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290003_PERMITTING_20171231
Dr 6 !� a: PA, ! ved sPA ` ��.AFFa f scff QISL r-" mar •w _!�d_ '4�HLA EL SCFI. _ w.lm. s+wrl Ra Dr 01 , B i LEXINGTON Ad MUNICIPAL 4� ..rr 29.Ln AIRPORT p„ed Rd ftwm 70 ' • iewo 0610 / __ ._..__ a 8_--mrmu� _..._.._ 5 - -- -' --e"-. 47� I Fire � Potts or— D � FiAesrnr S x oQ' 8 s as � � ,ny R �+ e � !NW D Rd 7 �``'►a' ��urlo �x1 15D d� f RVAD g A Rd 27292 n Ku j3 ♦` , ° p c xk v� I 1 t — 1 �''`� s" ` 29 OUTN RN 17 J. M. I r,} � fir' � � � ���' i _ �; f .+K+ s k� �'.r St , d������'°� ,0 ;y- t L • J _�/-- /Q, p/I 6NTY. IDSON C `% � Rod BamRd r c, �1 LEGEND _ V7 ' _ 5 C,..k SCALE IN MILES ONE INCH EOUALS APPROXIMATELY .75 OF A MILE ` 'HIGHWAY MARKERRS_ 7 INTERSTATE UNITED STATES fQ STATE MCDENR North Carolina Department of Environment and Natural Resources Beverly Eaves Perdue Governor James B Graham Beallgray Farm Inc. 1218 Belmont Rd Linwood, NC 27299 Dear James B Graham: Division of Water Quality Coleen H. Sullins Director October 1, 2009 RECEIVED D e Freeman NX, Dept of E.NR ! Secretary OCT 1, 4 2009 Winston-Salem RaglonalOfllse Subject: Certificate of Coverage No, AWC290003 Beallgray Farm Inc. Cattle Waste Collection, Treatment, Storage and Application System Davidson County In accordance with your renewal request, we are hereby forwarding to you this Certificate of Coverage (COC) issued to James B Graham, authorizing the operation of the subject animal waste management system in accordance with General Permit AWG200000. 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 Beallgray Farm Inc., located in Davidson County, with an animal capacity of no greater than the following annual averages: Dairy Calf: Dry Cow: Beef Brood Cow: Dairy Heifer: Beef Stocker Calf: Other: Milk Cow: 210 Beef Feeder: The COC shall be effective from the date of issuance until September 30, 2014, and shall hereby void Certificate of Coverage Number AWC290003 that was previously issued to this facility. Pursuant to this COC, you are authorized and required to operate the system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to The CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. Please carefully read this COC and the enclosed, State General Permit. Please pay careful attention to the record keeping and monitoring conditions in this permit. Record keeping forms are unchanged with this General Permit. Please continue to use the same record keeping forms. 1636 Mail Service Center, Raleigh, North Carolina 27699-1636 Location: 2728 Capital Blvd., Raleigh, North Carolina 27604 T�iOTI 1, 1 Phone: 919-733-3221 1 FAX. 919-715.0588 4 Customer Service: 1-877.623-6748 1 �IOiihCii�'ofina Internet: www.ncwaterquality.org r_ , An Equal Opportunity \AffirmauveAction EmA7�t11r pOyer l `y If your Waste Utilization Plan (WUP) has been developed based on site -specific information, careful evaluation of future samples is necessary. Should your records show that the current WUP is inaccurate you will need to have a new WUP developed. The issuance of this'COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. Per 15A NCAC 2T .0105(h) a compliance boundary is provided for the facility and no new water supply wells shall be constructed within the compliance boundary. Per 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. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue, the activity permitted under the General Permit after the expiration date of the General Permit, then an application for renewal must be filed at least 180 days prior to expiration. This COC is not automatically transferable. A name/ownership change application must be submitted to the Division prior to a name change or change in ownership. If any parts, requirements, or limitations contained in this COC are unacceptable, you have the right to apply for an individual permit by contacting the Animal Feeding Operations Unit for information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. In. accordance with Condition II.22 of the General Permit, waste application shall cease within four (4) hours of the time that the National Weather Service issues a Hurricane Warning, Tropical Storm Warning, or a Flood Watch associated with a tropical system for the county in which the facility is located. You may find detailed watch/warning information for your county by calling the Raleigh, NC National Weather Service office at (919) 515-8209, or by visiting their website at: www.erh.noaa.gov/er/rah/ This facility is located in a county covered by our Winston-Salem Regional Office. The Regional Office Aquifer Protection Staff may be reached at (336) 771-4600. 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 Enclosure (General Permit AWG200000) cc: (Certificate of Coverage only for all ccs) Winston-Salem Regional Office, Aquifer Protection Section Davidson County Health Department Davidson County Soil and Water Conservation District APS Central Files (Permit No. AWC290003) AFO Notebooks lIza O� \N Michael F. Easley, Governor Q William G. Ross Jr., Secretary oNorth Carolina Department of Environment and Natural Resources j Alan W. Klimek, P. E., Director Division of Water Quality RECEIVED October 1, 2004 O C T 0 1 2004 James Graham Winston-Salem Beallgray Faun Inc. 1218 Belmont Road Regional Office Linwood, NC 27299 Subject: Certificate of Coverage No. AWC290003 Beallgray Farm Inc. Cattle Waste Collection, Treatment, Storage and Application System Davidson County Dear James Graham: On June 11, 2004, the North Carolina Division of Water Quality (Division) issued a revised State General Permit for swine facilities. The General Permit was issued in accordance with the directive of Senate Bill 733 (Session Law 2003-28). In accordance with your application received on January 28, 2003 and in accordance with the directive of Senate Bill 733, we are hereby forwarding to you this Certificate of Coverage (COC) issued to James Graham, authorizing the operation of the subject animal waste collection, treatment, storage and Iand application system in accordance with General Permit AWG200000. The issuance of this COC supercedes and terminates your previous COC Number AWC290003 which expires October 1, 2004. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from the Beallgray Farm Inc., located in Davidson County, with an animal capacity of no greater than an annual average of 210 Dairy cattle and the application to land as specified in the facility's Certified Animal Waste Management Plan (CAWMP). The COC shall be effective from the date of issuance until September 30, 2009. Pursuant to this COC, you are authorized and required to operate the system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. Please carefully read this COC and the enclosed State General Permit. Since this is a revised State General Permit, it contains new requirements in addition to most of the conditions contained in the previous 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 permit. 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. Aquifer Protection Section — Animal Feeding Operations Unit 1636 Mail Service Center, Raleigh, North Carolina 27699-1638 Phone: 919-733-3221 1 FAX: 919-715-05881 Internet: h2o,enr.state.nc.us An Equal OpportunityrA��«„n„v� .. ,., n s., .�� r ,•.� n��- _ _. urrr� No rthCarolina Na&llallff 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 MRCS 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, storage pond, or any wetted area of a spray field. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue the activity permitted under the General Permit after the expiration date of the General Permit, 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 Winston-Salem Regional Office. The Regional Office Water Quality Staff may be reached at (336) 771-4600. If you need additional information concerning this COC or the General Permit, please contact J.R. Joshi at (919) 715-6698. Sincerely, for Alan W. Klimek, P.E. Enclosures (General Permit AWG200000) cc: (Certificate of Coverage only for all cc's) Winston-Salem Regional Office, Aquifer Protection Section Davidson County Health Department Davidson County Soil and Water Conservation District Permit File AWC290003 APS Central Files 'u a James Graham Beallgray Farm Inc. 1218 Belmont Road Linwood, NC 27299 Dear James Graham: Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P. E., Director Division of Water Quality May 1, 2003 �. , Q��}t. "tz 1—lNR MAY 19 2003 Winston-saiem Regional Office Subject: Certificate of Coverage No. AWC290003 Beallgray Farm Inc. Cattle Waste Collection, Treatment, Storage and Application System Davidson County On April 28, 2003, the North Carolina General Assembly ratified Senate Bill 733 which directs the Division of Water Quality (Division) to extend the expiration date of the Cattle Waste Operation General Permit AWG200000. Therefore, the General Permit has been re -issued by the Division to extend the expiration date to October 1, 2004. During the period of this extension the Division will be working with all interested parties on the development of a new version of the Non -Discharge General Permit. In accordance with your application received on January 28, 2003 and in accordance with the directive of Senate Bill 733, we are hereby forwarding to you this Certificate of Coverage (COC) issued to James Graham, authorizing the operation of the subject animal waste collection, treatment, storage and land application system in accordance with General Permit AWG200000. The issuance of this COC supercedes and terminates your previous COC Number AWC290003 which expired on April 30, 2003. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from the Beallgray Farm Inc., located in Davidson County, with an animal capacity of no greater than an annual average of 210 Dairy cattle and the application to land as specified in the facility's Certified Animal Waste Management Plan (CAWMP). The COC shall be effective from the date of issuance until October 1, 2004. Pursuant to this COC, you are authorized and required to operate the. system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information• must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. If your Waste Utilization Plan has been developed based on site specific information, careful evaluation of future samples is necessary. Should your records show that the current Waste Utilization Plan is inaccurate you will need to have a new Waste Utilization Plan developed. The issuance of this COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. 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. �°4► a��ENR 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 1-877-623-6748 50% recycled/10% post -consumer paper - T. Per NRCS standards a 100 foot separation shall be maintained between water supply wells and any lagoon or any wetted area of a spray field. Please be -advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue the activity permitted under the General Permit after the expiration date of the 'General Permit, an application for renewal must be filed at least 180 days prior to expiration. This COC is not automatically transferable. A name/ownership change application must be submitted to the Division prior to a name change or change in ownership. If any pans, 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 Winston-Salem Regional Office. The Regional Office Water Quality Staff may be reached at (336) 771-4600. If you need additional information concerning this COC or the General Permit, please contact Sue Homewood at (919) 733-5083 ext. 502. Sincerely, for Alan W. Klimek, P.E. Enclosures (General Permit AWG200000) cc: (Certificate of Coverage only for all cc's) Winston-Salem Regional Office, Water Quality Section Davidson County Health Department Davidson County Soil and Water Conservation District Permit File AWC290003 NDPU Files _ WASTE =UTII.IZ2_TION .PLAN - Producer: Location: BEALLGRAY FARMS INC. 1218 BELMONT ROAD LINWOOD, NC 27299 Telephone: 336-956-7762 Type Operation: DAIRY Number of Animal : 210 HEAD DAIRY ANIMALS (Design capacity) FACILITY #29-03 OPERATOR CERT. #20952 PERMIT # AWC 290003 The waste from your anL=al facility mutt be land applied at a specified rate to prevent pollution o-f and/or groundwater. The plant autrients in the animal wasta hc::ld be used to reduce the amount of commercial fertilizer for the crops in the fields where the waste is to be appi4sc; m is waste utilization plan uses nitrogen as the lir.=ting nutrien=. Waste should be analyzed before each application cycle.:rual soil tests are strongly encouraged so that all plant -lams can be balanced for realistic vields of the crop to be Several factors are mrportant in your waste ut-1 at_on plan in order to value oz the —_--_--•+�c,c�',.=-a�1� tQ..eI'.5.uL�. hat_a.`' w;s.. appi_�r --- .__ =n environmentally sa=8 Manner ^ drays apply waste Jbased on -. eY needs of the croc to be grown and the nutrient content o= '-r e rias to . oo not avuly more nitrogen than the crop can utilize. Sol; t,;tes are important as they have different infiltration rates, _each=ng potentials, cation exchange capacities, a n a available wa_a_ holding capacities. Normally waste shall not be applied to 'and eroding at greater that. ,5'_T tons' per acre- per• yb-z'r:: ,__With spc-:� . - ac utions , waste may be apza l`iac " o" land eroding at un --ta 10 - inn s Jner acre per year. Do not apply waste on saturated soils, when it is rwwning, or when the surface is frozen. Either o= these cord=ions may result in runoff to surface waters which is not allowed under OEM regulations. Wind conditions should al`so'be•'considered to avoid drift and downwind odor problems. To maximize the value c- nut=_ent5 for crop production and to reduce the potential war pollution, the waste should_ bey; a- ml... µ` r o�+�� N cr - orappl—Jed to bare ground not more_ than 0� CLav:S" �r �Or to_;l'aI1-ng J ect_ng the waste or disk_ng`will conserve nutrients and ;educe odor problems. The estLmated acres needed to apply the animal waste is based on typical nutrient content for this dyne ow fGciiity. Acreage recuirements should be based on the waste analysis report from your waste management facility. Attached you will find information on Proper samml'_ng techniques, preparation, and transfer of waste samples to the lab for analysis. This waste utilization plan, if carried out, meets the requirements for compliance with�l5A NCAC 211.0217 adopted by the Environmental Management Commission. ANIMAL WASTE MANAGEMENT OPERATION AND NLARq ENANCE Runoff Control Measures - Such as concrete curbing -and roof guttering should be inspected monthly to insure these systems are oneraung properly. Repair or replace as needed. Diversions, filter strips and buffers should be inspected to insure that vegetation is adequate and diversion capacity is adequate. Land Application Equipment - Shall be inspected berore use to insure that equipment is working properly and that no Teaks :o tanks or box spreaders occur. Hose,pumps and pipes used with liquid spreader yanks and irrigation systems are to be checked before each use and repair or replt c:, as needed. Waste Storage Structures - Check for floating or lodged debris in lagoons and storage ponds. Embankments of storage pond and lagoon are to be checked for stumps, bulges, wet or damp areas, and rodent darnage on backside of dam. Vegetation should be adequate to prevent erosion. Bare areas should be seeded to fescue. Vegetation,,should.b.e,clipped-a.minimt_ r43.irine,:,: per -year to prevent-- -- - T--"'' --trdes'acid undesirable vegetation from becomin�_� established. This can be done by either mowing, spraying or chopping. EiM used to convey waste from buildings to storage pond or lagoon need to be inspected for separation of joints, cracks or breaks and salt/mineral accumulation. Bent Supports (pipe cradles) should be inspected to prevent sagging of pipes. When repair or replacement is needed replace Nvith pressure treated posts and boards. Pipes should extend into the waste pond bV and the toe of bank slope or install rock rip rap and filter cloth on toe of slope. Pastured Areas - Maintain vegetation to prevent erosion. Hay rings and feed trou'ts,:s?4p�,w?. +.:�*vp areas and watercourses "" such as.creelcs; streams and ponds. Rotate hay rings and portable troughs as animal waste accumulates. Waste is to be removed from area and land applied at agronomic rates. For areas where fencing along creeks have been installed, inspect fence to insure that animals do not have access to creek. BEALLGRAY FARMS INC. WASTE MANAGEMENT PLAN Beallgray Farms Inc. currently has 100 cows, 100 heifers and 10 calves on confined feedlots or holding areas. Twenty percent of the manure and urine is scraped and hauled, the remaining eighty percent enters waste storage pond #1. Waste pond #1 also receives lot runoff and wastewater from milk parlor. Liquid from storage pond #1 drains into storage pond #2 and drains into storage pond #3, where it is pumped out and applied by either center pivot or hose tow irrigation. Storage pond #4 is intended to trap any overflow from pond #3 in the event of a discharge. Liquid from pond #4 can also be applied by irrigation. Ten calves produce solid waste that is broadcast on fields. A fresh water farm pond is located below storage pond #4; this pond is used to supply irrigation water to crops and contains no animal waste. A diversion designed by NRCS is located on the West side of the pond to prevent any surface water from entering the pond. All waste storage ponds were build by Beallgray Farms Inc. and not MRCS designed. Increasing the depth may increase waste storage volumes. If this is to be done, sludge should be tested to determine nutrient content and land applied at agronomic rates. Waste storage ponds are to be inspected monthly to check for leaks or seepage on or in the dam. Vegetation is to be clipped annually to control undesired weeds and brush. Refer to specification contained in waste plan for additional information and management practices. Distance to nearest dwelling not associated with the farm is in excess of 750 feet. No floodplains exist on areas to receive animal waste, no wetland exist on application areas. Cropping system is usually no -till corn for silage followed by no -till small grain for silage. Alfalfa is to receive animal waste not to exceed NCDA soil test recommendations. Applications of animal waste to alfalfa will be made for establishment only, not for yearly maintenance. In some years due to weather and economic factors, other crops may be planted. Cropland acres are well in excess of nitrogen produced. BEALLGRAY FARMS INC. WASTE MANAGEMENT PLAN I. Manure Production 80 % of manure enters storage pond 20 % of manure is scraped and hauled Manure Volume = 14 gals./head/day (cow) 10 gals./head/day (heifer) 3.5 gals./head/day (calves) Feedlot (solid) 100 cows x 2.8 gals/head/day x 365 days = 102.200 gals/yr 100 heifers x 2.0 gals/head/day x 365 days = 73,000 gals/yr 10 calves x 3.5 gals/head/day x 365 days = 12.7 75 gals/yr Total waste (solid) waste produced = 187,975 gallonslyr (790 tons) -- PlannAvailable Nitrogen, (PAN)-producea-(soi.;J- 100 cows x 76 lbs N/yr x.20% = 1520 lbs 100 heifers x 55 lbs N/yr x 20% = 1100 lbs -- __ -10..calves..x 19 lbs N/yr x.I00%.= 190 lbs Total dry waste produced = 2,810 lbs of PAN Storage Ponds 41.2A 3 100 cows x 11.2 gals/head/day x 365 days = 408,800 gals/yr 100 heifers x 8.0 gals/head/day x 365 days = 292.000 gals/yr Total waste (liquid) produced = 700,800 gallons/ yr L- ii. Waste water 500 gallons/day x 365 days = 182,500 gals/yr III. Bedding Dry manure may be used as bedding as producer determines. - IV —.RUNOFF Storage Ponds 1. Normal Runoff — Concrete, roofs, waste ponds = 6.4 acres 1 day CN=98 30 day CN=92 Rainfall=45.21 inches. Runoff=59% of precipitation (10cz AWMFM) 45.21 inches x .59=26.67 =12 in./ft. x 278784 ft. sq.=619,597 cu. ft. x 7.48=4,634,586 gallons/year 2. Normal Runoff -Dirt lots=6.5 acres 1 day CN=82 25% annual runoff unsurfaced feedlot. (10 c-1 AWKFM) 45.21 inches x .25 = l I.30 =12 in./ft = 283,140 sq.ft.= 266,623 cu.ft. x 7.48 = 1,994,340 gallons/year. 3. 25 year, 24 hour storm runoff=6 inches rain I clay CN 90 Runoff=4.85 inches =12 in./ft. x 561,924 ft.sq.=227,111 cu. Ft. x 7.48=1,698,790 gallons/year Total amount of liquids to store in waste ponds = 9,211.016 =allons/year Total gallons to apply/year 1,698,790 gallonslyear-25 year. 24 hour storm=7,512,226 gallons per year. V. VOLUME OF STORAGE PONDS (See attachment of measurements). Percent of total capacity - - — - 33% first stage 1,704,857 gallons — 33% of 25 yr. Storm = w1;144,256 42% second stage 2,118,957 gallons — 42% of 25 yr storm = 1,354,501 25% third stage 1,304,235 gallons — 25% of 25 yr. Storm = 930,502 Total available storage capacity = 3,429,259 gallons Assume four month storage period Manure 700,800 gallons/year divided by 3 = 233,600 Wash Water--182,500 -all ons/year'divided by, 3'=- "= - 60;833`°.- -`= - Total Normal Runoff 6,628,926 gallons/year divided by 3 = 2,209,642 Total gallons for four months = 2,504,075 VI. Land Application of Animal by Irrigation Total amount to apply 100 cows x 76 lbs. N/yr x 80% = 6,080 lbs Total amount to apply 100 heifers x 55 lbs/N/yr/hd x 80% = 4,400 lbs. Total Pan = 10,480 lbs. 1. Soils for Irrigation Davidson loam, 20B, Group Index 2, Maximum rate with cover =.30 in/hr. permeability 0.6 — 2.0 in/hr. Unified ML, SM, CL — NIL, CL Mecklenburg loam, 54B, Group Index 2, Maximum rate with cover = .30 in/hr permeability 0.6 — 2.0 in/hr. IredelI loam, 56B, Group Index 12, Maximum rate with cover = .20 in/hr. Permeability 0.6 — 2.0 in/hr Unified ML, CL, - Ml, CL 2. Crops to Receive Waste by Irrigationa Crop Yield R.Y.E. *Maximum PAN/Ac. Corn Silage 24 tons/ac. 12 lbs N/ton 288 lbs PAN/Ac. Tropical Corn Silage_ 24 tons 12 lbs N/ton 2881bs. - - Small Grain Silage 10 tons .:_-.-._: ``-12 leis N/ton ' .� a-1201tis. - ** Sudangrass Silage 10 tons 12 lbs N/ton 120 lbs. Ryegrass Silage 7 tons 12 lbs N/ton 841bs. Alfalfa (1) 301bs. *Maximum Plant Available Nitrogen/acre/crop. Include both commercial and organic forms of nitrogen as well as residual nitrogen from legumes (Soybeans, Alfalfa). **Sudangrass/Sudex/Sorghum Silage, Yields and pounds of plant available Nitrogen are estimated amounts. It is recommended that producer take plant tissue samples for analysis by NCDA. The crop should also be weighed to determine more accurate yields. (1) Apply for establishment only, not to exceed soil test recommendations. Warm Season Annuals yields grown under irrigation have been increased 10 to 15 per cent since fresh water is available to water crops if producer desires. 3. Application Schedule for Irrigated Waste Corn: March, April, May, June, July Tropical Corn: April, May, June, July, August, Small Grain: January, February, March, April, September -December Sudangrass: May, June, July, August Ryegrass: January, February, March, April, September -December Alfalfa: May — August q 1 IRRIGATED WASTE APPLICATION AREAS TRACT FIELD SOIL TYPE ACRES 1016 4 DaB 25.0 6A DaB 9.0 7 DaB 36.0 8 DaB 13.3 9 DaB 22.8 4652 2A DaB 7.4 2B DaB 8.3 2C DaB 3.0 3A, 3B DaB 6.0 3C DaB 5.9 8A MeB 9.9 8B MeB 7.6 9A MeB 4.4 9B MeB 1.4 l0A DaB 5.2 11 A, 1 I B MeB 10.7 11C, 11D MeB 10.1 11E, 11F MeB 8.1 11247 1 DaB 9.1 1. Soils and Crops to receive solid Animal_ Waste Davidson DaB 2 — 8%q slopes Crop Yield R.Y.E. *Maximum PAAN/Ac. Corn Silage 22 tons/ac. 12 lbs/ton 2641bs. PAN/Ac. Tropical Corn Silage 22 tons 12 lbs/ton 2641bs. Small Grain Silage 10 tons 12 lbs/ton 1201bs. Small Grain 45 bu 2 lbslbu 901bs. Sudangrass Silage 6 tons 12 lbs/ton 721bs. Tall Fescue Hay 5 tons 50 lbs/ton 2501bs. Ryegrass Silage 7 tons 12 lbs/ton 841bs. Soybeans 45 bu. 3.5 lbs/bu 157 lbs. Sorghum 65 bu. 2.5 lbs 1621bs. **Alfalfa 301bs. Mecklenburg MeB 2-8% slopes Crop__ _ Yield R.Y.E. *Maximum PAAN/Ac. Corn Silage 18 tons 12 lbs/ton 216 lbs. Tropical Corn Silage 18 tons 12 lbs/ton 216 lbs. Small Grain Silage 10 tons 12 lbs/ton 120 lbs. Small Grain 40 bu 2 lbs/bu 801bs. Sudangrass Silage 6 tons 12 lbs/ton 721bs. Tall Fescue Hay 4.5 tons 50 lbs/ton 2251bs. Ryegrass Silage 7 tons 12 lbs/ton 841bs. Soybeans 40 bu. 3.5 lbs/bu 1401bs. Sorghum 55 bu. 2.5 lbs 1371bs. **Alfalfa 301bs. Iredell IrB _2-8% slopes Crop Yield R.Y.E. *Maximum PAN/Ac. Corn Silage 13 tons 12 lbs/ton 1561bs. Tropical Corn Silage 13 tons 121bs/ton 1561bs. Small Grain Silage 8 tons 12 lbs/ton 96 lbs. Small Grain 30 bu. 2 lbs/ac. 60 lbs. Sudangrass Silage 6 tons 12 lbs/ton 72 lbs. Tall Fescue Hay 3 tons 50 lbs/ton 1501bs. -~— Ryegrass Silage 7 tons 12 lbs/ton 84 lbs. -- Soybeans 30 bu 3 lbs/bu 90 lbs. Sorghum 40 bu 2.5 lbs 1001bs. ** Alfalfa 301bs. *Maximum Plant Available Nitrogen/Ac. Crop. Includes both commercial and organic forms of Nitrogen as well as residual Nitrogen from legumes (Soybeans, Alfalfa). - ** Nitrogen applied to alfalfa for establishment only not to exceed soil test 2. ARRlication Schedule for Solid Waste Corn: February, March, April Tropical Corn: May, June Small Grain: January, February, March, September -December Sudangrass: April, May, June, July, August Ryegrass: January, February, March, September -December *Tall Fescue: January, February, March, April, May, June, July, August, September, October, November, December Sorghum: April, May, June Soybeans: May, June Alfalfa: May -August *Apply no more than 9 lbs Nitrogen/Acre/Month during June, July and November - January to Tall Fescue ** Nitrogen applied to alfalfa for establishment only not to exceed soil test recommendations. SOLID WASTE APPLICATION AREAS TRACT FIELD SOIL TYPE ACRES 225 3 DaB 35.0 7 MeB 35.4 1804 8 DaB 20.8 9 DaB 18.1 1042 4 _ _ DaB 7.9 5 DaB 16.1 6 DaB 1.5 7 DaB 8.0 8 DaB 4.9 9 DaB 17.2 DaB 11.1 11 DaB 2.9 12 DaB 1.5 13 DaB 2.8 14 DaB 1.7 - 1031 6 . __w yr_ _ = `�IrB= 14.8 8 IrB 3.9 10 DaB 7.7 1016 _.__ - --L> ....., ....m_ _. �. _ w._ DaB. �,_�,.... .�, 3.4 .- ..... 5 DaB 0.8 7A DaB 9.7 9A DaB 1.5 11 DaB 5.3 11247 lA DaB 2.0 4652 4 IrB 29.0 5 IrB 14.8 5C IrB 2.3 6 IrB 4.0 11 DaB 3.0 12 IrB 4.1 13 IrB 7.7 -y SUPPLEMENT TO WASTE MANAGEMENT PLAN WASTE APPLICATION WINDOWS Animal waste may be applied to small grain crops and tall fescue during the months of Januaiyyand December provided that the soil -is not -frozen or saturated. If weather conditions or forecast indicate serve weather -in the immediate fature,-all applications or plans to apply animal waste are to be terminated immediately. Waste applications are not to resume until favorable weather conditions returns. Any an! 'waste applications to small grain or tall fescue during January or December are to be light application to prevent runoff and potential damage to existing crops, (excessive equip. traffic, and smothering crop). W",fh uxiLi4"iim rumn. 'PRODUCER lvy 1.4J.-Inj 4.E. 'A-FIELDS.OWNED LEASED WASTE FORM ID L.:IQU"ID..... 'O"PLICATION,ETHOD,i,,,SOlLL,.INCORP k. ,.I`fir ,-; *SEE ATTACHED AERIAL. PHOTOS :SHOWING t'FIELDSTO�BE�UtILI,ZED',FORS ANML-YASTENAPPLICATIO m kd IL r. 02 �41 ADC� aRO� S A:� z, p age 70 i L TRACTIFIE-D .-',CROP P, YIELDS: �qA4.LBS?.,VAWa w - -,vt i - - fl."CO&MRA' 90, �,,'JRESIDUAV C S.r R E LBS-`-`,�-AW,,1 ADDIT-4 p; :ATIONjp;,PERIOD,-,;.z P, if --I -J� ip -TYPE 4, Z NE EDE lip N1.1 F5-14 0, JANI •�2;7,849 /q, 9 j4 46 440 F 13 -3 1i 13 13 7. 7 7317 _22- 161A 2_0 92- 1 6/6 1 A0 !� 2_4 2- :F9, _4 13 /8 420 ilt' 37.5 oa Ole 7.7 TOTAL ACRES vX,-/-J2S AMOUNT OF. NLTHUGEN FKUUUUbU AMOUNT OF NITROGEN UTILIZED NITROGEN: SURPLUS DEFICT XHLIZATIOW� PLAN PKI, A W_l� F?..- -K ' r WkyztM' FIELDS- OWNED WASTE Vrl WXSOLI ___ulD 61 4 'v': AP. ' . t• xSE&;kT D" -HOTOS'-SHOWING FIELDS -TO BE f "o TA-7 ra'K_� 'RACTA ;FIELD "-AlSOlV ,CROp . RV YIELDS LBS,�AW9COMMERNIJ.'RESIDUAL *AC�eRES'l 1!'B&'-AAW1V�ADDIV`N; %APPL ICATION,,PERIODv 6� %Mayp&t.Ist l$usUr EDE61 V14 Wi V, b •0 � mlt Bm 4 R --c' nh W. yM SP Rg thi'131�_r w 47� rvv 43�" QllllY�b.t'_'_"l!iQ%, I -'Will Va KY Aill lwritr. " 4w I. Bliz-VORA". . 110, '11. -rdzZ-g g AVf RWm i w I a 31 V- 2� -7 ,Ill 4 I ft, 90 m" rMl 'r, . f 44 s x m xm f 4 1 pe? 10 W i� Z?A.R A2�2f . Pf in I j IQ DR* J" 7 04B TOTAL ACRES AMOUNT OF NITROGEN PRODUCED Gsa -:F,717.2 AMOUNT OF NITROGEN UTILIZED J.2J.f,3 NITROGEN: Sggg�S DEFICT -.z qf 90,3,' WASTE UTILIZATION PLAN PRODUCER: FIELDS OWNED LEASED WASTE FORM SOLID LIQUID APPLICATION METHOD SOIL INCORP BROADCAS *SEE ATTACHED AERIAL PHOTOS SHOWING FIELDS -TO BE UTILIZEWTOS ANIMAL -WASTE APPLICATION ;„ pageLof DIEM EMINNIN 0 SOMM. NUININNIMENNIENEM NINE am MMININEINVIN MAIN mm M_ ME mz�om 00 MOM mm �0010110 mom M.- NINE M mom mmm REEN1011010110 101100101011010MEM mom mom sosw�m omomnmmoomnm� M_ �- AMOUNT OF NITROGEN UTILIZED NITROGEN: SURPLUS DEFICT ! WASTE UTILIZATION PLAN PRODUCER: 4 a Imo' .<:�'• r`f '.. fi._r'_ - �. �. FIELDS OWNED LEASED WASTE PORN SOLID LIQUID CAPPI:iCATIOH 1�IETHOD SOIL INCORP_ BROADCAST �, ; , *SEE ATTACHED AERIAL PHOTOS SHOWING FIELDS TO BE' UTILIZED, ioKANIMAL"WASTE', APPLICATION page 2 of 2- RACT FIELD SOIL CROP YIELD LBS. AW COMMER:- °:L:RESIDUAL ACRES LBS. AW ADDIT N ;APPLICATION PERIOD # # TYPE N / AC N- ,:.. s i.' : ' ; N. +. USED • NEEDED z, ''' asp � r '' 4 ` I .,� � ' Gi. B= .. SCS ��• . f B t 8. '[3 / M� .� -8 .. I , '-; I I #li F1,,-. 1! L. .i[i j� I ll.1pE i1 : • :'f '.I• :: + - ;{. !" FS I, - f I �}l `�V''.:f, S .i �1 I t I�t]fRf# I•tI�53.�ii•' �� SF--•i.3i add r it I. {.,t. i HF4 .•}3 'I -Y,} 1!' i I1 # . ' : ,•-w _rI, �.,'if ri € �71 3 Ji-yili °I =� ;3 t:'! - - •.1 , �.1 ,r r tl y�-r & - l �!�`�FI ''�"', :. (!a:'+'cC', -�[{• •' �. ►..lyl tu. -��yry.7 /_ .rrj r.� nr (��.�j[ , re i�:• • <: I j +.: -. 9 7 �.� is ..}#{ t: �� ;;I � il'•j4fF�+��i�ilx (j1i}' I � � � . aY4 iR 11.1, I '" -1 'e •" + 1 } 3.. 1i ��7 + �I -� � I-: � I 9 PAD i' .V +�•:I �. IY �_�i' '�i�: �i L.f r� �1 i �• 't '�' 'Y.. :y s / z OAR. • , s ya .. :. •5 �j • i 4 �� 1 'N 5]- '�f'� 1 !•y IIC ., ,.. r-ILl,�ti li �� I�ler i. %i�ill��1�M1�'l t4,i!- 1 R�!{��1.:�i'1 -11 :.�:.-;' ' �,.. :3; _ k 1 } ' 5 I I'f >3 .It 1-• I'--i.Y.IrKr::9 I1 �3 1 lil S r! 1 ..i 4 it :it •I I.. - -- •t g • .. 4'$I 4i ijx1 i�'r 1i•{I ..11!I Lf i4.1°i 'i tt '� ii. �1 �!i c- f, ��,,1- -• `, .i - i , } I ].- - 1 iVlAl, ALKrRJ: aJ yi.0 : r4suuni, Ur niiavvr,n rcavLIV%J LF „gip AMOUNT' OF - NITROGEN UTILIZED NTTROGEN: S DRFTCT APMICATION OF WASTE BY IRRIGATION RACT 'M ACRES FIELD NO. SOIL TYPE C80P APPLICATION Rate (In/Hr) APPLICATION Amount Un.yw) 2 16 /?-"9 ,2 .1 ,0/./ 2zr 0 A A� VA0-(QlJ Jr,*-4-9r. 1 O I 73 J? li R D I 7.3 Z2, 8 Zf-:z r zvq Z, j ,70Da goo TRACT NO. A ACRES FIELD NO. SOIL TYPE .CROP APPLICATION Rate (Ia/Sr) I.APPLICATION Amautt (IR. 941vulwd Ya 5_2 aA dAW-1 .q �� �� r .✓� S 1,01w, .S o • 3a . BS �a. 4,A -� �a� - 7 I o ' I I •3o I S �$..30 i Its I -.-. x�:l+�. Au�'illrl. ..i��.,. n.. i...�vAk=., �,_n-i...-.r.... .._ �..Yn_.....,C�Qrvwl •.:r.�K - _-. - � .. i s-z WETTABLE ACRES FOR TRAVEL LANE SPACING % NEW OR EXISTING t/E PULL DIA. PULL AKG DEG. STAKT END TABLE LENGTH X W/4o60 TOTAL STOP END TABLE TOTAL WET. AC. 27�� . 99 N 70 1023 ' s . Z/y NE 70 9 0 4130 Z 70 ° .179 r 70 zlq A)F 70 7 70 P .97 a ao :7 ' oo ' 9 . 47 NI-70 8.3 ?a' Z 290� . 97 N�70 23/ 300, .6 . 5�7 N�7� -70 3 ,8 1743D ' 1 2 70 ` . 9 ,7 luz-70 6 `' oa D. 8 o /. 7 J 3a 2700 . 77 1VT9- ! 5474" - 3C 4/.3•> t ��o" , y9 NE 7a //`' i/fi ' � 9 �vE 7 Sa Y-/ A 2'70 . 99 ,� �1v 330 " 318 Z. .. .J 1271) qD J4 3a f 2 7a° 9y )} '7a �; ./' / �r c� A)s la i 41346 2 7a � . yy N[ 70 3 go' /8 , 70 3� 7 �j° 1704 .1917 70 1 78 + 8 x O N 9 70 SZ 809 q30 70 .,79 170 1 3/8 00,14 .4Y9 'VE170 q.9 5�30 6r L 10 ` • y9 fir. (0 V ✓ � J V• ( r T / NC / 0 /• q �3a' ��(j , 97 vc170 96 !B' . 9 . �9 �J� 170 �� �%� 1 3� C 276 c O £ 7d .7oo. 3i8' / Q /jZ �� �. /a4z7 //7IJ55- �2v71roS WETTABLE ACRES FOR TRAVEL LANE SPACING x O% NEW OR EXISTING /ilia-.1 1/E AKI: PULL DIA. PULL DEG. 5TAK END TABLE LENGTH X W/43560 TOTAL . Jlur END TABLE TOTAL WET.- AC- oA .yo C 790 •9`1 NE70 2 3.7 Zl9 70. 2 2706a i a N 7n' 7 `13° 1 V 7° ' . 9 %Arr7o �i S�f 5 Da' 3,0 o N i 7e 5� % y33 t 17o ° . y9 .v7� 3 a ; 3/$ ° 3_ 3� Z7a 7 3/8 `�C / t 3 i i: i CAWMP CENTER -PIVOT SYSTEM FIELD DATA ! rHEE-T-* 1. Make and model number,- 2. Length of lateral line g5,912 feet 3. Does the machine have an end gun or an end sprinkler? A es, no If it has an end gun or an end sprinkler, list the make and model of the end gun or the end sprinkler_ ly/ - ,re N - u If an end sprinkler, list nozzle size inch, if and end gun, list nozzle size 0. q inch, also list nozzle type ring orifice, taper bore orifice Operating pressure at the pivot point 8a psi Is the machine used on more than one area (towable)? X yes, no. If yes will need to compute acreage for each circle or part of a circle. Does the machine have a booster pump for the end gun or the end sprinkler? des, ono If yes indicate the size of the motor which drives the pump to operate the end sprinkler or end gun 7. Is the machine operated _ X full circle, X part circle? If part -circle, indicate the portion of a circle which is irrigated? 70 ° 8. If the machine is towable, indicate arc angle for all areas on which the machine is operated 8 -,0 /87o 4 "'7J: ** 9. Are sprinkler mounted on drops below the lateral pipe? or on top of the lateral pipe? * * 10. Number of towers r * * 11. Tower spacing feet. They may not all be the same. If not, please indicate / - 1 -; o ** 12. Lateral line size r 'A inch. Indicate if there is more than one lateral size ** 13. Type of sprinkler: rotary impact, spray nozzle, rotator * * 14. Obtain from grower or dealer who supplied the machine the design capacity of the machine ?S : gpm. V** 15. If possible, obtain a printout of nozzle package for the machine. **16. - Supply line size inch ** 17. Supply line length feet. From pump to most distance pivot point.- **18. Pump make and model number * * 19. Pump capacity gpm **20. Engine make and model number , or **21 Electric motor horsepower and rpm hp, rpm Note The machine needs to be operated to obtain the pressure at the pivot point. * Locate on a copy of the map the pivot point(s) and the area covered by the machine. If the machine is towable indicate the several areascovered by the machine. Also locate the supply line., Irrigated acreage is obtained by area covered by each circle or part of a circle. ** Optional data, furnish where possible. * * * Information furnished by Signature of Owner or Facility Representative Printed Name of Owner or Facility Representative Date and/orf, _ y- Signature of Technicalspecialist Printed Name of Technical Specialist Date * * * Only the person or persons collecting the data should sign the data sheet. To calculate irrigated acres, collect Xhe following data: 1. Radius of machine (length of lateral) G B Z feet 2. Measured radius of end gun or end sprinkler Sc feet 3. Measure arc angle of machine operation, w = ° 4. Then use the equation A = 7r(r)2 x w 43,560 3600 r = radius of machine + 0.9 radius of end gun or end sprinkler 7t = 3.14 = constant w = arc angle of machine operation 43,560 = constant = fl /acre Collect the following data for each circle or part of a circle and compute irrigated acres for each circle or part of a circle. Tract No. /o/6 Radius of machine e.�O, z feet Field No. _ _ Radius of gun i .Ta ' feet Arc angle of operation, w ,A '7 ° Irrigated acres Z.S. -� acres Tract No. Iol6 Radius of machine G8 z feet Field No.--_? Radius of gun is0 feet Arc angle of operation, w 2,70 ° Irrigated acres 36.0 acres Tract No. ij16 _ Radius of machine /, R z feet Field No. Radius of gun i50 feet Arc angle of operation, w /NG ° Irrigated acres 2 4r 6 acres /0/ 6 3.3 Aae-Es FA0 8 Total irrigated acres 9 (; / acres Add additional work sheets if needed. Show data for each circle or part of a circle shown on the map. The map should include all fields shown on the WUP. Calculations by ,�2?L. Signature of WA Technic Specialist Printed Name of WA Technical Specialist Date 31,;v?Z9 9 Table NE65. Design Area Allowances for New or Expanded Hard Hose Traveler Systems EXTERIOR lane - in field with multiple overlapping lanes: Hydrant Spacing based on 65 percent of wetted diameter, (Areas shown are acreage outside starting/stopping gun location) wetted start end Stop end wetted area, acres diameter wetted d area arc angle arc angle arc angle arc angle arc angle feet acres 180 degrees 225 degrees 270 degrees 315 degrees 330 degrees (B) M (D) (E) (F) (G) 150 0.12 0.00 0.03 0.06 0.09 0.10 160 0.13 0.00 0.03 0.06 0.10 0.11 170 0.15 0.00 0.03 0.07 0.11 0.13 180 0.17 0.00 0.04 0.08 0.13 0.14 190 0.19 0.00 0.04 0.09 0.14 0.16 200 0.21 0.00 0.05 0.10 0.16 0.17 210 0.23 0.00 0.05 0.11 0.17 0.19 220 0.25 0.00 0.06 0.12 0.19 0.21 230 0.28 0.00 0.06 0.13 0.21 0.23 240 0.30 0.00 0.07 0.15 0.22 0.25 250 0.33 0.00 0.07 0.16 0.24 0.27 260 0.36 0.00 0.08 0.17- 0.26 0.29 270 0.38 0.00 0.09 0.18 0.28 0.32 280 0.41 0.00 0.09 0.20 0.31 0.34 290 0.44 0.00 0.10 0.21 0.33 0.37 300 0.47 0.00 0.11 0.23 0.35 0.39 310 0.51 0.00 0.11 0.24 0.37 0.42 320 0.54 0.00 0.12 0.26 0.40 0.45 330 0.57 0.00 0.13 0.27 0.42 0.47 340 0.61 0.00 0.14 0.29 0.45 0.50 350 0.65 0.00 0.15 0.31 0.48 0.53 360 0.68 0.00 0.15 0.33 0.60 0.56 370 0.72 0.00 0.16 0.35 0.'53_ _--0:60 380 0.76 0.00 0.17 0.38 0.56 0.63 390 0.80 0.00 0.18 0.38 0.59 0.66 400 0.84 0.00 0.19 0.40 0.62 0.70 410 0.89 0.00 0.20 0.42 0.65 0.73 420 0.93 0.00 0.21 0.45 0.69 0.77 430 0.97 0.00 0.22 0.47 0.72 0.80 440 1.02 0.00 0.23 0.49 0.75. .. , .., . _ 0.84 450 1.07 0.00 0.24 0.51 0.79 a.88 460 1.11 0.00 0.25 0.53 0.82 0.92 470 1.16 0.00 0.26 0.56 0.86 0.98 480 1.21 0.00 0.27 0.58 0.90 1.00 490 1.26 0.00 0.29 0.61 0.94 1.05 500 1.32 0.00 0.30 0.63 0.97 1.09 Page 28 Table NE70. Design Area Allowances for New or Expanded Hard Hose Traveler Systems EXTERIOR lane - in field with multiple overlapping lanes: Hydrant Spacing based on 70 percent of wetted diameter, (Areas shown are acreage outside starring/stopping gun location) wetted start end Stop end wetted area, acres diameter wetted d area arc angle arc angle are angle arc angle arc angle feet acres 180 degrees 225 degrees 270 degrees - 315 degrees 330 degrees (B) (C) (D) (E) (F) (G) 150 0.12 0.00 0.03 0.06 0.09 0.10 160 0.14 0.00 0.03 0.07 0.10 0.11 170 0.16 0.00 0.04 0.08 0.12 0.13 180 0.17 0.00 0.04 0.09 0.13 0.14 190 0.19 0.00 0.05 0.10 0.14 0.16 200 0.22 0.00 0.05 0.11 0.16 0.18 210 0.24 0.00 0.06 0.12 0.18 0.20 220 0.26 0.00 0.06 0.13 0.19 0.22 230 0.28 0.00 0.07 0.14 0.21 0.24 240 0.31 0.00 0.07 0.15 0.23 0.26 250 0.34 0.00 0.08 0.16 0.25 0.28 260 0.36 0.00 0.09 0.18 0.27 0.30 270 0.39 0.00 0.09 0.19 0.29 0.33 280 0.42 0.00 0.10 0.21 0.31 0.35 290 0.45 0.00 0.11 0.22 0.34 0.38 300 0.48 0.00 0.11 0.24 0.36 0.40 310 0.52 0.00 0.12 0.25 0.39 0.43 320 0.55 0.00 0.13 0.27 0.41 0.46 330 0.59 0.00 0.14 0.29 0.44 0.49 340 0.62 0.00 0.15 0.30 0.46 0.52 350 0.66 0.00 0.16 0.32 0.49 0.55 360 0.70 0.00 0.16 0.34 0.52 0.58 370 0.74 0.00 0.17 0.36 0.55 0.61 380 0.78 0.00 0.18 0.38 0.58 0.64 390 0.82 0.00 0.19 0.40 0.61 0.68 400 0.86 0.00 0.20 0.42 0.64 0.71 410 0.90 0.00 0.21 0.44 0.67 0.75 420 0.95 0.00 0.22 0.46 0.71 0.79 430 0.99 0.00 0.23 0.49 0.74 0.83 440 1.04 0.00 0.25 0.51 0.78 0.86 450 1.09 0.00 0.26 0.53 0.81 0.90 460 1.14 0.00 0.27 0.56 0.85 0.94 470 1.19 0.00 0.28 0.58 0.89 0.99 480 1.24 0.00 0.29 0.61 0.92 1.03 490 1.29 0.00 0.30 0.63 0.96 1.07 500 1.34 0.00 0.32 0.66 1.00 1.12 Page 29 Table NI65. Design Area Allowances for New or Expanded Hard Hose Traveler Systems INTERIOR lane - in field with multiple overlapping lanes: Hydrant Spacing based on 65 percent of wetted diameter, (Areas shown are acreage outside starting/stopping gun location) wetted start end Stop end wetted area, acres diameter wetted d area arc angle arc angle arc angle arc angle arc angle feet acres 180 degrees 225 degrees 270 degrees 315 degrees 330 degrees (B) (C) (D) (E) (F) (G) 150 0.11 0.00 0.02 0.05 0.08 0.09 160 0.13 0.00 0.03 0.06 0.09 0.11 170 0.15 0.00 0.03 0.07 0.11 0.12 180 0.16 0.00 0.03 0.07 0.12" 0.13 190 0.18 0.00 0.04 0.08 0.13 0.15 200 0.20 0.00 0.04 0.09 0.15 0.17 210 0.22 0.00 0.04 0.10 0.16 .0.18 220 0.24 0.00 0.05 0.11 0.18 0.20 230 0.27 0.00 0.05 0.12 0.19 0.22 240 0.29 0.00 0.06 0.13 0.21 0.24 250 0.32 0.00 0.06 0.14 0.23 0.26 280 0.34 0.00 0.07 0.16 0.25 0.28 270 0.37 0.00 0.07 0.17 0.27 0.30 280 0.40 0.00 0.08 0.18 0.29 0.32 290 0.42 0.00 0.08 0.19 0.31 0.35 300 0.45 0.00 0.09 0.21 0.33 0.37 310 0.49 0.00 0.10 0.22 0.35 0.40 320 0.52 0.00 0.10 0.24 0.38 0.42 330 0.55 0.00 0.11 0.25 0.40 0.45 340 0.58 0.00 0.12 0.27 0.43 0.48 350 0.62 0.00 0.12 0.28 0.45 0.51 360 0.65 0.00 0.13 0.30 0.48 0.54 370 0.69 0.00 0.14 0.32 0.50 0.57 380 0.73 0.00 0.15 0.33 0.53 0.60 390 0.77 0.00 0.15 0.35 0.56 0.63 400 0.81 0.00 0.16 0.37 0.59 0.66 410 0.85 0.00 0.17 0.39 0.82 0.69 420 0.89 0.00. 0.18 0.41 _0.85_ ._ -... _ 0.73 430 0.93 0.00 0.19 0.43 0.65 0.78 440 0.98 0.00 0.19 0.45 0.71 0.80 450 1.02 0.00 0.20 0.47 0.74 - 0.84 460 1.07 0.00 0.21 0.49 0.78 0.87 470 1.12 0.00 0.22 0.51 0.81 0.91 480 1.16 0.00 0.23 0.53 0.85 0.95 490 1.21 0.00 0.24 0.55 0.88 0.99 500 1.26 0.00 0.25 0.58 0.92 1.03 Page 32 Table N170. Design Area Allowances for New or Expanded Hard Hose Traveler Systems INTERIOR lane - in field with multiple overlapping lanes: Hydrant Spacing based on 70 percent of wetted diameter, (Areas shown are acreage outside starting/stopping gun location) wetted start end Stop end wetted area, acres diameter wetted d area arc angle arc angle arc angle arc angle arc angle feet acres 180 degrees 225 degrees 270 degrees 315 degrees 330 degrees (B) (C) (D) (E) (F) (G) 150 0.12 0.00 0.03 0.06 0.09 0.10 160 0.13 0.00 0.03 0.06 0.10 0.11 170 0.15 0.00 0.03 0.07 0.11 0.13 18D 0.17 0.00 0.04 0.08 0.13 0.14 190 0.19 0.00 0.04 0.09 0.14 0.16 200 0.21 0.00 0.05 0.10 0.16 0.17 210 0.23 0.00 0.05 0.11 0.17 0.19 220 0.26 0.00 0.06 0.12 0.19 0.21 230 '0.28 0.00 0.06 0.13 0.21 0.23 240 0.30 0.00 0.07 0.15 0.22 0.25 250 A33 0.00 0.07 0.16 0.24 0.27 260 0.36 0.00 0.08 0.17 0.26 0.29 270 0.38 0.00 0.08 0.18 0.28 0.32 280 0.41 0.00 0.09 0.20 0.31 0.34 290 0.44 0.00 0.10 0.21 0.33 0.37 300 0.47 0.00 0.10 0.23 0.35 0.39 310 0.51 0.00 0.11 0.24 0.37 0.42 320 0.54 0.00 0.12 0.26 6.40 0.45 330 0.57 0.00 0.13 0.28 0.42 0.47 340 0.61 0.00 0.13 0.29 0.45 0.50 350 0.65 0.00 0.14 0.31 0.48" _= "' "0-53 360 0.68 0.00 0.15 0.33 0.51 0.56 370 0.72 0.00 0.16 0.35 0.53 0.60 380 0.76 0.00 0.17 0.37 0.56 0.63 390 0.80 0.00 0.18 0.38 0.59 0.66 400 0.84 0.00 0.19 0.40 0.62 0.70 410 0.89 0.00 0.20 0.43 0.66 0.73 420 0.93 0.00 0.21 0.45 0.69 0.77 430 0.97 0.00 0.22 0.47 0.72 0.a1 440 1.02 0.00 0.23 0.49 0.76 0.84 450 1.07 0.00 0.24 0.51 0.79 0.88 460 1.12 0.00 0.25 0.54 0.83 0.92 470 1.16 0.00 0.26 0.56 0.86 0.96 480 1.21 0.00 0.27 0.58 0.90 1.00 490 1.27 0.00 0.28 0.61 0.94 1.05 500 1.32 0.00 0.29 0.63 0.98 1.09 Page 33 GRA-MAC DISTRIBUTING COMPANY Design — Sales — Service COMPLETE IRRIGATION SYSTEMS TELEPHONE: ADVANCE EXCHANGE (9191 908.3232 19191 928.3800 Beallgray Farms Linwood, NC Specification Sheet 1. Acreage under the traveler coverage ±140 acres. ROUTE 2, 80X 212 MOCKSVILLE, N. C, 27028 2. System is designed using an Amadas 2450L Slurry Reel with 1050' of 4 1/2" ID PE hose, hydraulic drive, and a Nelson SR200 gun. 3. The Nelson SR200 gun is intended to operate with a maximum ring orifice of 1.56" at 70 PSI, 445 GPM, with a diameter throw of 430'. 4. Lane spacing will be 300' (430 X 70%). 5. stem is.designed to operate with a 60 HP electric slurry pump, SFr Cornell X 14T, 1750 RPM, as the primary pump at the lagoon.site. This pump is capable -of pumping 670 GPM at 82 PSI (190 head feet), which ACHED is the proper condition for�aRerating the Valley Slurry Pivot already on r �OAJ the farm. This Cornell pump can aIm-su_pply 445 GPM at 84 PSI (195 head 'Zk NNc feet) for operation of the traveler. _ 041 P11V G The customer has been using a Doda PTO Slurry pump tn,move their lagoon 5y57, waste and will continue to use this pump as a booster at the -tra tiler location to increase the slurry pressure by approximately 40 to 50'PSI-. 6. Traveler system pressure requirement: Gun 70 PSI 1050' "of '4.5 ID hose =F28` ` PSI 1400' of 8" PVC Pipe (.26/100') 3.6 PSI 2000' of 6" PVC Pipe (1.0/100') 20 PSI Misc 5 PSI 126.6 PSI 293 Head Feet 7. For the traveler, friction loss in 8" PVC @ 445 GPM is .26 PSI loss per 100' and the velocity is 2.98 ' per second.�-The friction loss -in 6" PVC @ 445 GPM of slurry is 1.0 PSI loss per 100' and the velocity is 5.0' per second. TELEPHONE: ADVANCE EXCKANGE 19191 998.3232 (919) 998.3300 ,tiOcx - .1'r:r'1i+r:1: COMPLCTC IRRiGATiON SYSTr_M5 Bea-, ? grav Farms Page 2 ROUTE 2, BOX 212 MOCKSVILLE. N. C. 270Z8 For the pivot system, the friction loss in the 8" �70 GPM is .54 PSI loss per 100' and the velocity is 4.49 ' per 8. The traveler application Late is based on the inff_ rate of .6 to 3.0 inches per hour from the soils map of the `arr-.. Traveler application rate in inches/hour: application rate = 96.3 (GPM) 350° 3.1416 (Guy. Radius Y 90`'; , 270° = 96.3 (445) .. 1.34 3-1416-- (�-21.5 X 9, .50 inches -Der hour travel speed = 1.605 (GPM) Application X Lane Spacing = 1.605 (445) .75 X 300 3.18 feet per minute For a .75 inch application the traveler must move the gun cart 3.18 feet per minute across the field. The 2450L has a speed range of 1 foot to 6.67 feet per minute. 05/25/95 14:19 GR 'AC 17046378077 i N0.645 P03 GRA-MAC DISTRIBUTING COMPANY Design --- Sa)vs -- Serlrice COMPLETE IRRIGATION SYSTEMS TE;Lr.PHQMf.: ADVANCE EXCHANGE 10191 12QB-2292 10191 996-98no 5- z s - 9 s ROUTc 2. Box 2$2 MOCKSVILLE. N. C. 27020 LI g LL � CpizuQ11 4 X x Y T1 ,delrLed� / �" GYituu' - 7�- 4 sc Ja Z - -- - _ _ _ �_. J._• - EED.:-:VRRIOUS;RP ----`� : •�"�--=1- !: :i: '_ :�- ;`� - 'i-'-'�" .�•. - -- :. �.rr..•{-•�-i-- _". is .i. �, Y •_ _ `. S;7:f:._.j_!. in Lij Ase 40 -- ss+ 7 Ln N LO Q :.. = U.F,!. g "LMS PER I%JI U _. . 0 280 . 40g . i GOQ:. 80@. �000 :. 1200: 1408' 1600 4@- 80 140 lf0 200: - 240- . 2Q0'- - 3gQ_ - 360- CLsic iM TERS PER 1401�IR , ORIEGON.,f SC 6004 BIG GUN° PERFORMANCE TABLES 100 SERIES BIG GUNS - 240 TRAJECTORY" 100 T TAPER BORE NOZZLES U.S. UNITS N91z re '.5" GPM 01A, Nozzle '.55" GPM DIA. Nozzle .6" GPM DIA. NOZZIC .65' GPM DIA. I Nozzle .7" GPM DIA, Nozzle I Nozzle .75" I .6" GPM DIA, GPM Din Nozzle I -85" GPM DIA. Nozzle .9" GPM DIA, Nozzle 1,0" GPM DIA. 40 47 . 191' 57, 202' . , , 66 :__. 213' 78 222' 91 230' 103 240' I 118 250' 131 256' 152 262' 50 50 205' 64 215' 74 225' 87 235' 100 245' ! 115 256' 1130 265' ! 150 273' 165 280' 204 300, 60 55 215' , 69 . , 227, 81, , --, 240' _ 96 ,,. 250- 110 260' 126 270' 143 1155 280' I 164 288' 182 '.... 295' 224 , 316, 70 60 225' 75 235' 88 250' 103 263' 120 275' 136 283' 295' 302' 197 310, 243 338' BID 64 235' _ 79 248' ' 94' 260• 110' 273' 128 285' 146 295' 155 305' 1177 189 314 210 325' 258 354' 90 68 245' 83 258 100 270' 117 283' 135 295' 155 306. 1 175 315 20t 326- 223 335' 274 362' 100 72 255'._ - 87:.:,-,.268'„ , 106 -.' ,280'- , 123...... 293' 143 305' 163 316' I 185 325' 212 3361. 235,• _..: 345' 289.. 372' 110 76 265' 92 276' t17 290' 129 303' ISO 315' 171 321' 195 335' 222 344' 247 355' 304 380, Nvaila0le only wilh r11JU a SHIW. 100 R RING NOZZLES 100 DIN DIFFUSER NOZZLES P51 .7t A1NG GAM DIA .77 RING I GPM DIA .81 R:NG GPMDIA �86 RING GPM DIA .09 RING GPM DIA .93 RING GPMDIA .36 R;NG 1 0.5 DN GPM DIA DIA 0.6 ON GPM DIA 0.70N GPM DIA O.BDN' GPM DIA ? :.�.- II — — .66 168 .182 811 ._ 700.,196 a0 5 66 206 78 212 9t 215 103 ' a5 154 91 91 t82 t96 5D-, 74.; 220 m. y Y 225a:, 191 235, _. 1f5�240 119. 235 134 236 167' 240 I 60 165 _.66�768 _,74 .176;�, _,_,..100 :196.7- -"--tt8 GO al 235 96 240 110 245 125 260 141 270 164 275 I 183 Z !t — -- 110 200 143 216 70 ,':. 85,:245',_7 ;;:104:`,250„„ �_^119,_260 �" �: 135_ 275, __�12. 5290";_ _'__177 295 198 304 80 94 255 Ill 265 127 275 145 285 163 300 189 305 ' .. 90 a.._;,.99,'265,;.... ......v... r,�1i7;,275�.;::,i�734;y285�.:, .._._ ,.. ...,.154..295.'., _ 173..310.:._ .. .....201 315.,. .. _224 325 .. II .`..._....`.,.. .."...:.-.....T.. .......... �.....I too 105 270 124 280 142295— 162 305 182 320 2t2 110 -'11tl' 275 -:'130290�'""'149."305�'•' .7. 170' 315•;. 191' 325" 222 335 248 345 "Tne diameter of throw I5 aoproxrmatgty 3's6 less for the 210 trajectory angle, 6?b less for 184 '150 SERIES BIG GUNS - 240 TRAJECTORY"' 150 T TAPER BORE NOZZLES PSI N0111e 7" r GPM DIA. Nozzle B" GPM OEA, Nozzic 9" GPM DIA, NOz,90 0" GPM DIA Ne2710 C;Pr:: ptA Nozzle GPM DIA, ozz Nozzle GPM DIA. 50 100 250' 130 270' 165 290' 205 310' i 3":9' 300 345' 350 360' . 60 110-- 265' 143- 285' 182 alas' 225 325 2"5 330 365' 385 380' 70 120 280 155 300, _ - 197 320' 245 340' I 295360, I 355 380' 415 395' 80 128 290' s65 310' 210 335' 260 355' 315 '5' 360 395' 445 41p' 90 135 300' _ 175 320' 223 345' 275 365' 335 I 330' I 405 410' 475 425' I 100 Ida 310' 185 330, 235 355' 290 375 355 400' 425 420, $DO 440' 110 150 320' 195 340' 247 365' 305 355' 370 410' I 445 430' 525 450' L 120 157 330' 204 350' 258 375' 320 395' 1 3F5 411.111, 465 440' 545 460' 150 R RING NOZZLES PSI Ring .850 GPM DIA, GPM Ring .97" DIA. Ring 1.08" GPM DIA, Rinp 1.18" GPM DIA rrnc 1.26" 3PM DIA Fling 1.34" GPM DIA, Ring 1.41" GPM DIA. 50 100 245' 130 265' 165 285' 205 300' 255 320' 300 335' 350 350' 60 110 260' 143 280' 182 300, 225 315' 275 335' 1 330 350, 385 365' 70 120 270' 155 290'. 197 310, 245 330' I 295 350' I 355 365' 415 380' 80 128 250' 165 300• 210 320' 260 ' 340' 3l5 350' 380 380, 445 395' 90 135. 290, ,. 175..,,_ 310' 223 330' 275 350' 335 370, 405 390' 475 , a05' 100 143 300' 1115 320' 235 340' 290 36tl' 355 350' 425 400, Soo 415' ,to 150 310' 195. ., 330". 247 350, 305 370' I 370 390' 445 410, 525 425' 120 157 315' 204 335' 258 360' 320 380, 385 400, 455 420' 545 435' 'The Diameter 01 throw is approximately 3% Vess IOr tha 21' trajectory angle. 200 SERIES BIG GUNS - 270 TRAJECTORY" 200 T TAPER BORE NOZZLES PSI Nozzle 105" GPM DIA. NOzzie 1,1" GPM DIA. Nozzle t,2" GPM DIA. NOzziC t.3" GPM DIA. N021Ia I,4^ r GPM DIA. Nozzle 5" GPh1 DIA, Nozzle 1,6" I GPM DIA. Nozzle 1.75" GPM D1A. Nozzle 1.9" GPM DIA. 60 250 345' 285 3551. 330 375' 385 390' 445 410, I Sty 430, I 585 445' 695 470' 825 495'. 70 270 360, 310 380' 355 395' 415 410' "0 430' 555 450' 1 630 465' 755 495' 890 515, 80 29D 375' 330 395'.- 380 410' 445 430' 515 450' 590 470'. 675 485' 805 515' 950 535' 90 310 390' 350 410' 405 425' 475 445' 545 465' 625 485' 715 505' 855 535' 1005 555' 100 325 400' 370 420' 425 440' 500 460, $75 480' 660 500, 755 520, goo 550, 1060 575' Ito 34o 410, 390 430' 445 450, 525 470' 605 495, 695 515' 790 535' 945 565' 1t10 590' 120 355 420' 405 440' 465 460' 545 480' 530 505' 725 530' I 825 550' 985 580' 1160 605'. 130 370 425' 425 445' 485 465' 565 485' I 655 515' 755 540' I 650 560- 1025 590' 1210 62D' 200 R RING NOZZLESw- PS I I R,ng (129" aClual) GPM DIA. 1 !n" Ring (1.46" aClUa1) GPM DIA. I i'." (1.5G' GPM Rmg actu4N DIA, I + (1 GG" Gpht " Rinp C _1) DIA t V,,` 11.7A" GPM Ring acluall DIA 1 'y." Ring (1.83" acluall GPM DIA. 2" Ring (193" Actual) GPM DIA. 50 230 325' 300 3551. 350 370' 410 390' 470 405' 535 420' 640 435' FO 250 340' 330 370' 385 390' 445 410, 515 425' 505 440' 695 455' 70 270 355' 355 -..., 385' .. 415 405' 400, 425' 555 440' 630 -'455' - -. 755.. -,,,475' .. 80 290 370' 380 4D0' 4a5 420, 515 440' 500 455' 675 470' SOS- 490' 90 310 300' .., 405 '`'. 415'',,' 475 -_ 435' 545 455'- 625 470' 715 485' 855 SOS, 1DO 325 390, 425 425' 500 445' 575 465' 660 480' 755 500' 900 520, 110 34D 400' 445.;'.:;" 435'_ 525 455' 605 475' 695 490' 790 5101 D45 . 535'., 120 J55 4t0' 465 445' 545 465' 630 415' 725 500, 825 520, 985 545' 130 370 415" 485' 450' 565 470' 855 490' 755 505' 860 525' 1025 550' • • Iho DiamvlM 01 IMOw 15 approximately 2% less for She 24" trajectory angle, 50.a Ic65 to., Ine 2i" 1rllcclO+y angle The GIG GUN' per$vrriance ODIa has been 0WItinee under i0Ca1 tesj conogion5 ano may ou advcrselV WI0Cied uy wino. pUDr nydiauhc entrance COndillOns or other lactgrg. Nelson Irngallon Corporm,on mixes no reDrC5e111a lion r,!q .1x.'inri dronlel concitmil. i; Il llQ ifllrty, 0: apilication rate. 7 I Wettable Acres Determination Certification Name of Facility: BEALLGRAY FARMS INC. Facility Number: 29- 03 Owner(s) Name: JAMES GRAHAM Phone No: 336-956-7762 Mailing Address: 1218 BELMONT RD. LINWOOD, NC 27299 By signing this form, the facility owner and Technical Specialist acknowledge the completion of the Wettable Acres Determination. All necessary Wettable Acre Detc=r ination Field Data Sheets and calculations were completed to conduct a Wettable Acre Determination. The facility's Waste Utilization Plan has been amended as necessary to reflect actual wetted acreage. A copy of all worksheets, calculations, and other Wettable Acres Determination documents, along with the applicable Waste Utilization Plan and Wettable Acre Determination Certification will be filed with the local Soil and Water Conservation District. A copy will also be kept on site with the Certified Animal Waste Management Plan. Any future modifications must be approved by a technical specialist and filed with the Soil and Water Conservation District prior to implementation. If any modifications to the existing irrigation system or any new irrigation equipment was required to adequately address the waste management needs of this facility, an lrrigation Specialist or Professional Engineer has ceftified the design and installation bcfoti�l. Owner Name' Owner Signal Technical Specialist Name: Technical Specialist Signati LLOYD PHILLIPS JR. If assisted by an Irrigation Specialist or Professional Engineer please read and sign below: Animal waste application equipment has been designed or modified to apply waste as necessary to accommodate the waste management plan and according to NRCS Standards. Animal waste application equipment has been installed according to NRCS Standards and is ready for use. Irrigation SpecialiWPE Name: Irrigation Specialist/PE Signature: Date: Submit this form -to: , Attn: Sonya Avant z Non -Discharge Compliance Unit Division of Water Quality 1617 Mail Service Center -Raleigh, NC 27699-1617 WADC -.7/99 Davidson Soil and Water Conservation District 301 East Center Street - Lexington. NC 27292 - {phone (704) 242-2075 WASTE UTILIZATION PLAN REVISION III James Graham Beallgray Farms, Inc. Application # AWC 290003 In regard to solid feedlot animal waste. Waste is scraped and land applied, to, growing crops as weather permits. During winter months or when soil conditions do not allow field application, waste, urine, and runoff water enters a waste storage pond. Liquid from storage pond is applied through an irrigation system. Solid waste is not stored under roof, however any runoff from rain events will enter waste storage pond. Waste can he stored outside on feedlot for a minimum. of 90 days. James Graham, Operator -)at [! t') Date Lloyd PhHlips,'Jr District Resource Specialist CONSERVATION - DEVELOPMENT • SELF •GOVERNMFNT Davidson Soil and Water -Conservation District 301 East Center Street - Lexington, NC 27292 - Phone (336) 242-2075 - Fax (336) 242-2982 WASTE UTILIZATION PLAN REVISION: JAMES GRAHAM BEALLGRAY FARMS INC. APPLICATION # AWC290003 DAVIDSON COUNTY 1. 'TOTAL APPLICATION AMOUNTS OF ANIMAL WASTE BY IRRIGATION ARE NOT TO EXCEED '.iiV E INCH IN ANY APPLICATION EVENT FOR ANY FIELD OR PORTION OF FIELD, FOR ANY SOIL TYPE OR CROP. 2. CORN SILAGE R.Y.E. ARE TAKEN FROM USDA/NRCS SOIL SURVEY -DATA FOR DAVIDSON COUNTY. ALL FIELDS ELIGIBLE TO RECEIVE LIQUID ANIMAL WASTE ARE IRRIGATED WITH FRESH WATER ALSO. DAVIDSON SOIL SERIES HAS A R.Y.E OF 22 TONS PER ACRE PER YEAR FOR CORN SILAGE. SINCE THESE FIELDS ARE IRRIGATED WITH FRESH WATER YIELDS WERE INCREASED 9%. THIS ACCOUNTS FOR THE YIELD OF 24 TONS/AC/YR SHOWN ON WUP. THE DAVIDSON SOIL SERIES FOR CORN WHICH IS NOT IRRIGATED IS LISTED AS 22 TONS/AC/YR. THE MAXIMUM RATE OF 12 POUNDS OF PAN PER TON WAS USED FOR BOTH IRRIGATED AND NON -IRRIGATED. THE 9% INCREASE FOR IRRIGATED CORN YIELDS WERE DISCUSSED WITH THE EXTENSION SERVICE AND NCDA AGRONOMIST. AMES GRAHAft, OPERATOR date LLOY PHILLIPS TECH. SPEC. CONSERVATION - DEVELOPMENT - SELF-GOVERNMENT U. S. DEPARTMENT OF AGRICULTURE Soil Conservation Sarlice PLAN OF EXCAVATED WASTE STORAGE PIT MC-ENG-40 Ray. 7/91 NAME: --1��F//s.,��„ , F.,. s —Date: //3QfJ County: J et,/,0_56 ) Address: /s 74E Yd GNl ,23 G LINOT14 -7:/ EIDE SLOPE 2 TO 1 / AVE. IMF ELEV. �14MID SECTION AVE. BOTTOM ELEv. LENGTH Pa (Sae back !oi velum calculations) Use of facility: GrJ,ss/r Sl,,,,-,r P0,w capacity: /,7o Ls7 Gallons 2..2 Z,122 Ft3 Soil Type: Bench Mark Description Bottom. Normal Liguid Level Storage for normal Precip. Maximum Liquid Level 25 yr. Storm Storage - Crest ESW Max.Flow Depth Freeboard Top of Dam J 1)._ .u= /aeg7 • / 1 Elev. Elev. (+) Ft. Elev. M Ft. Elev. M Ft. (+) Ft. Elev. U. S. DEPARTMENT OF AGRICULTURE Soil Conservation SarOlca PLAN OF EXCAVATED WASTE STORAGE PIT MC-ENG•40 Rev. 7/91 NAME: A9 fr� �ti /ems Date: //3/AS.S - - - County: Address:— A14,rlZ y. / e.Jlu_ - - - • I.- LENGTH it DE SLOPE 2- TO t / .�. AVE. TOP, ELEV. /oW � o ���2251M1D sEDTrOM / lls7j. 1/ 1 AVE. BOTTOM ELEV. % T i LENGTH _ I 209' /Vv� ,v>�s,�N���y•N�Zcs (see back for value calcviations) Use of facility**— A4flz S_ _Atsr Po,,kv- Capacity: LIM= Gallons 283,283 Ft3 Soil Type:. Bench Mark Description Bottom. Normal Liquid Level Storage for normal Precip. Maximum Liquid Level 25 yr... Storm -Storage. Crest ESW Max.Flow Depth Freeboard Top of Dam /G Elev. Elev. (+) Ft. Elev. Elev. {+) Ft. {+) Ft. Elev. U. S. DEPARTMENT OF AGRICULTURE ' ' NC-ENG-40 Soil Conservation Sortie* Rev. 7/91 PLAN OF EXCAVATED WASTE STORAGE PIT NAME: ----=°��'�'s .Date:_lh'a-f..� County: phylosow Address: /„/AS144- ' Y,I oN4 3.-. l s745,e 3 sa . ENO TH SIDE SLOPE ?---TO 1 A \\ AYE. TOP &LEY. 010 910TION /wry 40 g / AVE. 'EOTYOr ELEr. :1�9 -- - - LENGTH _—_ _' we (Sea book !or voium calculations) Use of facility: — 1-1oil-C S'14'Agr capacity: i3dz�s Gallons— _ /z,��,3 Ft3 Soil Type:' Bench Mark DescFipt on Bottom. Normal Liguid Level Storage for normal Frecip. Maximum Liquid Level .25 yr. Storm storage crest ESw Max.Flow Depth Freeboard Top of Dam BTJMMARY__ Elev Elev. (+) Ft. Elev. {+) Ft. Elev. (+} Ft. , {+} Ft. Elev. j U. S. DEPARTMENT OF AGRICULTURE NC-ENG-40 Soil Conservation Service Rev. 7/91 PLAN OF EXCAVATED WASTE STORAGE PIT NAME: g7 /14- ` Pate: ' County: Address: 3�D LENGTH SIDE. SLOPE r,_,ro t % aod d� AVE. TOP ELEV.; e � 1910 SECTIO01 10; /f�O J o AVE, 'BOTTOM ELEV. LENGTH r � - wf 1 (See back for voluiMe calcutations) Use of facility: _ ?.+lM /E 576�,w e - -,t ,w.✓a{7?" v�.�d - - ,_ Capacity: Gallons � 39o1y-Ft3 soil Type: ' ' Bench Mark Description Bottom. Normal Liquid Level Storage for normal Precip. Maximum Liquid Level 25 yr..Storm Storage Crest ESW Max.Flow Depth Freeboard Top of Dam Elev. Elev. - (+) Ft. Elev. (+) Ft. Elev. m (+) Ft. (+) Ft. Elev. 0 VOLUME OF A TRAPEZOIDAL► PIT One equation for calculating the volume of a trapezoidal pit is:. Volume - depth [(area of top). + (area of bottom) + (4 * area 6 of midsection)].= Ft3 .... 3ya/ 5/� 'F� 3 Another equation for.determining the volume of a trapezoidal excavated pit with constant side slopes -is: V Q wdL + Zd2(4/3 Zd - w - L) where: V = total volume of the pit in ft3. w = width of the pit at top in feet. d = depth of the pit at top in feet. L = length of the pit at top in feet. Z = side slope - - ' for 2 to 1 use Z a 2 for 21/2 to 1 use Z - 21/z NOTE: Dimensions used must be constructable. Always check for narrow, deep pits. For correct results the following must be true. w must be greater than 2Zd L must be greater than 2Zd { � 3 . _ _. . "rt 1-d'.:if,'ir. mil'¢" ° ':.`' -a. ryx h,'",, .Ir ' y'H,.c `,..i:•:4:��'. . F"r31..rJ.Tir':.1f..i US DepaY•tMERnt of Agriculture Soil Conservation Sarvica RUNOFF COMPUTAT 1014! SHEET -- - prepared for - in Davidson County, North Carolina - Designer . L Phillips Checker--------- ------ Date 03;02/95 Date . -_______________ ]S�-'1S-'!�T.-F-�!'F-]S-']C 5'����'T. .w. 'F'T."1!' R'"I."'F.'"l5"TCF�IS'�T. T. TT-R'TS"F.'c��'}C'1ST. ����'iS T.••5'•5•'T. T. T. TS'Y.'7C'T.'� T."is T."R'F T. �T. F. Ti TS-.S l'f"-R--F']T T. 'T. ���-! Runoff Calculations .. .. .. ... .....-..-...... _....— .....—_J. r. w. Land Use _.-..... «..--.--_...............................�—... and Condition �.— ... .. �• V--.- --------__---��..—....-...i Acres ___��FYw+-+NRi •-9i' :p!^w -- by hydrologic soil.,,,group ac . A ac . D ac:. C `C:.= D ----.....---...-----...._—...........--...Y«.... Roads, Including ----___---_.--.................--........"�------------------------- rights -of -way D i r t ---- 72 6 ...xE32 87 ,'. 89 Urba-n Areas *-- VEGETATION ESTABLISHED Pavement,roofs -commercial - --- -- - 9E3 6.4x98 _ - - -98 Watershed Slope - 3.0 % Drainage"Ati-ea = _-_12.9-acre?s '"_CUr:ve :Nurnb_gr_- `-90_` Watershed Ler;gth = 900 ft. --'Tc-- =. O.IE3 hr. _ -Rainfall ;Type = I1 _.._Perak Frequency 24-hr rainfall -Runoff _- discharge-- 1 •- yr. 3.0 i -_::I 9A in. - '34 cfs. 2 - r�-. 3.5 in. - =._. —2.45 ir,�.._._ .. - 42 cf :- - 4�L16 _ ".�:. - 5 - ���-. 4.4 in. _�� -3.3Cr in. -- 57 s;.--. --=r. G:0-"--- 10 - yr . 5.1 in. 3.97 in. 69 cfs. ':-'0..04 25 -- yr . 6.0 in. 4..25 in, 84 cfs. , '-: ,1--0.04 50 - ;rr . 6.6 in. 5'.42 in. 95cr-fC;. 0.03 J1 ry r/•� Dra'l-na a Cu7'-'`des Qa --` 4.0 Cfs. OC= 1 . 1 C,fs,. a •- 2.0 c'f s . Qd - 0.6 c.fs � err � . � . � _____ WASTE ' UTILIZATION PLAN REQUIRED SPECIFICATIONS 1. Animal waste shall 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: 7 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 inI�manner not to reach other property and public right -of --ways. 15. Animal waste shall not be discharged into surface waters,' drainageways, or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted cropland provided they have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways that discharges directly into water courses, and on other grassed waterways, waste shall be applied at agronomic rates in a manner that causes no runoff or drift from the site. 16. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management 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: 8 WASTE ' UTILIZATION PLAA 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 plane which will eliminate the o an_illegal discharge, pollution and erosion. 19. Waste handling be inspected on and spills. A site. structures, piping, pumps, reels, etc., should a regular basis to prevent breakdowns, leaks, regular maintenance checklist should be kept on 20. Animal waste can be used in a rotation that includes vegetables and other crops for direct human consumption. However, if animal waste is used on crops for direct human consumption it should only be applied preplant with no further applications of animal waste during the crop season. 21. Highly visible markers shall be installed to mark the top and bottom elevations of the temporary storage (pumping volume) of all waste treatment lagoons. Pumping shall be managed to maintain the liquid level between the markers. A marker will be required to mark the maximum storage volume for waste storage ponds. 22. Waste shall be tested within 60 days of utilization and soil shall be tested at least annually at crop sites where waste products are applied. Nitrogen shall be the rate - determining element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. pH shall be adjusted for optimum crop production and maintained. Soil and waste analysis records shall be kept for five years. Poultry dry waste application records shall be maintained for three (3) years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina regulations. Page: 9 EMERGENCY ACTION PLAN PHONE i` UNI HERS DWO 910-771--4600 EMERGENCY M.-L�iAGE:MENT SYSTEM SWCD Atn-242-2w5 N IRCS This plan wi11 be implemented in the event that wastes from your operation are leaking, overflowing, or running off site. You should not wait until wastes reach surface waters or leave vour 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 some possible problems are listed below. A. Lagoon overflow -possible solutions are: a. Add soil to berm to increase elevation of darn. b. Pump wastes to fields at an acceptable rate. c. Stop all flows to the lagoon immediately. d. Call a pumping contractor. e. Make sure no surface water is entering lagoon. B: Runoff from waste application field -actions include: a. Immediately stop waste application.— r b. Create a temporary diversion to contain waste. c. Incorporate waste to reduce 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 pump._- b. Stop irrigation pump. c. CIose valves to eliminate furrher discharge. . d. Repair all leaks prior to restarting pumps. D'. Leakahe from flush systems. houses. solid separators -action include: a. Stop recycle pump. b. Stop irrigation pump. c. Make sure no siphon occurs. d. Stop all in the house. tiush systerns, or sciia separators. L�e_�ttti-wer 1S. i�,c�, 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 away from the embankment to catch all seepage, put in a submersible pump, and pump back to lagoon. b. If holes are caused by burrowing animals, trap or remove animals and fail holes and compact with a clay type soil. -- . c. Have a professional evaluate the condition of the side walls and lagoon bottom as soon as possible. 2. Assess the extent of the spill and note arty 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 su ace waters? f.. Could a future rain event cause the spill to reach surface waters:' 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 hou�s, all your DWQ {Division of Water Quality} regional office; Phone y'° "� y'0°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, 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 Phone number - c. instruct EMS to contact local Health Department. S� �.2a7s d. Contact CES, phone number - - . local SWCD office phone number l- and local NRCS office for adviceltechni cal assistance phone number - PV2.2° 7S 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 problem to minimize off -site damage. a. Contractors Name: b. Contractors Address: c. Contractors Phone: 2 De_e-mber l -�. 1996 6: Contact the technical specialist who certified the lagoon (NRCS, Consulting Engineer, etc.) a. Dame: j10!4C/ -10 s b. Phone: *pe-/ a4.z — � j 7Sr is implement procedures as advised by DWQ 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. December IS. 1996 Insect Control Checklist for Animal Operations Sltorce Cause 11101"S In Conti'o1 Insects - - - F Site Specific Practices -- Liquld Systems F111sh Ciuucts Accumulation of solids ❑ Flush systent is designed and operated sufficiently to remove accumulated solids from gollers as designed. ❑ Remove bridging of accumulated solids al _ discharge t_,lgutnts and Pils • Crusted Solids W-Maintain lagoons, settling basins and pits where pest breeding is apparent to minimize the crusting of solids to a depth of no more than G - 8 inches over mare than 30% of surface. Ia,ccssive Vegetative • Decaying vegetation W—Maintain vegetative control along hanks of t it lnvth lagoons and other impoundments to prevent accumulation of decaying vegetative matter along ►eater's edge on inipoundnienl's perimeter. E Dry Systems 1'cufct:.--- • Feed Spillage R—Tesign, operate and urtintaia feed systems (e.g., bunkers and troughs) to minimize the accumulation of decaying wastage. GYCleau up spillage on a routine basis (e.g., 7 - 10 day interval during summer; I5-30 day interval during winter). Ie Accumulations of feed residues ttetln:ce utaisutre accntmltlation within and around itmnuliale perimeter of fired storage areas by insuring; drainage away frolo situ amVor providing adetpuae coutaitimem (e.g., covered bin tier brewer's grain and similar high , Moisture grain products). • ❑ Inspect titr and remove or break upi accunniiatcd - -� - &. solids in tiller strips around lecd storage as needed. d! t•f' t l..r...I'll—r i t 1904 14v.r 1 Snnrce Cause IIMPs to Control Insects. Site Specific Praclices Animal I folding Areas Accumulations ol-anintat wastes PF Eliminate low areas that trap moislure along and feed wastage fences and ollher locations where waste accumulates and disturbance by animals is inimal. B Maintain fence rows and filter strips around animal holding areas to minimize accumulations of wastes (i.e., inspect for and . remove or break up accuutulaled solids as needed). Dry hlamire I landling • Accumulations of animal wastes R'Remove spillage on a routine basis (e.g., 7 - 10 Spstc�ns day interval during summer; 15-30 day interval during winter) where manure is loaded for land application or disposal. provide for adequate drainage around manure stockpiles. MP1 nspcct for and remove or break tip accumulated wastes in filler strips around stockpiles and manure handling ure:as as needed. Ivor more hil'annation contact the Cooperative Extension Service, Deparlmeni of Enlomnlogy, Box 7613, Norlh Carolina State I Iniversity, Raleigh, NC, 27695-7613. i j AAIll, - thivember 11, 1996, Pate 2 Dairy Farm Waste Management Odor Control Cherklist Sources' _ - — - Cause --- — RAtPS 10 h'ltlilillize 04101' --- —--`TSite Specific Practices I arulslLall Dairy production Vegetative or wooded buffers F-r—Recomotendcd best management practices Q-10ood judgment and comnlon sense Paved [tits or barn alley • Wet manure -covered surfaces Fr Scrape or flush daily surtaces PrIlromole drying wilh proper ventilation B'Wouline checks and maintenance on waterers, hydrants, pipes, stack tanks [lorded areas • Urine Ft—fifo note drying Willi proper ventilation • Parllal microbial decomposition Replace Wet or manure -covered bedding hlanurc dry slacks Partial microbial deeompositiciii Provide liquid drainage for stored manure Sturage tank or hasin • Partial microbial deconiposltlon ; n notion, or midlevel loading :1131' e • Mixing While filling ; n Tank covers • Agitaliou when eniplyilig n Basin surface mats of solids; 0 h`linbui?e lol ninoff and liquid additions n Agitate only prior to manure removal Cl I'rc►vcu bicilut;ical additives or oxidauls Sculing koiu suifiiccs Partial microbial decomposition n I_itluid draillagc Ircun settled stilids - • Mixing Wlllle filling fl lt4nlove solids regularly • Agitatiou when cniplyin6 Manure, slung or sludge • Agitation whcu spreading Cl Soil injection of sttirry/sludges �.prcader uullccs . Volatile gas einissiolls CF—Wash residual manure from spreader after use n Proven biological addilives or oxidants I lllcovelell Inutile, a Volatile gas culissions while n. Sail iujeeliun ul'shury/sludges _ W shirty or sludge on field drying ;, . n Soil incorporation within -IB lirs silllaces i'`'}} R Spread in thin unifarni layers for rapid drying n Proven hiolobical addilives or oxid_an_l_s f'lilal► Lil►Ls Agilatinii o6aycled l.igoun n Flash tank covers, licµlid While iaiih-s are filling n uxiencl lilt lines to near hottunl III' I.Inla wilh ;, anti siphon vents Ooviidc drain colleciion Agilation during ►vaslewaler 91711ox covers or iunelino boxes coliveyance Ahi()(' - 1,hivember 11. 1996, Page Source Cruse RMPs to h1iolmice Odor' Site Specific Practices - - Lift Slalions 0 Agitation during sump lank r} Sump tank covers filling and drawdown Fod of drainpipes at • Agitation during waslewaler Fxlcnd discharge point of pipes underneath lagoon conveyance lagoon liquid level Labuoo surfaces 0 Volatile gas emission; Proper lagoon liquid capacity;/ - Biological mixing; W fd Corrccl lagoon startup procedures; • Agitation W-Minimum surface area-lo-volume ratio; Minimum agitation when pumping; 9 Mechanical aeration; R---proven biological additives Irrigation sprinkler 0 1ligh pressure agitation; F (Irrigate on dry days with little or no wind; noczics - Wind drift R- Minimum recommended operating procedure; R'l'ump intake near lagoon liquid surface; iKPump front second -stage lagoon; ir%losh residual manure from pipes al end of shtrry/sludge pumpings head atuimals Carcass decomposition Proper disposition of carcasses Stall(ling water arnruui 0 Improper drainage; Grade and LIMIScape such Ib:tt Svalcr drums lacllilic�, - hlicrullial decomposilion of away from I,aciiitics Organic matter hied traded into public - Poorly maintained access roads R"- Farnn access road maintenance mods limn firm access Additional Inl'unuauiou : Available from : Cattle Nlanwe AManagemeut ; 0200 Itule/f1MP Packet NCSI I, County Exlensiun Center Dairy Edncaliilia I l lrsit Manure Management System - Lake Wheeler Road Field Labnrdtory NCSI I - 11A1: h1courl Design and M:uuagemcal for Livestock Manure ,freatmenl and Storage ; HBAIi 103-83 N(-Sl I - 11AF Nlauabcnuew of Dairy Wastewater; Ii13AI= 106-83 NCSII - 11AE t *ahInwion ol'Manure and Wastewater Applicalinn Filuipmeol ; MlAfi Facl Sheet NCSI I - IIAF IJnisiwcc t'ooccrns iu Aoiotal blaoure ManageurcnC i)dnrs and Flies; PRO107. 1995 Coufere.uce Proceedings Florida Cooperative Vxlension AN10t: - November 11, 1996, Page 2 Nlortaiity Management Methods (check which methoa(,$) are being irnp!=nented) Burial three feet beneath the surface of the ?:cund. within ?Y hours after knowledge of the death. The burial must be at ;past =00 feet from anv {lowing stream or public body of water. Rendering at a rendering plant licensed under C.S.0 16S.7 J Complete incineration In the case of dead poultry only. placing in a cis opal pit of a size and design approved by the Department of Agriculture _J Anv method v,•hich in the professional opinio-i of ` State Veterinarian would make possible the salvage of part of a dead s aiue without endangering human or animal health. (Written aonrova, of tl:e Star-- Veterinarian must be attached) F 0 !r C 01r lr., A ult :r .11 E:' Agri -Waste Management Biological and Agricultural Engineering North Carolina State University . LIVESTOCK VASTE SAMPLING, ANALYSIS AND CALCUUTION OF LAND APPLICATION RATES ,lames C. Barker* I. SAMPLE COLLECTION A. Semi -Solid Lot Manure i. Scraped directly from lot into spreader a. From loaded spreader, collect about 2 lbs of manure from different locations using nonmetallic collectors. ii. From storage a. Collect about 2 lbs of.manure from under the surface crust avoiding bedding materials and using nonmetallic collectors, B. Liquid Manure Slurry L. Under -slotted -floor pit a. Extend a 1/2" nonmetallic conduit open on both ends into manure to pit floor. b. Seal upper end of conduit (e.g., by placing a thumb over end of conduit) trapping manure that has entered lower end, remove and empty slurry into plastic bucket or nonmetallic container. c. Take subsamples from 5 or more locations or at least'l quart. d. Mix and add about 3/4 pint to nonmetallic sample container. ii. Exterior storage basin or tank a. :lake sure manure has been well mixed with a liquid manure chopper• agitator pu.^np or propeller agitator. b. Take subsam.ples from about 5 pit locations, from agitator pump or from manure spreader and place in a plastic bucket. * Professor and Extension Specialist, Biological and Agricultural Engineering Department, North Carolina State University, Raleigh, ::C. • 2 - c. Mix and add 3/4 pint to a nonmetallic sample container. C. Lagoon Liquid i. Collect about 3/4 pint of recycled lagoon liquid from inflow pipe to flush tanks in a nonmetallic sample container. ii. From lagoon a. Place a small bottle (1/2 pint or less) on end of 10-15, pole. b. Extend bottle 10-15' away from bank edge. c. Brush away floating scum or debris. d. Submerge bottle within 1' of liquid surface. e. Empty into a plastic bucket, repeat about 5 times around lagoon, mix, and add 3/4 pint to r.o Metallic sample container. D. Broiler or Turkey Licter i. House litter a. Visually inspect litter for areas of varying quality, e.g., areas around feeders and waterers, and estimate percent of floor surface in each area. b. Take about 5 litter subsamples at locations proportionate to item a. E.g., if 20% of litter of similar visual quality is around feeders and waterers, take 1 subsampie there and the other 4 subsamples from remainder of floor surface. c. At each location, collect litter from a 6^ by 6" area do:.-n to earth floor and place in a plastic bucket. d. After 5 subsamples have been added to the bucket, mix, and add about-2-3 Ibs litter to a nonmetallic sample container such as a 1-gallon freezer bag and seal. ii. From stockpile a. Take subsamples from about 5 locations at least 1V into pile. b. Mix, add 2-3 Ibs to nonmetallic sample container and seal. 3 - II. SAMPLE 'PREPARATION AND TRANSFER A. Place sample into an expandable container that can be sealed. Rinse residues from container with clean water but do not use disinfectants, soaps, or treat in any other way. B. Pack sample in ice, refrigerate, freeze, or transfer to lab quickly. C. Hand -delivery is most reliable way of sample transfer. D. If mailed, protect sample container with packing material such as newspaper, box or package with wrapping paper, and tape. E. Commercial sample containers and mailers are also available. Contacts: i. AFL Eastern Agricultural Lab, Inc. iii. Polyfoam Packers Corp. 7621 Whitepine Road 2320 S. Foster Avenue Richmond, VA 23237 Wheeling, IL 60090 Ph: (804)743-9401_ Ph: (312)398-0110 Li. Fisher Scientific Co. 3315 Winton Road Raleigh, NC 27604 Ph: (919)876-2351 iv. NASCO 901 Janesville Avenue Fort Atkinson, WI 53538 Ph: (414)563-2446 F. Private analytical labs are available, but sample analyses are costly. C. The NCDA provides this service for North Carolina residents. L. Address: North Carolina Department of Agriculture Agronomic Division Plant/Waste/Solution Advisory Section Blue Ridge Road Center P.O. Box 27647 Raleigh, NC 27611 Ph: (919)733-2655 Attn: Dr. Ray Campbell ii. Forward $4 along with the sample. iii. Include the following identification information with sample: a. Livestock species (dairy, swine, turkey, etc.) b. Livestock usage (swine -nursery, finishing; turkey -breeders, brooderhouse, grower, number flocks grown on litter; etc.) c, waste type (dairy -lot scraped manure, liquid slurry; swine -pit slurry, lagoon liquid, sludge; broiler -house litter, stockpile iv. Routine analyses performed on all samples: N. P, K. Ca, Mg. Na, S, Fe, Ln, 2n, Cu, B v. Additional analyses performed upon request: DM. Mo, Cd, Ni, Pb EXHIBIT F-4 CALIBRATION Applicators can apply manure, litter and wastewater at varying rates and patterns, depending on forward travel and/or PTO speed, gear box settings, gate openings, operating pressures, spread widths and overlaps. Calibration defines the combination of settings and travel speed needed to apply manure, litter or wastewater at a desired rate and to ensure uniform application. 52reader Capacity Liquid spreader capacities are normally rated by the manufacturer in gallons. Multiply gallons by 0.0042 to get tons. Solid and semi -solid spreaders are rated by the manufacturer either in bushels or cubic feet (multiply bushels by 1.24 to get cubic feet). Most spreaders have two rating capacities: 1) struck or level full, and 2) heaped. Since manures and litters have different densities, an on -farm test should be done. Fill a five -gallon bucket level full with material to be spread. Do not pack the material in the bucket but ensure that it settles similar to a loaded spreader. Weigh the bucket full and then empty. Multiply the weight of the contents by 1.5 to get pounds per cubic feet. Multiply this value times the cubic feet capacity of the spreader and divide by 2000 to get the tons of material in a spreader load. manure weight, lbs x 1.5 x spreader capacity, ft' - 2000 = spreader load, tons Spreader Calibration Calibration Method is This method is most useful for liquid spreaders but can be used for all types. Spread at least one full load of manure preferably in a square or rectangular field pattern for ease of measuring with normal overlaps. Measure the length and width of coverage recognizing that the outer fringe areas of the coverage will receive much lighter applications than the overlapped areas. Multiply the length by the width and divide by 43560 to determine the coverage area in acres. Divide the tons of manure in the spreader by the acres covered to determine the application rate in tons per acre. spreader manure, tons * (coverage length, ft x width, ft 43560 ) = application rate, tons/acre Repeat the procedure at different speeds and/or spreader settings until the desired application rate is achieved. Example: What forward speed would be needed to apply 6.0 tons litter per acre from a spreader with a 6-ton capacity, a 5-minute spreading time, and a 25-feet spreading width? Forward speed, mph = capacity, tons x 495 - time,min x width x rate, tons per acre 6 tons x 495 5 min x 25 ft x 6 ton per acre 4 miles per hour Calibration Method 2: This method is often used for solid and semi -solid spreaders. A tarp or plastic sheet of about 100 square feet (9'x12', 10'x10', etc.) should be measured for exact surface area (length x width), weighed using a set of spring -tension or platform scales, then spread and pinned on the field surface. The spreader should be operated at its normal settings, speed and overlap. With a rear discharge spreader, three passes should be made: the first directly over the center of the sheet, the other two on opposite sides of the center at the normal spreader overlap spacing. The sheet with the collected manure should again be weighed. Subtract the empty sheet weight from the total weight to get the weight of the collected manure. Multiply the pounds of collected manure by 21.8 and divide by the collection area of the sheet in square feet to get the EXHIBIT F-5 application rate in tons per acre. collected manure, Ibs x 21.8 1 collection area, ft2 = application rate, tonstacre Repeat the procedure using different settings or speeds to obtain the desired application rate. Sprggder Pattern Uniformity To determine the uniformity of spread and the amount of overlap needed, place a line of small pans or trays equally spaced (2-4 feet apart) across the spreader path. The pans should be a minimum of 12" by 12" or 15" diameter, no more than 24" by 24", and 2%4" deep. Make one spreading pass directly over the center pan. Weigh the contents caught in each pan or pour the contents into equally sized glass cylinders or clear plastic tubes and compare the amount in each. The effective spread width can be found by locating the point on either side of the path center where the manure contents caught in the containers is half of what it is in the center. The distance between these points is the effective spread width. The outer fringes of the coverage area beyond these points should be overlapped on the next path to ensure a uniform rate over the area. "M", 'W', "steeple", or "lopside" patterns are not satisfactory and one or more of the spreader adjustments should be made. North Carolina Revised Universal Soil Loss Equation Worksheet Owner/Operator: Beailgray Farms Inc. County: Davidson Tract: 4652 Date: R Factor: 220 Assisted By: Lloyd Phillips July, 2001 Field 2 Map 1 Unit Kf I K Adjusted I Sloe C I El I Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group I Table 12 Value Row Grade I R G/Slope % Ratio I Contour I Terrace Strips Factor P Soil Loss % I L LS I Table 131 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.018 100 2 1 B 0.5 1 0.20 0.72 0.72 0.43 Proposed 0.00 0.00 Field 3 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 I Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % I L I LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.018 100 2 1 B 0.5 1 0.20AnTerrace 0.72 0.43 Proposed QI 0.00 0.00 Field 10 Map unit Kt K Adjusted SlopeC El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % RaUo Strips Factor P Soil Loss % L LS le 14 Existing DaB 0.28 0.22 5 15Q 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed 0.00 0.00 Field Map unit Kf K Adjusted SlopeC El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing 0.87 0.00 ProposedNEEMEMENERENN\\0.00 Field Map Unit Kf jAdjusted K SlopeC El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace' Strips Factor P Soil Loss % L j LS Table 13 Table 14 Existing 0.00 Proposed NEEMEN 0.00 Field Map Unit Kf K Adjusted Slope C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing 0.00 Proposed 0.00 Field Map Unit4 Kf K Adjusted SlopeC EI Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing 0.00 Proposed 0.00 "{ `Norti��Carolina t it . e Uhher/0per9tor: - C(Mnty: Davidson Revised Universal Soil Loss Equation Worksheet Beallg_ray Farms Inc. R Factor: 220 Assisted By Tract: 1016 & 4652 Date: Lloyd Phillips July, 2001 `jetd`f' fir»' 1 I��ap } .!,Unit Kf K Adjusted Sloe C I El I Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour I Terrace I Strips Factor P Soil Loss % L LS Table 13 Table 14 Exisling.4 Dab',., 0.28 0.22 5 150 0.68 0.018 100 2 1113 0.5 1 0.20 0.72 0.72 0.43 Pro jo ;ed 0.00 0.00 k Friel3!'' r i fai 7Ar' Map Unit Kf K Adjusted Sloe C EI Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing; tr DaB:- 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 `E 'y Proposed M. 0.00 0.00 Field ;° 11 i Map unit I Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing. Dab ': 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed', 0.00 0.00 Field `; 1 'A!i p Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing r Da$ ;10)..Q80,22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed. = 0.00 0.00 Field 1A ;' h4ap 'Unit Kf K Adjusted Sloe C EI Cover Cd. Table 14 Ridge Ht k Table 11 Hydro, Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing DNB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.5r 1 0.20 0.77 0.77 4.49 Proposed RRN \;`� _ 0.00 0.00 Field 4 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing IrB 0.32 0.26 5 100 0.62 0.177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Proposed 0.00 0.00 Field , 5 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht_ Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing IrB 0.32 0.26 5 100 0.62 0.177 100 4 1 C 1 0.76 1 0.20 0.87 0.87 5.46 ProposedRMENNI 0.00 North'Carolina r Revised Universal Soil Loss Equation Worksheet 0i�:ner/Operator: Beallgray Farms Inc. :Ccnty:: Davidson R Factor: Tract: 4652 Date: 220 Assisted By: Lloyd Phillips July, 2001 5. 'Map ' Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge lit. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour ce Terra Strips Factor P I Soil Loss % L LS I Table 131 Table 141 Exi 1 ng IrB 0.32 0.26 5 100 0.62 0,177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Prq�tosed 0.00 0.00 aid Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht, Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Exi t ng . Pr=Posl MeB 0.24 0.2 5 100 0.62 0.018 100 2 1 C O.fi9 1 0.20 0.00 0.83 0.83 0.41 0.00 Wieldlj 9. "' Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Tabie 14 Existing , ` 1 ,.0 MeB°' 0.24 0.2 5 100 0.62 0,018 100 2 1 C 0.69 1 0.20 0,83 0.83 0.41 Proposed ONMEN 0.00 0.00 ' Field `i• 11 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht, Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing MeB 1 0.24 0.2 5 100 0.62 0.177 100 4 1 C 0.76 1 0.20 0.87 0.87 4.20 Proposed NER\ 0.00 0.00 Field 12 'N1ap Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydra. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Strips Factor P Soil Loss % L LS Table 13 _Terrace Table 14 Existing , IrB, s` 0.32 0,26 5 100 0.62 0.177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Proposed 0.00 0.00 Field 13 `;,Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing IrB 0.32 0.26 5 100 0.62 0.177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Proposed 0.00 0-00 Field Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydra. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace SMps Factor P Soil Loss % L LS Table 13 Table 14 Existing 0.00 Proposed 0.00 North Carolina Revised Universal Soil Loss Equation Worksheet Owner/Operator: Beallgray Farms Inc. Tract: 1031 & 225 Date: County: Davidson R Factor: 220 Assisted By: Lloyd Phillips July, 2001 Field 6 I Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro- Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P I Soil Loss % L L5:j ITable'113ITablel-I Existing IrB 0.32 0.26 5 100 0.62 0.177 100 4 i C 0.76 1 0.20 0.87 0.87 5.46 Proposed 1 0.00 0.00 Field 7 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % I L LS Table 13 Table 14 Existing IrB 0.32 0.26 -5 100 0.62 0.177 100 4 1 C 0-76 1 0.20 0.87 0.87 5.46 Proposed NNENN 0.00 0.00 Field 8 Map Unit I Kf K Adjusted Sloe C EI Cover Cd. Table 10 Ridge Ht. Table 11 Hydra. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % I L I LS Table 13 Table 14 Existing IrB 0.32 0.26 5 100 0.62 0,177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Proposed 0.00 0.00 ' Field 9 Map Unit Kf K Adjusted Slope C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % I L I LS Table 13 Table 14 Existing IrB 0.32 0.26 5 100 0.62 0.177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Proposed 0.00 0.00 Field 10 Map Unit Kf K Adjusted Slope C El Cover Cd- Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L I LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed 0.00 0.00 Field 3 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L I LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1113 0.57 1 0.20 0.77 0.77 4.49 ProposedHNNNIIMENN 2 N 0.00 0.00 Field 7 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing IrB 0.32 0.26 5 100 0.62 0.177 100 4 1 C 1 0.76 1 0.20 0.87 1 1 0.87 5.46 Proposed I NEI I KNEEN 1 0.00 y North Carolina ^�•f ; Revised Universal Soil Doss Equation Worksheet July, 2001 is , r1 :l _owner/Operator: Beallgray Farms !"l:. Tract: 1016 Date: County`. Davidson F. R Factor: 220 Assisted By: Lloyd Phillips - ' 'Map Kf Ki Slope C El Cover Cd. Ridge Ht. Hydro. Table 12 Row R G/Slope % Contour Terrace Strips P Soil "field 5 ?Unit Adjusted % L L5 Table 10 Table 11 Group Value Grade Ratio Table 13 Table 14 Factor Lass Existing., DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 P.roased RNEW 0.00 0,00 Miid. -Map Kf K Slo C El Cover Cd. Ridge Ht. Hydro. Table 12 Row R G/Slope % Contour Terrace Strips P Soil Unit Adjusted Table 10 Table 11 Group Value Grade Ratio Factor Loss % L LS Table 13 Table 14 &I, tin I ' DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Pro posed 0.00 0.00 Map Kf K Sloe C El Cover Cd. Ridge Ht, Hydro, Table 121 Row R G/Slope % Contour Terrace Strips P Soil Unit Adjusted Table 10 1 Table 11 Group Value I Grade Ratio Factor Loss % L LS Table 13 Table 14 Exi ing,DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0,77 4.49 Pr. sed N 0.00 0.00 ate. ;]eld ' 7Map Kf K Sloe C El Cover Cd. Ridge Ht. Hydro. Table 12 Row R G/Slope % Contour Terrace Strips P Soil dr9 Unit Adjusted Table 10 Table 11 Group Value Grade Ratio Factor Loss % L LS Table 13 Table 14 6i§ling DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 a 0.57 1 0.20 0.77 0.77 4,49 _f Proposed \\ 0.00 0.00 Field Map Kf I K Sloe C El Cover Cd. Ridge Ht. Hydro. Table 12 Row R GlSlope % Contour Strips P Soil % L LS Table 13 _Terrace Table 14 8 unit Adjusted Table 10 Table 11 GfGUj7 Valtio I Grade Ratio Factor Loss Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 ji 0.20 0.77 0.77 4A9 Proposed 0.00 0.00 Field = ' I'Map Kf K Sloe C El Cover Cd, Ridge Ht. Hydro, Table 12 Row R GlSlope % Contour Terrace Strips P Soil 4 Emit Adjusted Table 10 Table 11 Group Value Grade Ratio Factor Loss % L I LS Table 13 Table 14 tr.. Existing Dab , 0.28 0.22 5 150 0.68 0.018 100 2 1 B 0.5 1 0.20 0.72 0.72 0.43 Proposed 't i 0.00 0.00 I Field Map Kf K Sloe C El Cover Cd. Ridge Ht. Hydro. Table 12 Row R GlSlope % Contour Terrace Strips P Soil % I L I LS Table 13 Table 14 7 Unit Adjusted Table 10 1 Table 11 Group Value Grade Ratio Factor Loss Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1113 1 0.76 1 0.20 0.77 0.77 4.49 Proposed 0.00 fV'orth Carolina fl x Revised Universal Soil Loss Equation Worksheet Owner/Operator: Beallgray Farms i rty;, Tract: 1042 I&M Date: County: Davidson f: R Factor: 220 Assisted By: Lloyd Phillips July, 2001 Field:'. i. 11 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Sail Loss °' L LS Table 13 Table 141 Existing .' DaB , 0.28 0.22; 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed x : 0.00 0.00 Field' ;,12 "Map i 3Unit Kf K JAdjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro" Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss 4'a L LS Table 13 Table 14 Existing r DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0,57 1 0.20 0.77 0.77 4.49 Proposed 0,00 0.00 ." FielV, 13 :, 't "'Map Unit Kf K Adjusted Sloe C Ef Cover Cd. Table 10 Ridge Ht. Table 11 Hydro" Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L L5 Table i3 Table 14 Existing ---,' DaB 0.2$ 5 150 0-68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Pr DoseCpSMIN ;0.22 OAO 0.00 '' Wd -;' 5.4..', Map I Unit Kf K Sloe Adjusted % L LS C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss Table 13 Table 14 E- iC$ ing i ; DaB 0.28 0,22 5 150 0,68 0.177 4 1113 0.57 1 0.20 0.77 0.77 4.49 Pr�osed OEI 0.00 0.00 ;field ,8 Map Unit Kf K Adjusted Sloe C Cover Cd. Table 10 Ridge H1. Tat;te 1 1 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing IrB 1 0.32 0.26 5 100 0-62 0.177 100 4 1 C 0.76 1 0.20 0.87 0.87 5.46 Proposed \\ 0.00 0.00 Field 9 Map ..6 T.Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing t. - baB 1 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0,20 0.77 0.77 4.49 Proposed 0.00 OA0 Field ;; ;;Map , Unit Kf K Adjusted SlopeC El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L I LS Table 13 Table 14 Existing I-, I I I 1 0.00 Proposed 0.00 North Carolina Revised Universal Soil Loss Equation Worksheet Owner/Operator: Beallgray Farms Inc. Tract: 1042 Date: County: Davidson R Factor: 220 Assisted By: Lloyd Phillips July, 2001 Field 4 I Map Unit Kf K Adjusted SIo e C EI Cover Cd. Table 10 Ridge Ht. Table 1 i Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed 0.00 0.00 Field 5 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % I L I LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.66 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed 0.00 0.00 Field 6 Map Unit Kf K Adjusted Slope C EI Cover Cd. Table 10 Ridge Ht, Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % I L LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 G.177 100 4 11113 0.57 1 0.20 0.77 0.77 4.49 ProposedMEMO 0.00 0.00 Field 7 Map Unit Kf K Adjusted Slope C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R G/Slope % Ratio Contour Terrace Strips Factor P Soil Loss % L LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.2G 0.77 0.77 4.49 Proposed 0.00 0.00 Field 8 Map Unit Kf K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % 1 Ratio Contour Terrace Strips Factor P Soil Loss % L LS 1 Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed 0.00 0.00 Field 9 Map Kf Unit K Adjusted Sloe C El Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Sail Loss % I L I LS Table 13 Table 14 Existing DaB 1 0.28 0.22 5 150 0.68 0.177 100 41, 1 B 0.57 1 0.20 0.77 0.77 4.49 Proposed 0.00 0.00 Field 10 Map Unit Kf K Adjusted Sloe C EI Cover Cd. Table 10 Ridge Ht. Table 11 Hydro. Group Table 12 Value Row Grade R GlSlope % Ratio Contour Terrace Strips Factor P Soil Loss % I L LS Table 13 Table 14 Existing DaB 0.28 0.22 5 150 0.68 0.177 100 4 113 1 0.57 1 0.20 0.77 1 1 0.77 4.49 Proposed 0.00 0.00 NCDA-Agronomic Division 4300 Reedy'I;6�eek-' Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc 1218 Beli nuni Rd Lin,!ood, NC 27299 ,t"6/21/02 Sarnple� 146. Sa4W — Was te code. A L D Was, A nalysis R P-tiort I r,� Davidson County Laboratory Resull N rotal 333 IN -N -NH4 -NO3 per million unless otherwise noted) , P K Ca - AlIq . S Fr. Mr? Zn No: W09696 W Copies To: - B MO 0 C 128 109 240 -13.5 105 287 17 2 5.33 3.86 1.00 to I Na Ni Cd Pb At Sc Li DM% CCE% ALE i f1l Description: OR-N 37.1 6.57 Dairy agqqn Liquio Urea 6comm-encllaii Nutrients Available for First Crop lbs11000 ga I tons Other Elements lbs11000 gallons Appil'ic"i't'l'oh''Me thod N P205 K Ca Mg S Fe A&I zn Cu 8 Mo D Na Ni Cd Pb At So b 1.2 1.7 007 1.4 0.43 0.61 1.7 0.10 0.01 0.03 0 0 1 0.31 I ePH of the lagoon liquid is below the ideal rangd,for bacterial action and waste treatment. Griduzflly adjust �)l I hy ,1(1{liily I lb. oragriCUltural lime per 1000 cu, ft, of liquid remaining in the lagoon. Sample the lagoon ni o f 'hly a'�j'condnue to adjust p[I until it is withi . h the desired range of 7.0-8.0. Sorrpie Info. Laboratory Results (pa s per million unless otherwise noted) SA, le 16:/V P K Ca MCI S 1 Adn Z11 Cu 8 Mo 0 C Total 28238 8015 7598 18,185 4789 2371! 17; 1 2-Y M 57J 16.6 IN -N .I Va s ia Code: -NH4 M0 14v�Y J -NO3 Na Ni Cd L.- PH SS (,:N DA41% CCE% ALE(tons) 6 escrimion: OR-N —P) 1713 21 -96 Urea Nutrients Available for First Crop lbs1ton (wet basi N P205 K20 Ca my S Fe Mri zo Cu B Mo 5.1 4.8 3.2 4.9 13 0,63 0.46 0.07 0.05 0,02 T ier Elements lbslton (!let basis) Na Ni Cd Pb At Se Li 0.75 R-V I NCDA Agronomic Division 4300 Reedv Creek Road Raleiqh, NC 27607-6465 (919) 733-2655 Report No: 27188 `. Gfower: Beallgray Farm Inc. Copies to: County Extension Director f'0 Box 549 i 218 Belmont Rd. = . 'Test ct Re 0 rt Linwlaod, NC 27299 =•�`" \J s F �rrir '14/3/02 SERVING {V C.UTIZENS FOR OVER 50 YEARS Davidson Count Agronomist Comments: ' = ' T r C 12. 3, $ Field Information Applieclti ne Recommendations Sample No. Last Crop Mo Yr ='T/A s.. Crop or Year Lime N h05 W Mg Cu Zn B Mn See Note r79901 '. Soybeans �.� 1st Crop: Small Grains 0 80 100 30-50 0-20 0 0 0 0 3 r =- 2nd Crop: Soybeans 0 0 30-50 0-20 0 0 0 0 3 Test Results'' Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (7)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 Kb-N NWN Na tlllN 0.36 1.03 9.7 85.0 1.5 6.1 41 79 55.0 25.0 866 5')8 528 226 226 95 59 0.1 Field Information Applied Lime Recommendations Sarr►ple,No. Last Crop Mo Yr :T/A Crop or Year Lime Al W5 1¢0 Mg Cu Zn B Mn See Note 79903 . ," Corn'silage 15t Crop: Alfalfa, E 2.21' 10-30 60-80 50-70 0 0 0 3.0 0 12 2nd Crop: Alfalfa, M 0 0.0 0-20 40-60 0 0 0 2.0 0 12 Test'Results So'fI Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1 (7)Mn-A1(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N NHr-N Na MIN 0.56 1.07 8.4 11.0 2.4 5.4 73 68 47.0 20.0 1581 958 958 169 169 117 74 01 Field Information Applied ime Recommendations Sample No. Last Crop Mo Yr 1/A Crop or Year Lir>>c nJ 12Q5 !QQ N1g Cu In S Mn See Note 79907 Corn.Silage 1st Crop: Alfalfa, E 2nd Crop: Alfalfa, M l} li 0 it 0-M 0 0 0 2.0 0 12 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% My% Mn-1 Mn-Al(1)Mn-Al(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 Na-N N1-b-N Na '5- MINA p '0.51 1,04 9.5 73.0 2.6 5.3 108 99 50.0 18.0 1344 816 816 195 195 104 56 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N A05 100 Mg Cu Zn B Mn See Note s79906 ': ; Soybeans 1st Crop: Small Grains .3T .' 80100 0 0 0 0 0 0 3 a SAi. 2nd Crop: Soybeans 0 0 0 0 0 0 0 0 3 Test Results`�- Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-AI(I)Mn-AI(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N(M N1*-N Na MIN °' 056 1.03 11.8 83.0 2.0 5.9 103 186 54.0 21.0 1391 845 845 312 312 104 52 0.1 ..tY NCDA Aqronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N R05 KO Mg Cu Zn B Mn See Note 80409 SudlSorg Si 1st Crop: Corn,Silage 0 180-220 0 40-60 0 0 0 pH$ 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (7)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N(I-N NFb-N Na MIN 0.36 1.10 13.2 97.0 0.4 7.1 186 77 83.0 12.0 1779 1068 385 385 314 40 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P105 100 Mg Cu Zn B Mn See Note 25001 Sud/Sorg Si 1st Crop: Alfalfa, E .91 10-30 100-120 10-30 0 0 0 3.0 0 12 2nd Crop: Alfalfa, M 0 0.0 30.50 10-30 0 0 0 2.0 0 12 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NCB-N NH -Al Na MIN 0.51 1.00 9.4 85.0 1.4 6.3 51 97 58.0 22.0 2067 1250 1250 292 292 117 41 0.1 Field Information Applied LimeRecommendations Sample No. Last Crop Mo Yr T1A Crop or Year Lime N R05 KO Mg Cu Zn B Mn See Note 25002 SudlSorg SO 1st Crop: Alfalfa, E 2T 10-30 30-50 30-50 0 0 0 3.0 0 12 2nd Crop: Alfalfa, M 0 0.0 0 20-40 0 0 0 2.0 0 12 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-AI(I)Mn-AI(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N NHi-N Na MIN 0.36 1.06 10.9 80.0 2.2 5.7 86 83 5TO 19.0 1415 858 858 228 228 126 67 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W 5 !¢0 Mg Cu Zn B Mn See Note 25003 SudlSorg Sil 1st Crop: Alfalfa, E 1.2T 10-30 110-130 0 0 0 0 3.0 0 12 2nd Crop: Alfalfa, M 0 0.0 40-60 0 0 0 0 2.0 0 12 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al(1)Mn-Al(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N N[*-A( Na MIN 0.32 0.96 11.6 87.0 1.5 6.1 47 186 54.0 26.0 816 499 499 218 218 74 74 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime Al k05 KO Mg Cu Zn B Mn See Note 04101 Sud/Sorg Si 1st Crop: Alfalfa, E 1.1T 10-30 50-70 0-20 0 0 0 3.0 0 12 2nd Crop: Alfalfa, M 0 0.0 0-20 0-20 0 0 0 2.0 0 12 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1) WAl (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N N14-N Na MIN 0.36 1.05 9.4 85.0 1.4 6.2 79 115 69.0 10.0 2035 1230 1230 253 253 221 41 0.1 NCDA Agronomic Division 4300 Reedy Creek Road Raleiqh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 3 Field Inforrriation Applied Lime Recommendations Sample No. Last Cr.`op i i Mo Yr T/A Crop or Year Lime N h05 t¢0 Mg Cu Zn B Mn See Note 04204 Corn,Silage 1st Crop: Corn,Silage IT 180-220 0 0 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN " ' CEC BS% ' Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-AI (1) Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 lVa-N NHS-N Na MIN 0.27 T.06 9.0 76.0 2.2 5.5 93 154 45.0 22.0 17,95 1088 99 99 84 82 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr. T/A Crop or Year Lime N R05 100 Mg Cu Zn B Mn See Note 01604 Corn,Silage 1st Crop: Corn,Silage 0 180-220 0-20 80-100 0 0 0 0 3 2nd Crop: Test Results T Soil Class HM% WN• CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 WAI (7)WAI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NGY-N NHr-N Na MIN 0.46 1.08 9.1 84.0 ° 1.5 6.3 80 55 56.0 25.0 1636 994 278 278 100 41 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 01607 Corn,Silage 1st Crop: Alfalfa, E .7T 10-30 0-20 70-90 0 0 0 3.0 0 12 k 2nd Crop: Corn,Silage 0 180-220 0 70-90 0 0 0 0 3 Test Results Sol! Class HM% W/V CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1) Mn-Al (2) Zn-! Zn-Al Cu-1 S-1 SS-1 N&N NHr-N Na MIN 0,27 1.05 14.1 90.0' 1.4 6.4 Ill 57 59.0 29.0 730 447 447 211 211 118 44 0.2 Field information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P2O5 1¢0 Mg Cu Zn B Mn See Note 01608 Corn,Silage 15t Crop: Corn,Silage 0 IC(Q?0 10-30 50-70 0 0 0 0 3 2nd Crop: Test Results Soi) Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% _ Mir-1 lllhr-Al (7) Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NCB-N NH-N Na MIN r 0.41 1.03 11.1 66.6 1.6 6.2 66 72 57.0 26.0 16 57 1008 295 l95 129 55 0.2 Field Information Applied Lime Recommendations Sample No. _ Last Crop Mo Yr T/A Crop or Year Lime N kos 1¢0 Mg Cu Zn B Mn See Note 01609 Corn,Silage i 1st Crop: Corn,Silage 0 180-220 0 60-80 0 0 0 0 3 4 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-! Mn-Al (1) Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N NHr-N Na :MIN 0.27 0.98 13.4 90.0 1.4 6A 99 66 63.0 24.0 811 498 116 116 99 49 0.2 NCDA Agronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 4 Field Information ' Applied Lime Recommendations Sample No. Last Crop , Mo Yr T/A Crop or Year Lime N P205 KO Mg Cu Zn B Mn See Note 01601 Corn,Silage 1st Crop: Alfalfa, E 1.5T 10-30 80-100 0-20 0 0 0 3.0 0 12 2nd Crop: Corn,Silage 0 180-220 20-40 0-20 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-AI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NC#-N N[*-N Na MIN 0.6 0.99 9.5 81.0 1.8 5.9 61 120 54.0 21.0 824 504 504 164 164 135 62 0.2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr ' T/A Crop or Year Lime N W5 KO Mg Cu Zn 8 Mn See Note 0167A Corn,Silage 1st Crop: Alfalfa, E 0 10-30 120-140 110-130 0 0 0 3.0 pH$ 12 2nd Crop: Corn,SHa e 0 180-220 40-60 110-130 0 0 0 H$ 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1) Mn-Al (2) Zn-1 Zn-AI Cu-1 S-1 SS-1 Ncg-N Nf*-N Na MIN 0.27 1.07 12.6 92.0 1.0 6.7 43 39 62.0 29.0 1512 914 914 219 219 121 46 0.2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 W Mg Cu Zn 8 Mn See Note 01611 Corn,Silage 1st Crop: Corn,Silage 0 180-220 0 0-20 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-AI (1)Mn-AI (2) Zn-1 Zn-A! Cu-1 S-1 SS-1 NIb-N NWIV Na MIN 0.22 0.99 14.6 92.0 1.2 6.4 100 112 59.0 28,0 837 543 234 234 141 79 0.3 Field Information Applied. Lime Recommendations Sample No. Last Crop Mo Yr :T/A Crop or Year Lime N P205 W Mg ` Cu Zn B Mn See Note 0169A Corn,S Sage 1st Crop: Corn,Silage 0 i ,.i 220 0 20-40 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% W/V CEC BS% Ac pH P-I K-1 Ca% Mg% Mn-1 Mn-Al (7)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N NIr-N Na MIN 0.41 1,06 9.8 80.0 2.0 6.0 97 96 54.0 21.0 1746 1065 113 113 108 41 0.2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr , T/A Crop or Year Lime N WS lfi0 Mg Cu Zn B Mn See Note 01605 Corn.Silage H 1st Crop: Corn,Silage 0 . 180 220 10 30 30 50 0 0 0 0 3 .' 4 2nd Crop: Test Results ' Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A! (1)Mn-AI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N&N NH-N Na MIN 032 1.10 9.9 86.0 1.4 6.4 62 86 57.0 24,0 1421 864 170 170 85 42 0.2 NCDA Agronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 5 Field Information Applied Lime Recommendations Sample No. _ Last Crop Mo Yr T/A Crop or Year Lime N W5 !¢0 Mg Cu Zn B Mn See Note .0166A Corn,Silage 1st Crop: Corn,Silage .51 180-220 0 10-30 0 0 0 0 3 2nd Crop: Test Results' - Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1 (1)WAI (2) Zn-1 Zn-AI Cu-1 S-1 SS-1 Na-N NH-N Na MIN 0.36 1.09 8.0 74.0 2.1 ' 5.8 105 104 47.0 21.0 1895 1154 156 156 78 50 0.1 Field Information - Applied Lime Recommendations Sample No. - Last Crop Mo Yr T/A Crop or Year Lime N W5 100 Mg Cu Zn B Mn See Note 65201 Corn,Silage 1st Crop: Alfalfa, E IAT 10-30 110-130 50-70 0 0 0 3.0 0 12 2nd Crop: Alfalfa, M 0 0.0 40-60 40-60 0 0 0 2.0 0 12 Test Results Soil Class HM% W/V CEC BS% Ac . pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NGI3-N Nh-N Na MIN 0.46 1.05 11.3 85.0 1.7 6.3 47 71 60.0 22.0 2444 1476 1476 225 225 176 56 0.2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 ffi0 Mg Cu Zn B Mn See Note 65202 Corn,Silage 1st Crop: Small Grains 1.11 80-100 30-50 30-50 0 0 0 0 3 2nd Crop: Corn,Silage 0 180-220 40-60 90-110 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1) Mn-AI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 Na-N NH-N Na = 'MIN 0.6 0.99 9.7 74.0 2.5 5.5 44 49 51.0 21.0 1749 1059 1066 149 149 153 59 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N E05 KO Mg Cu Zn B Mn See Note 65203 Corn,Silage 1st Crop: Small Grains I AT 80-100 0 0-20 0 0 0 0 3 2nd Crop: Corn,Silage 0 180 220 0 20 50 70 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-AI (1)WAI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NGi3-N NH-N Na MIN 0.76 0.99 11.4 75.0 2.8 5.4 78 72 54.0 18.0 2005 1213 1220 206 206 126 56 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P105 !¢0 Mg Cu Zn B Mn See Note 65204 Corn,Silage 1st Crop: Small Grains .61 80-100 0 0 0 0 0 0 3 2nd Crop: Corn,Sda e 0 180-220 0-20 10-30 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-AI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NGq-N NHr-N Na MIN 0.76 1.22 13.6 84,0 2.2 5.8 81 104 61.0 19.0 1269 771 778 197 197 103 64 0.2 -NCDA Agronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 6 Field Information . Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N a05 100 Mg Cu Zn B Mn See Note 65205 Corn,Silage 1st Crop: SmailGrains 1.11 80-100 0 0 0 0 0 0 3 2nd Crop: Corn,Silage 0 180-220 0-20 0 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-I Mn-AI (1) Mn-AI (2) Zn-1 Zn-AI Cu-I S-I SS-1 Na-N NHr-N Na MIN 0.41 1.28 ' 1 12.5 81.0 2.4 5.5 81 139 55.0 20.0 1321 803 810 204 204 84 46 0.2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N kos KO Mg Cu Zn B Mn See Note 65206 Corn,Silage 1st Crop: Corn,Silage 1.4T 180-220 0 10-30 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% W/V CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al(7)Mn-AI(2) Zn-1 Zn-Al Cu-I S-1 SS-1 N(b-N NH-N Na MIN 0.41 1,24 11.7 76.0 2.8 5A 103 102 54.0 18.0 935 578 105 105 72 41 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W S *0 Mg Cu Zn B Mn See Note 65208 Corn,Silage 1st Crop: Corn,Silage 1.51 180-220 0 0 0 0 0 0 3 2nd Crop: Small Grains 0 80-100 0 0 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-I K-1 Ca% Mg% Mn-I WAI (1) Mn-AI (2) Zn-1 Zn-AI Cu-1 S-I SS -I Na-N Nit -IV Na MIN 0.46 1.09 12.1 74.0 3.2 5.5 142 163 46.0 21.0 1363 835 828 186 186 96 49 0.2 Field Information I Applied Lime Recommendations Sample No. , Last Crop Mo Yr T/A Crop or Year Lime N k05 KO Mg Cu Zn B Mn See Note 65209 Corn,Silage 1st Crop: Corn,Silage 0 180-220 0 50-70 0 0 0 0 3 2nd Crop: Small Grains 0 80- i00 0 0-20 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (7)Mn-Al (2) Zn-I Zn-Al Cu-I S-1 SS-1 N&Al NI-b-N Na MIN 0.32 0.94 15.3 90.0 1-5 6.3 135 71 58.0 30.0 487 305 298 222 222 100 46 0.3 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N WS ko Mg Cu Zn B Mn See Note 65211, Corn,Silage . 1st Crop: Small Grains AT 80-100 0 0 0 0 0 0 3 2nd Crop: Corn,Silage 0 180-220 0 0 0 0 0 0 3 Test Results Soil Class HM% WN ,°• CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-I Mn-Al (1)Mn-AI (2) Zn-1 Zn-Al Cu-I S-1 SS-1 Na-IV NHr-N Na MIN 0.41 1.03 `' 13.5 81.0 2.5 5.9 130 149 55.0 21.0 1298 789 796 160 160 96 48 0.2 NCDA Agronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 7 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P105 KO Mg Cu Zn B Mn See Note 65210 Corn,Silage 1st Crop; Small Grains 1.7T 80.100 0 0 0 0 0 0 3 2nd Crop: Corn,Silage 0 180-220 0 0-20 0 0 0 0 3 Test Resu Its - Soil Class HM% W/V CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1(7) Mn-A1(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NII-N NFb-N Na MIN 0.71 0.98 10.2 68.0 3.3 5.4 129 117 44.0 18.0 1490 904 911 155 155 110 72 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N 1105 100 Mg Cu Zn B Mn See Note 24701 Corn,Silage 1st Crop: Small Grains .3T 80-100 40-60 0 0 0 0 0 3 2nd Crop: Corn, Silage 0 180-220 50-70 0-20 0 0 0 0 3 Test Results', Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1(7)Mn-A1(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 Na-N NH-N Na MIN 6.36 1.07 9.1 76.0 2.2 5.9 38 110 46.0 24.0 1995 1201 1214 189 189 99 60 0.2 Field Information . Applied Lime Recommendations Sample No. - Last Crop Mo Yr T/A Crop or Year Lime N R05 MO Mg Cu Zn B Mn See Note 65207 Corn,Silage istCrop-. Small Grains UT 80-100 0 0 0 0' 0 0 3 2nd Crop: Corn,Silage 0 '- 180-220 0 0 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-A1(2) Zn-1 Zn-Al Cu-! S-1 SS-1 Na-N NFk-N Na - MIN 0.46 1.04 12.2 75.0 3.0 5.6 102 146 47.0 22.6 1196 728 735 192 192 96 64 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime Al h05 140 Mg Cu Zn B Mn See Note 0425B Corn,Silage 1st Crop: Corn,Silage 1.2T 180-220 0 0-20 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (7) Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NCY-N NFh-N Na MIN 0.3 1.11 8.4 73.0 2.3 5.4 127 ' 113 43.0 22,0 818 508 58 58 72 70 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P105 KO Mg Cu Zn B Mn See Note 04210 Corn,Silage 1st Crop: Corn,Silage 1T 180-220 0 0 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N12-N NH-N Na MIN 0.22 1.12 5.3 70.0 1.6 4.9 107 161 33.0 21.0 1216 747 41 41 36 106 0.1 NCDA Agronomic Division 4300 Reedy Creek Road Raleigh. NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 8 field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P105 KO Mg Cu Zn B Mn See Note 04208 Corn,Silage 1st Crop: Corn,Silage 0 180-220 0-20 0 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1(1)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NO-N NH-N Na MIN 0.22 1.03 10.6 91.0 1.0 6.1 72 137 59.0 25.0 1849 1125 92 92 71 46 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 04207 Corn,Silage 1st Crop: Corn,Silage ,7T 180-220 30-50 80-100 0 0 0 0 3 2nd Cro . Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N(b-N Nf-b-N Na MIN 0.32 1.03 6.8 81.0 1.3 5.4 53 53 53.0 24.0 752 468 66 66 92 63 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N R05 k0 Mg Cu Zn B Mn See Note 04214 Corn,Silage 1st Crop: Corn,Silage AT 180-220 90-110 50-70 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1) Mn-AI (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 N(b-N NH-N Na - MIN 0.36 1.07 7.3 82.0 1.3 5.7 22 72 61.0 17.0 2065 1256 249 249 297 48 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N P105 KO Mg Cu Zn B Mn See Note 04209 Corn,Silage 1st Crop: Corn,Silage UT 180-220 30-50 50-70 0 0 0 0 3 2nd Crop: Test Results - Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1(1)Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 Na-N Nf-b-N Na MIN 0.41 1.02 4.9 61.0 1.9 4.7 54 72 37.0 16.0 725 452 79 79 122 82 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N WS W Mg Cu Zn B Mn See Note 80001 Corn,Silage 1st Crop: Small Grains IIAT 80-100 0 0 0 0 0 0 3 2nd Crop: Soybeans 0 0 0 0 0 0 0 0 3 Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 WAI (1)WAI (2) Zn-1 Zn-Al Cu-1 S 1 SS-1 Na-N Nf*-N Na MIN 0.36 0.94 6.6 67.0 2.2 5.0 93 151 41.0 15.0 1357 824 824 122 122 74 98 0.1 NCDA Agronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Grower: Beallgray Farm Inc. Report No: 27188 Pg 9 field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 65212 Corn,Silage 1st Crop: Corn,Silage .7T 180-220 ' 0 0 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac - pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1) Mn-Al (2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NCb-N NH-N Na MIN 0.71 1.22 14.0 88.0 1.7 5.6 110 211 59.0 22.0 720 449 151 151 109 43 0.2 field information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 65213 Corn,Silage 1st Crop: Corn.Siage .6T 180-220 0 0 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (1)Mn-A1(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 Na-N NHi-N Na MIN 0.56 1.11 15.7 88.0 1.9 5.7 177 299 56.0 23.0 1070 659 266 266 130 _62 0.2 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 0425W Corn,Silage 1st Crop: Corn,Silage .7T 180-220- 0 10-30 0 0 0 0 3 - 12nd Crag._ Test Results ,Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-A1(1)Mn-A1(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NO4-N N11-N Na MIN 0.22 1.13 5.5 75.0 1.4 5.4 124 100 45.0 22.0 615 3B6 52 52 38 81 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 01605 Corn,Silage 1st Crop: Corn,Silage 0 180-220 30-50 0 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 Mn-Al (7) Mn-Al (2) Zn-1 Zn-AI Cu-1 S-1 SS-1 NCY-N NH-N Na MIN 0.41 ' 1.26 10.4 88.0 1.3 5.9 50 156 53.0 27.0 2525 1534 228 228 126 52 0.1 Field Information Applied Lime Recommendations Sample No. Last Crop Mo Yr T/A Crop or Year Lime N W5 KO Mg Cu Zn B Mn See Note 65209 Corn,Silage 1st Crop: Corn,Silage .6T 180-220 20-40 0-20 0 0 0 0 3 2nd Crop: Test Results Soil Class HM% WN CEC BS% Ac pH P-1 K-1 Ca% Mg% Mn-1 WA! (1) Mn-A1(2) Zn-1 Zn-Al Cu-1 S-1 SS-1 NOb-N NHr-N Na MIN 0.46 1.01 7.8 79.0 1.6 5.6 59 127 46.0 25.0 1600 977 233 233 134 104 01 t,! [ _ t 1` rr, s _.a a %bY/1A1�r�1r+V'f ,R *wYS51� .,. - .•% 54.�, r .fi }}'• i', , t r � v NiJ+-•5+41 iY6's,�?fi � .- y ) i Y r' , # J ! r,l; ✓r' air IrFr -Y L }r iy. r tif► tti / .' r I _° W / a. ,r a1 ;•r" ': r4r � arl r J.h� L '. �Sl } r' a, '.r r '' 3 I. � Lri 'F' }5 op 7,4 r i {-r ♦ r i r-� r .f'- i r- ' '' r!r•' ` +' - ?LL s t ' w-.:.,fr '' '�. _ T `i[ih,({ a �k= - _ ;r . J 5 r ` "S•`'' }';k / ! ' ,✓,['� i J• J / J� �;"'*/t r.}t�. +! " Yf y"'r ,�'ae i a _ ,?r s � }'? {.r. zY�h'. 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' .r,s "sue 3 +Y' � �'O�^` J : + • :'"�...:,.. ,��_w "-�•e. �� h^ g c '�}��. ` f � �°i��� Y�++. � � i3 M�_v p.� r.✓ qfJ r f,__'"��: --fit, ° y� '• at �- ;.. r �,Q... 3. it•} _'a.. xv„ . - 1. r Y3*+'S.sS�'3.r.`.e� ' "ii., o.+ - _ _ is � jw h M a � L�' 'r • 1 w. t�' � ^l p,a � h, - y ni,.: ��. ,i .i .t"4+ r, �� £''ri i ��� '� y aM •+��f �+�i� �`�g�fi°+,�ya•q�`'�"� . � : ;av .P5 r- i I " �" +i �� t C� _4� �F i� �� � �,��� ti x•� •-:`'�'� �F �41� t ry ;I '�; - yry �VC�i=y -Y •. rt#J �..1 _ I L 9" ' y;' f -7 r yr .`+ ~. •U..S. DEPARTMENT OF AGRICULTURE APPROX. SCALE AL - 1=1320, SOIL SUF SOILICONS£RVATION SERVICE DAVIDSON CC COOPERATING W[TH ATE'AGRICULT,URAL EXPERIMENT STATION usuAscs•FoaTWORTH ,TEXAS 197fi ADVANCE CO: 2-80 SURVEY HAS NOT 5LUI. Mav BE CHANGE '03NiUW03 30 AVW SV3"T ONV a3O, WMZ 30 AVW 53WVN 'O31 Vl3MNOj wo, 03ni WO3 N33B loN s.. A3Awni 39NYHJ Ol 1J3fgpS • AdOJ 33HYAOY VNIIOEVO IUHON JUNnOD MOSGIAVC 133HS O731d A3Amns '11os OZ-Q. 6L-Z OM SVX31'HLEOM "W-SOS'VOSrl 3'11W L e �,4 31V3S 'XOZiddV NOUV1S 1N3WIbl3dx3 IV H11M 9NUVW 331AUSS NOIIVA! 3an.c1nonjoV do 1N: State ox'North Carolina. Department of Environment and Natural Resources Divisioa 06 f Water Quality Animal Waste Management Systems Request for Renewal of Existing Certificate of Coverage for State .Non -Discharge Permit The following questions have been completed utilizing information on filewiththe 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. 1 Facility Number. 2 Facility Name: 29 03 or Permit Number: AWC 290003 Beallgray Farm Inc. 3 Landowner's name (must match the name on the Certified Animal Waste Management Plan): James Grah 4 Landowner's Mailing address: 1218 Belmont Road City, State: Linwood, NC Telephone Number (include area code): 5 County where facility is located: 336-956-7762 Davidson 6 Farm Manager's name (if different from Landowner): 7 8 Farm Manager's telephone number (include area code): Number and Type of Animals: (example: 2000 Feeder to Finish Swine) Swine: - Zip: 27299 \Vilk Confined Cattle: Dairy 210 head -- . .. - - Poultry with liquid waste system: - Submit a copy of the most recent Waste Utilization Plan 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 andthat if all required supp6iting 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 143-215.6B, any person who knowingly makes any false statement, representation, or certification in any application may be subject to civil penalties up to S25,000 per violation. 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: �l ��i�_ Title: Signature:B. Date: 6 d 3 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 Request for Renewal COC State of North Carolina - Department of Environment and Natural Resources Division of Water Quality James B. Hunt, Jr., Governor ° Bill Holman, Secretary Kerr T. Stevens, Director JAMES GRAHAM BEALLGRAY FARM INC. 1218 BELMONT ROAD LINWOOD, NORTH CAROLINA 27299 Dear James Graham: A, 00 ON� ;IPA NCDENR NORTH CAROLINA DEPARTMENT pE ENVIRONM NT AND NATURAL RESOURCES July 31, 2000 -''i.c. De.- .. :wklo AUG 14 2000 F1eglonai Li flce Subject: Certificate of Coverage No. AWC290003 Beallgray Farm Inc. Cattle Waste Collection, Treatment, Storage and Application System Davidson County In accordance with your application received on May 14, 1999, we are forwarding this Certificate of Coverage (COC) issued to James Graham, authorizing the operation of the subject animal waste collection, treatment, storage and land application system in accordance with General Permit AWG200000. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from e allgray Farm Inc. Farm, located in Davidson County, with an animal capacity of no greater than kOO Pairy cows and 40 calves and the application to land as specified in the Certified Animal Waste Bement 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. P.O. Box 29535, Raleigh, North Carolina 27626-0535 Telephone 919-733-7015 FAX 919-733-2496 An Equal Opportunity Affirmative Action Employer 50% recycled/ 10% post -consumer paper Certificate of Coverage A` 290003 BEALLGRAY FARM INC. Page 2 This COC is not automatically transferable. A name/ownership 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 information on this process_. Unless such a r'equest is made within 30 days, this COC shall belinal and binding. The subject farm is located in the Winston-Salem Regional Office. The Regional Office Water Quality Staff may be reached at (336) 771-4606. If you need additional information concerning this COC or the General Permit, please contact Su an-CauI y at (919) 733-5083 ext. 546. cc: (Certificate of Coverage only for all cc's) DavidsonCounty Health Department Winston-Salem Regional Office, Water Quality Section Davidson County Soil and Water Conservation District Permit File NDPU Files 6 a ' 0 Davidson Soil and Water Conservation District 301 East Center Street - Lexington, NC 27292 - Phone (704) 242-2075 i 'k t WASTE UTILIZATION PLAN REVISION III James Graham Beallgray Farms, Inc. Application # AWC 290003 RMEIVED N.C. Dept. of EHNR AVG 14 2000 Winstort-�a;em rflegionai ottica In regard to solid feedlot animal waste. Waste is scraped and land applied to growing crops as weather. permits. During winter months or when soil conditions do not allow field application, waste, urine, and runoff water enters a waste storage pond. Liquid from storage pond is applied through an irrigation system. Solid waste is not stored under roof, however any runoff from rain events will enter waste storage pond. Waste can be stored outside on feedlot for a.minimum of 90 days. James Graham, Operator - 0a Date Lloyd Phillips; Jr District Resource Specialist CONSERVATION - DEVELOPMENT - SELF-GOVERNMENT Davidson Soil and Water -Conservation 'District 301 East Center Street - Lexington, NC 27292 - Phone (336) 242-2075 - Fax (336) 242-2982 WASTE UTILIZATION PLAN REVISION: JAMES GRAHAM BEALLGRAY FARMS INC. APPLICATION # AWC290003 DAVIDSON COUNTY 1. 'TOTAL APPLICATION AMOUNTS OF ANIMAL WASTE BY IRRIGATION ARE NOT TO EXCEED ONE INCH IN ANY APPLICATION EVENT FOR ANY FIELD OR PORTION OF FIELD, FOR ANY SOIL TYPE OR CROP. 2. CORN SILAGE A.Y.E. ARE TAKEN FROM USDA/NRCS SOIL SURVEY -DATA FOR DAVIDSON COUNTY. ALL FIELDS ELIGIBLE TO RECEIVE LIQUID ANIMAL WASTE ARE IRRIGATED WITH FRESH WATER ALSO. DAVIDSON SOIL SERIES HAS A R.Y'.E OF 22 TONS PER ACRE PER YEAR FOR CORN SILAGE. SINCE THESE FIELDS ARE IRRIGATED WITH FRESH WATER YIELDS WERE INCREASED 9%. THIS ACCOUNTS FOR THE YIELD OF 24 TONS/AC/YR SHOWN ON-WUP. THE DAVIDSON SOIL SERIES FOR CORN WHICH IS NOT IRRIGATED IS LISTED AS 22 TONS/AC/YR. THE MAXIMUM RATE OF 12 POUNDS OF PAN PER TON WAS USED FOR BOTH IRRIGATED AND NON —IRRIGATED. THE 9% INCREASE FOR IRRIGATED CORN YIELDS WERE DISCUSSED WITH THE EXTENSION SERVICE AND NCDA AGRONOMIST. S. GRA OPERATOR LLOY1Y PHILLIPS •-----. _= _------- ------ --- --------- -_.-- -----.-.__ - --TECH. SPEC. - ._. date CONSERVATION - DEVELOPMENT - SELF-GOVERNMENT State of North Carolina jft_.,.., Depar ►..ent of Environment and Natu Resources Division of Water Quality Non -Discharge Permit Application Form (THIS FORM MAY BE PHOTOCOPIED FOR USE AS AN ORIGINAL) General Permit - Existing Liquid Animal 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::Beallgray Farm Inc. _ 1.2 Print Land Owner's name: James Graham t.3. Mailing address;: 1218 Belmont Rd City, State: Linwood NC Zip: 27299 Telephone Number (include area code): 9+&-956-7762 1.4 County where facility is located: Davidson 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): I-85 south and take the Belmont Rd. exit. Take a left at to2 of ramp and then a right at the next st02 sign. Travel 3/4 mile east on NC 47 and the farm is on the right side of the road. 1.6 Print Farm Manager's name (if different from Land Owner): 1.7 Lessee's / Integrator's name (if applicable; please circle which type is listed): 1.8 Date Facility Originally Began Operation: 01/01/38 1.9 Date(s) of Facility Expansion(s) (if applicable): 2. OPERATION INFORMATION: 2.1 Facility No.: 29 (county number); 3 (facility number). 2.2 Operation Descrip on: Cattle operation 7atry 726- Certified Design Capacity Is the above information correct? yes; Fno. If no, correct below using the design capacity of the facility .m The "No. of Animals" should be theaxtmum num er or which the waste management structures were designed. Type of Swine 0 Wean to Feeder 0 Feeder to Finish 0 Farrow to Wean (# sow) 0 Farrow to Feeder (# sow) 0 Farrow to Finish (# sow) No. of Animals Type of Poultry No. of Animals 0 Layer Other Type of Livestock on the farm: 0 Non -Layer 0 Turkey Type of Cattle No. of Animals 0 Dairy 0 Beef No. of Animals: RECEIVED WASTE MGMT. PLAN DEVELOPED FOR 640 HEAD OF DAIRY CATTLE. DESIGN CAPACITY IS FOR 726. PRODUCER IS AWARE THAT WASTE PLAN IS TO BE REVISED BEFFW 1 4 1999 EXPANDSION OCCURS. '1�' FORM: AWO-G-E 5/28/98 Page 1 of 4 29 - 3 Non -Discharge PermitUng 9 2.3 Acreage -cleared and available for application (excluding all required buffers and areas not covered by the application system): 1009 ; Required Acreage (as listed in the AWMP): 900 2.4 Number of lagoons/ storage ponds (circle which is applicable): .3 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 N (please circle one) 2.7 Does this facility meet all applicable siting requirements? (Swine Farm Siting Act, NRCS Standards, etc.) (Swine Only) YES 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? 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 Iocations 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. Some ofthese components may not have been required at the time the facility was certified but should be added to the CAWMP for permitting purposes: ` 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 management practices noted. 3.3.14 Mortality Control Checklist with the selected method noted. y 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 29 - 3 0 Facility Number: 29 - 3 Facility Name: Beallgray Farm Inc. 4. APPLICANT'S CERTIFICATION: 1, .TAMES GRAHAM (Land Owner's name listed in question I.2), attest that this application for (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 returned tom as inc mplete. Signature U�— . Date lZ 5. MANAGER'S CERTIFICATION: (complete only if different from the Land Owner) 1, (Manager's name listed in question 1.6), attest that this application for (Facility name listed in question 1.1) has been reviewed by me and is accurate and complete to the best of my knowle ge. 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 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 RECEIVED WATFP nl 1AE ,-nr -Pr 10,N MAY 1 4 1999 Non -Discharge P6[tllit[ing FORM: AWO-G-E 5/28/98 Page 3 of 4 29 - 3 WAS.1� xUTILIZAT�N -:PLAN „ Producer: BEALLGRAY FARMS INC. FACILITY # 29-03 OPERATOR CERT . # 20952 Location: 121 S BELMONT RD : LINWOOD, NC. 27299 Telephone: 336-956-7762 Type Operation: DAIRY Number of Animals 640 HEAD DAIRY ANIMALS (Design Capacity) The waste from your animal facility must be land applied at a specified rate to prevent pollution, of surface and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer recuired 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. Always apply waste based on the needs of the crow to be grown and the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and available water holding capacities.. Normally waste shall not be applied to land eroding at greater that, 5 tons per acre per year. With special precautions, waste may be applied to land eroding at up to 10 tons per acre per year. Do not apply waste on saturated sails, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters which is not allowed under DEM regulations. Wind conditions should also be considered to avoid drift and downwind odor problems. To maximize the value of nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop or applied to bare ground not more than 30 days prior to plantwng. Injecting the waste or disking will conserve nutrients and reduce odor problems. The estimated acres needed .to apply the animal waste is based on typical nutrient content for this type of facility. Acreage requirements should be based on the waste analysis report from your waste management facility. Attached you will rind information on proper sampling techniques, preparation, and transfer of waste samples to the lab for analysis. This waste utilization plan, if carried out, meets the requirements for compliance with XSA NCAC 2H.0217 adopted by t c y+i�qftmentaI Management Commission. VJAiRD1I,�3_,��SCiiON Ma's' 14 i999 Non -Discharge PermiWng BEALLGRAY FARMS INC. _ WASTE MANAGEMENT PLAN Beallgray Farms Inc. has 500 milk cows and 100 dry cows on confined feedlot. Forty percent of the waste from the milk cows is scraped and hauled and the remaining 60% enters storage pond No. 1. Forty calves produce waste that is handled in solid form and broadcast on fields. Four storage ponds exist on the farm. Pond No. 1 receives waste and milk room water and settles out s lids. Pond No. 2 receives overflow from No. 1 and further settles out solids. Pond No 3, aste is pumped out and -applied to cropland fields and either hose tow or center pivot irrigation system. Pond No.( waste is also land applied by irrigation system. Ponds are to maintain minimum -of -IS inches from lowoLpart of dam at all times to 25-year, 24-hour storm and freeboard. The farm pond located below waste pond No. 4 will receive waste in the event of overflow of storage ponds No. 3 or No. 4. This pond is managed as a fresh water pond to supply irrigation water to crops. A diversion is constructed on the west side of farm pond to divert surface water from entering the pond., Waste storage ponds were build by Beallgray and not designed by NRCS. Waste storage volumes may be increased by increasing the depth. If this is to be done, sludge should be tested to determine nutrient content and land applied at agronomic rates. Waste storage ponds should be inspected monthly to check for leaks or seepage on the dam. Vegetation is to be clipped at least once per year to control unwanted weeds and brush. Refer to specifications contained in waste plan for additional information and management practices. Distance to nearest dwelling not associated with the farm is in excess of 750 feet. No floodplains exist on areas where waste is to be applied, no wetlands exist on areas to -- receive animal waste. Cropping system is usually no -till corn for silage followed by no -till small grain for silage. In some years due to weather and other factors other crops may be planted. Cropland acres is in excess of Nitrogen produced. The following managment practices should be used on pastured areas. Locate feeders or feed troughs as far from creek, pond or other water source as possible and maintain vegetative buffer between these areas to prevent animal waste from entering watercourses. A 100-foot buffer (minimum) should be located between water source and feeding area. If possible feeders, hay rings should be moved and rotated to prevent excessive build up of animal waste. Animal waste concentrated in pastures should be land applied at agronomic rates. I. BEALLGRAY FARMS INC. WASTE MANAGEMENT PLAN Manure Production 60% of manure enters storage ponds 40% of manure scraped and hauled Manure Volume = 14 gals/head/day (cow) 3.5 gals/head/day (calf) 1. Feedlot 500 milk cows X 5.6 gals/head/day X 365 days = 1,022.000 gals/yr. 100 dry cows X 5.6 gals/head/day X 365 = 204,400 gals/yr. 40 calves X 3.5 gals/head/day X 365 = 51,100 Syr. 1,277,500 gaWyr. 5,301 tons/yr 2. Storage Ponds # 1,243 500 milk cows X 8.4 gals/head/day X 365 days = 1,533,000 gals/yr. Storage Pond # 4 100 dry cows X 8.4 gals/hd./day X 365 days = 306,600 gals/yr. liquid manure total = 1,839,600 gaWyr. Volume = 245,936 cu.ft. II. Waste Water 1,000 gaWday X 365 days = 365,000 gals/yr. III. Bedding Dry manure used as bedding. IV - RUNOFF Storage Ponds 1. Normal Runoff- Concrete, roofs, waste ponds = 6.4 acres 1 day CN = 98 30 day CN = 92 Rainfall = 45.21 inches. Runoff = 59% of precipitation (IOcz AWN1FK 45.21 inches x .59 = 26.67 + 12 in./ft. x 278784 ft. sq. = 619,597 cu.ft. X 7.48 W 4,634,586 galions/year 2. Normal Runoff- Dirt lots, roads = 6.5 acres 1 day CN = 82 25% annual runoff unsurfaced feedlot. (10 c-1 AWMFNI) 45.21 inches x .25 = 11.30 - 12 in./ft. = 283,140 sq.ft. = 266,623 cu.ft. x 7.48 = 1,994,340 gallons/year. 3. 25 year, 24 hour storm runoff= 6 inches rain 1 day CN 90 Runoff= 4.85 inches - 12 in./ft. x 561,924 ft. sq. = 227,111 cu. ft. x 7.48 = 1,698,790 gallons/year Total Amount of liquids to store in waste ponds = 10,827,966 gallons/year Total gallons to apply/year 1,698,790 gallons/year - 25 year, 24 hour storm = 9,129,176 gallons per year. V. VOLUME OF STORAGE PONDS (See attachment of measurements). Percent of total capacity 33% first stage 1,704,857 gallons - 33% of 25 yr. storm = 1,144,256 42% second stage 2,118,957 gallons - 42% of 25 yr. storm = 1,354,501 25% third stage 1,304,235 gallons - 25% of 25 yr. storm = 930,502 Total available storage capacity = 3,429,259 gallons Assume three month storage period Manure 1,839,600 gallons/year y 4 = 4591000 Wash Water 365,000 gallons/year t 4 = 91,250 Total Normal Runoff 6,628,926 gallons/year y 4'=. 1,657,232 Total gallons for three months = 2,208,382 ANIMAL WASTE MANAGEMENT OPERATION AND MAINTENANCE Runoff Control Measures - Such as concrete curbing and roof guttering should be inspected monthly to insure these systems are operating properly. Repair or replace as needed. Diversions, filter strips and buffers should be inspected to insure that vegetation is adequate and diversion capacity is adequate. Land Application Equipment - Shall be inspected before use to insure that equipment is working properly and that no leaks to tanks or box spreaders occur. Hose, pumps and pipes used with liquid spreader tanks and irrigation systems are to be checked before each use and repair or replace as needed. Waste Storage Structures - Check for floating or lodged debris in lagoons and storage ponds. Embankments of storage pond and lagoon are to be checked for stumps, bulges, wet or damp areas, and rodent damage on backside of dam. Vegetation should be adequate to prevent erosion. Bare areas should be seeded to fescue. Vegetation should be clipped a minimum of once per year to prevent trees and undesirable vegetation from becoming established. This can be done by either mowing, spraying or chopping. Pines used to convey waste from buildings to storage pond or lagoon need to be inspected for separation of joints, cracks or breaks and salt/mineral accumulation. Bent Supports (pipe cradles) should be inspected to prevent sagging of pipes. When repair or replacement is needed replace with pressure treated posts and boards. Pipes should extend into the waste pond beyond the toe of bank slope or install rock rip rap and filter cloth on toe of slope. Pastured Areas - Maintain vegetation to prevent erosion. Hay rings and feed troughs should be located as far as possible from steep areas and watercourses such as creeks, streams and ponds. Rotate hay rings and portable troughs as animal waste accumulates. Waste is to be removed from area and land applied at agronomic rates. For areas where fencing along creeks have been installed, inspect fence to insure that animals do not have access to creek. ~ WASTE UTILIZATION Pt' REQUIRED SPECIFICATIONS 1. Animal waste shall 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: 7 • WASTE UTILIZATION Pik REQUIRED SPECIFICATIONS 10. Waste nutrients shall not be applied in fall or winter for spring planted crops on soils with a high potential for leaching. Waste nutrient loading rates on these soils should be held to a minimum and a,suitable winter cover crop planted to take up released nutrients. Waste shall not be applied more than 30 days prior to planting of the crop or forages breaking dormancy. 11. Any new swine facility sited on or after October 1, 1995 shall comply with the following: The outer perimeter of the land area onto which waste is applied from a lagoon that is a component of a swine farm shall be at least 50 feet from any residential property boundary and from any perennial stream or river (other than an irrigation ditch or canal. Animal waste other than swine waste from facilities sited on or after October 1, 1995), shall not be applied closer than 25 feet to perennial waters. (See Standard 393 - Filter Strips). 12. Animal waste shall not be applied closer than 100 feet to wells. 13. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 14. Waste shall be applied in a manner not to reach other property and public right-of-ways. 15. Animal waste shall not be discharged into surface waters, drainageways, or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted cropland provided they have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways that discharges directly into water courses, and on other grassed waterways, waste shall be applied at agronomic rates in a manner that causes no runoff or drift from the site. 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: 8 • WASTE UTILIZATION Pik" 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 these metals approach excessive levels. pH shall be adjusted for optimum crop production and maintained. Soil and waste analysis records shall be kept for five years. Poultry dry waste application records shall be maintained for three (3) years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina regulations. Page: 9 Insect Control Checklist for Animal Operations Source Cuuse --- HAil's to ConU'ol Insects - - Site Specific I'raciicr - -- Liquid Systcltls 1111sb filtlters Accumulation of solids O Flush system is designed and operilled stlflicieully In remove acclmmiuled solids from gullers as designed. O Remove bridging of accumulated solids at discharge Lagoons and Pits Cnlsled Solids Plainlaltl lagoons, sculiog basins and plls where pest breeding is apparent to minimize the crusting of solids to a depth of no more than 6 - 8 inches over more than 30% of surface. l->,ctssive vegetative + Ncoying vegetation W—IGlaintain vegetative control along hanks of (if ou•lll lagoons and other impoundments to prevent accumulation of decrying vegetative mailer along mates cdge an impomidmem's perimeter. Dry Systems FCC, Ict . + heed Spillage R—nesign, operale and mainlain feed systems bunk-crs and boughs) In minimize the accumulaf ion of decaying wastage. a'CIean up spillage on i1 routine bllsis (c.g., 7 - I0 day interval (hiring summer, 15-30 day inlerval _ 1 durilIg winter)- I'eed Slulilgc Accumulations of feed residues Reduce moistore accumuhilion wilhin and i1170111)d inlllledrate perinlctur of feed storage areas by insuring drainage away hoof silt cmdlor providitlg aderptate containment (e.g., covered bin fir brewer's grain and similar high t innislure grain protlnels). , 0 Inspect Air and remove or brc:lk up-.1MrlliolaWci solids in filter strips aromid Berl sloragc as needed. Saurcc Cause IIMPs to Control lnseets - - - - Site Specific Practices - Anima! I folding Areas • Accumulations of animal wastes er Eliminate low areas that trap moisture along and feed wastage fences and olltcr locations where waste accumulates and disturbance by animals is Minimal. �T t Ilaintain fence rows and filter strips aromid animal holding areas to minimize accumulations of wastes (i.e., inspect for and remove or break up ammitiiated solids as needed). • 1)ty hlanurc I landling * Accunutlatious nfanimal wastes l temove spillage on a routine basis (e.g., 7 - 10 SysMus day interval during summer; 15-30 day interval during winter) where manure is loaded for land application or disposal. P-1-1rovide for adequate drainage around manure stockpiles. CtYf spect for and remove or break up accumnlued wastes in filter strips around stockpiles and ManlllC handling areas as needed. For more infitnnation contact the Cooperative Extension Service, Department of Entomology, Box 7613, North Carolina Slate University, Raleigh, NC, 27695-7613. i AMIC - tJuvember 11, 1996. Page 2 Dairy Farm Waste Management Odor Control Checklist 11hips to Millituice 01101- - — - --Site Specific Practices farnlstt ml Dairy production EI—Vegetativc or wooded buffers l�tecolmnended hest maltagemeni practices G—Good judgment and common sense Pavcd lots ur barn alley Wet ntannre-covered surfaces Fr -Scrape or flush daily surfaces R-Proniole drying wish proper ventilation lic' ticd areas a Mile; Ft-- i-ouline checks and maintenance on waterers, hydrants, pipes, stock tanks H—Troroule drying with proper ventilation • Parllal microbial decomposition Replace wet or manure-covcrcd betiding h1anure dry slacks • Partial microbial decolllposilion Provide liquid drainage for stored tltanure Slurage lank or basin a Partial microbial decomposition ; n Ilouont or mid -level loading setriace • Mixing while filling; n Tank covers • Agilalion when un►plying Cl 11asin stir face mats of solids; TI Minimize: lot runoff and liquid additions f'i Agitate only prior to manure removal �"1 Proven biological adelilivcs ur oxitl:tuts Scaling b:tsiu sutlaccs Partial Microbial decomposition f,l Litlnid drainage front selded solids • Mixing while filling El Remove solids regularly • Agilan ut wlell elitplying 1%lanure. slurry or shidge Agitation when spreading a Suit injection ofshirrylslulges 1 5preadcr malcis . Valatile gas emissions W—Vash residual manurc from spreader after use: Cl Proven hiolol;ic:tl additives ur nxidanls I I,ICt,VEAL:d ntauure, Volatile gas emissions whilt: n SOil iltjcetiott ufsEurry/sludges slurry or sludge fill field drying n Soil incorporation wildtin 18 ttrs surlact L� prcad in lhin imilorm layers fm rapid trying F1 Proven biological athlit ives or oxid;uits I:hr11 Lud.s Agilation ofrecycled lagoon n rinsi, dunk covers; _ - — liquid while Tanks are filling El Exlentd fill lilies to ot:ar 111111IIIII ol•I:tuks %vilh anli-slpllon vellis (kite+ltle drain collection Agllallnn rhlrillg WilsleWillef 11ox CIIVCI.s Of fimutioll boxes coliveyalice riMOU - 1•luvcnther 11, 1996, Page 1 Source Cuuse BMI's to Minimize Odor' Site Specific Practices Lift stulioils 9 Agitation during sump tank n Skimp tank covers filling and drawdown boll of drainpipes at a Agitation daring wastewater Fxleud discharge point of pipes underneath lagoon conveyance lagoon liquid level Lagoon Sill -faces Ifigatinn slirinkler no-mcs • volatile gas elitissian; Gr Proper lagoon liquid capacity; • Biological mixing; 0 Correct lagoon stariltp procedures; • Agitation R'-Miaimum surface area -In -volume ratio; G1,10il inrtlin agitalion when pumping; f ilecllanical aeralion; Gt----,'rovcn biological addilives • I ligh pressure agilatirm; P f(Irrigate on dry clays with lilllc ar no %vind; • Wind drift Minimum recommendcd operating procedure; prl'utup intake near lagoon liquid surface; PK'Plimp from second -stage lagoon; lush residual nfanure from pipes at eitd of slurry/sludge pnmpings [)call animals Carcass decomposition Proper disposition of carcasses Slanding wilier aruuud • Improper drainage; C;r (hole and L-uulscape slld) dim walcr drains limlilies 0 Mlcrnbial decomposition of away from tilcilities organic loaner Mild 11m1cil ()lull public 0 Poorly luaintained access rualls fa' Fiuln access road nrlirllenance rimds bolo filml access Additional Intiinwi ion : Availublc From : Cauk Manure Managemem ; 6300 RUICIBUIP Packet - — NCS0, Caujily Exicilsiml Center 11airy tahlcatiomil Ilnit Manufe fvlanagemetnl System - Lake Wheeler Road field Laboratory ; FBA 309-95 NCS11 - IIAI: Lagoon Desigo alld Managenlenl fur livestock Manurc 'I featlnenl arlll Sloragc ; IalAli 103-83 N{:SI I - IIAI: Management of Dairy Wasteivaler ; FIIAE 106-93 NCSI I - 11AE t'idibllitiull ufMiIIIItre anti Waslewaler Applicalion (equipment ; FIIAF Fact Sheet NC'SI I - BAF I;Jnii.uicc t'nnecrny ill Animal Manure Management: Odors and Mies ; PRO 1995 Coallere.lice I'ruccediogs Florida Cimperitive Exlertsiuu A M(W - November 11. 1996, I'age 2 State of North CarollA Department of Enviro ment and Natural Resources Division of Water Quality James B. Hunt, Jr., Governor Wayne McDevitt, Secretary Kerr T. Stevens, Director April 6, 1999 CERTIFIED MAIL RETURN RECEIPT REQUESTED James Graharn Beallgray Farm Inc. 1218 Belmont Rd Linwood NC 27299 Farm Number: 29 - 3 Dear James Graham: NCDENR (NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES You are hereby notified that Beallgray Farm Inc., in accordance with G.S. 143-215.1OC, must apply for coverage under an Animal Waste Operation General Permit. Upon receipt of this letter, your farm has six 60 da s to submit the attached application and all supporting documentation. In accordance with Chapter 626 of 1995 Session Laws (Regular Session 1996), Section 19(c)(2), any owner or operator who fails to submit an application by the date specified by the Department SHALL NOT OPERATE the animal waste system after the specified date. Your application must be returned within sixty (60) days of receipt of this letter. Failure to submit the application as required may also 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. The attached application has been partially completed using information listed in your Animal Waste Management Plan Certification Form. If any of the general or operation information listed is incorrect please make corrections as noted on the application before returning the application package. The signed original application, one copy of the signed application, two copies of a general location map, and two copies of the Certified Animal Waste Management Plan must be returned to complete the application package. The completed package 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, NC 27626-0535 If you have any questions concerning this letter, please call Dianne Thomas at (919)733-5083 extension 364 or Ron Linville with the Winston-Salem Regional Office at (336) 771-4600`.i Si erely, G or Kerr T. Stevens cc: Permit File (w/o encl.) Winston-Salem Regional Office (w/o encl.) P.O. Box 29535, Raleigh, North Carolina 27626-0535 Telephone 919-733-7015 FAX 919-733-2496 An Equal Opportunity Affirmative Action Employer 50% recycled/ 10% post -consumer paper .Y ` --+11 ''�� t�� r�•';4`) � � � .I� r 1r.� r N E� � I•• 'ti-. � ; ^, • _ � 1 J �.a n p�,��,,� 1 ; - F' • � '' r rf, � p hl ,, �` '} ' "�},,�;Mt�•'f'.. ' sr. � m.T,'I . � d'j ..r , t. 1t , :,:.. F �� •��' —r't 6s}- ,� 1 '.:l'` 1 lit < t{r�+1; - ,, ` ��.4�, � f �-+ � '1. }'- • `!:r - a. ra^ ✓�r x '. � � 1 ,> , 1, Y> Iga.�ra � [ � 1 �' • _l l•�� I ♦ 1 { " '� " ��1 l�� 1 ,1j�� 7'� a,'i €,r ; c� f:t i g `• �r �� [, , 1"..� ' w ° g ,A 9r'N o rr�ty .: i r r ic' yt• y! +M r d y. yaFc s t • r a lr Itf`X' � ,c =• s� •^ r ' It ti r'Fr`�rr4 i '1'"'s scat •y ' r .'�. Sj'. , ��• xEj F F !Y-. Iv �r ,.�� ray �.�r;,t F •� rr ' , F'- �}. :.r>�'.r +�rr �.. .tom r +" }f ✓ 1 _ - r r' �{ ti' • ' � �c/ r r !•r, t �, 1. t } � - , : `, - � � Y r F r/ ,; ir�� �' � , � f r - E's � ,rt,.. - I r h _ -- ,��tt �y,•",i° o. ` ,1 i'� 'iG . ,�,'r,*, ,[.,,. � ���. �"� �,a- '��. '� / r ,.rr •drr:' �kr. +.. _ � -a ��� �' r. `'E r{It,r + l i �1 f {( a�. ;!t` -� c� "r7n4. oF. ,'�.. �1 rir, �r�. - ��'. , iLY 'u,+ ,3•a �.ti 1 RECEIVED Animal Waste Management Plan Certification (Please tape or print all information that does not require a signature) DEC 16 1997 xistina or New or Expanded {please circle one) WATER QUALITY SECTION PK1-- --- ^ General Information: Name of Farm: 13 z A ' 1N4. Fdcilifv No" 2 -"03 Owner(s) Name: 6.-,, Alg n Phone No: 51a/ys6- 7762 Mailing Address: -7 Forttt Location: Ccunty Farm is located in: 12,gviosea Latitude and Longitude: .:LS _ _J�y 1742 / 86 zo 21 PIea_se attach a copy of a county road map with location identified and describe below (Be specific: road names, directions. milepost, etc.): 4L41 Cyr ez'9__Z_-9S_ Overa.tion Descrintion: 'lope of Si vine No. of Animals :1 Wean to Feeder Feeder to Finish :� Farrow to Wean J Farrow to Feeder 0 Farrow to Finish Type ofPoulrn• No. ofAnimais Layer Pullets Other Type of Livestock: Ttipe of Carrle No. of Animals wiry G Z2 Beef A"umoer of Animals: Expanding Operation Only F Previous Design Capacity: Additional Design Capacity. - Total Design Capacity Acreage Available for Application: /Do 9 _ Required Acreage: - goo Dumber of Lagoons I Storage Ponds : 44 Total Capaci % o7S, 7/Z Cubic Feet (ft�) Are subsurface drains present an the farm: YESor N (please circle one) If YES: are subsurface drains present in the area of the LAGOON or SPRY FIELD (please circle one) ********Mc********************************* E***************acre**********ic******yt*fc*** Owner / Manager Agreement I (we) verify that all the above information is correct and will be updated upon changing. I (we) understand the operation any:: 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 rewire a new certification to be submitted to the Division of Environmental Management before the new animals are stocked. I (we) understand that there must be no discharge of animal Waste from the storage or application system to surface waters of the state either directly (hroush a man-made convevancr or from a storm event less severe than the 25-Fear. 24-hour storm and there must not be run-off from the application of animal waste. I (we) understand that run-off of pollutants from lounging and heavy use areas must be minimized using technical standards developed by the Natural Resources Conservation Service. The approved plan will be filed at the farm and at the orfict or the loom Soil and Water Conservation District. I (%vc) know that any modification must be approved -by a technical specialist and submitted to the Soil and «'ater Conservation District prior to implementation. A change in land ownership require: written notification to DEM or a new certiti._tion fir (he approved plan is chanecdi within 60 days of a title transr-er. \ante of Land 0\i ei Si��nature: Name of Mana,t=riif, Siznature: Date: -XWC -- januory 1. N117 Te*nical Specialist CertifiSon I. As a technical specialist designated by the North Carolina Soil and Water Conservation Commission pursuant to I5A NCAC bF .0005. 1 certifv that the animal waste management system for the farm named above has an animal waste management plan that meets or exceeds standards and specifications of the Division of Environmental Management (DEM) as specified in 15A NCAC 2H.0317 and the USDA -Natural Resources Conservation Service (MRCS) and/or the North Carolina Soil and Water Conservation Commission pursuant to 15A NCAC 2H.0317 and 15A NCAC 6F .0001-.0005. The following elements are included in the plan as applicable. while each category designates a :echnical specialist who may sisn each certification (SD. S1. W1r_P, RC. 1), the technical specialist should only certify pans for which they are technically competent. I.I. Certification of Design A) Collection. Stornae. Treatment Svstem Check the appropriate box R"Existin facility without retrofit (SD or WLtP) Storage volume is adequate for operation capacity; storage capability consistent with waste utilization requirements. _I \ev. expanded or retrofittedfacility(SD) Animal waste storage and treatment structures, such as but not limited to collection syste:as, lagoons and ponds, have been designed to meet or exceed the minimum standards and specifcatiens. Name of Technical Specialist (Please Print):Y�/11'�s Affiliation-. Address(Agency3el ,�.� r�-a �� :. d?s� (• . ): � .S'f L��- Svc. � 7ZSLPhone No.� a�f�- a Signature:_Date: B) Land Application Site (WUIP) The plan provides for minimum separations (buffers); adequate amount of land for waste utilization; chosen crop is suitable for waste management; hydraui'tc and nutrient loading rates. Name of Technical Specialist (Please Print): _Zle:r./ .affiliation:_ 0,16v_ Address(Agency): r- 02 '2-Sz-_Phone i`io.:__F��/: Signature:_-- C) Runoff Controls from Exterior Lots Check tire appropriate box G Facility without exterior lots (SD or W21P or RC) This facility does not contain anv exterior lots. it.�Facility with exterior lots (RC) Methods to minimize the run off of pollutants from lounging and heavy use areas gave begin desicned in accordance with technical standards developed by tiRCS. Nome of Technical Specialist (Please Print): 1/01 AY; has \fr flier: .addrest.-k`enc5.•): 3-o �—�faf � S� Z x X6 . ���sz Phone No.: fle 267s' S[,:nature: � 1`����<.aa _ Date: ANVC -- .Jjo:usry 1. 1997 0 0 D). Application and Handling Equipment Check the appropriate bore ��E.istin or e�cr+anding fat i�ity ith existing �va�te application equipment (WUP or I) Animal x aste application equipment specified in the plan has been either field calibrated or evaluated in ac:ordance with existing design charts and tables and is able to apply waste as necessary to accommodate the waste management plan: (existing application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates, a schedule for'tituing of applications has beeo established: required buffers can be maintained and calibration and adjustment guidance are contained as part of the plan), Nz_%i'. expanded.or existing facility without existing waste application epLipment_forspray irrigation. (I) Animal waste application equipment specified in the plan has been designed to apply Waste as necessary to accommodate the waste management plan: (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates. a sc edule for timing of applications has been established: required buffers can be maintained; calibration and adiustment guidance are contained as part of the plan). J New. expanded, or existing facility_ without existing waste application equipment for land spreading, not using spray irrigation. (W P or 1) Animal waste application equipment specified in the plan has beep selected to apply waste as necessary to er accommodate the waste management plan; (proposed application equipment can co�'the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates: a schedule for timing of applications has been established: required buffers can be maintained: calibration and adiustment guidance are contained as part of the plan). Name of Technical Specialist (Please Print); ,1,,,1��•C/.'ter ,�� _ �_ Affiliation: v Address(Agency): of a�r S sz_ Phone No.: Signature: Date:_ E) Odor Control., Insect Control, Mortality'Vanagement and Emergency Action Plan (SD, SI.N17 P.RCorIl The waste management plan for this facility includes a Waste Management Odor Control Checklist, an Insect Control Checklist. a Mortality Management Checklist and an Emergency Action Plan. Sources of both odors and insects have been evaluated with respect to this site and Best Kfanaeement Practices to Minirrtize Odors and Best %lanagement Practices to Control Insects have been selected and included in the waste management plan. Both the Nlort,Lty Management Plan and the Emergency Action flan are complete and can be implemented by this facility. Name of Technical Specialist (Please Print): Affiliation: .?QAX ZS-,2.J Y4.-1 Address(Agency): '-'d Z-!-i Phone No.:_&ela s%Z-_-.,D? Signature:_ �'.�.�� �.�� ��_— -- Dater- F) Written \otice of `ew or Expartdino. S%vine Farm The follo%%ing signature block is only to be used for new or expanding sine farms that begin construction after June 21, 1996. If the facility was built before June 21. 1996. when was it constructed or last expanded I iwe) cenify that I (%ve) have attempted to contact by cenifiied mail all adioinin_ property owners and all property owners who own property located across a public road, stre:t. or highway from this new or expanding swine farm. The notice was in compliance with the requirements of NCGS 106-505. A of the notice and a list of the prove.-tv owners notified is attwched. Name of Land Owner : Si,_,nature: Date: Name of NIanaT_eri it diffLr4nt froin owne,i: Si _,nature Date: %VC -- J;inuary 1, 1997; 0 I'll. Certification of Installation A) Collection, Storage, Treatment Installation New, eC anded or retrofitted facility (S1) Animal waste storage and treatment structures, such as but not limited to lagoons and ponds, have been installed in accordance with the approved plan to meet or exceed the rrt rdmum standards and specifications. For existing facilities without retrofits, no certtftcation is necessary. Name of Technical Specialist (Please Print): Affiliation: Address(Agency): Phone No.: Signature: Date: B) Land Application Site OV P) Check the appropriate box The cropping system is in place on all land as specified in the animal waste management plan. 0 Conditional Approval: all required land as specified in the plan is cleared for planting; the cropping system as specified in the waste utilization plan has not been established and the owner has comrniaed to establish the vegetation as specified in the plan by (momh/day/year); the proposed cover crop is appropriate. for compliance with the wasteutilization plan. ❑ Also check this box if appropriate if the cropping system as specified in the plan can not be established on newly cleared land within 30 days - of this certification. the owner has committed to establish an interim crop for erosion control; Name of Technical Specialist (Please Print): s -- Affiliation: o,.) Address(Agency): 3e Z,,y . N4 2 72-92- Phone No.: /a/as%.z- 20 >.s Signature:...��J'�,�, /i' _ Date: This following signature block is only to be used when the box, for conditional approval in III. B above has been checked. I (we) certify that I (we) have committed to establish the cropping system as specified in my (our) waste utilization plan. and if appropriate to establish the interim crop for erosion control. and will submit to DEM a verification of completion from a Technical Specialist within I5 calendar days following the -date specified in the conditional certification. I (we) realize that failure to submit this verification is a violation of the waste management plan and will subject me (us) to an enforcement action from DEM. Name of Land Owner: Signature-. Date: Name of Manager(if different from owner): Signature: Date: AWC -- .lanuun' 1. 19117 C) Runoff Controls from Efrior Lots (RC) Facility with exterior lot. Methods to minimize the run off of pollutants from lounging and heavy use areas have been installed as specified in the plan. . For facilities without exterior lots, no certification is necessary. Name of Technical Specialist (Please Print): /u 2L, s T Affiliation: 412&se,,ro,o �5i.,t d _ Address (ARenev): �j -rr�-r S� , Lmv 0614_..y Phone No.: Signature: D) application and Handling Equipment Installation (WUP or I) Check the appropriate block lQ� nimal waste application and handling equipment specified in the plan is on site and ready for use; calibration and adjustment materials have been provided to the owners and are contained as par. of the plan. ZI Animal waste application and handling equipment specified in the plan has not been installed but the owner has proposed leasing or third party application and has provided a signed contract; equipment specified in the contract agrees with the requirements of the plan; required buffers can be maintained; calibration and adjustment guidance have been provided to the owners and are contained as par, of the plan. ._! Conditional approval: Animal waste application and handling equipment specified in the plan'has been purchased and will be on site and installed by (month/day/vear); there is adequate storage to hold the waste until the equipment is installed and until the waste can be land applied in accordance with the cropping system contained in the plan; and calibration and adjustment guidance have been provided to the owners and are contained as part of the plan. Name of Technical Specialist (Please Pant): llgzggl Affiliation: r LJC Address (Agertcy); a/ a 7 ��a Phone No.: Signature: Date: L/ 's -7 The following signature block is only to be used when the box for conditional approval in III D above has been checked. I (,,ve) certify that I (we; have committed to purchase the animal waste application and handling equipment as specified in my (our) waste management plan and will submit to DEM a verification of delivery and installation from a Technical Specialist Within 15 calendar days following the date specified in the conditional certification. I (we) realize that failure to submit this verification is a violation of the waste management plan and vvill subject me (us) to an enforcement action from DEM. Name of Land Owner: Signature: _ Date: Name of different from owner): Si -nature: Date: E) Odor Control, Insect Control and Mortali6- Management (SD. SI. WUP RC or i) Methods to control odors and insects as soecifted in the Plan have been installed and are operational. The mortality management system as specified in the Plan has also been installed and is operational. Nance of Technical Specialist (Please Print):_`/ Affiliation: < C Address(A,,cnc;,, t:,_.. Nam- a �� Phone No. Signature: Date: Z--22212 -kl1'C -- Jnuuary 1. 1997 Please return the completed form to the Division of Water Quality at the following address: Department of Environment, Health, and Natural Resources Division Of Water Quality Water Quality Section, Compliance Group P.O. Box 29=35 .Raleigh; NC 27626-0535 Please also remember to submit a copy of this form along with the complete Animal Waste `Management PIa.n to the local Soil and Water Conservation District Office and to keep a copy in your files with your Animal Waste tiManagement Plan. ANVC -- january 1. 19117 6 �1 EMERGENCY ACTION PLAN. is .'-�•a �:. i'l �:'ai . :.7 t.—, :j.. � _ :b , .. .. •� '.r��ti °.5'•r THON .., _. DWQ-410-771=4600 EN-MRGENCY Nt: UNAGE\E:v'T SYSTEM SWCD 410— 4 — 075 NRCS T'nis plan will be implemented in the event that wastes from your operation are leaking, overflowing, or running off 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 mayor may not be possible. Suggested responses to some possible problems are listed below. A. Lagoon overflow -possible solutions are: a. Add soil to berm to increase elevation of dam. b. Pump wastes to fields at an acceptable rate. c. Stop all flows to the lagoon immediately. d. Call a pumping contractor. e. Make sure no surface water is entering lagoon. B: Runoff from waste application field -actions include: a. Immediately stop waste application. b. Create a temporary diversion to contain waste. c. Incorporate waste'to reduce 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 pump. b. Stop irrigation pump. c. CIose valves to eliminate further discharze. . d. Repair all Ieaks prior to restarting pumps. D'. Leakage from flush s}'stems, houses. solid separator -action include: a. Stop recycle pump. b. Stop irrigation pump. C. 'Make sure no siphon occurs. d. Stop all tloxv.i in the house. tush systems. or soNd separators. Dezznilhe: 14. 1996 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 away from the embankment to catch all seepage, put in a submersible pump, and pump back to lagoon. b. If holes are caused by burrowing animals, trap or remove animals and rill holes and compact with a clay type soil. c. Have a professional evaluatethecondition of the side walls and lagoon bottom as soon as possible. 2. Assess the extent of the spill and note any obvious damages. a. Did the waste reach anv surface waters? b. Approximately how much was released and for what duration? c. Anv damage noted, such as employee injury, fish kills, or propery 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? s. 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 hou s, call your DWQ (Division of Water Quality) regional office; Phone9jO.17-V"DbAfter hours, emergency number: 919-735-39'1. Four phone call should include: your name, facility, telephone number, the details of the incident from item 2 above, the exact location of the facility, 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 Ieaves property or enters surface waters, call local EMS Phone number - c. Instruct EMS to contact local Health Department. 5� �yi-�o7s d. Contact CES, phone number - - , locaI SWCD office phone number l- and local NRCS office for advice/technical assistance phone number 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 problem to minimize off -site damage. a. Contractors Name- b. Contractors Address: c. Contractors Phone: l, _' D..mer IS. I nab 6: Contact the technical specialist who certified the lagoon (NRCS, Consulting Engineer: etc.) a. Name: —//Offd )CZ:114 .0 b. Phone: 910 aqa - jrj7S M 7: Implement procedures is advised by DWQ and technical assistance agencies to rectify the damage. repair the system. and reassess the waste management plah to i keep problems wIth release of wastes from happenin'g again. 3 Dec;.mher 13, 1996 Mortality Management Methods (check which method(s) are being implemented) 4. Burial three feet beneath the surface- of the ground within 24 hours after knowledee of the death. The burial must be at least 300 feet from ZAV flowing stream or public body of water. Rendering at a rendering plant licensed under G.S. 106-168.7 Complete incineration In the case of dead poultry only, placing in a disposal pit of a size and designapproved by the Department of I - Anv 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) U. S. DEPARTliEHT OF AGRICULTUREW NC-ENG-40 Solt Conservation Ser9lcr Rev. 7/91 PLAN OF EXCAVATED WASTE STORAGE PIT NAME : ,l�Al/s�;z Date: county: Address: 14Z Yd/ a`/7 /sfe,oyz: 1140••'a' ,2: / 236 LENGTH BIDE SLOPE 2 TO 1 / W p .r A9E. TOP ELEV. Qv, 4 py10 pia I 1 i 1 o AYE. BDTTOY ELEV. //'s LENGTH �02 (See beck for` volues calculstions) Use of facility: 6clAx/ capacity: 470s;957 _ _ _Gallons Ft3 Soil Type:' Bench Mark Description Bottom. Normal Liguid Level Storage for normal Precip. Maximum Liquid Level 25 yr. Storm Storage Crest ESW Max.Flow Depth Freeboard Top of Dam 0?39 x/31= �2iga� ;t/I ,, i1�- xy= /oGg7� K /G, �8Xa7 s1 Elev. Elev. (+) Ft. Elev. (+) Ft. Elev. (+) Ft. (+) Ft. Elev. U. S. DEPARTMENT OF AGRICULTURE Solt Conservation sorolca • NC-ENC-40 Rev. 7/91 PLAN OF EXCAVATED WASTE STORAGE PIT NAME: A9tr//�.�� �/� -... Date: 3/ /5 County: Address: A1.4,46 a.Jl 1/509 2 'V7 LEN47H SIDE SLOPE ?- TO 1 w o AYE. TOP ELEV.AQO /oF, w , —� _ '22..5' YID SECTION / 0 8 �� I o AYE. 6QT7t7M V. LENGTH 2d9' /Va r4 (Son back faf volume calculations) Use of facility: Al sf� Sto.,. Po,av Capacity: (/8.957 _ Gallons 23i 83 Ft3 Soil Types Bench Mark Description Bottom. Normal Liguid Level Storage for normal Precip. Maximum Liquid Level 25 yr. Storm Storage Crest ESW Max.Flow Depth Freeboard Top of Dam , 41 ass 4;Lx,r .20q x �,2Ild2_ =a8 Elev. Elev. (+) Ft. Elev. (+) Ft. Elev. (+} Ft. (+) Ft. Elev. 1 U. S. DEPARTMENT Of AGRICULTURE • Soli Conservation Saralta fr� • RC-ENG-40 ReY. T/91 PLAN OF EXCAVATED WASTE STORAGE PIT NAME: county: Address: // oNl 3. w s�Ayc 3 So LENGTH i SIDE SLOPE Z-_TO 1 w r� , AVE. TOP ELEV. 4&ry,o a/ P. I 1 0 8. 49 I 1 i 1 AYE. 'BOTTCY ELEY. L LENGTH r 3/8 (San book !ar volum caloulatlars) Use of facility: ZJ. S/r S�or� Po.Jd capacity: 13olf23.S Gallons Ft3 Soil Type:' Bench Mark Description Bottom. Normal Liguid Level Storage for normal Precip. Maximum Liquid Level 25 yr. Storm Storage Crest ESW Max.Flow Depth Freeboard Top of Dam C,03 ��x 6S" 86B`�° 319 Y �9 " IS58 �- Elev. Elev. (+) Ft. Elev. {+} Ft. Elev. {+} Ft. (+} Ft. Elev. 6 a o�7 z x /7�f,3�� . U. S. DEPARTMENT OF AGRICULTURfe Soil Comervation Service • . NC-EHG•40 Rev. T191 PLAN OF EXCAVATED WASTE STORAGE PIT NAM: --- t��,o�%�,a� ram, s �Nc- Date: County: Address: li(f�1S d G r• E 0,j 7 57 -psi poa�/.'66� Jam a ;0O 4 ey �o w / , W 1 �1CY� SIDE SLOPE To 1 / / .._ AVE. TOP ELEV. - -L97 - 1 AVE. BOTTOM ELEV. I /'1,: T (Sea back for roluaa calculations) Use of facility: _ /.,01)J /37 S��xc - Gu.✓a a,�� __ capacity:— 29/P.2 77 _ Gallons 39414" Ft3 Soil Type: ' Bench Mark Description Bottom. Normal Liquid Level Storage for normal Precip. Maximum Liquid Level 25 yr.-Storm Storage Crest ESW Max.Flow Depth Freeboard Top of Dam Elev. Elev. (+) Ft. Elev. H Ft Elev. (+) Ft. (+) Ft. Elev. VOLUME OF A TRAPEZOIDAL PIT one equation for calculating the volume of a trapezoidal pit is: Volume - h [(area of top). + (area � ofbottom) + (4 * Iareaa� 6 of midsection)] = Ft3 Another equation for determining the volume of a trapezoidal excavated pit with constant side slopes is: V - wdL + Zd2(4/3 Zd - w - L) where: V = total volume of the pit in ft3. w = width of the pit at top in feet. d = depth of the pit at top in feet. L = length of the pit at top in feet. Z = side slope for 2 to 1 use Z = 2 for 21/2 to 1 use Z = 21/2 NOTE: Dimensions used must be constructable. Always check for narrow, deep pits. For correct results the following must be"true.� w must be greater than 2Zd L :rust be greater than 2Zd C, c 0 d a U, t q4. V, u- .1%t .. . ... ... ... . ... ..... ..... .7 t NC 113119.5 v✓{�.s Tf fTO' /�5 Y,9� C. /9 �(r G a NS Ay E D- . flssurn f 2: / s, d s/�.s A7 r --- ... 2 e1/ --r 3,d slag _. n / 3 q e7- IRRIGATED WASTE APPLICATION AREAS TRACT FIELD SOEL TYPE ACRES 1016 4 DaB 25.0 6A DaB 9.0 7 DaB 36.0 8 DaB 13.3 9 DaB 22.8 4652 IA, 1 B DaB 8.9 2A DaB T4 2B DaB 8.3 2C DaB 3.0 3A, 3B DaB 6.0 3C DaB 5.9 4A, 4B IrB 9.7 4C, 4D IrB 9.4 5A, 5B IrB 8.9 8A MeB 9.9 8B MeB 7.6 9A MeB 4.4 9B MeB 1.4 10A DaB 5.2 I I A, 11 B MeB 10.7 1 I C, 1 ID MeB 10.1 11E, 11F MeB 8.1 11247 1 DaB 9.1 R IV. Land 6pplication of Animal by Irrigation Total amount to apply 600 cows x 76 lbs. N/yr x 60% = 27,360 lbs. 1. Soils for Irrigation Davidson loam, 20B, Group Index 2, Maximum rate with cover = .30 in/hr. Permeability 0.6 - 2.0 in/hr. Unified ML, SM, CL - ML, CL Mecklenburg loam, 54B, Group Index 2, Maximum rate with cover = .30 in/hr permeability 0.6 - 2.0 in/hr. Iredell loam, 56B, Group Index 12, Maximum rate with cover = .20 in/hr. Permeability 0.6 - 2.0 in/hr Unified ML, CL, - Ml, CL 2. Crops to Receive Waste by Irrigation Croce^_ Yield R.Y.E. _ *Maximum PAN/Ac. Corn Silage 24 tons/ac. 12 lbs N/ton 288 lbs PAN/Ac. Tropical Corn Silage 24 tons 12 lbs N/ton 288 lbs. Small Grain Silage 10 tons 12 lbs N/ton 120 lbs. ** Sudangrass Silage 10 tons 12 lbs N/ton 120 lbs. Ryegrass Silage 7 tons 12 lbs N/ton 84 lbs. * Maximum Plant Available Nitrogen/acre/crop. Include both commercial and organic forms of nitrogen as well as residual nitrogen from legumes (Soybeans, Alfalfa). ** Sudangrass/Sudex/Sorghum Silage, Yields and pounds of plant available Nitrogen are estimated amounts. It is recommended that producer take plant tissue samples for analysis by NCDA The crop should also be weighed to determine more accurate yields. Warm Season Annuals yields grown under irrigation have been increased 10 to 15 percent since fresh water is available to water crops if producer desires. 3. Mplication Schedule for Irrigated Waste Corn: March, April, May, June, July Tropical Corn: April, May, June, July, August, September : Small Grain: February, March, April, September, October, November -. Sudangrass: May, June, July, August Ryegrass: February, March, April, September, October, November �Sz I0/6 % y65�- WETTABLE ACRES FOR D iR1�4ipy r�Or�..S TRAVEL LANE SPACING % 7d �yb NEW OR EXISTING �r�J lit AKU ZiTAKI ' . 5":Ur PULL DIA. PULL DEG. END TABLE LENGTH X W/4�60 TOTAL END TABLE TOTAL WET. AC,. 1 if36 e ? . 9 Nf 0 31B' �. $ 0 Nf, 70 3 27a° ._9.9 we7° 78'' 318 ` o NE 70 .z. fi 'z130� C 270° . 99 NF-7O 1023 318' 7.S .q,7 N£ 7d- `I a 2. A q o' E 7-70° : 99 r 70 Z ,/o. AIC 70 .� ( 0 1270 ° . 97 a loo7 ' 00 ' . 9 7 /UTC7a 8.3 0' 270a • 97 N�70 23 / ao' , 6 . zf7 Nr7° . o lei 43o ' 1 2 70 ° - 97 Rlf7O 6 00 ' D. 8 0 /. 7 �o� 270° .97 ivl7� 5-79' 00 O N--70 .3 3 C z130" E �270 � . 97 NF 70 3/8 119 tirf 7Q, S9 q A 2 70 ° . '9 9 £ 70 330' 318 Z- O Nic 70 3- 4' 418 430 f 27e° . 99 N-T70 6' 319' _3 0 of 70 i f 41.3-0 F 2%° . 99 .vf o 7• g' p Nf 7° S -'YID .3o 2706 P9 Ng7° 7 / [/ .0 NE 740 • 9 1136' E 270° yy III E7Q go' /8' 2.8 D ��7a 3�7 113" 70° .99 -E70 578 3,/8 O NE70 S.Z $R V30' E 7o° • 95 /v1:7o /3 4c,3o ' 2 70 ° • r19 L qo 8 Z 31 6.1 . S< ! A)1 70 A 430 f 270° . 9Y vf70 2. 9 . z/q i of70 Z/ 9B '130' If270 ° O ' g 70 ?O4 3i8-' /, p Jr 70 /• i y6s`2- j nleI7 �q WETTABLE ACRES FOR TRAVEL LANE SPACING % o%a NEW OR EXISTING /fJ� PULL DIA. I/ E PULL AK{.: DEG: bTAK'l END TABLE LENGTH X W/43560 TOTAL slut, END TABLE TOTAL WET." -AC. o fi .30' ;C Z9o° . 94' NE 7o Z 7 • �f9' N 70 :. Z 11,4 ',q3o, 70 .99 - 70 76" 1/7 1113 1130' C 2-7 ° . 9 y IVE 76 3 3i o a N 70 G 5�3° � l .270 ' ' 77 70 ,S�,Sy 00" o /V �7° �f 7 // o .4130 1 a 70 ' . y 7 N1-7,b �-4W ,76 o 0 N 1 70 C //36' 1,?70 ,;7 . y`! . yy NF76 Ni 70 3,30 318, _ o N-E 70 NS 70 � 7 36 E Z70 - 97 Nit 70 4 318' 9 N C 70, 9. 1. Make and model number"- YA1*y 2. ' Length of lateral line 82feet 3.. Does the.machine have an end gun or an end sprinkler? x - ._Yes, no If it has an end gun or an end sprinkler, list the make and model of the end gun or the end sprinkler IVEISCN /oo If an end sprinkler, list nozzle size inch, if and end gun, list nozzle size p_ Q ___ inch, also list nozzle type ring orifice, taper bore orifice 4. Operating pressure at the pivot point B o psi 5. Is the machine used on more than one area (towable)? X yes, no. If yes will need to compute acreage for each circle or part of a circle. 6. Does the machine have a booster pump for the end gun or the end sprinkler? des, - X-- _ no If yes indicate the size of the motor which drives the pump to operate the end sprinkler or end gun 7. Is the machine operated X full circle, X part circle? If part -circle, indicate the portion of a circle which is irrigated? /9,!� 7/0 - 2 70 ° - 8. If the machine is towable, indicate arc angle for all areas on which the machine is operated / 8g.° /87 ° -� 2 7o ° ** 9. Are sprinkler mounted on drops below the lateral pipe? or on top of the lateral pipe? x * * 10. Number of towers_ ** 11. Tower spacing feet. They may not all be the same. If not, please indicate _/ - Z6�6. 4/-R6 ! -;Fo ** 12. Lateral line size 4 •- inch. Indicate if there is more than one lateral size **13. Type of sprinkler: ad rotary impact, spray nozzle, rotator ** 14. Obtain from grower or dealer who supplied the machine the design capacity of the machine 7S 7 gpm. V'' * 15. If possible, obtain a printout of nozzle package for the machine. **16. Supply line size inch **17. Supply line length feet. From pump to most distance pivot point. **18. Pump make and model number _ ** 19. Pump capacity gpm **20. Engine make and model number , or **21 Electric motor horsepower and rpm hp, rpm N= The machine needs to be operated to obtain the pressure at the pivot point. * Locate on a copy of the map the pivot point(s) and the area covered by the machine. If the machine is towable indicate the several areas covered by the machine. Also locate the supply line. Irrigated acreage is obtained by area covered by each circle or part of a circle. ** Optional data, furnish where possible. *** Information furnished by and/or Signature of Owner or Facility Representative Signature of Technical pecialist Printed Name of Owner or Facility Representative Date Printed Name of Tecfinical Specialist Date 3/7 9 99 * * * Only the person or persons collecting the data should sign the data sheet. To calculate irrigated acres, collect the following data: 1. Radius of machine (length of lateral) G 8 2 feet 2. Measured radius of end gun or end sprinkler 15 feet 3. Measure arc.angle of machine operation, w = ° .4. Ilen use .the equation A n(r}s x W 43,560 3600 r = radius of machine + 0.9 radius of end gun or end sprinkler 7c = 3.14 = constant w = are angle of machine operation 43,560 = constant = f /acre Collect the following data for each circle or part of a circle and compute irrigated acres for each circle or part of a circle. Tract No. /o/6 Radius of machine dA z_ feet Field No. �_ Radius of gun i 30 feet Arc angle of operation, w JA 7 ° Irrigated acres ZS. 0 acres Tract No. /ol6 Radius of machine /8 z feet Field No. �_ Radius of gun i Sa feet Arc angle of operation, w 290 ° Irrigated acres 36. 0 acres Tract No. 1p/d Radius of machine G82 feet Field No.Radius of gun 15o feet Arc angle of operation, w /90/ ° Irrigated acres acres F� 8 Total irrigated acres q 9. / acres Add additional work sheets if needed. Show data for each circle or part of a circle shown on the map. The map should include all fields shown on the WUP. Date _ ,3Z g- 9 Calculations by Signature of WA Technic Specialist d _ D.G,// Printed Name of WA Technical Specialist Table NE70. Design Area Allowances for New or Expanded Hard Hose Traveler Systems EXTERIOR lane - in field with multiple overlapping lanes: 1 Hydrant Spacing based on 70 percent of wetted diameter, (Areas shown are acreage outside starting/stopping gun location) wetted start end Stop end wetted area, acres diameter wetted d area arc angle arc angle arc angle arc angle arc angle feet acres 180 degrees 225 degrees 270 degrees 315 degrees 330 degrees (B) R . (D) (E) (F) P) 150 0.12 0.00 0.03 0.06 0.09 0.10 160 0.14 0.00 0.03 0.07 0.10 0.11 170 0.16 .0.00 0.04 0.08 0.12 0.13 180 0.17 0.00 0.04 0.09 0.13 0.14 190 0.19 .0.00 0.05 0.10 0.14 0.16 200 0.22 0.00 0.05 0.11 0.16 0.18 210 0.24 0.00 0.06 0.12 0.18 0.20 220 0.26 0.00 0.06 0.13 0.19 0.22 230 0.28 0.00 0.07 0.14 0.21 0.24 240 0.31 0.00 0.07 0.15 0.23 0.26 250 0.34 0.00 0.08 0.16 0.25 0.28 260 0.36 0.00 0.09 0.18 0.27 0.30 270 0.39 0.00 0.09 0.19 0.29 0.33 280 0.42 0.00 0.10 0.21 0.31 0.35 290 0.45 0.00 0.11 0.22 0.34 0.36 300 0.48 0.00 0.11 0.24 0.36 0.40 310 0.52 0.00 0.12 0.25 0.39 0.43 320 0.55 0.00 0.13 0.27 0.41 0.46 330 0.59 0.00 0.14 0.29 0.44 0.49 340 0.62 0.00 0.15 0.30 0.46 0.52 350 0.66 0.00 0.16 0.32 0.49 0.55 360 0.70 0.00 0.16 0.34 0.52 0.58 370 0.74 0.00 0.17 0.36 0.55 0.61 380 0.78 0.00 0.18 0.38 0.58 0.64 390 0.82 0.00 0.19 0.40 0.61 0.68 400 0.86 0.00 0.20 0.42 0.64 0.71 410 0.90 0.00 0.21 0.44 0.67 0.75 -• - 420 0.95 0.00 0.22 0.46 0.71 0.79 430 0.99 0.00 0.23 0.49 0.74 0.83 440 1.04 0.00 0.25 0.51 0.78 0.86. 450 1.09 0.00 0.26 0.53 0.81 0.90 460 1.14 0.00 0.27 0.56 0.85 0.94 470 1.19 0.00 0.28 0.58 0.89 0.99 asa , 1.24 0.00- 0.29 0.61 0.92 1.03 -1.29 0.00 0.30' 0.63 0.96 1.07 • .` 500 •1.34 0.00 0.32 0.86 1.00 1.12 Page 29 Table N170. Design Area Allowances for New or Expanded Hard Hose Traveler Systems IN MOR lane - in field with multiple overlapping lanes: Hydrant Spacing based on 70 percent of wetted diameter, (Areas shown are acreage outside starting/stopping gun location) wetted start end Stop end wetted area, acres diameter wetted d area arc angle arc angle arc angle arc angle arc angle feet acres 180 degrees 225 degrees 270 degrees 315 degrees 330 degrees (8) R (D) (E) (F) (G) 150 0.12 0.00 0.03 0.06 0.09 0.10 160 0.13 0.00 0.03 0.06 0.10 0.11 170 0.15 0.00 0.03 0.07 0.11 0.13 180 0.17 0.00 0.04 0.08 0.13 0.14 190 0.19 0.00 0.04 0.09 0.14 0.16 200 0.21 0,00 0.05 0.10 0.16 0.17 210 0.23 0.00 0.05 0.11 0.17 0.19 220 0.26 0.00 0.06 0.12 0.19 0.21 230 0.28 0.00 0.06 0.13 0.21 0.23 240 0.30 0.00 0.07 0.15 0.22 0.25 250 0.33 0.00 0.07 0.16 0.24 0.27 260 0.36 0.00 0.08 0.17 0.26 0.29 270 0.38 0.00 0.08 0.18 0.28 0.32 280 0.41 0.00 0.09 0.20 0.31 0.34 290 0.44 0.00 0.10 0.21 0.33 0.37 300 0.47 0.00 0.10 0.23 0.35 0.39 310 0.51 0.00 0.11 0.24 0.37 0.42 320 0.54 0.00 0.12 0.26 0.40 0.45 330 0.57 0.00 0.13 0.28 0.42 0.47 340 0.61 0.00 0.13 0.29 0.45 0.50 350 0.65 0.00 0.14 0.31 0.48 0.53 360 0.68 0.00 0.15 0.33 0.51 0,56 370 0.72 0.00 0.16 0.35 0.53 0.60 380 0.76 0.00 0.17 0.37 0.56 0.63 390 0.80 0.00 0.18 0.38 0.59 0.66 400 0.84 0.00 0.19 0.40 0.62 0.70 410 0.89 0.00 - 0.20 0.43 0.66 0.73 420 0.93 0.00:: 0.21 0.45 0.69 0.77 430 0.97 0.00 0.22 0.47 0.72 0.81 440 1.02 0.00 0.23. 0.49 0.76 0.84 450. 1.07 0.00 0.24- 0.51 039 ' 0.88 460 1.12 ' 0.00, 025 0.54 0.83 0.92 470 - 1.16 0.00 0.26 0.56 0.88 0.96 480 .._ . _ 1.21 : 0.00 `' 0.27 • 0.5$ 0.90 ` 1.00 490 127 - 0.00 `- .0.28' 0.61 0.94 1.05 �. 500 .-. - 1.32 0.00 = 0.29 = 0.63 0.98 1.09 Page 33 GRA-MAC DISTRIBUTING COMPANY DuS9(ln -- Sfdc•S --- Service COMPLETE IRRIGATION SYSTEMS TELEPHONE: ADVANCE EXCHANGE 1919) 998.3232 19191 998.3500 Beallgray Farms Linwood, NC Specification Sheet 1. Acreage under the traveler coverage ±140 acres. ROUTE 2. BOX 212 MOCKSVILLE. N. C. 27028 2. System is designed using an Amadas 2450L Slurry Reel with 1050' of 4 1/2" ID PE hose, hydraulic drive, and a Nelson SR200 gun. 3. The Nelson SR200 gun is intended to operate with a maximum ring orifice of 1.56" at 70 PSI, 445 GPM, with a diameter throw of 430'. 4. Lane spacing will be 300' (430 X 70%). 5, Ttl vstem is,designed to operate with a 60 HP electric slurry pump, -r Cornell X 14T, 1750 RPM, as the primary pump at the lagoon site. This pump is capab`l-e-of pumping 670 GPM at 82 PSI (190 head feet), which is the proper condition for-oR(�Fating the Valley Slurry Pivot already on Sip the farm. This Cornell pump can a_ls-o s- p' ly 445 GPM at 84 PSI (195 head AJIVED feet) for operation of the traveler. M �,QLN, The customer has been using a Doda PTO Slurry pump m-move their lagoon waste and will continue to use this pump as a booster at thy --traveler M• location to increase the slurry pressure by approximately 40 to 50"PSj,, 6. Traveler system pressure requirement: Gun 70 PSI 1050' of 4.5 ID hose 28 PSI 1400' of 8" PVC Pipe (.26/1001) 3.6 PSI 2000'.of 6" PVC Pipe (1.0/100') 20 PSI Misc 5 PSI 126.6 PSI 293 Head Feet 7. For the traveler, friction loss in 8" PVC @ 445 GPM is .26 PSI loss per 100' and the velocity is 2.98 ' per second. The friction loss in 6" PVC @ 445 GPM of slurry is 1.0 PSI loss per 100' and the velocity is 5.0' per second. F -GRA.-9A,C DISTRIBUTING COMPANY ' !)r»�irfrr. ,tirrlr»•• .tir.ruirx: COMPLCTC IRRIGATION SYSTEMS TELEPHONE: ADVANCE EXCHANGE IMP) 990.3232 10127 298.3500 Beallgray Farms Page 2 ROUTE 2. BOX 212 MOCKSVILLE. N. C. 27028 For the pivot system, the friction loss in the 8" PVC @ 670 GPM is .54 PSI loss per 100' and the velocity is 4.49 ' per second. 8. The traveler application rate is based on the infiltration rate of .6 to 2.0 inches per hour from the soils map of the farm. Traveler application rate in inches/hour: application rate = 96.3 (GPM)r�. X 360° 3.1416 (Gun Radius X 90%)-, 2700 96.3 (445) X 1.34 3.1416 ( 215 X .9 )2 .50 inches per hour travel speed = 1.605 (GPM) Application X Lane Spacing = 1.605 (445) .75 X 300 = 3.18 feet per minute For a .75 inch application the traveler must move the gun cart 3.18 feet per minute across the field. The 2450L has a speed range of 1 foot to 6.67 feet per minute. 05/2"5 14:19 Sri'. y 17046379077 NO.645 903 GRA-MAC DISTRIBUTING COMPANY Design --- scuve — Service COMPLETE IRRIGATION SYSTEMS TSI.CP►4PN4. ADVANCE 1•XCNANCC iolol AaH-9292 (0191 gas-3660 ROUTE 2. 9ox 212 MOCKSVILLE, N. C. 27028 41 6004 ,. --e±: _ _ .!•:'�::_'".i:. Fi. �:�w".'-ti :i'.--.'.f� �-�-� •-�'�'-'�;!T ': :' T-';Y' -- r.._.- .�.:"f.;' _ .� ...�. '�',•it'•_ _ et:. _i._•.�- -.r... EC�EZiC,!GREIYY Y -1_.0 ___. : �: -•Y� "i � . �� _ �i � " � :.0R3'= rJ� -�_YM� = -�'�/'x`.�jyeb •� _.ri-._ .y- .ti_ __ _�_ --i� �i�: :i:,: = l T: :_w..: :1'_ r-9P__EED:';--.YMI01 _ - —•:3:' L .e. 1 is ?j; -- _r; :,:�~,: -�[: .�_:. _j' .�i _� .�,::�:`"."':�: ��:� �_ _ _ _.y._ - _ _ ..:. ;�.�.::_ � ..v :i:.:; ..._.. .._�•_ = _�_ .�... lJ�r••y��LR �I.i,t.•. �_,_. _fir-:W_. :! ' ;•.: 1:_ i �. ! . �:: 'i _ =i. ;. : FOR. .j: t.:_� •— _ .,. 'fir. _i' � :�"- - ��.---�- :��-;:•;';: �:- w�.. ._._.r._. Al i�'{'�}] , T is - _ a. _ .e .1•-• •• _� �..:• _.-_.� �j: Wit-^28B w�3- '�-_ -• -- ' _ :� a "�. - - .. ... _ '. s " - .. � 24EE %EFL ._.:. 48SIB ti Be 0 20_ :-• - 40 3@: - 201 40. U.S. GALLONS PER PAINUTg 40a - GOO, 800 ' I000 - 1200: ;408 1600 80 1?0 1�0 200: 240• 29fd-- 328 368- M2151c t�1ETEs PER HOUR fSC 6004 , BIG GUN° PERFORNLANCE TABLES . U.S.- UNITS 100 SERIES BIG GUNS - 240 TRAJECTORY" inn T TAPER BORE NOZZLES P.S.I. Nozzle "' GPM OIA. Nozzle ',5" GPM DIA. Nozzle .6" GPM DIA. Nozzle .65, GPM DIA, Nozzle .7' GPM DIA. Nozzle .75' GPM DIA. Nozzle A, GPM DIA. Nozzle A5" GPM DIA. Nozzle - 9' GPM DIA. Nozzle 1.0' GPM DIA, 40 47,:-.--...-191', 202', ;,;66;A.4:,.213',., ..4�78,222'. .. 91 • .. 230, 103 240' 110 :" 260' 134 258' 152 „ .282' ' 50 50 205' 64 215' 74 225' 87 235' 100 245' 115 256' 130 265' 150 273' 165 200' 204 3D0' 60. .'.55 ;.-.215 .-' ...89.E 22T--;; .„81:�,..',240,. • 98'_,;;:250'' , 110;__,260', 125 ., 270' 143 .' 280' 164. , . 288'.. 182 ,,;:..295' . 224 318', 70 60 225' 75 238' B8 250' 103 263' 120 275' 136 283- 155 295' 177 302' 197 310' 243 338, 80 `' 54.:' 235'. :7977:248'i• - 94 n", :260` "I10;�.': `.:273, 128'-`2B5' 14fi ` . 295' 165 305' 189 3t4' 250 325' 258 ..; 354' . 90 68 245' 83 256' 100 270' 117 283' 135 295' 155 306' 175 315' 201 326' 223 335' 274 352' 100 :,72{.µ�c;.25S': y87;ti;-26a,' 1061;; t280'� �123% 293'; _143;;: 305' .163,;._. 316, ..185:_,_..325:.. 212..-,.. 336., 235;:N.: 345' 269 :r'.372'- 110 76 265' 92 276' ttt 290' 129 3D3' 1so 315' 171 324' 195 335' 222 344' 247 355' 304 380' Available only with F1p0 6 SR100, 100 R RING NOZZLES 100 DN DIFFUSER NOZZLES PSI •71 RING GPM DIA .77 RING GPM DIA .81 R1NG GPM DIA ,66 RING GPM DIA .09 RING GPM DIA .93 RING GPM DIA .06 RING GPM DIA 0.5 ON GPM DIA 0.6 ON GPM DIA 0.7 ON GPM DIA 0.8 DN GPM DIA ;30K 'iw'v �fJ�L-iit :. f'r.' a"ri:�-T' a:: - {{r"eta �. : -� .:- �, i �t52 - - - �57.:_.160::. M6 ..78- li4- ZZ. L10%.Jil ;;,, 40 66 208 78 212 91 215 103 224 110 235 134 238 242� 45 154 66 168 Of 182 110 196 - .50;,: "--r'7T4 22D,ura=", �v„r88.;225, � t_u100 L230a ,i�:.;715;i240f�, �,w 129;.250.',:;:, '•', 1515- 25S: ..:,.167;., 260' , ;, 50' 165:'.� ' -,.,:�74�.176'� _ ,„100 :.196.' ' ' 13D. 206",,,"�•" 60 at 235 96 240 111D 245 125 26D 141 270 164 275 183 280 1so 200 143 216 70,.. .;96_24s,: =ao4-,zsar;; l z6o �1W z75,.A_-152:_2$oR: IZZ.:29s:.' _ tea:300.:.. 80 94 255 Ili 265 127 275 145 285 163 300 189 211 315 $0:m ^100 �]'n..:9$:;285',",�„ 'a�..1JX•.�i275".^x'..'.-�,-a134i26S;i:. •'.154�;295,y- ,'..173�310.`r',.. _ _305 �:,201,.• 315:,,. _ ,224: 325_` . - ,...-._. � � - �.. =_ � -�;� :i'-.».,�,,.t��� 105 270 124 2aD tat 295- 162 305 782 320 272 325 238 335_ 110.: -� 110' 2754�. ..,. .. . su130e 290 .. ....- ._. 148305i -= =.170. `315 r: ....,. _ .. 197':325 '. '%' 222" 335 _ -'248 `345 �-- "The diameter of throw is approzimatefy 3% less tar the 216 trajectory angle. 6% less lot 181. 150 SERIES BIG GUNS - 240 TRAJECTORY" 15D T TAPER BORE NOZZLES PSI Nozzle .7" GPM OIA. Nozzle .6" GPM DIA. Nozzle .9" GPM DIA. Nozzle 10. GPM DIA. Nozzte 1.1" GPM DIA, NO2zle 7.2" GPM DIA. Nozzle 13" GPM DIA, 50 100 250' 130 - 270' 165 290' 205 31D' 255 330' 300 345' 350 360'. 60 110 265' 143 285' 182 305' 225 325' 275 345' 330 365' 385 380, 70 120 ., 280' 155.' : 300'„ .. 197 320' 245 340' 295 360, 355 38D' 415 395' 80 128 210' 155 310, 210 335' 26D 355' 315 375' 380 395' 445 41D' 90 133 300'.... 175 .320" 223 345' 275 365 335 390, 40$ 410' 475 425' , 100 143 310' 185 330, 235 355' 290 375' 355 400' 425 420' Soo 440' i10 15D 320' .195 34o' 247 365' 305 385' 370 410' 445 430' 525 450' 120 157 130' 204 350' 258 375' 320 395' 385 420, 465 440' 1 545 460' 1Sn R RINC; NOZZLES P$ I. Ring GPM DIA. Ring .97" GPM DIA. Rig s,DB" GPM DIA. Ring %'t6" GAM DIA. Ring 1.26' GPM DIA. Ring t.34- GPM DIA. ping t 41^ GPM DIA, 50 100 245' .,130 265', 165 285' 205 300' 255 320' 300 335' 350 .350' , 60 110 260' 143 180' 1B2 30D' 225 315, 275 335' 330 350' 365 365' 70 120 270' 155...'.- 290'- 197 310' 245 330' 295 350, 355 365' 4t5 380, 80 120 280' 165 300' 210 320, 26D 340' 315 360' 380 380' 445 395' 90 135. ...290'.,.... .:. ..175_,�..:._310',.,;... ,,,. 223 . 330, ...... .. 275 350' 335 370' 405 390, 475 405'_ 100 143 300, 165 320; 235 340' 290 360' 355 380' 425 400' S00 415' i 10 150 310' : c 195,'C."._ 330': ;_... 247. '- 350'.. - 305 370' 370 390' 445 410' 525 425' 120 157 315' 204 335' 256 360' 320 3B0' 385 400, 46S 420' $45 435' The diameter o1 throw is approximately 3% less tar the ZI- trajectory angle. 200 SERIES BIG GUNS - 270 TRAJECTORY"* 2nD T TAPER BORE NOZZLES Ps., Nozzle 1.05' GPM DIA. Nozzle 1.1" GPM DIA. Nozzle 1.2' GPM DIA. Nozzle 1.3" GPM DIA. Nozzle IA' GPM DIA, Nozzle 15' GPM DIA. Nozzle 1.6' GPM DIA. Nozzle '1.75' GPM DIA. Nozzle 1.9, GPM DIA, 60 .250 345' : ., .285 -...:,355,;: .':' 330,-.. 375'. 3a5 390, 445 410' 515 430' 585 445' 695,' 470' 825. 495'.,. 70 270 380' 310 . 380' ' 355 395' 415 410' 480 430' $55 450' 630 465' 755 495' 890 515' 80 290 'C 375' ;330Y;;,395'.a..::;.380.3__410'.;: '..; 445 . 430':. : .515 450' 590 470'- 675 455' 805, . 515' . 950 535' 90 310 390' 350 410' 405 425' 475 445' 545 465' 625 405' 715 $05' ass 535' 1005 555' 1OD 325 400' " '•':'370'77' 420'•'•' 425 •' 440'. 500 460' 575 480' 660 500, •755 520' 900 : 550, 1060 575' 110 346 410' 390 430' 445 450, 525 A70' 605 495' 695• 515' 790 535' 945 565' 1110 500, 120 355. 420, .. ..,. 403 ,. 440'-- .465 480' 545 400, _ 630 505' 725 530' 825 550' 9a5 580, 1150 605, 130 370 425' 425 445' 485 ' 485' 565 485' 555 515' 1 755 540' 060 560' 1025 590' 121D 620' 200 R RING NOZZLES P51. 1 '.' Ring (1.29" actual) GPM DIA, 1 d;,' Ring (1,46" actual) GPM DIA, 1 I,.' Ring (150' actual) GPM OIA. t 17' Ring (1.66" actual) GPM DIA, t 44' Ring (1,74• actual) GPM DIA, 1 r* Ring (1.83' actual) GPM DIA, 2' Ring 41.03' actual) GPM DIA, 50 .230 325'.,... ;• ..300 :. :355'. ri;_ •. :: 350, ' :. 370' 410 390, 470 405' 535 420' ' 640 435' 60 250 340' 330 370' 365 390' 445 410, Sty 425' S85 440' 695 455' 70 270. -355' , :,;:;; 355 ;: v 3B5'; ;: r: ,•, 415 405' 480 425' 555 440, 630 455' 755 ,.::..475', •,:,. 80 290 370, 3B0 400' 445 420' 515 44D' 590 455' 675 470' 8D5 400' 9D- 970. '::=36D ;' -l.'.405�a:415'.:?,'.{ •.f..475'.:,:: 435` 545 455' 625 470' 715 4B5' :'' 855'"i'. SOS'.•'.. 100 325 390, 425 425' SOD 445' 575 465' 660 480' 755 $00, 900 520' 110 340 - ^:':.400':;,:';{ ? z;is 445 ' -"'".435';)%;•.. '-,'`.•;" 52S*-' - ;: 455', ''. 605 475' 695 490, 700 510' ' ; 945 ,.'. 535',.,:, t20 355 410' 465 445' $45 465' 530 485' 725 500' 825 520' Gas 545' 130 37D '' `415'' `''' /85' "' 450' 585- 470' 655 490' 1 755 505' 860 525' 1 1025 550, The diameter 01 throw is appr011thalely 2% less for the 241 Itajactory angle, 5% 1035 lot the 211 Ira4aclory angle. The BIG GUN' perlormance dnta has been nhtamed under irmil I.rs1 ennmmnnt "m mnv n • m0-1 .. •• -• ' --......, --- ....,... SOLID WASTE APPLICATION AREAS TRACT FIELD SOIL TYPE ACRES 225 3 DaB 35.0 4 IrB 2.0 5 IrB 10.0 6 IrB 36.9 7 MeB 35.4 8 DaB 10.3 1041 1 DaB 6.4 1032 2 DaB 36.1 11250 1 DaB 27.5 2 DaB 7.8 3 DaB 8.1 1799 1 DaB 16.9 6 DaB 10.4 1800 1 DaB 12.6 1799 3 DaB 24.4 7 DaB 7.0 1804 1 DaB 9.5 8 DaB 20.8 9 DaB 18.1 10 DaB 12.5 1042 4 DaB 7.9 5 DaB 16.1 6 DaB 1.5 7 DaB 8.0 8 DaB 4.9 9 DaB 17.2 .10 DaB 11.1 11 DaB 2.9 12 DaB 1.5 13 DaB 2.8 14 DaB 1.7 r SOLID WASTE APPLICATION AREAS TRACT FIELD SOIL ACRES 1030 1 CeB 3.2 7 CeB 24.4 8 CeB 38.8 9 CeB 39.7 10 CeB 42.3 1031 1 CeB 4.4 2 CeB 45.7 3 CeB 22.0 6 IrB 14.8 7 IrB 5.1 8 IrB 3.9 9 . MeB 37.5 10 DaB 7.7 1025 1 DaB 21.2 2 DaB 69.3 4 DaB 24.2 5 DaB 99.5 6 DaB 3.1 , 7 DaB 18.0 1016 1 DaB 3.4 5 DaB 0.8 7A DaB 9.7 9A DaB 1.5 11 DaB 5.3 11247 IA DaB 2.0 2 DaB 0.9 4652 1 DaB 3.9 4 IrB 4.6 5 IrB 0.5 -- . 5C IrB 2.3 6 IrB 4.0 11 DaB 3.0 12 IrB 4.1 13 IrB 7.7 V. Land Application of Solid Animal Waste Total Amount to apply 600 cows X 761bs N/yr X 40% = 18,240 lbs. 40 calves X 191bs N/yr = 7601bs. Total PAN/yr (solids) 19,000 lbs. 1. Soils and Crops to receive solid Animal Waste Davidson DaB 2 - 8% slo es Crop Yield R.Y.E. *Maximum PAN/Ac. Corn Silage 22 tons/ac. 12 lbs/ton 2641bs. PAN/Ac. Tropical Corn Silage 22 tons 12 lbs/ton 264 lbs. Small Grain Silage 10 tons 12 lbs/ton 1201bs. Small Grain 45 bu 2 lbs/bu 90 lbs. Sudangrass Silage 6 tons 12 lbs/ton 721bs. Tall Fescue Hay 5 tons 50 lbs/ton 250 lbs. Ryegrass Silage 7 tons 12 lbs/ton 841bs. Soybeans 45 bu. 3.51bs/bu 157 lbs. Sorghum 65 bu. 2.51bs 1621bs. Mecklenburg MeB 2 - 8% slopes Crop Yield R.Y.E. � *Maximum PAN/Ac. Corn Silage 18 tons 12 lbs/ton 2161bs. Tropical Corn Silage 18 tons 12 lbs/ton 2161bs. Small Grain Silage 10 tons 121bs./ton 1201bs. Small Grain 40 bu 2 lbs/bu 80 lbs. Sudangrass Silage 6 tons 12 lbs/ton 721bs. Tall Fescue Hay 4.5 tons 50 lbs/ton 2251bs. Ryegrass Silage 7 tons 12 lbs/ton 841bs. Soybeans 40 bu 3.5 lbs/bu 1401bs. Sorghum 55 bu 2.5 lbs 1371bs. Cecil CcB 2 - 8% slopes Crop Yield R.Y.E. *Maximum PAN/Ac. Corn Silage 19 tons/ac. 12 lbs/ton 228 lbs. Tropical Corn Silage 19 tons 12 lbs/ton 228 lbs. Small Grain Silage 10 tons/ac. 12 lbs/ton 1201bs Small Grain 45 bu 2 lbs/bu 90 lbs. Sudangrass Silage 5 tons 12 lbs/ton 60 lbs. Tall Fescue Hay 4.5 tons 50 lbs/ton 225 lbs. Ryegrass Silage 7 tons 12 lbs/ton 841bs. Soybeans 35 bu. 3 lbs/bu 105 lbs Sorghum 50 bu 2.5 lbs. 125 lbs. Cecil CcD 8 - 15% slopes Croy_ _. Yield R.Y.E. _ *Maximum PAN/Ac. Corn Silage 14 tons/ac. 12 lbs/ton 168 lbs. Tropical Corn Silage 14 tons/ac. 12 lbs/ton 168 lbs. Small Grain Silage 8 tons 12 lbs/ton 96 lbs. Small Grain 40 bu 2 lbs/bu 80 lbs. Sudan Grass Silage 6 tons 12 lbs/ton 72 lbs. Tall Fescue Hay 4 tons 50 lbs/ton 200 lbs. Ryegrass Silage 7 tons 12 lbs/ton 841bs. Soybeans 25 bu 3 lbs/bu 75 lbs. Sorghum 40 bu 2.5 lbs. 1001bs. Iredell 1rB 2-8% o slopes Crop Yield R.Y.E. *Maximum PAN/Ac. Corn Silage 13 tons 12 lbs/ton 156 lbs. Tropical Corn Silage 13 tons 12 lbs/ton 156 lbs. Small Grain Silage 8 tons 12 lbs/ton 961bs. Small Grain 30 bu. 2 lbs/ac. 60 lbs. Sudangrass Silage 6 tons 12 lbs/ton 721bs. Tall Fescue Hay 3 tons 50 lbs/ton 1501bs. Ryegrass Silage 7 tons 12 tbs/ton 841bs. Soybeans 30 bu 3 lbs/bu 901bs. Sorghum 40 bu 2.51bs 1001bs. * Maximum Plant Available Nitrogen/Ac. crop. Includes both commercial and organic forms of Nitrogen as well as residual Nitrogen from legumes (Soybeans, Alfalfa). 2. Application Schedule for Solid Waste Corn: February, March, April Tropical Corn: May, June Small Grain: February, March, September, October, November Sudangrass: April, May, June, July, August Ryegrass: February, March, September, October, November *Tall Fescue: February, March, April, May, June, July, August, September, October, November Sorghum: April, May, June Soybeans: May, June * Apply no more than 9 lbs Nitrogen/Acre/Month during June, July and November to Tall Fescue. 3 or K"k r� �LLU ALt V,�� IT4 .7 Y, -7 I M V 41/ _." � � 1, � �', n 4M IYOP t - - nj P TY ;7 171 MAV�X of Q p P 1,'4 -11,' - .:t L j. ilk I" t *k ' �ow , kII% A4 qxtt; A- � or •'•:•fir % s .. `'' Jy !y /J1f yr5..'.•. ..r .+S + } '�•.: J lam` '� •Ii + ) /} • 1 31 f kY r^^`i •.^, '"+.f iy � r r'1 1 •�; r f.. )' „� f: �•. + f I 1 - � O} rw'��!"P�1 7/ �,. lS yrY �S,S f yf J f, I �,r 1 � } f i rf 1 `, f#��p�.t r ����ir1;�.%��:^l��j ,.r �e a .,rr �1 - % • •� •:•. \,� •'+ - iiL�. 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L�pr '�U 9 , � ai I�'kS 1 r' J T - r � & rYoF€"un.. �.jp�''" 4 14 .a - >,d° r�, � 1 A y4� �p,�y� �y.�x F 1 ;�L i ��� o �, � V a �u, r ieP� � � � s.3'•�,�7,r - 1}}.. a� � i:ILT} }P; � °•� �l 'Qi `a t4 1•-� ' ZN e i '��'� � „ Y�,d �` <oF a. �� • r f �1_ � ! m 6�er o 4 5 , a .]1�. � 1{ A " Marti �`gj yk�it'V Iw� 'P 1�•4 I I •11*��ly 1 Cy 1�t�5W b ��� '^"�a+cf� iL.s�L" 7 ���Sr�}I 3 � , S �" r� � � `v 'A - „ iP /101' ] j' �. � F i y h?q�w�. oo, by � � e ul a� u - 1��8�� . '; a`o � V- a'� �.(•-�� -. ,.i�yi �'� � ,y'u'i `u � Ti.� • Y � ''� y �� ( nc G: i' Q `�� "V n � }C! ,�iY ��Y�'"",� r6:,N� > zl ifaP^kJ D A, HE 'rIr4�4�fn Y a )A/ SCS'''-- UNIVERSAL SOIL LOSS EQUATION N are `7= County Davidson e RFAZZO,00 �t Prepared by J, R0 A �'Coucract # Rainfall Factor 2414 Existing Cropping System X r LV7 tir S LS C P T/Ac AC TOTAL L LS C P T/Ac Ac TOTAL GROSS RED. Yr T/Y Yr Tly. god /3-0 1-4s 19's Ii I 0 I /Jo sva I 1 1Sg [1,161 1 3 Lo, .0 1 A I yS f J 6 6/3 /IZO -5-? 1 13g 11 1016 Hm USDA/SCS ' ;1:'' UNIVERSAL SOIL LASS EQUATION Z` �;�' aft" Date •i! County Davidson Name Prepared by = :Contract ♦. t. 4'• trA�i r' Y •. . r .-Rainfall Factor ?}'c Existing Cropping System NT e.•j , OJT SG so rL 5 LS C P T/Ac AC TOTAL L LS C P T/Ac Ac TOTAL GROSS RED. Yr rf7 PAf C/ 7 N� ,o�/ �s ..r9 ,AN .9 6e i e.0 T J-�3111 , Sir S ' 32 Jdo' 3 ay ./�� ,y 3. L2_ i ll -7 ;?4- 3. 7 40 IV. 48 .ss J.20 s .sy 1.401A17 Lad P y Pg, • 9 .l C 'USDA/SCS UNIVERSAL SOIL LOSS EQUATION Date / 7 County Davidson Name ��/�� �,�„s Prepared by Concract Rainfall Factor .2VQ Existing Cropping System N! 0r'i g So: ' L S LS C P T/Ac AC TOTAL L LS C P T/Ac Ac I TOTAL GROSS RED. Yr T/Y Yr T/Y Z j.1g6j, /aa 3 . a Y % 4 l L77 /sI iaa s - s9 77 au© /OAS 8 I s 1/;z -s s9 11/-4-J��'75 .+ �aD /a 110 1 1 3 o /. -�3 7 1/2b s si 9 3 S 7 /8 7 i�o s- .s9 3/ . cf�Sz .3i 3.7 a M� 1y?/ 1.577 S 13.7 z1 o 6"671 i • Daze Nam Rainiail Factor Existing Cropping -yscen So: � L S LS C P T/Ac AC TOTAL L LS C P T/Ac Ac TOTAL icil lei Yr T/Y Yr T/Y J.r3 S If II !c 47 boo a8 s 1-5-1 -`/ l l 3. 2 1 C J:=_ �C 43 1'`R 11P41 s Councy Davidson '-epa_ed by GROSS RED. • .. NO r.t1 E Agri -Waste Mana eme ' t : %." Biological and Agricultural Engineering North Carolina State University . . LIVESTOCK WASTE SAMPLING, ANALYSIS AND CALCULATION OF LAND APPLICATION RATES James C. Barker* I. SAMPLE COLLECTION A. Semi -Solid Lot Manure i. Scraped directly from lot into spreader a. From loaded spreader, collect about 2 lbs of manure from different locations using nonmetallic collectors. ii. From storage a. Collect about 2 lbs of.manure from under the surface crust avoiding bedding materials and using nonmetallic collectors. 1 B. Liquid Manure Slurry i. Under -slotted -floor pit a. Extend a 1/2- nonmetallic conduit open on both ends into manure to pit floor. b. Seal upper end of conduit (e.g., by placing a thumb over end of conduit) trapping manure that has entered lover end, remove and empty slurry into plastic bucket or nonmetallic container. c. Take subsamples from 5 or more locations or at least l quart. d. Mix and add about 3/4 pint to nonmetallic sample container. ii. Exterior storage basin or tank a. :take sure manure has been well mixed with a liquid manure chopper -agitator pump or propeller agitator. b. Take subsar.-oles from about 5 pit locations, from agitator pump or from manure spreader and place in a plastic bucket. * Professor and Extension Specialist, Biological and Agricultural Engineering Department, North Carolina State University, Raleigh, ::C, .. • c. Mix and add 3/4 pint to a nonmetallic sample container. �. C . Lagoon Liquid i. Collect about 3/4 pint of recycled lagoon liquid from inflow pipe to flush tanks in a nonmetallic sample container. U . From lagoon a. Place a•small bottle (1/2-pint or less) on end of 10-15' pole. b. Extend bottle 10-15' array from bank edge. c. Brush away floating scuts or debris. d. Submerge bottle within 1' of liquid surface. e. Empty into a plastic bucket, repeat about 5 times around lagoon, mix, and add 3/4 pint to nonmetallic sample container. D. Broiler or Turkey Litter i. House litter a. Visually inspect litter for areas of varying quality, e.g., areas around feeders and waterers, and estimate percent of floor surface in each area. b. Take about 5 litter subsamples at locations proportionate to item a. E.g., if 20% of litter of similar visual quality is around feeders and waterers, cake 1 subsample there and the other 4 subsamples from remainder of floor surface. C. At each location, collect litter from a 6" by 6" area down to earth floor and place in a plastic bucket. d. After 5 subsamples have been added to the bucket, mix, and add about-2-3 lbs litter to a nonmetallic sample container such as a 1-gallon freezer bag and seal. ii. From stockpile a. Take subsamples from about 5 locations at least 18" into pile. b. Mix, add 2-3 lbs to nonmetallic sample container and seal. 6. .3 II. SAMPLE 'PREPARATION AND TRANSFER j::.• A. Place sample into an expandable container that can be sealed. Rinse residues from container with clean water but do not use disinfectants, .soaps, or treat in any other way. " R.''.-Pack sample in ice, refrigerate, freeze, or transfer to lab quickly. ;C..'Hand-delivery is most reliable way,of sample transfer. D. If mailed, protect sample container with packing material such as newspaper, box or package with wrapping paper, and tape. E. Commercial sample containers and mailers are also available.. Contacts: i. A&L Eastern Agricultural Lab, Inc. iii. Polyfoam Packers Corp. 17621 Nhitepine Road 2320 S. Foster Avenue Richmond, VA 23237 Vheeling, IL 60090 Ph: (804)743-9401, Ph: (312)398-0110 ii. Fisher Scientific Co. 3315 Winton Road Raleigh. NC 27604 Ph: (919)876-2351 iv, NASCO 901 Janesville Avenue Fort Atkinson, WI 53538 Ph: (414)563-2446 F. Private analytical labs are available, but sample analyses are costly. C. The NCDA provides this service for North Carolina residents. I. Address: North Carolina Department of Agriculture Agronomic Division Plant/Waste/Solution Advisory Section Blue Ridge Road Cencer P.O. Box 27647 Raleigh, NC 27611 Ph: (919)733-2655 Attn: Dr. Ray Campbell ii. Forward $4 along with the sample. iii. Include the following identification information with sample: a. Livestock species (dairy, swine, turkey, etc.) b, Livestock usage (swine -nursery, finishing; turkey -breeders, brooderhouse, grower, number flocks grown on litter; etc,) c. Waste type (dairy-loc scraped manure, liquid slurry; swine -pit slurry, lagoon liquid, sludge; broiler -house litter, stockpile iv. Routine analyses performed on all samples: N, P, K, Ca, Mg, Na, S, Fe, Lri, Zn, Cu, B v. Additional analyses performed upon request: D.4, Ho, Cd, Ni, Pb EXHIBIT F-4 CALIBRATION Applicators can apply manure, fitter and wastewater at varying rates and patterns, depending on forward travel and/or PTO speed, gear box settings, gate openings, operating pressures, spread widths and overlaps. _.. Calibration defines the combination of settings and travel speed needed to apply. manure, litter or wastewater at a desired rate and to ensure uniform application. Soreader- QgQgcity Liquid spreader capacities are normally rated by the manufacturer in gallons. Multiply gallons by 0.0042 to get tons. Solid and semi -solid spreaders are rated by the manufacturer either in bushels or cubic feet (multiply bushels by 1.24 to get cubic feet). Most spreaders have two rating capacities: 1) struck or level full, and 2) heaped. Since manures and litters have different densities, an on -farm test should be done. Fill a five -gallon bucket level full with material to be spread. Do not pack the material in the bucket but ensure that it settles similar to a loaded spreader. Weigh the bucket full and then empty. Multiply the weight of the contents by 1.5 to get pounds per cubic feet. Multiply this value times the cubic feet capacity of the spreader and divide by 2000 to get the tons of material in a spreader load. manure weight, lbs x 1.5 x spreader capacity, fe + 2000 = spreader load, tons S,preadgr Calibration Calibration Method 1: This method is most useful for liquid spreaders but can be used for all types. Spread at least one full load of manure preferably in a square or rectangular field pattern for ease of measuring with normal overlaps. Measure the length and width of coverage recognizing that the outer fringe areas of the coverage will receive much lighter applications than the overlapped areas. Multiply the length by the width and divide by 43560 to determine the coverage area in acres. Divide the tons of manure in the spreader by the acres covered to determine the application rate in tons per acre. spreader manure, tons + (coverage length, ft x width, ft + 43560 ) = application rate, tons/acre Repeat the procedure at different speeds and/or spreader settings until the desired application rate is achieved. Example: What forward speed would be needed to apply 6.0 tons litter per acre from a spreader with a 6-ton capacity,. a 5-minute spreading time, and a 25-feet spreading width? Forward speed, mph = capacity, tons x 495 time,min x width x rate, tons per acre 6 tons x 495 5 min x 25 ft x 6 ton per acre 4 miles per hour Calibration Method 2: This method is often used for solid and semi -solid spreaders. A tarp or plastic sheet of about 100 square feet (9'xl2% 10'x10', etc.) should be measured for exact surface area (length x width), weighed using a set of spring tension or platform scales, then spread and pinned on the field surface. The spreader should be operated at its normal settings, speed and overlap. With a rear discharge spreader, three passes should be made: the first directly over the center of the sheet, the other two on opposite sides of the center at the normal spreader overlap spacing. The sheet with the collected manure should again be weighed. Subtract the empty sheet weight from the total weight to get the weight of the collected manure. Multiply the pounds of collected manure by 21.8 and divide by the collection area of the sheet in square feet to get the 0 EXHIBIT F-5 application rate in tons per acre. collected manure, lbs x 21.81 collection area, ft= application rate, tonslacre Repeat the procedure using different settings or speeds to obtain the desired application rate. Spreader Pattern Unifgrmily To determine the uniformity of spread and the amount of overlap needed, place a line of small pans or trays equally spaced (2-4 feet apart) across the spreader path. The pans should be a minimum of 12" by 12" or 15" diameter, no more than 24" by 24", and 2"-4" deep. Make one spreading pass directly over the center pan. Weigh the contents caught in each pan or pour the contents into equally sized glass cylinders or clear plastic tubes and compare the amount in each. The effective spread width can be found by locating the point on either side of the path center where the manure contents caught in the containers is half of what it is in the center. The distance between these points is the effective spread width. The outer fringes of the coverage area beyond these points should be overlapped on the next path to ensure a uniform rate over the area. "M", 'W`, "steeple", or "topside" partems are not satisfactory and one or more of the spreader adjustments should be made. ir'I:UA .unortntc�111vtston��SUu,tteect rt,reelixuau�tcatet 1;:1Vf;�L/bUl-b`1b7, yl) ,.I;�S-6b75��:„�,x�:>:=a,fig<�F;�;,�;,:.,:;�,��,�Ke urt�lu:�11.UGiilyy�.H�_„�,�;,� ' Grower: Seallgray Farm Inca jUN 1 PO Box 549 3 Copies To: County Extension Director 1997 USDA -MRCS -Davidson Linwood, NC 27299 USDA-MRCS-Davidson -WasteAnalysisRq-hort Farm: 301 East Center St. Davidson Agricultural Center 6/12/97 Davidson County Lexington, NC 27292 Sain le"IaW3 Laborato Results; arts,- imillonunless'otlerR�ise noted u„. W {gin :: "y , Sample ID: N P K Ca M S Fe All? Zn CU B Afo Cl C E3G1 Told 42.0 VL 11.5 60.1 75.1 24.3 8.29 4.80 0.38 0.16 0.19 0.00 IN -N L L M M L L L VL L VL Waste Code: NH4 ' ALD -NO3 Na Ni Cd Pb At Se Li pH SS C•N DM% CCE% ALE 32.9 8.39 Description: OR-N Dgg Lagoon Liquid Urea L Re i rdm— i 9E j Id i i i 6'a S'V I WN-3 k 1futrieIli6 AvailabIF. 64�1Fi9 i C6 FIR . WOc- Ibs/1000f 'allan`_s ... ° Other�Elements Cbs/1600: allons _ :: _Irfigatiou. Sam le°Info Laborato : {Results; arts.; r�milliffiTid less:otherwise€n6ted >, ., TN. .. " ` WwRa- Sample ID: ,Zzf. N P K Ca M9 S Fe Ain Zn CU B Ala CI C 13G2 '`: K 5�C Total 63.0 VL 23.5 75.2 83.5 34.5 10.3 6.32 1.97 0.18 0.26 0.00 INN L L M M L Af M VL M VL Waste Code: -NH4 ALD -NO3 Na Ni Cd Pb Al Se Li H SS C.•N DM% CGE% ALE(K al 33.9 6.97 Description: OR-N Dairy Lagoon Liquid Urea L Recon�nendations WI,Nutrients:Availalile for F�rst`Cra ;albs 1000`'xallorrs m ,:,.� .. % "� albs%1000, allons" Oiler`Elements" ppluat10"W—A thud m ,.b,.A -ga on3 zDs ?. sY. .- ...,.,., :}, ze.S1Fti -: 1 0 `' je� 0 � �ry LL Fm . A vl,xsN@F'^+rtr.^s. - ..rl ai:uC ';m:..-l:-• .X:�:wtis. �-i+"'�vr a-v. .-,.:.: a- iu ..*s -.�.c, �..c,..w`" 'ry :w,r p .'-.r�Y. x?n8c�--.a9* _. .it,tlY..,...,._.,. imainln ,intlte I n Sam 1e'the l oon .. F. ��:- $_ - .x..- y -• �..- --... Y. I, P Yg r, p. _ :..& e H afthe' n li uid �s`bclow the`ideal ran efor bacteai aCEsonand'�vaste treatment: Gradual) dad ust fib <add�n lilb. of, acuEtural Wne er1000cuftaf P.M= onthly,and`cantEnue;toadjust, H;untiii�t;�s,wlthin,theFdesired;ran a of7,:Q 8 0 _ _ W , =r= �- Y NCDA'A `anutiic;Divis�o�i`;43O0,Reeit wC�eekRoa'RaleiNC.27.647 6465: 919 733=�655` .Groomer l;eall a` Farii$IncRe ort;Norl�'O2785'P '2,.q_" _ PY f?;i a'4' Sam le•Tnfo��,.���,T:a6.arato P :x tdv,�- n.. -.4f• �Ttesults; arts r -'--` •r.g. :.r.�: ... - �<. r _. elni, }e,'- _4 `u'. +i. 7J __s^'.. § !a'.� -.A.- ,., .,« -�'. .> v' '£ .: y.: er;mill�onunless.otherwys.oted Sample ID: N P K Ca mg S Fe Mn Zn Cu B Afo Cl C BG03 Waste Code: ALD Description: Dairy Lagoon Liquid total 651 of IN -N NI14 NO3 OR-N Urea 62.5 250 101 61.1 18.6 31.2 1.91 0.55 0.34 0.00 L L M Af L M hf M M VL Na Ni Cd Pb Al Se li PH SS C.•N DM% CCE% ALE K al 65.7 6.86 L .. •�:i�'s .R.. is �'. -. �- ew.. Recoinmeodat�oas-: o-.yes _q ..�. .,.._x. _. �.:--`"�,�'. a'e',`2-:,'.�:.. -h � S 3F, .eN � �_:, ss=�`;'4'" =' NutrteatsAvatlable:fir,l?irst Cro �^ A _ r . Ibs/1OOO ulloruF : +s �' �.;='�Yz.�-o_ -:,�,. :.:6-.. rYl^3 -� Othe%Eleme©ts lbs/1 DOO.' allons_§�- lication'Meibod � •'� 1V;� -P'�OS �K?O : Ca i M f-.� S$= ��Fe"�;' �hfn �Zn �<Cu.,'� ` B `�Mo� Cl. �.. � ..:}� _� ."wF' R "']� h J� �i�K..�3'v f atio G ". 23 >2:0- 0'S9 0 3- 4 lE1z 0:18 r 0 01 f T FI r �Na llfi .;Cd .Pb '�31� _% �= L��w' : e .. - ::.' .n y :hry ^ ^airz!&# .:s _. .? -.w :�ri. >i.-A, y :._s.-.t�4s{a:% i. .4 �th,A.':P'• f.e� '..'.xC.$'.. :+,:_<:..ac!..' _i--_.-..w -i: •-r : �.-�.-a f-=3ar ._-,.:-e6 .. _. .._. f:. .e.: -::r+«. . :.%'n'a:�ti:::A -..._' e pH+of:the lagoon liquid s 6e[aw theli�leai range far bacterial action.andvaste;treatment Grm I ly mjust phi by;_adding;I}Ib of agicuitural limner ION anthl ,and canUnue to�mist, _ unt�1 lis Wi�nihedesired'�`.gfg7�0-8 0��r� `� ' } ran adi Tuc•._ .�-ii::- �.!a�• •e.::.?K w1� :.x:ry ti- 0 N�gi-+e.+.-y. :-yl' cwlf f-H7qui remaining in;the° oan:�Sampie ll�e n �. %CDAA :ononiic;l)ivision ,4300_lieed hCreek>IioadzKalei };NC:,�27607.-6465.. 919 733-2655 �Ke ort;iVo:;110'L7t15xmVdu Grower. Beallgray Farm Inc. Copies To: County Extension Director ' PO Box 549 USDA-NRCS-Davidson Linwood, NC 27299 Davidson, S► ed a Davidson, S►ved Q Ana a ySis Riohort farm: 29-3 301 E. Center St. Lexington, NC 27292 2/ 9/98 Davidson County � c-., n y,.w �_ 3:�-- „& ;am le�lnfo . �.=F k`c".a4Ff-'�wcr 'nrr k: „ �s._-wr•� trt rE'.sro.-. .=�'tiA... .,r . -i �-�. kLaborato Resul#s arts er.m�llMon uuless;otlieM1ise noted ! � k p Q ., F .. �� , k. s ample ID: N P K Ca M S Fe AIn Zn Cu Bx MO Cl C IG4t Total 307o6 H 6752 7277 115o6 4434 2846 1238 109 117 25.8 8.98 IN -N M M Al M M M M M M M Haste Code: -NH4 , ;SD -NO3 Na Ni Cd Pb Al Se Li p1l SS ON DM% CCE% ALB(to 5156 18.16 )escrlption. OR-N )airy Surface Scra d Urea If lecommendatians! . x .. � �a .Nutrients:AiailabIi for�First;CA i IM, � .MW., albs/ton, rvet;basls Oilier Elemeats m .: 115slton wet basis ipplicatwnhfetbod NPZ05= 1G20 Ca Mg S Fe Mn'ZnErT B' hfo z r Sibadc19- Nrt 1Yt Cd Pb ON 5e Lid vim. :� ;afiiIi a Info M1 F a _�vsrs w:..m-.- �; �m-..sa�aw+^a,..c:�w. fUb" rato _ Resultsr � w +.;e-; ra^'a>rw: -t�• �'e. y 3 a�_ ;'�2"_. _ iF _::R{ :�" -, r�m�llioni.unless°otiierrvise�nated �� .-��._���,� �:_ �` � _� ample LO: N P K Ca Mg S Fe Mn Zn Cu B MO Cl C 1 2° Total 959 M 196 304 217 122 157 414 17.3 3.95 1.36 0.19 INN M M M M M H M M M L Vasle Code: -MI4 ID -NO3 Na Ni Cd A Al Se Li PH SS C.-N DM% GCE% ALE K a 77.8 7.02 )escriptlon: OR-N )airy Lagoon Liquid Urea L iecommendatins: - ' F` y N..itrw.ensAIibI for<4'� F1'6.Uo 4�F 5,�.lil100oallons _ Other Elements Ibs/10'00s' alto"ns z tppL�catwnMetbo� NFa45 IC20.. Ca Mg5 Fe ::Mn,2n rGu.: BMo:Cl �Irr!gation :. 3 4 2 6 , 2.4 , 13 .- 0 7I E192 2 4 0.10: 0 03 0 01 T Na Pb . Al...Se .65 .. .r'yry 'a.:a �SVKss6tr:'wC:; OYe_ .i`=. NCDAonomic:Dtvis�on; :.- 1 ".. .,.....�y�5,.y •..... ...9e'kR£x !.S" aS.w v` wg.. �� � _ siY 4134O1Reed Ereek-Roads Raley NC 27607aT6465�!t` 919 733,- 2655,r- .dFwo.ejr ;A "Y -,{ 5P 21:Mn Sam !e tnlo , >I:aborato :ResulTe r li6n-- ess otherwise"noted ., '• ' _ q . _ �; , ;'' { Sample LO: N P K Ca M S Fe Mn Zn Cu B Mo CI C N . c �.:-�, Waste Code: ALD Description: Dgg L oon Liquid Total 759 M INN -NH4 -NO3 OR N Urea 90.8 266 116 30.1 17.7 4.53 0.48 4.14 0.13 0.07 L M M M L L M M L L Na Ni Cd A At Se Li pH SS C'N DM% CCE% ALE % a 47.5 7.72 L Re ommendations: - Natiients Available for FicstgCro0 MEA iasl, 000 ullorr,j �" s Othe Elem nts lbsll(1OO " allo�rs£': - pltcativnN'etbod N PAS JCz4 Ga Mg 5 Fey Mn_ Z=Cu �a B Mai Cl. Na Ni; Cd' SeArt<' T` • NCDA "`tea on mic D"evision 4344, Reed :CTeeklRoad�f aleioihNC 276Q7. 6465 919Y�733Lr2655 �r Re rt No� W02095 W Grower: Beallgray Farm Inc. Copies To: County Eadension Director PO Box 549 USDA-NtCS-Davidson Linwood, NC 27299 USDA-NtCS-Davidson ..._Y � �� �QAnalysis GRohort Farm: 29-3 301 East Center St. Davidson Agricultural Center 10/21/98 Davidson County Leiangton, NC 27292 -. � �x - Sam- le;Info.a . , k i" :ca rrsr�-,o�.-s- �.�; �..c�r.�: •.ss.�J�t. •� �m.�a• �,.sz.. �- .. tlaborato l[esults""i r$millionunless,o�erw�se noted _ x'` q "�, _ ��w � � Sample LD: N P K Ca MR S Fe Mn Zn Cu B Mo Cl C Total 28707 H 9726 13223 23094 7554 3615 1279 217 260 71.0 12.2 1 IN -N M M M M M M M M M M Waste COde: -NH4 • Sc- -NO3 Na Ni Cd Pb Al Se Li pH SS C.N DM% CCE% ALE tons 6726 18.36 L riptlon: OR-N Dairy Surface Scraped Urea H ..,�;x.wa.,„�r:,"acwa' mr -�: _.a Recommendations . xwNutrieniSAvailable ,F - :.: ..... �mc-�:a.Kvaa•. .,_ �. �x a:>, to FrrsE Cro�mlbs/tong wet;busis .. OtlierSleinentsIbstton` wet,baaYs' u plecatlonAfetbod Pz05 x2A Ca" Mgr S Fe:$ .MreZn Cu B Mo Cl r Na Xi Cd�Pb�AID Wow Sam 'le�Info�°�� �I:aborato Results �` ts; r milEion�Unless.otfierw�senoted � s:. _ �,� - _- x: � _ Sample ID: N P K Ca Mg S Fe Mn Zn Cu B Mo CI C 1T1: M rolal 138 L 40.6 150 92.1 43.0 12.5 4.67 0.71 0.67 0.08 0.07 IN -N L L M M L L M M L L Waste Code: NH4 Na Ni Cd Pb Al Se Li pH SS CN DM% CM ALE X a ALD -NO3 69.7 7.17 Description: OR-N Dairy Lagoon Liquid Urea L Recommendations: � Nut�ientsgAvailablefor�First.Cro ;� �; 3� �lbs%1OaQ: allons'b; Oth r°Ile ...ents �� �16s%1 � i ailoris;>. .3 r'ucali Melharl; 1V ' P205 . z]C20 .: Cu M S Pe hVW Cu B a Afo Gi=' :o%S- :y S :i -'.:3' 'r- ,"s^5 y.�.' i. 3, _ .motion ;� 0 49 �054�i�2 F0 54 _ 0:25 F � 0.07 4:03 T;' T 7'� n Na Ni Cd �Pb AID Se Alt a 1VCDA onotntc Dtvtston-;:.4300 Reed Creek;Road Ratei " NC;427607=4465 , 919 733-2 55:: '_Gtbwer ::Beall a rFar>tiSlnc �.s Re ort No: W054t44 :F Z'_° Sam !e`1nfo�t' f:aborato Results arts r°million unless:otfterwise nited�.,w wi=�°� _:,3 _ w , Sample L17: N P K Ca Afg S Fe Mn Zn Cu B Mo Cl C Total 1197 M 305 182 293 147 243 671 29.1 8.18 2.05 0.09 IN _N M L M M M 11 N M M L Waste Code: -NI14 ALD -NO3 Na Ni Cd A Al Se Li II . SS C.-N DM916 CCE% ALE K a Description: ORN 46.1 6.43 Dairy Lagoon Liquid Urea L Recommendations , a = Nutrients Available for,=First U � x' , � ��; t� 060_ alrons ''j 0 her Elements � 1bsf1000 "allons£ bcatron Meihod 15- r P 2Q5. X241. =, Ca .Y } M ; » S - . Fe •; - Mn Zn n a Cu ° n. B ;Mop ' Cl F _ �.€ ,,k., & _.. -Y"gay. r.: f_: -3 Na N Cd P1s= Al Y<a. • �:�.+ .� .. 9. I..".,. 'E:-.. -. ,.. ".' w_T:.`•S,yF. .( 'a_ .' e ion' TES , � 4.. 1,5 : i.7 .��0.86: a1.4 � �. , r0.17 0:os, a.0i� T b � -_. J. <:"v- J.-; ::.-.:, A. ,...3d o.. .:..a,. -..• .. s.n;' .,., Y. e E -.a _: �°.,- � ��A� � ::F c`: - a 38-" � W.. .. J`• - , ���F �..< ;,.:, •.,.. �.. '-= � moo.., �� � .� � � ,� �,._� ..T�� 9,�a� r�.::� -;� ,.,�� .,�. � ��.:�� ����T,�. e H'of,the l oon IE uid �s P � q belaw:the'ideal ran for bacter[Aiidloi and waste:treatment::"Graduall 'ad ust H`h add�n 1 Ib: of icuitural lime ;1000 cu h of li "id}rei�%ain n in;[lie I n Sam Ie the J P; Y_a 8 ���,� . ..,....P.. : . ;�.,.- r1. f',. �.,..>�.:......,> _- to �.. ..,,�,- .� . .�..x _Y � T� ��. •�-�.: .. ��„tN-E��g,�..�; ,�._„p b» _....f . . » ,:r ,....� .... � ..s,.,:�- „.a_'c-r w '�2,.._... � z --., r� 4 �X p• .S, :r. ^� �,.,� _ � s " '� � �� .,�- H°.unt�l3lt is, 7:0-8 0 on and•.contuiue ._ ._ . _. ....till... ust wlt1un11ie'des�red'rA e.of __._ _ .._ . _"_ ..__... -. __.... _ �__ ._ f -a. '!-.::. �.... :.. i 5,lelnfo:=�w�.Laborato:�Results�r '". � �"`., .,.:ps-��:; "u�v:x �. �.: .ww�i_ta-.�-:..L-9q. .4e i:w..<..� _ - 2 3 3c» `� r-:. eP" .',.:s--' ._ �... ,,_•- N,:" �i a. § arts. rmillion•ualess'oiberwisenoted-_� .<r.�,.n Sample ID: N P K Ca M S Fe Mn Zn Cu B Afa Cl C 64 f - Total 280 M 50.1 173 119 66.5 12.3 19.9 2,34 0.39 0.12 0.00 IN -N L L M M L M M L L YL Waste Code: -NI14 ALD -NO3 Na Ni Cd Pb Al Se Li P11 SS ON DM% CCE% ALE al 49.2 6.83 Description: OR-N Dairy Lagoon Liquid Urea L Recommendations Nutrients Available;far First Cro p00 allons�.,,nn Oihe%E1eme is tns x000 allons : , . � f x .Ibs/1 ;, ..: , acallnnAfetbad�- IY �. P2Q5, - WK2(}r':�. Ca; �-ax, M ,;. � 'S3 Fe.. Mn Zn Cu B �Mo �r :n.., S�: .: n .. �.r,� ,p -:. ff ,:�.� kE. ,e�,.; .__,wa:,. -: .�y� i.. a:,,: 4 :-,: . eT""rry T,�..� 4.,., N', �E Nab. � }►ic ., ��� �Ph- dl �, �Sei� ,� F� E"::s-'z5.� .: �,-,.'S" .l,..., ,. sx°x� ,:., ,,.x :�. .y,.,.�,.'sfx. ...�:. i�.P. -�" i': §�' ., > .r �">�-: L'.4: k'' _ i.'-; :r. ...�a"\ b, 'Y,ia' :,'�?+'XPi twn z MrW, 1.00.67F_: .t.4 • 0.6 r0, M0.070:12. 0.01 Tv T 0.00�"w:.. ail' �� a'_ `+f r0.41 .. vn� s �s�t ysm� Y..S .�^ - �+'.r� t-':� "-.�{'.�.,.,:��F.b.� .3 s.... �:� 3 4 _s...� -;`x;F.. - '�§�»..'a..� i�:'3� � ��','LLA�wi4, ��'::+-£: "'.x3"s'd� ',re +'u+ i-- i. ��aiSi� .Y. .,...: ..4 �._M.e C-.i'g�. i3. 'hd.�a]L :..sS'. a V Sn_:ci`:':riv - - vQ5 _ ,;.«.-. , wry, _ _ a f��x e, Hof _the n liquid is':befow the ideal:ran a for bacterial actwn;and waste treatment:',GfW all adjust' 11 b aMn �l'it of - iciiituraE lime er I000 cu ft .of..li iw"i mamun uifthe! n!-Sa le the Ia _ w-. a P . _ ..� .. � 8_ � ., a ... w_ .Y, P Y, g P„ 4 M g P. _go .r 3vi �•�- ysy ..' 'a .: ".. -�., -_n1* :^' v�1'm..1 "SI '- ' �.Ef_x -•. v"ia�'.F. e '3:..a d'.s. e F $�:3:L 'P? ::: ,-.. �. N °P '>B' ,qyF ?;'' &,i vbs d".. A!'.;".. $.:��: �� �h � ,' .:: �w ., "ontii ;and`continue 16 id'u5t` H=until'itiis.within the desired -ran a of:7." 0� Y � - �' t 3 � � � � �-` ° � �" �r : � � �P�� � � _ ..,_...n s l ww, , __as,.__ m.__ _ _v. , ._�,_�._ . .. _ _ _ • .__.- x.,�-.::/'C�re;4"�)S'.a,.'�"r.,,��w i. ... .�:.- +<x�'..i:='•st'- i�"" � :{•_- :}z v� dS%"''S.€ _ �-3.- _ �,',v,. i NCDA onatnte Dtvlston 4566:l Creek•Road fgalet3 ': NC, 276a7-6465� 919 7�, p Re ort No WO54t44 W A: eed ,733=2655 ; � � > Grower- Beallgray Farm Inc. Copies To: County Extension Director ' PO Box 549 USDA-NRCS-Davidson Linwood, NC 27299 USDA NRCS-Davidson Aa �r�Mym�r yf as to n a ys Z sRoo-hort nn: 29-3 301 East Center St. Davidson Agricultural Center 6/12/'98 Davidson County Lexington, NC 27292 -..c: ::-s .v.> s .q .WIN Sam leInfo.-Lahoralo -. _n.....-.a Irv-; a.•:- e�-w,�-a.�, r.=::a�a. .ssa�.,.�:;ne;.- a:,n '<>'..� ..�:a.� z � -d"rz. k3'"_.:'xa�'�- -., ,s �.w-, - �s Fitesults artsx r,;mjllion ooless otfierwise noted'. "-` ¢ . _F �.�="�.,:: Sample ID: N P x Ca Af S Fe Mn Zn Cu B Mo CI MO ; r5 di Total 30042 11143 17241 14730 8559 5298 6399 447 184 44.3 24.4 342596 IN N Waste Code: -NH4 1" -NO3 Na Ni Cd Pb AI Se Li H SS C:AU, , DM% CCE% Atons 2540 7.16 425 11.40 43.84 &_.ription. OR-N Composted Da' Waste Urea _ '�3 �,�;�»n-:,g, s� s^s==�^ f �- �: - - - x ,� - _ � - , t .-_._.a-.s - v_x �.,. . Re "�.e� Nutrieot5 Available,%cFirst Cro Ibs/ton raet`Gasls ' ,=' � Otliec:Elemeuts lbs%#on:uet,;b"asks comiriendatiuns._.� _$ 1 ., .....,.� - .,. .�:,.% - r-.,--....s�,.�,, rcatron Method k N: .P2o5-:>R2O Cam 5� Fe tlln- Zn Cu B Mo.r CI 3e ...« tm.. x -:..L -- z'.,•_r .;',i.`6 •..,'F.; c3 ? *E. s.t,...� .�'3�>' F`„..S -. 'r_.y '". �•- J. �. <_3- .. _'.: � r - '�'SRs' z .r:F�...-:sr, sy� . ��e ��` �''" � �i ' �. �' �'�• Na .� NbCd� Plr'Al ... r#a�. .F- m:... %K'�� ¢� '"=-^T yS--.S".e ce.-.v-e:n $n§,,,.,,»+ a.:+.:-z-'i yM� ....°i e:n.y. ., , t .- �r ..,:. yx ,4 t 6 '.`.:r' 9r�$' :.-._ w:-, ��..' . .n. ±s'.a"y:^t .:u- , .,F[S-- :. . ¥ _:tt"-` y II ;: .,... -.. r r Ri x. { , yF - O:,. ., s.�.. -- .. T ' P . ..- y . ..j s 4 ` f- 1 et ',l`-. ..,Broadcast 1fl 1 4 �-14 .$ 4 2 8 4 0 24 , fl.10 fl.02 4 Ol ", w.�..,�-i.' ..:,. e,.. '.r +�... �.y �"�: �:�. r.--6� r':: � :£"^'.,'f..: ff:ffif-:l?x.n'.3. s"Sf" a.,.- '. F qq¢�,� e _T'. - .,4 x} .t,-.._r Sp .,. �.4'C C" , 30 " C S;; l � 2.2, _ �.''.Y 7x'i' »:."&3�'.v ;i„¢f .;"'�" - w`�}..>:t�±r -e y .xy 3;: 3 n.-. -:. a::. xyypp,.¢.,5,' �p 16.8 4.z.,0.29 n°lz J' .�F-.: £'2.'".-� x. , 2:2,E.gA Soil Inco sy"":' .. .Fosy.... .,# m 413,2. .16.3�.9,7.5.6:..3.5-W 0.03:_`:_0.02,'® :�n..::Xr.. i n is ie tit' `In relation to carbon°(I ow:C N Ratia)If:ihe waste~` roduct Ls to be used as a=raw rnaEenal in con stln blend stvitti another material svitlt'ja h� `C:N ratio. The C;N ratio should be 20=30 forte P" Po g,. gh &.KarY.,.B�.,,.,." -� _.:s a.,r.,r..-, .r..:r„ :. d .: h _ y'.y-^''e^�° -: -:; 1' .-.. c � -..x x- > _b- --' -.. '' $.: -.q>� s.:- ,.'x{l" : ''S -: •;".. �'S dim'.a, ..`:�-.<:r^ {.=,": f a�:;`:,�74e n$.�'sn .. z::... :Ri ".. :rya_ f :;�SR..., r. .'�1 -�rF �- �4;.gr.�. ns�'.k F::z£, 5h £ r -'"' :_"�""'�n<1 W a' _ x "dealcon ., „a. o> :�.p,. r ,..�:�7 . �. .gym u �' �� k-_ ',,.:-�» Y _.. -'Y` �" :: $x C. 'j._ x..,.>3: e.'i < Y.1�4`F': ..-i.e. �, ?j. "x't Mff �.a'. _.'+` p_:. _a' _ .-- _ { € .-.ems .:e. - ..:, }- ::.RY.d?i x :.. -.- Cx-.-.x.,- �::•. ; .. �'' -, , :: 5..a-= -si f g. a -r 3 '{is, ,."' % ry.. r.- .v �.,.._,.:: n x.: , a +Y'y-. e><'• . - ->,. »<. . , 5 - `?. +. a_y. +a . sue. ,�'. 5<" l4''f'-'' yjage; _- 'e ?z'.'" :7X' F ''xi.- .'Z 4. ,�7V ....yidb..:€,<. .,:. i,..v':e.,�. .: '.- „Rs... ..- �a 'z.,,s'.c .a,�:xTnr .aA,9r...:-Qa. AS#:' ,� ws... 'xu� ;.:c a. - --,`,r ,-r.'. �za - s<a .k .:�:- .,�,`'�'"+ - a`':`._" a �5otuble It�ble-salt level �s v h�t�;[he con . t{cannot be -used as lands so�i'or ottm media without blendin other materials to'16 soIbble salts to an acce tahle l of * V h1 salts lik ;indicate ve W er�,'�x r. a�s$r. s_:�-,,:. sa �a «« P �a ate,, E, t igh autrient'awaHabildy 'fake:a matching°sod:sample:to furlher,evaiva ' pH and nutrient availab�Lty F , .. - _, . i< o r^""'Y K"x� u: x , x F . " .y _ . F--,ax.�.:f" -$'g ' "S. 4 "j"� •. .,�., - ......m:-- :.�. r ""... :,'z"i .-� .. :..-',r. -..,.� _ "9 F ' = - - „? - 's ,.9' £- 5:i '. M4.-: -,..�A -`S"" -£- g.,; _. F-- t.:.�rt is ,n s tea;: k FRr�...> -,,,,� o- s. Y�g P y 3a $s.W d F� ...;.�-e-<s,---'.r.": .. rx�,, '^':::..""`,. :- ;.. i ._--"32''fs R,�3, '.z.. :y24 - '"?�°���&�. ".:s-, ��, � �� �an... � .;>-y_ ry._: ."":''-_ r.-e ,. Y.. �- 4.^5:r�. e"x ..,:�-�f � . x�x<.. : s3: -,.. .. � .�:. �::. X� �:.. _ :.�zY�...�a., .`a-:. n,: ,s��.'�=�".-'.� m t H:cs:h er than�ideal for lanf" rode Wdn 1f the coin will be:used'as:a`lands or, ttm soil blend other materials or.'add'eiemental"sulfur-to decrease H;to the;deslred ran e�As a neral rul�add 6' � .. :���..:' 25'lb of eiemei tal•suifur; r d H D 1 D°unit Une afteFtreatmen -take a soil >le to:determine:if H is.within the'desired#tail `_ n of;soil°to.Iower' month sarri ..;�:-u -._ ,.n t '.� $ Jy oy �,: '.� Sam !e lnfo �` �w:.o.n'..e:Ya.,.-.,.d:. •-'p"i., is'_-;". •.�F.":..u:�st :-K:' fL" �3,S,at ,f' -��� '��i. S_a„-�.. ' `�-�_'4 �Laborata zResult5 arts, %millton;etnles5other~n'se noted ' - :�T_ -"-0: ��Cu ale ID: N P X Ca M S Fe Mn Zn B MO C1 C Total 25958 M 7514 12617 9292 5683 3120 2765 123 151 38.0 10.8 IN -N M M M M M M M M M M Waste Code: -N114 SSD -NO3 Na Ni Cd Pb Al Se Li pH SS C.•N DM% CCE% ALE Ions 2789 23.83 Description: OR-N Dairy Surface Scraped Urea M Recommendations .� �;. s. _allbsltoia wetas�s_ r 51 4.9. ��2:7 16� 0:$9 '0:04.�:-D.DI:z 13- ;:?Broadcast r?�n{•, � � :-�� ,5:$ � _� ,fl.7 ..,D:06fs �-'f.,� �.:� •-`-e ��„ :.V" Y� - .Ya` :: li: A .-5: �.8.r e-3 �,3{. s,� :13�':�::_'.� at FARMLAND RENTAL AGREEMENT Leon Stokes agrees to rent to Beallgray Farm Inc farmland for Farming Purposes only. Beginning June 20, 1998 for a period of two ( 2 ) years until -June 20, 2000 at the rate of twenty-five ( $25 ) dollars per acre per year. Payment due at beginning of each rent year. Farmland to be rented are: ASCS Tract # 1804 Field # 9 -- 12.0 acres Rent 12 acres @ $25 = $ 300.00 Annually Beailgray Farm Inc agrees : 1. To furnish a complete crop history on each field Annually including fertilizer, waste, and Pesticide use, crops grown, and estimated yields. 2. No farmland is to be pastured. 3. To -follow Leon Stokes' Conservation Plan. 4. To reimburse Leon Stokes $1079.81 for lime and fertilizer applied to Field # 9. Leon Stokes gamess ALLSRAY FARM, IN B Graham, Pres. Date CROPLAND LEASE N.C. Wildlife Resources Commission agrees to lease to Beallgray Farm, Inc for the year 1999 the ASCS farm number T1042 for farming purposes only. Beallgray Farm, Inc agrees to plant and maintain wildlife food plots. Beallgray Farm, Inc receives 100% of crop produced on -cropland acres. N.C. Wi ife Resources llgray Farm, Inc Commission tmes B. Graham, President A e FARMLAND -.RENTAL- AGREEMENT Leon Stokes agrees to rent to Beallgray Farm Inc farmland for Farming Purposes only. Beginning June 20, 1998 for a period of one ( i ) year until June 20, 1999 at the rate of twenty --five ( $25 ) dollars per acre per year. Payment due at beginning of each rent year. Farmland to be rented are; ASCS Tract # 1804 Field # 8 - 20.8 acres Field # 10 _ 12.5 acres Total 33.3 acres (tent 33.3 acres @ $25 = $ 832.50 Beallgray Farm Inc agrees : . 1. To furnish a complete crop history on each field Annually including°fertilizer, waste, and Pesticide use, crops grown, and estimated yields. 2. No farmland -is to be pastured. 3. Field # B will be .accessed from Beallgray Farm only. °4. To follow Leon Stokes' Conservation Flan. -- -- --- ------ - -- Leon Stokes LLGRAY FARM, INC -- ?mes B Graham, Pres. 42/ note - � S CROPLAND LEASE Christina E. Graham agrees to lease to Beallgray Farm, Inc for the year 1999 the ASCS farm number T1813 for farming purposes only. Christina E. Graham /� allgray Farm, Inc /.James B. Graham, President �Z r $ Date 0 ".�IIDSON-RV�k I* PASTURELAND LEASE Subject to the terms herein set out, Judith Redwine does lease pastureland in the amount of 56 acres (more or less) in Boone Twp.,NC to 8eallgray Farm Incorporated for pasture.purposes only. Terms and Conditions; 1. Term of Lease is for five (5) years beginning January 1, 1998 thru December 31, 2002 unless Terminated (as herein provided). 2. Rental small be paid at rate of $600.00 annually. Payment will be made as follows; Total paid on January 15 of each year. a. Either party may terminate this lease with ninety (90) days notice. JUDITH REDWIN HEALLGRAY /FARM INC. C. I ERLAKE III, AGE 3ames^E. Graham Q Pres. DATE -�1�AQ�_-- DATE 'Z / / LEASE AGREEMENT BETWEEN BEALLMONT FARM INC. AND BEALLGRAY FARM INC. This signed agreement between these two consenting parties, constitutes a lease, for the agricultural use of land owned by Beallmont Farm Inc. by Beallgray Farm Inc. This lease is for agricultural purposes only(Raising crops for Dairy Cattle) and does not apply to the mineral.hunting, fishing. or other land uses associated with the property, which are retained by the lessor. Beallgray Farm Inc.(hereafter referred to as the lessee) agrees to pay —518.00 per acre- for the rental of 97.7--acres of land from Beallmont Farm Inc.(hereafter referred to as the lessor) This rent ---$1,758.60— is due in full by the last day of each calendar year, and shall be paid monthly (Beginning Jan 31. 1995). at the rate of —$146.55_in a check made payable to Beallmont Farm Inc. for deposit in the corporate account. The lessee agrees to keep all agricultural lands leased from the lessor in a good state of production, making necessary improvements to the land(fertilizer and tillage as needed) to keep it in similar condition as it is at the time of lease. This shall be a calendar year lease(Jan to Dec). and remain in effect as long as the lessee meets it's financial and land use obligations, subject to mutually agreed upon increases in the rent of said property as inflation and the area rental prices dictate (to be reviewed annually each year on Oct 1). This lease may be canceled for any reason, by either party, with 30(Thirty) days notice in writing. In the event of cancellation by the lessor, the lessee will have sufficient reasonable time to harvest planted crops, or shall be monetarily compensated for crops unharvested. Corpora 1 � 19—Lr L-- fesident, Beallgray Farm Inc. Corporate Seal Corporate President, Beallmont Farm Inc_ Corporate Seal I "AiN MIA is`Ank k q-z, �,ii 'I AN 1 L lllll�fyyi 11 No SIAM Tow. too! ink PRO a say %woo, jf� m a star go w. R Z Q IV i nb, WAS Sk, X tamI zoo' I Mallsax E I `k. ��:3T ^ �;, � �'� - _ xril.•�� .r :,r..., - 2���'H�'.- 1rF c, t;4". iS'` t i -o• Xt f i �►� 4 `� '1 -.r r'JfJt � '; � J• � +/ �;�;�';i .91 � r- r ,� i�.w •J'hN .11t -` �.�t rx- 7 f+. -� -.n i4. h .a, �v n�1 _yi Yi r ,"•4r,�ti Y,. � A ii � j,Y. , n y t � - 1� i1 4 r.i: � f - �i ��� �. 1 t.f• i �,� �i; t `. t; �iJ. �. �': � ,fr: k• _ {'°. i �, 1i-'S i �.t^• !" J 1 y � y � *Y - ;`+!� � y r Y ,; }q• � � . e. 1 sty �'r�' .t t F�lr . ° :� ,�,a ..� � �r. ; � �'b,;�,,L �,3r,t�' S � Y i . Jr s �• to a1 �»•_ ' ay-i� 1 y lh :�w•,J W? "(_.PL CROAND PLEASE ' x1 r• s G r •_ SubJect to the terms -herein set `out, Yadkin .. . Valley Farms, Inc does lease cropland:in•the amount of 51.8-.acres- identified as ASCS. T1041' and T1042 to Beallgray.Farm Incorporated for farming purposes only. -`Terms and Conditions: 1. Term of Lease -is" for five (5) years beginning January 1, 1998.1-thru December 31 +'2002 unless Terminated`(as'herein provided):'"' 2..Rental shall;be::paid at rate of ;-$20.00/acre. Payment will be"made as followsf:,.Tota1 paid on January 15.,of each year. 3. Acreage may Obi �,i, eased as additional acres come into, production. 4. It is agreed"that municipal•waste may NOT be applied as fertilizer.. 5. Beallgray Farm Inc understands that the property _ is for sale.�Beallgray Farm Inc will quit any or all the farmland upon notice to quit. If the Notice is'at•the End of a. Crop production cycle there will-be',.ho reimbursement. -, ;If the notice { is after cro investment i5:made and before ' harvest, reimbursement:'sof%'cost, of production plus .,, interest;.: at rate-.o£ ;ti�el've{I2')'percent' from time -of investment=_",i11 •be'requiie'&I:_-. ..- .� � jai � •. -•. _ , .' :. -=°L-- YADKIN VALLEY FARMS INC :BEALLGRAY FARM INC. -: mes -B. Graham, Pies. DATE • ga , S • C Jar �r��`I}'i .�•f3` •-. NORTH CAROLINA _. DAVIDSON COUNTY THIS CONTRACT, Made.and entered into, this 18th day of April, 1994, by and between Robert L. Grubb, Trustee Under the Will of June Carter Little, Deceased, party of the first part; and Beallgray Farm, Inc., a North Carolina corporation, party of the second part; W I T N E S S E T H: THAT WHEREAS, June Carter Little died on May 21, 1987, leaving a Last Will and Testament which has been duly probated and recorded in the Office of the Clerk of Superior Court of Davidson County, North Carolina, in Estate File No. 87 E 394; and WHEREAS, the party of the first part was named Trustee of the trust created under the provisions of said will, has duly qualified, and is now acting as such Trustee; and WHEREAS, the property hereinafter described constitutes a portion of the real property belonging to the trust, created under the provisions of said will; NOW, THEREFORE, subject to the terms and conditions herein set out, said party of the first part does hereby let and lease unto said party of the second part; and said party of the second part does hereby accept as tenant of said party of the first part, tracts of land containing a total of 413 acres in Boone Township, Davidson County, North Carolina, more particularly described on attached Exhibit A. The terms and conditions of this lease are as follows; 1. The term of this lease commenced as of the first day of January, 1994, and shall exist and continue until and including the first day of January, 1995, unless sooner terminated as herein provided. 2. The rental to be paid by said party of the second part for said premises for the term of this lease is Six Thousand One Hundred Ninety-five and no/100 Dollars ($6,195.00). The party of the second part acknowledges that it had the use of 260 acres of land owned by the par.f the first part during the calendar year 1993, for which the party of the second part owes to the party of the first part the sum of Three Thousand Five Hundred and no/100 Dollars ($3,500.00). The party of the second part agrees to pay the unpaid portion of the rental for 1993 and all of the rents for 1994, a total of Nine Thousand Six Hundred Ninety-five and no/100 Dollars (i9,695.00), in monthly installments as follows: $1,211.88 on or before the first day of May, 1994, and a like amount on or before the first day of each succeeding calendar month until and including the first day of December, 1994, when all unpaid rental shall be due and payable in full. 3. It is expressly agreed that the demised premises shall be used for agricultural purposes only and that the party of the first part shall reserve to himself all other rights, including hunting rights. 4. The party of the second part agrees to maintain the unused portion around the leased land by bushhogging or whatever means are necessary to keep unwanted growth at a minimum. 5. Any additional roads or fencing constructed on the property by the party of the second part, any clearing of wooded areas, and the use of any fertilizer other than conventional fertilizer shall be approved in advance by Zeb V. Little or by th party of the first part. It is specifically agreed that no sludg products shall be used for fertilizer on any of the leased premises. 6. It is agreed that if any monthly installment of rent shall be and remain overdue and unpaid for thirty days, at any time during such default, the party of the first part may, at his option, terminate this lease and demand and receive posses of said premises. IN TESTIMONY WHEREOF, the parties hereto have executed this contract in duplicate originals, one of which is retained by each of the parties, the day and �]year �first �above wr-ittlen. Pl— ( SEAL ) TRUSTEE TINDER THE WILL OF TUNE CARTER LITTLE, DECEASED, PARTY OF THE FIRST PART BEALLGRAY FARM, INC. BY: PARTY OF THE SECOND PART EXHIBIT A 150 Acres behind Mt, Zion Baptist Church 35 Acres on.'Belmont Road and adjoining property opposite side of I-85 40 Acres at.Bull Hill between Old Highway 29 and I-85 40 Acres in front of R. C. Pickett's old house, Clark Road 28 Acres in front of hay barn at Spencer Yards 20 Acres behind Flea Market on Clark Road 100 Acres on Seven Oaks Drive RIGHT OF WAY Beallmont Farm, Inc grants to Beallgray Farm, Inc a Right of Way to construct an Agricultural Irrigation Pipeline on the Lands of Beallmont Farm, Inc. Beallmont Farm, Inc. President secx teary. ANIMAL WASTE UTILIZATION WASTE UTILIZATION PLAN AGREEMENT Name of Farm:BEALLGRAY FARM INC. 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 Water Quality (NCDWQ) 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 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 NCDWQ upon request. Name of Facility er: J ES GR II M (Please print) �/ Signature: Date: Name of Mana r(If different from owner) Signature: Date: q / ///5kg" Name of Person Preparing Plan: (.please print)LLOYD PHILLIPS Affiliation:DAVIDSON SWCD Phone No. 336-242-2075 Address (Agency): 301 E. CENTER ST. LEXINGTON NC 27292 Signature:2Z:eZ,,ZDate: � �/�/ � Page: 10