and drawdown Outside drain collection • Agitation during wastewater 0 Box covers orjunction boxes conveyance AMOC - November 11, 1996,' Page 3 Source Cause BMPs to Minimize Oddr Site Specific Practices End of drainpipes at • Agitation during wastewater ❑ Extend discharge point of pipes underneadt lagoon conveyance lagoon liquid level Lagoon surfaces • Volatile gas emissions; Proper lagoon liquid capacity; • Diologlcal mixing; �orrecl lagoon startup procedures; • Agitation .Minimum surface area-to•volume ratio; Minimum agitation when.pumping; ❑ Mechanical aeration; ❑ Proven biological additives Irrigation sprinkler • High pressure agitation; 9-'/rrrigate on dry days with little or no wind; nozzles • Wind drill imum recommended operating pressure;. , ' "Pump intake near lagoon liquid surface; ❑ Pump from second -stage lagoon ' Storage tank or basin • Partial microbial decomposition; C1 Bottom or midlevel loading; surface • Mixing while filling; ❑ Tank covers; • Agitation when emptying 1 ❑ Basin surface mats of solids; I . ❑ Proven biological additives or oxidants Settling basin surface • Partial microbial decomposition, ❑ Extend drainpipe outlets underneath liquid • Mixing while Filling; level; • Agitation when emptying ❑ Remove settled solids regularly Manure, slurry or sludge • Agitation when spreading; ❑ Soil injection of slurry/sludges; spreader outlet • Volatile gas emissions ❑ Wash residual manure from spreader after use; ❑ Proven biological additives or oxidants Uncovered manure, • Volatile gas emissions while ❑ Soil injection of slurry/sludges slurry or sludge on field drying ❑ Soil incorporation within 48 hrs.; surfaces ❑ Spread in thin uniform layers for rapid drying; ❑ Proven biological additives or oxidants Dead animals • Carcass decomposition Proper disposition of carcasses Dead animal disposal 0 Carcass decomposition ❑ Complete coveriiib of carcasses lit burial pits; pits off' Proper location/conslruction of disposal pits Incinerators • incomplete combustion 0 Secondary stack burners AMOC - November l 1, 1996, Page 4 1 Source Cause f BMPs to Minimize Odor Site Specific Practices Standing water around + Improper drainage; ,� Grade and landscape such that water drains facilities . Microbial decomposition of away from facilities organic matter Manure tracked onto • Poorly maintained access roads Farm access road maintenance r public roads lVom farm access Additional Information : Available From : Swine Manure Management; 0200 Rule/BMP Packet NCSU, County Extension Center Swine Production Farm Potential Odor Sources and Remedies ; EBAE Fact Sheet NCSU - BAE ' Swine Production Facility Manure Management: Pit Rccilarge - Lagoon Treatment ; EBAE 128-88 NCSU - l3AE Swine Production Facility Manure Management: Underfloor Flush - Lagoon Treatment ; EBAE. 129-88 NCSU - BAE Lagoon Design and Managemcnt for Livestock Manure Treatment and Storage ; E13AE 103-93 NCSU - BAE Calibration of Manure and Wastewater Application Equipment ; EBAE Fact Sheet NCSU -13AE Controlling Odors from Swine Buildings; PIH-33 NCSU - Swine Extension Environmental Assurance Program ; NPPC Manual NC Park Producers Assoc Options for Managing Odor,, a report from the Swine Odor Task Force NCSU Agri Communications , Nuisance Concerns In Animal Manure Management; Odors and Flies ; PRO107, 1995 Conference Proceedings Florida Cooperative Exivision AMOC - November 11, 1996, Page 5 1 '� Mortality Management Methods (check which method(s) are being implemented) ❑ Burial three feet beneath the surface of the ground within 24 hours after knowledge of the death. The burial must be at least 300 feet from any flowing stream or public body of water. Rendering at a rendering plant Iicensed under G.S. 1'06-168.7 ❑ Complete incineration ❑ In the case of dead poultry only, placing in a disposal pit of a size and design approved by the Department of Agriculture ❑ Any method which in the professional opinion of the State Veterinarian would make possible the salvage of part of a dead animal's value without endangering human or animal health. (Written approval of the State Veterinarian must be attached) 0 December 18, 1996 U. S. Department of Agriculture NC-ENG-34 Soil Conservation Service September 1980 File Code: 210 HAZARD CLASSIFICATION DATA SHEET FOR DAMS Landowner M+nson SgssoMs County SAMASon Community or Group No. Conservation Plan No.�_ Estimated Depth of Water to Top of Dam Ft, Length of Flood Pool Ft. Date of Field Hazard Investigation (V.eL! Z Evaluation by reach of flood plain downstream to the point of estimated minor effect from sudden dam failure. Est. Elev. :Est. Elevation Kind of :Improvements: of Breach Reach: Length: Width: Slope: Land Use Improvements : Above :Floodwater Above : Flood Plain: Flood Plain Ft. Ft. Ft. Ft. 1 2 . : 3 Describe potential for loss of life and damage to existing or probable future downstream improvements from a sudden breach A SUDDEN FAILURE OF STRUCTURE WILL NOT f ENDANGER LIFE OR DAMAGE PUBLIC TRANSPORTATION. LAGao n + S + ►-� �� R 4�. ARVA of CkeP1.,pn0 LbCATCD loon r r F,eom MULA-rYO BRAACO Hazard Classification of Dam (a, b, c) (see NEM-Part 520.21) a Dam Classification (1, II, III, IV, V) By a1. JCS... CLj rr., ' D. 7 (name) rtt e Concurred ByLAM=-Q. name) - - - (title NOTE: 1. Instructions on reverse side: 2. Attach additional sheets at needed. Date_ G19f92- Date 711314_ Operator:MIMSON SESSOMS County: SAMPSON' Date: 07/08/92 ' Distance to nearest residence (other than owner): 1000.0 feet 1. S7EADY STATE LIVE WEIGHT 0 sows (Farrow to finish) . x 1417 ibs. = 0 |bs 0 sows (Farrow to feeder) x 522 tbs. = 0 |bs 1470 head (finishing on:y) x 135 tt/s' = 198450 !bs 0 sows (farrow to wean) x 433 tbs. = 0 |bs 0 hvud (wean to feeder) x 30 tbs. = 0 }bs TOTAL STEADY STATE LIVE WEIGHT (SSLW) = 198450 |bs 2. MINIMUM REQUIRED TREATMENT VOLUME OF LAGOON Vo|oma = 178453 |bs. SSLW x Treotment Voiume(CF)/}b. SSLW 1reatment Vo|ume(CF)/|b. SSLW= 1 CF/lb. SSLW Volume = 198450 cubic feeC 3. STORAGE VOLUME FOR SLUDGE ACCUMULATION VC, Iume = 0.0 cubic feet ; "Owner requests no sludge storage. Sludge will be removed as needed." 4. TOTAL DESIGN VOLUME Inside top |eo8th 250.0 Peet ; 7w5ide top width 140.0 feet Top of dike at elevation 19'0 feet Freeboard 1.3 feet ; Side slopes 2.5 : 1 (inside lagoon) Total desi8o |a800n liquid |eve| at elevation 47.7 feet Bottom of Qgoon elevation 37.0 feet Seasonal hi3h water table elevation 0.0 feet Total dcsiSn volume using pribmnida| formula � SS/E��Dl SS/ENDZ SS/SIDE! SS/SIDE2 LENSTF� WIDTH DEPTH 2'5 2.5 2n 2.5 243.5 133.5 10.7 AREA OF TOP LENGTH * WIDTH = 243.5 133.5 32507.3 (AREA OF TOP) AREA OF BOTTOM LENGTH * WIDTH = 190.0 80.0 15200.0 (AREA OF BOTTOM) AREA OF MIDS£CTlON LENGTH * WIDTH * 4 216.8 106.1-1.: 9255213 (AREA OF MIDSECTION CU. FT. = [AREA TOP + (4*AREA MIDSECTIOH) + AREA BQTTO�] * DEPTH/6 325d7 3 92552 3� 1 ' . 15200.0 .8 VOLUME OF LA-3OON AT TOTAL DESIGN LIQUID LEVEL = 250129 CU. FT. ��. TEMPORARY STO�AGE R£[/UlRE� ' �RAINAG£ A��A: L�8uoo (t�p of ke) Len3t� * W�dth = _ 250.0 t40.O �500O.0 yquare feet 8uiidio8s (roof J 1ot wuter) Lon8th * WiUtb = 0.0 0.0 0.0 square feet TOTAL DA 35000.0 square feet ' Design temporary storaje Period to be 180 days. 5A. Volume of waste produced Approximate dai |y pr-oduction of in CF/LB SSLW' 0.00136 Vo|ume = SSLW * CF of Wasbe/Lb./Day * 180 days Vo|ume = 48463 Lub\c feet 5�. Volume of wash water This is tke amount of fresh water used [or washio3 f|oors or vo|ume of fresh -,ater used for a f|ush system' Flush systems that recircu|ate the |om, water -are accounted for in 5A' v"|ume = 0.0 ga||ons/day * 18O days stora8e/7.43 gal |ons per CF Vo|ume = 0.0 cubic feet ' 5C. Voiutile of rainfa�| in excess of evaporatioo Use psriod u; ��*e �hen rainfa|| e:ceeds evapor�tioo by |argest amou��. 180 days excess rainfa|| = 7.0 inches VC, |Lone = Y. ioches per foot Vo/ume = 2C4.16.7 cubic feet °' ^ �l D. Vo|ume if 2� year - 24 huur storm .' Vo|ume = 7.0 ioches / 12 ioches per fuut * DA Vc.|ume = 20416.7 cubic feet TOTAL REQUIRED STORAl E - 5A. 48463 cubic feet 5B. 0 cubic feet 20417 cubic feeb 5D' 20417 cu�ic feet TOTAL 89296 cubic feet . SUMMARY Tota| re,quired vo|ume 287746 cubic feet Total desi3n volume avail.25012Y cubic '==^ Min. req. vo|ume p|us s|ud8e accumulation 198450 cubic feet At elev. 45'0 feet ; Vo|ume is 16906T cubic feet. (end pumping) Tota| desi8n vo|ume |ess 25yr-24hr sturm is 229T13 cubic feet At elev. 47'0 feet ; Yo|ume is 227833 cubic feet (atart pumpin8> Geasona| hi3� water tah|e e|evation 0'0 feet ^ -~-: Gac A VP kbVEI)`.'BY,461_1a& DATE: '7/B|9� DATE: -J���- ^ � n x' MOTE: SEE ATTACHED WASTE UTILIZATION PLAN OP-Lr•.'AT I O-41 AND PLAN RE C Cf1 V E D �q�A y Y ERnOlimii_rSECIiON Th i s I agoort is des i srted For waste trea trier',,, w i th rn i rt i rr,um odor contra I . The time required for the pianned fluid ! ev-e 1, � An reached rray varydsk to s_, I I coed 1 t i or,s r f I ush I ri3 op-C- at i'I - 223.IPW the amount ,?f fr ess , '.`ate.-- added �.-,1 LI'te sys em. Non"Discharge Pe,''rndng Land app l i cation ,-,r waste water is rer--og l i zed as art acceptab; e method Gf d i sposa I Methods ,_,f aPp I i Cat i on i irC I Itde so i i d 52t} center" P i VOt, gLr,S and tr`ave I i rig •3u:'I i rr i Sat i on. Care should be taken when applying was Lc to prevent runo—FTF from the field or dama3e to crOE: S. The fc, 1 1 ow i nr3 i'`i.errls are tc, be car-r i Ed out i. It is strong11y recorintmended ti-tat the treatmer,L Ia'aoon be pre - charged to 1/2 i is capac i ty to Pr event exc ess i ve odors dur i rig start-up, F're-ch.ar3 i n3 reduces the concert. tratl,Jr, of the i n i t if a 1 waste ent -r" intz ti-,_ l a3oor, thereby reduc -Ing odors. Solids should be covered wi Lh eT=luent at all Limes. 4: The attached waste ut i 1 i zat i on plan shai I be fo; ; c,wed. This plan recommends same] i ng and test i r,3 of waste' ( see Attachment B) befi,r-e -1 and a p p ; i c at i on. i Feq i r, pump -out of the I agoon when f l u i d I eve 1 reaches e I eva- t i on 47.0 as marked by permanent rnarklers. Stop pump, -out when the fluid level reaches elevation 45.0 or before fluid depth is less than 6 feet veep, (this prevents the loss of favorable bacteria) . 4. The recommended max i mum arnount t._, apply per irrigation is - one (1) inch and the recommended max i murn app i i cation rate is 0.4 inch per hour. E.. Keep va3etat I on or, the errbar4-fief, and areas . adjac Ent to the I a3oon mowed annua; l y. Vesetat i -'r, shou 1 d be f ert i I i zed as needed to ma i nta i n a v i 3,_,ro,ls stab,v. Repair" any eroded areas ,_ir areas dar,3a3et tcy, r cid 2n`5 and CstaL, I i 511 r, veaeta 4 1 [-r,. 7. All surface runc,fr is to be diverted frz,rr, t`le I r1 t0 stab I e outlets. v S I I 11=' �- 3 t' d r S IA; �. L e: tt C, t 1, f J. r� �r r- e_, ?�t 1 I_, I t t k f a + 1 ra C I S +i r 'zi E L, f po I I utants i nto waters of the Ur, i t'ed States. The Department of • Environment, Health, and Natural Resources, D i v i s i ot, or Env i rorl- menta l itilartagement,, has the respons i b i I i ty for enforc i rt3 this law. S Liperatur:MINSi<N SESSOMS County: SAMPS'k--IN Date: 07/08/9Z Distance to nearest residence (tither- than owner-); 1000—U feet 1. STEAD`! STATE LIVE WEIGHT U 5ows (farrow to finish) x 1417 its. - G lbs U s,aws (fa —row to feeder) X 5" lbs. - 0 lbs 1470 head (fir,isf,ing or, Iy) .. 1.;.5 lbs. _ 1'1718450 iiss Q sows (far -row to wean) x 4 1,bs. - 0 lbs 0 head (Wedo to feeder) ID l i,s. _ 0 TOTAL STEAD:' STATE LIVE WEIGHT (SSLW) = 198450 lbs MINIMUM REQUIRED TREATMENT VOLUME OF LAGOON Vo11�M2 - 1:r=4_cJ ltls. S'LW .. Tr eatment 'Ji-lume(C•F)/:w{. SSLW Treatment Vo l u.r,e (C:F) / I b. SSLW = 1 C:F/ 1 li. SSLW Va 1 umle = 19'.3450 cubic feet STORAGE VOLUME FOR SLUDGE ACC:UM'ULATIfIfN Vo 1 ume = 0.0 cubic feet ; "Owner- requests no sludge storage. Sludge will be removed as needed." 4. TOTAL DES I GN VOLU1+�'IE Inside top length 250.0 feet ; inside top width 140.0 feet Top of dike at elevation 47.0 feet Freeboard 1.3 feet ; Side slopes '.a : 1 ( Ir,s i de I agoc,ni Total design lagoon liquid level at elevation 47.7 feet Bottom of laelevation C:7.Cr feet Seasonal high water- table elevation 0.0 feet Total design volume using pr i smo i da l formula SS/END1 SS/END' SS/SIDE1 SS/SIDEZ' LENGTH WIDTH DEPTH AREA OF TOF LENGTH # WIDTH = .:4: .5 133 .5 AREA OF L•,I_ITTOM LENGTH * WIDTH _ AREA OF MIDSECTION LENGTH * WIDTH � 4 (AREA OF TO ' ) 15'Z'00 . 0 ( AREA OF BOTTOM) 9'55 .3 ( AREA OF M I DSEC:T I C I;l * 4 ) C:U . FT. = [AREA TOP + (4*AREA MIDSECTION) + AREA BOTTOM] 2567 . 92_155' . 3 15C:00. 0 VOLUME OF LAGOON AT TOTAL DESIGN LIQUID LEVEL = DEPTH/6. 1 . c. '5012*9 CU. FT. C/ _ . TErr�i '�_�riAf'% ST>=1FiAC7E E��;U 1 F:EL7 DRAINAGE AREA: Lago;.-n ( top of d i Ise ) Length * Width = 25,0.C, 14*0.0, S5000.0 square feet Bu i I d i rigs ( roof and l of water-) Lertyth Width = 0.0 0.0 0.0 square feet TOTAL DA 35000.0 square feet Design ternporary stor-aye to be 1.80 days. 1 A. Volume of waste produced Approximate da i I y Fir oduct i on of manure in Cr /Ll-N SSLW 0.001S6 volume = 19L:4-150 Lbs. SSLW * Crr of Waste/Lb./Day * 180 days Volume = 4S46:3 cubic feet U. Volume of wash water- This is the arnount of fresh water used for washing flours or volume of fresh water used for a flush system. Flush systerns that recirculate the lagoon water are accounted for in 5A. Volume = 0.0 gallons/day * 130 days storage/7.4S gallons per CF Vu I urne = 0.0 Cubic feet - 5C:. Volume of ra i nfa I I in el-cess of eva �or-at i �n Use Period of time when rainfall, exceeds evaporation by largest amount. 1'80 days eXcess rainfall - 7.0 inches Vu i ume = 7.0 in * DA / IZ inches per foot Vo I ume = 20416.7 cuts i c feet ♦ .. J. VG I uute of ::.5 Year - 24 hour" storrn Vo I urne = 7.0 inches t It inches per facet * DA Va I erne - cubic feet TOTAL SEQUIn4D TEMPORARY S T ORAG-E 5A. 4846_; cub i c tfeet 5L. 0 cull i c feet 5C- Z0417 cub i c tee t ED. 20417 cubic feet TOTAL 89296 cub i c feet . SUMMARY Total required volume 2G"1 746 cubic feet Total design volume ava i i . 2501'29 cubic feet Z7t,3o9 CyQ�G eggT DAM t o 2 iso Gvb.'c Avg%4 3 Min. req. treatment volume plus sludge accumulation 1='34510 cubic feet At elev. 45.0 feet ; Volume is 1t 9067 cubic feet ( end pumping) Total ties i 3n volume less 25yr--'.-'4htr storm is 22971 cubic -feet At e I ev. 47.0 feed ; Volume is 2278S? cubic feet (start pumping) Seasonal high water table elevation 0.0 ferret RY : GG C AXWV :Y $ DATE: Z1 6C 9Z DATE 1314�-- NOTE: SEE ATTACHED WASTE UT I L I ZA T I O j PLAN St 9 A3ti v4Li ....... ... ................ .... ........... T ................ ........ Z. .. . . . . . . KHMERS NOLINAUHSNo') 'lloq np, AO JN� 'S'fl ....... . . .. . . . . . . . . 1 7- ...... I .... ....... 7 79 T . . . . . . . . . . . . . . Y, .......... .............. . ..... IT '4 11 .... ...... . 12- r t I It•7-77 7 . . . . . . . . . . . . . . . . . ......... . . . . . . . ....... .. T. . . . . . . . . . . . . ... . . . . . . . . . . . . . . . . Insect Control Checklist for Animal Operations Source Cause BMPs to Control Insects Site Specific Practices Liquid Systems Flush gutters • Accumulation of solids 9 Flush system is designed and operated sufficiently to remove accumulated solids from gutters as designed 0" Remove bridging of accumulated solids at discharge Lagoons and pits • Crusted solids 7 Maintain lagoons, settling basins and pits where pest breeding is apparent to minimize the crusting of solids to a depth of no more than 6 to 8 inches over more than 30 percent of surface Excessive vegetative . Decaying vegetation Gr Maintain vegetative control along banks of growth lagoons and other impoundments to prevent accumulation of decaying vegetative matter along water's edge on impoundment's perimeter. Feeders Feed spillage O Design, operate, and maintain feed systems (e.g,, bunkers and troughs) to minimize the accumulation of decaying wastage O Clean up spillage on a routine basis (e.g., 7- to 10 day interval during summer; 15- to 30-day interval during winter) ANIMAL WASTE MANAGEMENT PLAN CERTIFICATION FOR EXISTING FEEDLOTS Please return the completed form to the Division of Environmental Management at the address on the reverse side of this form. Name of farm (Please print) copy of a county road map with location ddentift-W7 . Type of operation (swine, layer, dairy, etc.) Design capacity (number of animals) : Average size of operation (12 month population avg.): Average acreage needed for land application of waste (acres) : [� Technical Specialist Certification As a technical specialist designated by the North Carolina Soil and Water Conservation Commission pursuant to 15A NCAC 6F .0005, I certify that the existing animal waste management system for the farm named above has an animal waste management plan that. meets the operation and maintenance standards and specifications of the Division of Environmental Management and the USDA - Soil Conservation Service and/or the North Carolina Soil and Water Conservation Commission pursuant to 15A NCAC 2H.0217 and 15A NCAC 6F .0001 - .0005. The following elements and their corresponding minimum criteria have been verified by me or other designated technical specialists and are included in the plan as applicable: minimum separations (buffers); adequate quantity and amount of land for waste utilization (or use of third party); access or ownership of proper waste application equipment; schedule for timing of applications; application rates; loading rates; and tie control of the discharge of pollutants from stormwater runoff events less severe than the 25 - year, 24 - hour storm. When checked, see reverse side of form for conditions/exceptions. Name of Technical Specialist (Please Print): Affiliation (Agency): [ Address (Agency): 2 V �, Signature: Owner/Manager Agreement 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 new certification to be submitted to the Division of Environmental Management before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface waters of the state either directly through a man-made conveyance or through runoff from a storm event less severe that the 25-year, 24-hour storm. The approved plan will be filed at the farm and at the office of the local Soil and Water Conservation District. Name of L d-Qwner (Please Print Signature:7 Name of Manager, if different from owner Signature: _ Se 55 0 te: /,-- — Date: Note: A change in land ownership requires notification or a new certification (if the approved plan is changed) within 60 days of a title transfer. DEM USE ONLY: ACE# t: ,Y � i' �:. .y -r V y .j, ,'!�; . !,. +,•+.�• •ll •� �4y'�' C,,., 7'-��L{,.1. t 'Yil j .r�.•j.i: i '1. .. r��::lr•f�!u.'=♦•-Y•^.rti' iy. 1 It ?,'` "'�"�ti,,{'�ij„7s♦v1', 5 A. n''Ilf f 't,. I{i..L��N •f' yt /'S ♦ �'ir,}, i/.1 ,ems "•�•�+•'}� ''� �` 1; ':,i'r`� • :;' 7�;�.4f`>ty�3�"-:h1.'•.:7' ;%yL •�' 1.��rrb•'': ,i+ k"''i. �: xy,,{`� n+,.>,d �.i. i T 1-�� ^�['•:y�' i�rj..3r � } , �. t� �` Y�... '0.iM,�[,�•, . , 1_!�J�•,���i i�.�•r �i f�": +�N4�J VT •�••;���tr' _. :;���y It{fir. rT rr,Q'iy�'��.r�.'d,+iriC �'"�• •xt:,}:'- �f.� i1, 4 e ,-t_ r� tY �• Yit t11�p:. y .,��-tytii �ti.f.,�� .) xr ��'jS: tir"rr � •� c •` •}' IS e ' F'� � .i j •� .`,fir• 7 �'�•r^, y, :� i> �� �: r .1,., 'r '. slit f: ..� :+, 1>4IC ,. f•`. Mli A� � R"i' �: del, r .. �j,4.+:�;' :l,� �i' • (;: f+'7�+j:% FII,�f,4 .Rr' ��r ~' ��4,t"5+:�'.,• �»'•�'.y .•�k t. ',.�y.�� S�,a' ��;�t.1�1• ;+.;. �l•.h:;,.t�� �',s Fj' ,�i'ryr�f�•�+ >R 'T.sZ" ;;r F ;'��,; ti 1 � .c.,,_ � u '.; , r . � P�• 'L.-r"'1 ai`;.• � t ..t �' v l •'�'� �' ry✓ . n; K; J •�' s vti '! 7 �.jj`„ r r 7����rL,:� -0.'\i }�•[' �:. .v.�S'rt,: ''•�a;� �r 'Ei /y �R; '�'�'a�YS� } � �r9'", RG�• •�-t '+' i 4�"'Gy)s_,'h: :h'^ �ri,�"'C{''? 1��•LY' 'I✓ . .,�ttf�.''� i!',,L `'. •,}5.::i 914 �,.*' L i ♦,1Y�, '}:ii �'•i��'i�''�—i�'w�tJl`3�1�,!'.'e�i�a •dis � J :'f 1 '1 �t i' i at,•t'+`" i Yy :•:l. �y'�;'t'•s 1- [9 ,rtt� k7f,, h r ,, r� 'S{-,,,,,�'' , •.. ,.�i,�`r�"� �1�,: '�;e �F' / �li/ „'�!}�'}1r�, •i,�� i:ti;[�•jH.:�:,,�Qrl `r+r; 1�.,-r";,��niL,+IFL,t�f„ j7� Y C b• �!!: r j _ �v�; , :e� L s'! ; a r �'.''''1r�i!'•c %�e* r'�`. t iF� Sr 'Y ll..-. lt _ r•'' '` ��+-�{� ��• �vfrf�.� r'�V�'\'� yy �e� y.•�'�•�f{� ��lt�r���2 fj f^AMR ''Il ,at •Y ! f tr+ nr ti••t.r T{i y-��s- `.r} Y �i+'1 rrT J,, '� �) � ��r,�xtir+rl�:'.:�'!•�• iii }h •f• .',' t, �����•i''_•�rt+y i,'� ' �{� _ fit. �!,7rL-'i„�jt vry'.,.'s;"�'rt�''t:'nT:'"r •{�,�'r ,:P t�� l' q ".j2� + �+�,, 1 � :,r,;e .•i"l:w. t,'y• f�r1:':r•''Y�.: s•�•rx. ��'♦ +! , `�J:) i -•n.'."�.�e`•:;Jf� c• ...�,a�.tti, d ti.: _( .r'� ,. :r�45�.E: _ •��: r�•�,>•+r �0� ` }✓M �. �•y-.^ it 1F�'� .14 Ai F �.• � i • 1 ' irr '� �.' �'� y'i'�y .� ''•P i. _ � .., l c.li�....y .i. T r-Fi i; {-. •: z •;r � b+,'C' G� } 4r r-+, � :�•,r}�� ,�� .ZL� tl�i�t�•"C�.:s- �;�';.'.,,i'y:3,:�•„•��,>.rRj _.l'r{;:,��.;,_l �'-i 11 ..0; ,��,r V''� �,-�'� YS• ��} y {;�'h,,;:'Y-±�..} r! �1L ' 1 ` T h+t+. r��;,-�.i�f' ♦i .�t�tir- �Fyy�� {'r'c�r,ti' •� i trr •':t' �1 �}, �.✓-i;.l: r ri h, Al n� dry, ♦ 1 A ,. '� ''YY++tt t �� ��r,'�' •:�� `i•E'1 �''i �; k: �1f': 'i'*` tw��. �'�� ��, '`•�,�. ,�.{�,. .' 1 L'rl;'�4i tii?lr: `•}''��•',�L 'y G .i'�81 •: ;��1ti `>-''�l S af'� -t •} " rs_ +'+ } ?!' I,'.1�4�- '�^r ? Jf' I r5 f::•, r rY• 1 i 1 w _ },.t i, r' j {tad !".�.,, •f .7 •'F;,.. f •�1 .i ��`�� ! r'�= ��fyi':.y�.�� � >•r' r "A3?�}s •�3*✓ 1�•��'�` i•'Jj��•�,yt�j*��I�ir•�•;.,� y r•~F`Yit y ;'�-L • �� v'�t.�. r�r 1; •'lr',7, � .y� i r- yi.-i -¢Xi' - '.� , r' �, ,'4,,'klr �v�..,Y.IY ,.r 1,.� ,: ., •ft•�'•r , r� rsi� ''Jr t. 'L�., � +�t,,;e r ! . *t S-'i'.r..t}ES .y?�;'wj . 1. # t r� t ( ,. • ^� �.t�... IF:._ } +�, f • •r • y F a �+L, •'. ��. Q•r r��r; '�'.K!�}f`r` q";b� ?n +'f N },f • ',�F ,-'f.. , �♦.X 1 ir`,. i r r}'+'i-=fir 3L'>�.� 1+yy�,ti� i+.. ,r+r •�t'L y j irr :'.L ��.� i.- ♦'"'ZT \; of f •, i!'.`.� r/S •i'i'..�:-fr'y jell ti:Y., ,j ';1 , �i }•;4��•'S.• �7r �Ify i r ~ :'>A "{ ��ri,. F �" `5' a � /P.� '� Y 3 'F.�> TI• •{t � r 1 ' � (�:` `�. IT ,t,I{; ♦ !1 irrf•C'+t r r fy:� �L }..•rr{fs tl I- Y�^•! .`•�> i.•�11,� a.y l{f^ i.r r r� Zi r r t� -•rly =A':: f, t•. �ls' rSc �, k(ti �;� i�' t• •►"YLr� r-c� � ro" j ar�. ,� t.a.F' S! ,,1,.� � r'•'�n 'S'�,,.,�rr�T,.,_� e, Sf� i'' 1 � ` •S '�.P`►' r � r • • h. i: r��.t�y T����f,�•Kll3 it-. :.1�+'y,}S' "Lt;+,i tis1`4:��,,�ff¢r. � F r 1f =t )� fi r,��r r�'. i z�+ i�.+r•�.•4 ' K1' :``t,'.:�"f#%li''` r r r LYZi Y g�+ A,T. r, lyrf r :..'Ir }.•r ;. # i z}„ I , g' y Il 4R:l:.� .ah`:r+.. �. Y• },'1 �:b {� 7 �• : L s. r ='yh �f n. •' :.,, �f-" i 1 r i� i-�.. r:. • C:� '•t;, s '1.:•'. ;r. L� • �,. ..I• : jQ: �• r":w+ 1 ..µ" J . 3 `�,. • +1` ` .•�': .•�ii ?;�1 ',r.. '{,:' .4•.,`, ,,- y� � s4 "i1� �� +.y s♦•�•'F'r. �S.,r,li (d. ..,!•,zr`:�3Y°{.'i.r-$: +�4`iy'�:Trr�' r�_. ?,�� ,�;"�ti,r„cvy?: �`.�,:' _�:�:f'.�4: ;F::,:;� .•�r;:f.,y, }" #:^•;f. :p+'1+ -r� �' t,; y� ,f/I t :c f • `1!- L f' ' Y r, : f c rf r'i:, of 2r�' w i. r.l": jL L 1e'1C .-ic' T _�'� ct+. i.♦ .�?fi ;1.•.'i'[t+.-!•..;.,, 1'til { v'� .�4•�t �•!�� 3t tJ ;i '*.•xry •-:t.;' '.a �'7c ri 11f,.. i•; tti 7� 1. •,irei. :' :i -`. r7 `r +'zl a'. a �lrr •.l;" `Y, ,+;r- - .i royr;.`1 :r'1�-t++ �� Jv-Sf-..[[YS• #. �r. ,r•. 1},=7'• ��.: �.t. ., 1, i:�kl��T, p .•�7=i aVa�,!t .�r.+, 'JS.:• yr :1.,��,: 'J: y". :t'•b•� r.• `i'i�• L• '1"r )I .a?. `•{,.!R•-j': 'T 11• '!�f , r,t •� ''A .." it k ^L f ry ?'' ,. r��.ti ..q,C•;.''' +�.e''j�+} S:';}•; , ,:- 1,r _�Ji.+y ,�y+ �r ^�—�••n r r fir /".: y• 'ji..•'. + }•tJ 't11�' ;"[',y I ,�•, rY . 1 7 .�`� i�^�,,.`rrf,•. r " t , �4 y,. y 1., U' +j. 1 —F .,+t i' 'r �. r+:,' .��j• a to . e w r ti 1• y 7y'i r,,; t: ,t ! ..r ,r1v < o r e{ E'. r ,It-y, '••7 i -� r,<"' f r. .Zr�,. r 4 •'rr.. . 'f, f v i 4 '; L -•• 1,'ji ' i F i f :,' :.,,i'''ri , v t' •�'fSt,,.1� �:L} {'=a -} /� � y'..t: � JJ,,,, J� ;{' :i%' .r� i , i� y '.i;.i'{.'.,; ;_rs•.: r• �' %: �' 'r1 :1 Srr sY. M :�A,:• I)' q -, f•` r •.l.r f J J ., r• +.• � '• ! it+, 1��•*i �r 'r " �•�'�j'I"r�r v',.",ftf.T r.f � .r���,`_°' ,'r t'aF'7'.. :�'`� +i�:;r. ��f., .'✓,i.: r., .Irt � .`(.'f.f .r,tj .r r• }J}�;• ''}•�L •: r;�vN�r�;' �' ,f r,f. `tt �!'•,S l�i..+l �'j- S' -x ' }' [' "I'7�1r'• 'Y •'.. ,.` L �. ir••', I T•r _ ,r ?'. ,r' r r. •r 1' �..,,+a�„j r b� , t' iL��r�', -t q' �i j, 'it''.•�. t'•�: .'•,:'.':.• ', 1 r,. r' r . • ! -fit �,, i., r �.. ,g.. J-... :� ., 1. _r ► '��"j::'L 'fitu�,s.�'clllM:::aaa�• .ic.rT�F��;�t•:.�i-y, .•,T7'�r. '� ;;_`r3,'•-;Fyr;. .r;_•.�..'�. • �., :k G 'yri:S; _ .i�:� i• . ! `t .� , R'"''.: r' fd�N ?, `),. r.. ,.�`-F,- r•'r'� •t. •#`''•' .fit "�: �'Tav ,f,. ti j::?'�•'" :fi"ii i,'. ♦t;s. 4"�-*•'fr��� ,;sY *n>,3S'�„r•>.r'��^�7y, �S�; til = J j� vtiAe '.%;�� v: _ . �:' :�jr V't!•; s:' +.'. �tl"' s 'r'SS r. �+.• 5:1., ,r..v,.k.E�... = 't:' ;!off: �-• :+ .�' -n. -¢, iT.�.. a?"•: _ �' ��:!rr4 '.•.:.':J i' 1N'.+ �•J''t��r+ . �,ii.'�A. -.1^�'� y.�. e. J 4 I •4 t•" � r�' ]r. 4' r +� �{:I .�, 1:,:�.A,•. r.'f• t.:`+•�::. 'N :•. i• �,'� :A; i.r��_.,.1 %r r'''- y f:+: i� 'Y • �11.' f: 'Y,"r �' 1•f>'..','•r :• ,+� ti'arl, r.� fir r [ •w fr ' .r., �. �'t +`rN,r _(` ?-'i':: !, fir.5. i '} }• �>�' r • Rr r [ -. �'.; i 1 • ,>.fS 1- • Y �!' 7�;• f � �S 3� �ti.:� �' }' �• ny �+Y`'+ , � y,.L''Lsl� ,L, .: �• •�' !•"' Y r' �`' 1 '' t r •w� . J ' ' f�.:�r{ r .fi t,Y,pr. _`.». 3 i- k r •y r N. :y.f: 'yL• 'r:�1.'• ! r t. r'i ':" r_.v � .��'... tca ,T iY: ''..M� ;rY' ': i'� ;�4.,� r•j rr. ^: e•1l=�'t.: lr,//•,: �, .f,r•'.yJ. ;�•�.v' .� i..i.l. �... ANIMAL WASTE UTILIZATION PLAN 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. Tract Field Soil Type Crop Application Rate (in/hr) Applic. Amount (inches) 2300 1 NoB BP 0.50 2300 2 Au BP 0.60 *0.96 2300 3 BOB BP 0.75 *0.65 2300 "1 SG SG 2300 "2 2300 }3 SG 2301 1 WEB ac-v--4 BP 0.60 *0.96 -2301 2301 2 Au. 9 BP 0.60 *0.96 "1 .� vI� SG 2301 "2 SG * 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 -of the nitrogen limitation. The maximum application amount shown can be applied under optimum soil conditions. Your facility is designed for 180.00 days of temporary storage and the temporary storage must be removed on the average of once every_6.00 months. In no instance should the volume of the waste be stored in your stracture be within the 25 year 24 hour storm storage or one foot of freeboard except in the event of the 25 year 24 hour storm. It is the responsibility of the producer and waste applicator to ensure that the spreader equipment is operated properly to apply the correct rates to 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- I ] age: 8 Z - \ SIZE Topping 1e60 � � ATIAN Z` /IGNED BY Glenn Clifton /fE . 10-19-ST «RPROVED SY Howard Hobson )ATE 12-07-87 _'£RMAMEN T STORAGE 1860 Hogs x 1a5 lbs per hog 1 Cu Ft per Ib. zEMRORARY STORAGE Z51100 lbs of animal x 1.35 cu. ft. of waste per day per 1000 lbs of animal wt. x lag days 24INRALL LESS EVAPORATION I 5z356 sq. ft. surface area per 12"per ft ;kINFALL - 25•YR. I DAY STORM X 528-56 sq. ft. of surface area per 1Z" per ft. JOT&L STORAGE NEEDED TOTAL STORAGE AVAILABLE AMOUNT OF FILL DIKE FAQ TOTAL SETTLEMENT 10 TOTAL AMOUNT GF FILL C5T TO FILL RATIO TOTAz ExCRVkTIOM 2b1100 Cu F£ 61017 Cu Ft SOBaa Cu Ft a0393 Cu Ft 342930 Cu Ft 12702 Cu Yds S5S000 Cu Ft 0 Ce Yds 0 Cu Ft 0 Cu Ft 0 Cu Ft 0 Cu Et G Cu Ft D Cu Yds 0 Cu Ee 0 C& Yds / SCS-ENG-$38 / Rem. 5-70 U. S. DEPARTMENT Of AGRICULTURE ` SOIL CONSERVATION SERVICE SOIL INVESTIGATION TO DETERMINE SUITABILITY OF PROPOSED POND SITE FULMEWS NAME L r1X< DISTRICT DATE r 1- i. S- a `i COUNTY % S. C. S. PHOTO SKEET NO. WORK UNIT WATERSHEI; AREA MEASUREMENTS CROPLAND ACRES PASTURE ACRES WOODLAND ACRES TOTAL ACRES POND CLASS WORK UNIT CONSERVATIG_:IST SKETCH OF PROPOSED POND SHOWING WHERE BORINGS WERE MADE (Approz scale 1"= feet) Locate reference Point in center line of dam and identify an stretch. ❑u E SHOW BORING NUMBER AND PROFILE DEPTH Make and I/st dam -site and spillway bonngs lint. then ponded area borrow and pit borings - separate with vertirdl nod line - (Continued of? back :where necessarJ) Shaw water table elevations on dam -site bonngs. maiQ1111111121MM m�is =111101=12m�®© FMN mwm� SWIM REM, � ®�moms MIN, M MIMM KIM EIS EME WEEM BORLNGS ~MADE BY CL` " SIGNATURE & TITLE �'� 1`15V•i �� r '� � . -i'• •1` '4 l.7 �.-1. I +-1 ri • ,. � � I Lkll �rt ; ' � •I. i I f�u-Z I CLJ ter' � i I I ! ! I (�M1It.•�rY�r I ! i II��III�i I�`i'li !?lip ,II� I I I i i rir� ! t. Cf? K 7r.) 'I, 4� I rfn�.•I'_I f'Y"rfrl l L i+liC�-)e� I i I II I ` I � ! l V). L. 5-7 e,, -7. Z 1 -7. z 4- 5 r.) 200 —i55 0 —5 0 IRV DEN, JS 541N mg 771a Mai .0"I, A