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310325_Application_20240226
State of North Carolina Department of Environmental Quality Division of Water Resources Animal Waste Management Systems Request for Certification of Coverage Facility Currently covered by an Expiring Sate Non-Discharge General Permit On September 30, 2024, the North Carolina State Non-Discharge General Permits for Animal Waste Management Systems will expire. As required by these permits, facilities that have been issued Certificates of Coverage to operate under these State Non-Discharge General Permits must apply for renewal at least 180 days prior to their expiration date. Therefore,all applications must be received by the Division of Water Resources by no later than April 3,2024. Please do not leave any question unanswered. Please verify all information and make any necessary corrections below. Application must be signed and dated by the Permittee. I. Certificate Of Coverage Number: AW S310325 2. Facility Name: F&S Farm 3. Permittee's Name(same as on the Waste Management Plan): Scott B Rouse 4. Permittee's Mailing Address: 1867 Red Hill Rd City: Albertson State: NC Zip: 28508-9677 Telephone Number: 252-560-5735 Ext. E-mail: farmerfrog((a)Iive.com 5. Facility's Physical Address: 1877 Red Hill Rd City: Albertson State: NC Zip: 285089677 6. County where Facility is located: Duplin 7. Farm Manager's Name(if different from Landowner): Scott Rouse 8. Farm Manager's telephone number(include area code): 919-658-0308 Ext. 9. Integrator's Name(if there is not an Integrator,write"None"): Murphy-Brown LLC 10. Operator Name(OIC): Scott B.Rouse Phone No.: 252-560-5735 OIC#: 19781 11. Lessee's Name(if there is not a Lessee,write"None"): 12. Indicate animal operation type and number: Current Permit: Operations Type Allowable Count Swine-Feeder to Finish 3,672 Operation Types: Swine Cattle Dry Poultry Other Types Wean to Finish Dairy Calf Non Laying Chickens Horses-Horses Wean to Feeder Dairy Heifer Laying Chickens Horses-Other Farrow to Finish Milk Cow Pullets Sheep-Sheep Feeder to Finish Dry Cow Turkeys Sheep-Other Farrow to Wean Beef Stocker Calf Turkey Pullet Farrow to Feeder Beef Feeder Boar/Stud Beef Broad Cow Wet Poultry Gilts Other Non Laying Pullet Other Layers 13. Waste Treatment Lagoons,Digesters and Waste Storage Ponds(WSP):(Fill/Verify the following information. Make all necessary corrections and provide missing data.) Structure Type Estimated Liner Type Estimated Design Freeboard Structure (Lagoon/Digester/ Date (Clay,Synthetic, Capacity Surface Area "Redline" Name WSP) Built Unknown) (Cubic Feet) (Square Feet) (Inches) 1 Lagoon 4/29/1991 Full,clay 572,083.00 72,745.00 19.50 2 Lagoon 12/31/1993 Full,clay 295,284.00 42,689.00 19.50 Submit one (1) copy of the Certified Animal Waste Management Plan (CAWMP) with this completed and signed application as required by NC General Statutes 143-215.10C(d), either by mailing to the address below or sending it via email to the email address below. The CAWMP must include the following components: 1. The most recent Waste Utilization Plan(WUP),signed by the owner and a certified technical specialist,containing: a. The method by which waste is applied to the disposal fields(e.g. irrigation,injection,etc.) b. A map of every field used for land application(for example: irrigation map) c. The soil series present on every land application field d. The crops grown on every land application field e. The Realistic Yield Expectation(RYE)for every crop shown in the WUP f. The maximum PAN to be applied to every land application field g. The waste application windows for every crop utilized in the WUP h. The required NRCS Standard specifications 2.A site map/schematic 3.Emergency Action Plan 4. Insect Control Checklist with chosen best management practices noted 5.Odor Control Checklist with chosen best management practices noted 6.Mortality Control Checklist with selected method noted-Use the enclosed updated Mortality Control Checklist 7.Lagoon/storage pond capacity documentation(design,calculations,etc.) Please be sure the above table is accurate and complete. Also provide any site evaluations,wetland determinations,or hazard classifications that may be applicable to your facility. 8. Operation and Maintenance Plan If your CAWMP includes any components not shown on this list,please include the additional components with your submittal. (e.g.composting,digesters,solids separators,sludge drying system,waste transfers,etc.) I attest that this application has been reviewed by me and is accurate and complete to the best of my knowledge. I understand that, if all required parts of this application are not completed and that if all required supporting information and attachments are not included,this application package will be returned to me as incomplete. Note: In accordance with NC General Statutes 143-215.6A and 143-215.613, any person who knowingly makes any false statement, representation, or certification in any application may be subject to civil penalties up to $25,000 per violation. (18 U.S.C.Section 1001 provides a punishment by a fine of not more than$10,000 or imprisonment of not more than 5 years,or both for a similar offense.) Print the Name of the Permittee/Landowner/Signing Official and Sign below.(If multiple Landowners exist,all landowners should sign. If Landowner is a corporation,signature should be by a principal executive officer of the corporation): Name(Print): 4Title: T /Signature: Date: Z Dz,* Name(Print): Title: Signature: Date: Name(Print): Title: Signature: Date: THE COMPLETED APPLICATION SHOULD BE SENT TO THE FOLLOWING ADDRESS: E-mail: animal.operations@deq.nc.gov NCDEQ-DWR Animal Feeding Operations Program 1636 Mail Service Center Raleigh,North Carolina 27699-1636 Nutrient Management Plan For Animal Waste Utilization 12-14-2015 This plan has been prepared for: This plan has been developed by: F&S Farm (31-325) Ronnie G. Kennedy Jr. Scott Rouse Agriment Services, Inc. 1867 Red Hill Road PO Box 1096 Albertson, NC 28508 Beulaville, NC 28518 (252) 560-5735 25,2-556-88--2-6'-48 9 velop re Signature Type of Plan: Nitrogen Only with Manure Only Owner/Manager/Producer Agreement I (we) understand and agree to the specifications and the operation and maintenance procedures established in this nutrient management plan which includes an animal waste utilization plan for the farm named above. I have read and understand the Required Specifications concerning animal waste management that are included with this plan. —Z�L� /2 11( 1s Signature(owner) Date Signature(manager or producer) Date This plan meets the minimum standards and specifications of the U.S. Department of Agriculture-Natural Resources Conservation Service or the standard of practices adopted by the Soil and Water Conservation Commission. Plan Approved By: ' Technical Specialist Signature Date ............. ................ .... ......... ............................................. .................. E 743630 Database Version 4.1 Date Printed: 12-14-2015 Cover Page 1 Nutrients applied in accordance with this plan will be supplied from the following source(s): Commercial Fertilizer is not included in this plan. S7 Swine Feeder-Finish Lagoon Liquid waste generated 3,403,944 gals/year by a 3,672 animal Swine Finishing Lagoon Liquid operation. This production facility has waste storage capacities of approximately 180 days. Estimated Pounds of Plant Available Nitrogen Generated per Year Broadcast 6136 Incorporated 7363 Injected 7363 Irrigated 6136 Max. Avail. Actual PAN PAN Surplus/ Actual Volume Volume Surplus/ PAN(lbs) * Applied (lbs) Deficit(lbs) Applied (Gallons) Deficit(Gallons) Year 1 6,136 8109 -1,973 4,498,699 -1,094,755 Year 2 6,136 8734 -2,598 4,845,297 -1,441,353 - •--------- -------•- ----- -- --------- ----- ---- ---- - ---- - ------- - --•---------- ------ --- ----• ---------------------------- .......... Note: In source ID,S means standard source,U means user defined source. * Max. Available PAN is calculated on the basis of the actual application method(s) identified in the plan for this source. 743630 Database Version 4.1 Date Printed: 12-14-2015 Source Page 1 of 1 Revised Addendum To Nutrient Management Plan Facility Number: 31-325 Facility Name: F& S Farms Facility Owner: Scott Rouse Facility Type: 3,672 Feeder to Finish Current NMP Date: 1211412015 Addendum Date: 03/01/2021 Tract Field Soil Type Use. Crop Applic. N Acres Period Applied 71894 1 Autryville 1.24 Bermuda Hay 311 - 10131 269 lbs. 71894 p2 Auttyville 2.75 Bermuda Hay 311 - 10131 269 lbs. 71894 p3 Autryville 2.94 Bermuda Hay 311 - 10131 269 lbs. 71894 p4 Autryville 1.65 Bermuda Hay 311 - 10131 269 lbs. 71894 1-4 Autryville 8.58 Small Grain Overseed 1011 —3131 50 lbs. Addendum Narrative This addendum is written to change pulls 1- 4 to bermuda hay crop. PAN rates and windows come from current NMP pulls with same soil type and crop type. These bermuda hay pulls may also be grazed with a 25% reduction in PAN(202 lbs.). This addendum should be attached to the current Nutrient Management Plan. Agency: A riment Services, Inc. Technical Specialist: Ronnie G. Kennedy, Jr. 010 Technical Specialist Signature: Date: 0310112021 Scott Rouse-NMP Addendum 3-1-2021 Narrative 12/14/2015 This plan is a update of the plan dated 4-2-2007 by Johnny Lanier. All Corn may be replace with either cucumbers or sweat potatoes but only applied to at planting. Rye Cover crop can be planned after soybeans. If rye cover is applied that application will also need to be removed from next crop. Cucumbers 120lbs. -20lbs= 100lbs. 3/1 (100%at Planting) Sweat Potatoes 50lbs. -20lbs=30lbs. 3/1 (100%at Planting) Rye Cover 25lbs. Must remove from next crop. 9/1 -3/31 ......•............................................................................................ ................... 743630 Database Version 4.1 Date Printed: 12-14-2015 Narrative Page 1 of I The table shown below provides a summary of the crops or rotations included in this plan for each field. Realistic Yield estimates are also provided for each crop in the plan. In addition,the Leaching Index for each field is shown, ► where available. Planned Crops Summary Total Useable Leaching Tract Field Acres Acres Index(LI) Soil Series Crop Sequence RYE 4590 Pull 10 2.60 2.60 N/A Autryville Small Grain Overseed 1.0 Tons Hybrid Bermudagrass Hay 5.5 Tons 4590 Pull 11 0.69 0.69 N/A Autryville Small Grain Overseed 1.0 Tons Hybrid Bermudagrass Hay 5.5 Tons 4590 Pull 12 2.60 2.60 N/A Autryville Corn,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. 4590 Pull 13 3.46 3.46 N/A Autryville Corn,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. 4590 Pull 14 2.60 2.60 N/A Autryville Corn,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. 4590 Pull 5 2.50 2.50 N/A Autryville Small Grain Overseed 1.0"Eons Hybrid Bermudagrass Hay 5.5 Tons 4590 Pull 6 2.50 2.50 N/A Autryville Small Grain Overseed 1.0 Tons Hybrid Bermudagrass Hay 5.5 Tons 4590 Pull 7 3.46 3.46 N/A Autryville Small Grain Overseed 1.0 Tons Hybrid Bermudagrass Hay 5.5 Tons 4590 Pull 8 3.46 3.46 N/A Autryville Small Grain Overseed 1.0 Tons Hybrid Bermudagrass Hay 5.5 Tons 4590 Pull 9 2.60 2.60 N/A Autryville Small Grain Overseed 1.0 Tons Hybrid Bermudagrass Hay 5.5 Tons 71894 Old P12 0.61 0.61 N/A Autryville Corn,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. 71894 Pull 1 1.24 1.24 N/A Autryville Corn,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. 71894 Pull 2 2.75 2.75 N/A Autryville Corn,Grain 85 bit. Wheat,Grain 45 bii. 743630 Database Version 4.1 Date Printed 12/14/2015 PCs Page I of 2 NOTE: Symbol * means user entered data. Planned Crops Summary Total Useable Leaching Tract Field Acres Acres Index(LI) Soil Series Crop Sequence RYE Soybeans,Manured,Full Season 30 bu. 71894 Pull 3 2.94 2.94 N/A Autryville Com,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. 71894 Pull 4 1 1.651 1.65 N/A Autryville Corn,Grain 85 bu. Wheat,Grain 45 bu. Soybeans,Manured,Full Season 30 bu. PLAN TOTALS: 35.66 35.66 LI Potential Leaching Technical Guidance <2 Low potential to contribute to soluble None nutrient leaching below the root zone. >=2& Moderate potential to contribute to Nutrient Management(590)should be planned. <= 10 soluble nutrient leaching below the root zone. High potential to contribute to soluble Nutrient Management(590)should be planned. Other conservation practices that improve nutrient leaching below the root zone. the soils available water holding capacity and improve nutrient use efficiency should be > 10 considered. Examples are Cover Crops(340)to scavenge nutrients,Sod-Based Rotations (328),Long-Term No-Till(778),and edge-of-field practices such as Filter Strips(393)and Riparian Forest Buffers(391). 743630 Database Version 4.1 Date Printed 12/14/2015 PCs Page 2 of 2 NOTE: Symbol *means user entered data. The Waste Utilization table shown below summarizes the waste utilization plan for this operation. This plan provides an estimate of the number of acres of cropland needed to use the nutrients being produced. The plan requires consideration of the realistic yields of the crops to be grown,their nutrient requirements, and proper timing of applications to maximize nutrient uptake. This table provides an estimate of the amount of nitrogen required by the crop being grown and an estimate of the nitrogen amount being supplied by manure or other by-products,commercial fertilizer and residual from previous crops. An estimate of the quantity of solid and liquid waste that will be applied on each field in order to supply the indicated quantity of nitrogen from each source is also included. A balance of the total manure produced and the total manure applied is included in the table to ensure that the plan adequately provides for the utilization of the manure generated by the operation. Waste Utilization Table Year I Nitrogen Conm Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (lbs/A) Source Total Use. Applic. Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 4590 Pull 10 S7 Autryville 2.60 2.60 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 72.12 0.00 4590 Pull 10 S7 Autryville 2.60 2.60 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 388.01 0.00 4590 Pull I I S7 Autryville 0.69 0.69 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 19.14 0.00 4590 Pull 1 I S7 Autryville 0.69 0.69 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 102.97 0.00 4590 Pull 12 S7 Autryville 2.60 2.60 Com,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 121.16 0.00 4590 Pull 12 S7 Autryville 2.60 2.60 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig. 52 28.85 0.00 75.01 0.00 4590 Pull 13 S7 lAutryville 3.46 3.46 Com,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 161.24 0.00 4590 Pull 13 S7 Autryville 3.46 3.46 Wheat,Grain 45 bu. 9/1-4/30 104 0 0 brig. 52 28.85 0.00 99.82 0.00 4590 Pull 14 S7 Autryville 2.60 2.60 Corn,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 121.16 0.00 4590 Pull 14 S7 Autryville 2.60 2.60 Wheat,Grain 45 bu. 9/1 4/30 104 0 0 Irrig. 52 28.85 0.00 75.01 0.00 4590 Pull 5 S7 Autryville 2.50 2.50 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 69.35 0.00 4590 Pull 5 S7 Autryville 2.50 2.50 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 373.09 0.00 4590 Pull 6 S7 Autryville 2.50 2.50 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 69.35 0.00 4590 Pull 6 S7 Autryville 2.50 2.50 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 373.09 0.00 4590 Pull 7 S7 Autryville 3.46 3.46 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 95.98 0.00 4590 Pull 7 S7 Autryville 3.46 3.46 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.001 516.36 0.00 743630 Database Version 4.1 Date Printed: 12/14/2015 WUT Page I of 4 Waste Utilization Table Year 1 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (Ibs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Appled Req'd Applied Applied (acre) (acre) (Field) (Field) (Ibs/A) (Ibs/A) (Ibs/A) Source Total Use. Applic, Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 4590 Pull 8 S7 Autryville 3.46 3.46 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 95.98 0.00 4590 Pull 8 S7 Autryville 3.46 3.46 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 516.36 0.00 4590 Pull 9 S7 Autryville 2.60 2.60 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 72.12 0.00 4590 Pull 9 S7 Autryville 2.60 2.60 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 388.01 0.00 71894 Old P12 S7 Autryville 0.61 0.61 Corn,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 28.43 0.00 71894 Old P12 S7 Autryville 0.61 0.61 Wheat,Grain 45 bu. 9/1-4/30 104 0 0 Irrig. 52 28.85 0.00 17.60 0.00 71894 Pull 1 S7 Autryville 1.24 1.24 Com,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 57.79 0.00 71894 Pull 1 S7 Autryville 1,24 1.24 Wheat,Grain 45 bu. 9114/30 104 0 0 Irrig. 52 28.85 0.00 35.77 0.00 71894 Pull 2 S7 Autryville 2.75 2.75 Com,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 128.15 0.00 71894 Pull 2 S7 Autryville 2.75 2.75 Wheat,Grain 45 bu. 9/lA/30 104 0 0 Irrig. 52 28.85 0.00 79.33 0.00 71894 Pull 3 S7 Autryville 2.94 2.94 Com,Grain 85 bu. 2/15-6/30 104 0 20 Irrig. 84 46.60 0.00 137.01 0.00 71894 Pull 3 S7 Autryville 2.94 2.94 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig. 52 28.85 0.00 84.81 0.00 71894 Pull 4 S7 utryville 1.65 1.65 Com,Grain 85 bu. 2/15-6/30 104 0 46 ,rrig. rrig. 84 46.60 0.00 76.89 0.00 71894 Pull 4 S7 Autryville 1.65 1.65 Wheat,Grain 45 bu. 9/1-4/30 104 0 52 28.85 0.00 47.60 0,00 Total Applied, 1000 gallons 4,498.70 Total Produced, 1000 gallons 3,403.94sj; _` } Balance,1000 gallons -1,094.75 Total Applied tons 0.00 Total Produced tons i ` r 0.00 Balance,tons 0.00 Notes: 1. In the tract column,--symbol means leased,otherwise,owned. 2. Symbol *means user entered data. 743630 Database Version 4.1 Date Printed: 12/14/2015 WUT Pace 2 of 4 Waste U .tion Table Year 2 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fen. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (Ibs/A) (lbs/A) (lbs/A) Source Total Use. Applic. AppGc. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 4590 Pull 10 S7 Autryville 2.60 2.60 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 brig. 50 27.74 0.00 72.12 0.00 4590 Pull 10 S7 Autryville 2.60 2.60 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 388.01 0.00 4590 Pull l l S7 Autryville 0,69 0.69 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 19.14 0.00 4590 Pull 11 S7 Autryville 0.69 0.69 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 102.97 0.00 4590 Pull 12 S7 Autryville 2.60 2.60 Wheat,Grain 45 bu. 9/1-4/30 104 0 0 Irrig. 52 28.85 0.00 75.01 0.00 4590 Pull 12 S7 Autryville 2.601 2.60 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 171.65 0.00 4590 Pull 13 S7 Autryville 3.46 3.46 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig. 52 28.85 0.00 99.82 0.00 4590 Pull 13 S7 Autryville 3.46 3.46 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 228.43 0.00 4590 Pull 14 S7 Autryville 2.60 2.60 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig. 52 28.85 0.00 75.01 0.00 4590 Pull 14 S7 Autryville 2.60 2.60 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 171.65 0.00 4590 Pull 5 S7 Autryville 2,50 2.50 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 69.35 0.00 4590 Pull 5 S7 Autryville 2.50 2.50 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 373.09 0.00 4590 Pull 6 S7 Autryville 2.50 2.50 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 69.35 0.00 4590 Pull 6 S7 Autryville 2.50 2.50 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 373.09 0.00 4590 Pull 7 S7 Autryville 3.46 3.46 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 95.98 0.00 4590 Pull 7 S7 Autryville 3.46 3.46 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 516.36 0.00 4590 Pull 8 S7 Autryville 3.46 3.46 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 95.98 0.00 4590 Pull 8 S7 Autryville 3.46 3.46 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 516.36 0.00 4590 Pull 9 S7 Autryville 2.60 2.60 Small Grain Overseed 1.0 Tons 10/1-3/31 50 0 0 Irrig. 50 27.74 0.00 72.12 0.00 4590 Pull 9 S7 Autryville 2.60 2.60 Hybrid Bermudagrass Hay 5.5 Tons *3/1-10/31 269 0 0 Irrig. 269 149.24 0.00 388,01 0.00 71894 Old P12 S7 Autryville 0.61 0.61 Wheat,Grain 45 bu. 9/I 4/30 104 0 0 Irrig. 52 28.85 O.OQ 17.60 0.00 71894 Old P12 S7 Autryville 0.61 0.61 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 1 Irrig. 119 66.02 0.00 40.27 0.00 743630 Database Version 4.1 Date Printed: 12/14/2015 WUT Page 3 of 4 Waste Utilization Table Year 2 Nitrogen Comm Res, Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (Ibs/A) Source Total Use. Appliic. Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 71894 Pull 1 S7 Autryville 1.24 1.24 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig. 52 28.85 0.00 35.77 0.00 71894 Pull 1 S7 Autryville 1.24 1.24 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 81.86 0.00 71894 Pull 2 S7 Autryville 2.75 2.75 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig. 52 28.85 0.00 79.33 0.00 71894 Pull 2 S7 Autryville 2.75 2.75 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 181.55 0.00 71894 Pull 3 S7 Autryville 2.94 2.94 Wheat,Grain 45 bu. 9/14/30 104 0 0 Irrig, 52 28.85 0.00 84.81 0.00 71894 Pull 3 S7 Autryville 2.94 2.94 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 194.10 0.00 71894 Pull 4 S7 utryville 1.65 1.65 Wheat Grain 45 bu. 9/1-4/30 104 0 0 Irrig. 52 28.85 0.00 47.60 0.00 71894 Pull 4 S7 Auuyville 1.65 1.65 Soybeans,Manured,Full Season 30 bu. 4/1-9/15 119 0 0 Irrig. 119 66.02 0.00 108.93 0.00 r; Total Applied,1000 gallons 4,845.30 ,� Total Produced,1000 gallons 3,403.94 t Balance, 1000 gallons -1,441.35 01415.� I Total Applied,tons ;} 0.00 �.,s1 Total Produced tons r; .,� 0.00 Balance,tons ` 0.00 Kd:�sr Notes: 1. In the tract column,-symbol means leased,otherwise,owned. 2. Symbol *means user entered data. 743630 Database Version 4.1 Date Printed: 12/14/2015 WUT Page 4 of 4 The Irrigation Application Factors for each field in this plan are shown in the following table. Infiltration rate varies with soils. If applying waste nutrients through an irrigation system, you must apply at a rate that will not result in runoff. This table provides the maximum application rate per hour that may be applied to each field selected to receive wastewater. It also lists the maximum application amount that each field may receive in any one application event. Irrigation Application Factors Application Rate Application Amount Tract Field Soil Series (inches/hour) (inches) 4590 Pull10 Autryville 0.60 1.0 4590 Pull ll Autryville 0.60 1.0 4590 Pull12 Autryville 0.60 1.0 4590 Pull13 Autryville 0.60 1.0 4590 Pull14 Autryville 0.60 1.0 4590 Pull Autryville 0.60 1.0 4590 Pull Autryville 0.60 1.0 4590 Pull? Autryville 0.60 1.0 4590 Pull Autryville 0.60 1.0 4590 Pull Autryville 0.60 1.0 71894 Old P12 Autryville 0.60 1.0 71894 Pull Autryville 0.60 1.0 71894 Pull Autryville 0.60 1.0 71894 Pull Autryville 0.60 1.0 71894 Pull Autryville 0.60 1.0 743630 Database Version 4.1 Date Printed 12/14/2015 lAF Page 1 of I NOTE: Symbol * means user entered data. The following Lagoon Sludge Nitrogen Utilization table provides an estimate of the number of acres needed for sludge utilization for the indicated accumulation period. These estimates are based on average nitrogen concentrations foreach source,the number of animals in the facility and the plant available nitrogen application rates shown in the second column. Lagoon sludge contains nutrients and organic matter remaining after treatment and application of the effluent. At clean out,this material must be utilized for crop production and applied at agronomic rates. In most cases, the priority nutrient is nitrogen but other nutrients including phosphorous,copper and zinc can also be limiting. Since nutrient levels are generally very high, application of sludge must be carefully applied. Sites must first be evaluated for their suitability for sludge application. Ideally,effluent spray fields should not be used for sludge application. If this is not possible,care should be taken not to load effluent application fields with high amounts of copper and zinc so that additional effluent cannot be applied. On sites vulnerable to surface water moving to streams and lakes,phosphorous is a concern. Soils containing very high phosphorous levels may also be a concern. Lagoon Sludge Nitrogen Utilization Table Maximum Maximum Sludge Crop PA-N Rate Application Rate Minimum Acres Minimum Acres Minimum Acres lb/ac 1000 gal/ac 5 Years Accumulation 10 Years Accumulation 15 Years Accumulation Swine Feeder-Finish Lagoon Sludge- Standard Corn 120 bu 150 14.69 41.25 82.50 12175 Hay 6 ton R.Y.E. 300 29.38 20.62 41.25 61.87 Soybean 40 bu 160 15.67 38.67 77.34 1 16.01 ------------------ ----------------------------------------------------------------------------------------- --------------------- ----------- -------------- ------------------------ 743630 Database Version 4.1 Date Printed: 12-14-2015 Sludge Page 1 of I The Available Waste Storage Capacity table provides an estimate of the number of days of storage capacity available at the end of each month of the plan. Available storage capacity is calculated as the design storage capacity in days minus the number of days of net storage volume accumulated. The start date is a value entered by the user and is defined as the date prior to applying nutrients to the first crop in the plan at which storage volume in the lagoon or holding pond is equal to zero. Available storage capacity should be greaterthan or equal to zero and less than or equal to the design storage capacity of the facility. If the available storage capacity is greater than the design storage capacity,this indicates that the plan calls for the application of nutrients that have not yet accumulated. If available storage capacity is negative, the estimated volume of accumulated waste exceeds the design storage volume of the structure. Either of these situations indicates that the planned application interval in the waste utilization plan is inconsistent with the structure's temporary storage capacity. Available Storage-Capacity Source Name Swine Feeder-Finish Lagoon Liquid Design Storage Capacity(Days) Start Date 9/1 180 Plan Year Month Available Storage Capacity(Days) 1 1 65 1 2 65 1 3 86 1 4 102 1 5 146 1 6 162 1 7 180 1 8 178 1 9 180 1 10 180 1 11 172 1 12 168 2 1 159 2 2 158 2 3 172 2 4 180 2 5 180 2 6 180 2 7 180 2 8 180 2 9 180 2 10 180 2 11 161 2 12 141 *Available Storage Capacity is calculated as of the end of each month. .. .... .......... .... . _. .. . ....... 743630 Database Version 4.1 Date Printed: 12-14-2015 Capacity Page 1 of 1 Required Specifications For Animal Waste Management 1. Animal waste shall not reach surface waters of the state by runoff, drift, manmade conveyances, direct application, or direct discharge during operation or land application. Any discharge of waste that 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 the waste, he/she shall provide evidence 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 waste production facility to secure an update of the Nutrient Management Plan when there is a change in the operation, increase in the number of animals, method of application, receiving crop type, or available land. 3. Animal waste shall be applied to meet, but not exceed, the nitrogen needs for realistic crop yields based upon soil type, available moisture, historical data, climatic conditions, and level of management, unless there are regulations that restrict the rate of applications 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 eroding at more than 5 tons per acre per year but less than 10 tons per acre per year provided grass filter strips are installed where runoff leaves the field (see USDA, NRCS Field Office Technical Guide Standard 393 - Filter Strips). 5. Odors can be reduced by injecting the waste or by disking after waste application. Waste should not be applied when there is danger of drift from the land application field. 6. When animal waste is to be applied on acres subject to flooding, waste will be soil incorporated on conventionally tilled cropland. When waste is 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). 743630 Database Version 4.1 Date Printed: 12/14/2015 Specification Page I 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 and flies. 8. Animal waste shall not be applied to saturated soils, during rainfall events, or when the soil 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. 10. Nutrients from waste 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 canal. Animal waste, other than swine waste from facilities sited on or after October 1, 1995, shall not be applied closer that 25 feet to perennial waters. 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. . ................-.I ----- ----- --- -- - -- -- ........ .... --- ---- 743630 Database Version 4.1 Date Printed: 12/14/2015 Specification Page 2 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 the fields have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways that discharge 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. 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 pre-plant 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. ................ -._. _.. . .. 743630 Database Version 4.1 Date Printed: 12/14/2015 Specification Pap-e 3 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 nutrient, unless other restrictions require waste to be applied based on other nutrients, resulting in a lower application rate than a nitrogen based rate. 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 and maintained for optimum crop production. Soil and waste analysis records shall be kept for a minimum of five years. Poultry dry waste application records shall be maintained for a minimum of three 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. .................... . ......................... ...... ..................... . .. -- . .. . _ _... . 743630 Database Version 4.1 Date Printed: 12/14/2015 Specification Page 4 Crop Notes The following crop note applies to field(s): Old P12, Pull 1, Pull 12, Pull 13, Pull 14, Pull 2, Pull 3, Pull 4 Corn: CP, Mineral Soil, medium leaching In the Coastal Plain,corn is normally planted when soil temperatures reach 52 to 55 degrees fahrenheit. Review the Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 1-2" deep. Plant populations should be determined by the hybrid being planted. Increase the seeding rate by 10%when planting no-till. Phosphorus and potassium recommended by a soil test can be broadcast or banded at planting. When planting early in cool, wet soil, banded phosphorus will be more available to the young plants.An accepted practice is to apply 20-30 lbs/acre N and 20-30 lbs/acre phosphorus banded as a starter and one-half the remaining N behind the planter.The rest of the N should be applied about 30-40 days after emergence.The total amount of N is dependent on soil type. When including a starter in the fertilizer program,the recommended potassium and any additional phosphorus is normally broadcast at planting. Plant samples can be analyzed during the growing season to monitor the overall nutrient status of the corn.Timely management of weeds and insects are essential for corn production. The following crop note applies to field(s): Pull 10, Pull 11, Pull 5, Pull 6, Pull 7, Pull 8, Pull 9 Bermudagrass Coastal Plain, Mineral Soil, Moderately Well Drained. Adaptation: Well-adapted. In the Coastal Plain, hybrid bermudagrass sprigs can be planted Mar. 1 to Mar. 31. Cover sprigs 1"to 3" deep(1.5"optimal). Sprigs should be planted quickly after digging and not allowed to dry in sun and wind. For Coastal and Tifton 78 plant at least 10 bu/ac in 3' rows, spaced 2' to 3' in the row. Generally a rate of 30 bu/ac is satisfactory to produce full groundcover in one or two years under good growing conditions. Tifton 44 spreads slowly,so use at least 40 bu/ac in 1.5' to 2' rows spaced 1' to 1.5' in row. For broadcast/disked-in sprigs use about 60 bu/ac. Soil test for the amounts of lime, phosphorus, potassium and micronutrients to apply preplant and for annual maintenance. Apply 60 to 100 Ib/ac N in the establishment year in split applications in April and July. For established stands apply 180 to 240 lb/ac N annually in split applications, usually in April and following the first and second hay cuts. Reduce N rates by 25% for grazing. Refer to NCSU Technical Bulletin 305 Production and Utilization of Pastures and Forages in North Carolina for more information or consult your regional agronomist or extension agent for assistance. rr ------------------------------------------------------------------------------------------------------------------------ -------------------------------...-.-.. 743630 Database Version 4.1 Date Printed: 12-14-2015 CropNote Page 1 of 2 The following crop note applies to field(s): Pull 10, Pull 11, Pull 5, Pull 6, Pull 7, Pull 8, Pull 9 Small Grain: CP, Mineral Soil, medium leachable In the Coastal Plain, oats and barley should be planted from October 15-October 30;and rye from October 15-November 20. For barley, plant 22 seed/drill row foot and increase the seeding rate by 5%for each week seeding is delayed beyond the optimum time. See the seeding rates table for applicable seeding rate modifications in the current NCSU "Small Grain Production Guide". Also, increase the initial seeding rate by at least 10%when planting no-till. Oats should be planted at 2 bushels/acre and rye at 1-1 1/2 bushels/acre. Plant all these small grains at 1-1 1/2" deep.Adequate depth control is essential. Review the NCSU Official Variety "green book"and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply no more than 30 lbs/acre N at planting. Phosphorus and potash recommended by a soil test can also be applied at this time. The remaining N should be applied during the months of February-March. The following crop note applies to field(s): Old P12,Pull 1,Pull 12, Pull 13, Pull 14, Pull 2, Pull 3, Pull 4 Wheat: Coastal Plain, Mineral Soil, medium leachable In the Coastal Plain, wheat should be planted from October 20-November 25. Plant 22 seed/drill row foot at 1-1 1/2" deep and increase the seeding rate by 5%for each week seeding is delayed beyond the optimum time. See the seeding rates table for applicable seeding rate modifications in the current NCSU "Small Grain Production Guide". Also, increase the initial seeding rate by at least 10%when planting no-till. Adequate depth control when planting the wheat is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions.Apply no more than 30 lbs/acre N at planting. Phosphorus and potash recommended by a soil test report can also be applied at this time.The remaining N should be applied during the months of February-March.The total N is dependent on the soil type. Plant samples can be analyzed during the growing season to monitor the nutrient status of the wheat. Timely management of diseases, insects and weeds are essential for profitable wheat production. The following crop note applies to field(s): Old P12,Pull 1, Pull 12, Pull 13, Pull 14, Pull 2, Pull 3, Pull 4 Soybeans-Full Season, Coastal Plain: Mineral soil, medium leachable The suggested planting dates for soybeans in the Coastal Plains are from April 20-May 20. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 2-4 seed/row foot for 7-8" drills;4-6 seed/row foot for 15" rows; 6-8 seed/row foot for 30" rows and 8-10 seed/row foot for 36" rows. Increase the seeding rate by at least 10%for no-till planting. Seeding depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended by a soil test report can be broadcast or banded at planting. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable soybean production. .............................. ................................................................................................................................. 743630 Database Version 4.1 Date Printed: 12-14-2015 Crop Note Page 2 of 2 12/14/2015 This plan is a update of the plan dated 4-2-2007 by Johnny Lanier. All Corn may be replace with either cucumbers or sweat potatoes but only applied to at planting. Rye Cover crop can be planned after soybeans. If rye cover is applied that application will also need to be removed from next crop. Crop N Rate Residual Manure Applied Applic. Period Cucumbers 120lbs. -20lbs = 100lbs. 3/1 (100%at Planting) Sweat Potatoes 50lbs. -20lbs = 30lbs. 3/1 (100%at Planting) Rye Cover 25lbs. Must remove from next crop. 9/1—3/31 EXH®IT D-1 IRRIGATION SYSTEM DESIGN PARAMETERS Landowner/Operator Name: ��S I�rM t'/rcrlrr,�JL {�, t, County: b Ups Address: 1B35" Red N;l( Qa, 1 -7 411rr fry,. e_�.l.t a$SOt3 Date: JZ /� / Telephone: �lal �s13—qq/3 TABLE I - Field Specifications Approximate Max�»wn Maximum Maxlcnu AppUcatlon i Useable S2 c AppU m catlon per IrrieaUon Fleld ofFleld Slope Rate3 Cycle3- Number (acres) Soll Type(�. YP (�o) Crop(s) (hJhr) (Inches) Conuncnb o 'See attached map. 2Total field acreage minus required buffer areas. 3Refer to N.C.Irrigation Guide,Field Office Technical Guide,Section I]G. Aiuival application must not exceed the agronomic rates for the soil and crop used. MRCS, NC JUNE, 1996 EXMFF D-2 TABLE 2 - Traveling Irrigation Gun Settings Make,Model and Type of Equipment: EQUIPMENT SETTINGS Field Nol Travel Application TRAVEL LANE Welled Nozzle Operating Operating and Speed Rate Effective Effective Diameter Diameter Pressure Pressure Arc hydrant Not Ul/min) (in/hr) Width(ft) fl Length 8 ( ) (feet) (inches) Gun(psi) Reel(psi) Pattem3 Comments F�1�1 I d I 3.a e 90 I a 1•� .� D "ISD �+iS� .Fl.l. �r Sj3 300° �.75 lbo 4�00 �� S .41.1 (� '� 3r�0 a.94 90 ao laa 9/ y y:•- � %r� f-�, 43 300' N 4 � 9 �.yr , , lea ti�l _�y•Y ;,.� � „ g3 3 , I a.a� S� 3°rp Sao .71a 50 -79 0 a ,tea 1See attached map. 2Show separate entries for each hydrant location in cacti field. 3Use the following abbreviations for various arc patterns: F(full circle),TQ(three quarters),TT(two thirds),li(half circle),T(one third),Q(one quarter). May also use degrees of arc. MRCS, NC JUNr996 EXH1BfT D-3 TABLE 3 - Solid Set Irrigation Gutx Settings n ) J " Make, Model and Type of Equipment: OPERATING PARAMETERS Field NoI Wetted Hydrant Spacing(ft) Application Nozzle Operating Operating and Number of Diameter Along Between Rate Diameter Pressure Time Line Not Hydrants (feet Pipeline Pipelines (in/hr) inches rt Gun (►sl) Hydrant it Comments G ISce attached neap. 2Show separate entries for each pipeline with hydrants in each field. NRCS, NC JUNE, 1996 EXI ITBIT DA TABLE 4 - Irrigation System SpeciGcalions Traveling Solid Set Irrl gatlon Gun Irrigation Flow Rate of Sprinkler(gpm) 71/ 1In Aerating Pressure at Pump (psi) Design Precipitation Rate(in/lir) Hose Length(feet) D V XXXXXXXX Type of Speed Compensation XXXXXXXX Pump Type(PTO, Enghic, Elec(ric) r Pump Power Requirement(hp) Is TABLE 5 - Thrust Block Specilicalionst Designer may rovide thrust blocic details on separate sheet. THRUST BLOCK LOCATION AREA (sq. ft.) 90o Bend Iy� Dead End Tee 1.0 Sce USDA-NRCS Field Office Teclutical Guide,Section IV,Practice Code 430-DD. NRCS, NC lLJN' 1996 F-X iII3I7'D-5 IRRIGATION SYSTEM DESIGNER Name: Company: Address: 0. ? F+fs—�� /�.t!• �Qyf$ • Phone: REQUIRED DOCUMENTATIONS - The following details of design and materials must accompany all irrigation designs: 1. A scale drawing of the proposed irrigation system which includes hydrant locations,travel lanes,pipeline routes,tluvsl block locations and butler areas where applicable. 2. Assumptions and computations for determining total dynamic]read and horsepower requirements. 3. Computations used to determine all mainline and lateral pipe sizes. 4. Sources and/or calculations used for detenuiming application rates. S. Computations used to determine lire size of tluust blocks and illustrations of all thrust block configurations required in the system. 6. Manufacturer's specifications for the irrigation pump,traveler and sprinkler(s). 7. Manufacturer's specifications for the irrigation pipe and/or USDA-NRCS standard for Irrigation Water Conveyance, N.C. field Office Teclurical Guide,Section IV,Practice Code 430-DD. 8. The information required by this forni are the minimum requirements. It is the responsibility of the designer to consider all relevant factors at a particular site and address them as appropriate. 9. Irrigation pipes should not be installed in lagoon or storage pond embankments without the approval of the designer. NOTE: A buffer strip 3 feet wide or wider must be maintained bct%veen the limits of the irrigation system and all perennial streams and surface waters per NC Statutes. K • NRCS, NC NNE, 1996 - NARRATIVE OF IRRIGATION DESIGN AND OPERATION FOR F& S FARM DESIGN AND INSTALLATION OVERVIEW This irrigation system is designed with four inch, Class 200 PVC pipe and schedule 80 fittings. The system is designed to accommodate the flow velocities, flow rates and the pressure requirements associated with the Cadman 2625 Traveller. Air vents and thrust blocks are to be installed as indicated on the drawings. Air vents will consist of using a 4"x4"x2" Schedule 80 tee and 2" Schedule 80 pipe, Schedule 80 fittings(elbow and MIP adapter)with an AV 150. The thrust block areas have been calculated and are listed on Exhibit D-4 in the plan. The design of this system requires the use of two ring nozzles, a .812"and a.712"ring. Each pull has a specific arc setting and travel speed which must be used to achieve the desired application. This information is given in detail on page 2 of this design. Having known this grower for the last four years and being familiar with his operation and the attention to details which he exhibits, I am confident the system will be operated as designed. A detail of the hydrant design is also included and specifies the type and size of fittings. All pipe shall be installed with a minimum of 30"of cover and shall be backfilled in no less than three passes, leaving enough soil material above original grade to allow for settling. SYSTEM START-UP AND OPERATION When setting up the reel, make sure it is level and the stabilizer legs are down and secured. Engage the brake, then disengage the transmission. Pull out hose at a speed not to exceed 3 mph. Engage transmission before disengaging the brake. Prime the pump and start engine at idle. Operate engine in a manner not to exceed 50 psi until a solid stream of water is exiting the gun, air is out of line and pressure is slowly building on the gauge. Increase rpm's slowly until desired pressure is achieved. Set all "Murphy" safety switches to insure immediate shutdown of system if a problem occurs. Also, set the timer to shut off pump at the time a run will be completed--but, make it a practice to idle the system down instead of relying on the safety timer. Check all safety switches on the reel after each start-up to insure proper operation. Read and review pages 9-17 in the Cadman operators manual for additional details on start-up procedures. Grower should walk the entire pipeline periodically to check for leaks or potential problems. WINTERIZATION Disconnect both ends of all flexible hoses at the pump and the traveller. Remove drain plug from gun cart and pull out hose at least half way to purge enough water to protect from freezing. Wind hose back onto reel and replace drain plug. l)t ISn 4s,l �i S 11^'rA 1G 11�M anG ays�.� �ai"L14r _ • �' c�ys/� �7/ .:: 4,0 / lug 4^4A^S 300 A4. D _ r o x a7 y9 '1kr �..ter W/gr��l r�•� /gA�'ArG. l� e moo.A-r, s ►.,.�.. gip,.., •�.� r he �Ic'� lip i goo An) 9 C v.17 . G MP'n V-t 1/D ..-!_Di-1 __.. SPA•n�-t� -Pr�S,•.rf✓- �Q ps. 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PSI 30 ....... ........ .......... .......... ......... ........ ....... ......... .........I ........ .......I.:::: i ... .... .............. .. 20 500 ..... .. ................. . . ........... ........... ........... .......... ....... ....... ............. ......... ................. ............ ...... . ....... ......... o 450 ... ... ... ...... ................................ ...... ............ T.......... ................................ ..................... ........... 0 400 . ........... .......4 ...................... .... ........I ... . ............ ....... .:*.,.,.*.*.*.*. . .. .......... .............. ........ ............ .............. . ........... ... ........... 350 ..... ........ ......... ........... ....... ...... ........ ....... ... ... ..... .......... z .... ........ ...... . ...... .......... ... ............ . ...... ........ .................... .... ........... . ...... ..... . ..... ...... .k2Cj I RNI .. **-.......................... .... ....... . ...... ..... . ......... ......... 300 . ........ .. ....... ..... .... ... . .. .............. ............ z .............. ...... . ........ .... ... ..... ........ ........ ............ 250 .. ..... .... ...... ............ .............. ..........I. ..... ........... . .......... ............ ......... ............. ......... ....... .. ...... ........... ......... ........... ... .......... ... ::.,fwo ....... ......... .... ............. .... ....... ............ ram•200 ........... ........ ................. .. ........... ... ii;, ........... 77 ........ .......... ............. O -f .. - .. .......... 150 !L—L. ....... ....... .................... '.**....... ......... ... ... ......... ........... . ............ ............. :... ... . ........... ...... —77 .......... .. ... ...... ........ ... ...... qc* 4t .......... ... .. . .. ... . - - ...*. - -- ...**. . ......... ....... .............i ..... 4--- 1 *...*...-*.*.---.-.. ..........J:,- -* : W....... ....... ..,v..................... ...........*- 50 ....................0.4...... .......... ......... ..................... ........... 'ho....... SL ;.:: i TO ........ .................... ............ .......... ........... .................. ......1.t.................. 0. 0 cO -00 -50 200 250 300 350 400 450 500 550 600 650 700 750 8 900 1 CAPACITY IN U.S.GALLONS PER MINUTE 0 It z C-7 A, Basedon T-2805 suponeces C-7045 ames osto 12-22-,t moBELB2J J Q B L VON Case: materw C.I. PaIL no.H-928 Mach.No. H-1938 VARIOUS R.P.M. - Cycles Impeller: matodall C.1. Pat.No.L-3004 Mmah.Wo. L-3039 VI& 13-1/2" FuL., T.O.S.1-for ff"A-6100$1 as kv*$00,F max. 550 MAXIMUM WORKIN4 PRESSURE 247 PSI U-1 q W2 a 30 hC&O ...................... .. ... ... ......I................ ........ ..................................... ..................... ........................ ....•...... ....... ... ........... .. ......... 500 7p - . ... *,........I *................-. .............................................................. ..................I........... .... 0 I ....... .... .*... ,. . ..... ....... ..... ....... tWr . .. ........ .. ........... ...... ....... ...... ....... 450 -3: -• ...... ... .......... .. . — 10 YI - , . - ......... "":**" �*....... .................................. .................. .......... ........... '.****'.*... ............ ....... .. ..... ..... .............. ....... .......... ........ ... .. .................... .... . ..... /.7 . ........... rLxam ...................................................!............................... .......................................... ........ ... ...... ............. .,. ............. ..........................:7.:...:....... .:.. ":::' ...... ...... .,.. .............. ......... .... .....I ....... ... .... .... . ..... ..... ...... 0 0 . ... . . ............... "5o ........ 4.................... .......... ................... ................. .. . ....... .. ................. .. .. . ... ...... .. id .... .... ......... ......... ... .......... 4 . .............................. .... 7 7 ........... .:...... ............................. ...................... 250 ........... ......... .......... .................. .......... is ........... . ..... ....... ...... . .... .. IK. 200 . ......... '50 f 4 . ..................... . ............. .. ....L ..... .......... 100 ........... ....... ............ ........... ... . ...:: ................ ... . ...... ........... ...... ........ ........ ................. 50 —lm-..� I ......................iTOSL "27! 7. 'b 50 iOO 150 200 250 3M 350 400 450 500 550 600 650 700 750 SW CAPACITY IN U.S.GALLONS PER MINUTE C-7C16 aesods- T-2804 swo*nodn C-7046 0000d 9-3-71 111,,. 10-27-71 M0DELB2 'T JQE3M B1211 1 LISTERAVECO POWER UNIT WATER-COOLED January 1, 1996 LPU.WC NET CONTINUOUS HORSEPOWER LOWEST MODEL ENGINE SPEED, RPM FUEL 1600 1700 1800 1900 2000 2100 2200 2500 CONSUMPTION LPW2 9 10 11 11 12 13 13 15 .380 @ 2000 LPW3 14 15 16 17 18 19 20 23 .380 ® 2000 LPW4 18 19 22 23 25 26 27 31 .380 @ 2000 LPWT4 28 31 33 35 36 39 41 43 .400 @ 1800 8911:_.. _34 =.36 :; :..39.. _ 40 42 43 ... 44 .._48 .362 ® 1800 1. NET CONTINUOUS HORSEPOWER rating includes fan, air cleaner, and muffler, if equipped. 2. LOWEST FUEL CONSUMPTION is in Ib/hp-hr: Gallons/hour = Actual hp x Ib/hp-hr 7.076 3. DERATING: N.A. engines: Temperature—2% per 10°F above 85°F; Altitude — 3.5% per 1000 FT above 500 FT Turbocharged engines (LPWT4): Temperature — .3% per 10OF above 850F; Altitude —2.5% per 1000 FT above 500 FT w }r•Ae.: Y th .tv i ti: :::�:t«�1-.� tY•;� ! 'i�::;l:�.t'"��.'J•:iF• t•>,�•';}`t,�y.r.•�+tefy.lj�:��.•�i•'�_\,:��.:;`�.-',�.: �..•��' �•;s' Sw sY'Fr»•t � .[, )f t ;�:.ii.••i-•' t;rif N,.....+�ti,�:�f'. �r►•: •• '�•tY%!ua:w�::�1.•..fir a o.'.�'�. ,� ''• :?°r\X`r`;;'i r, �" �'•j .E•w. -kb.•, i•::Sh f: �•..,:.''x':b .u; 4k:�wr.r,.•-1,:,r.::+: •+. y :..�. 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Chevron seal for added pressure sealing ca- pacity. I 3. Compression seal - provides a seal under I vacuum. 4. Wiper beads to clean spigot end. Diamond ASTM D2241 IPS Pressure-Rated PVC Pipe Rieber Gasketed Joint Dimensions A O.D. STOP 6 Size Gasket Race Socket Depth PARK D 14�i O.O 1 2 3.166 4.500 r L u 2112 3.719 6.000 r . . 3 4.434 6.000 � A �.� aE��I.D. � °° -� 4 5.603 5.000 R eDe,ei+kel _ 6 8.252 6.250 8 10.420 6.500 Pipe A B D 10 12.762 7.500 Size Insert Socket Diameter 12 14.952 7.500 3 4 1/2 3 1/8 3" 4 5 114 4 7/16 4 1/2 5 1/2 5 1/2 6" 5 6 7 13/16 D-2241 Pipe Dimensions 8" 5 1/21 6 7/8 10 1/8 10" 5 3/4 7 1r 13 112 Minimum Wall Thickness 12 6 8 1/4 14 11116 0 1785 SOR 13 5 SDR-21 SOR 26 SOR-32 5 SDR 1 Site C D Seri.4 315 PSI 200 PSI 160 PSI 125 PSI 100 PSI I/7' .840 109 .062 1.050 .1 t 3 .060 r _ t 1.315 .133 063 1'A 1.660 .140 079 .064 .056 Short Form 1'12 1.900 145 090 .073 .058 S1)ecification for Diamond 2 2.375 .154 113 091 .013 P-VC Irritation 1)i1)e 2 v t 3 ," 2.875 .203 7 .110 .088 3 3.500 .216 167 135 to8 - AST1\1-D2241 -SDR41 ,32.5,26,or2I 4 4.500 .237 .214 .173 138 110 Diamond PVC Irrigation Pipe shall be made of 5 5.563 .258 2b5 .2te 171 136 coMpounds conforming to ASTh1 D1784 with a 6 6.625 .280 316 255 204 162 cell classification of 12454B. Diamond PVC 8 8.625 .322 410 .332 265 210 Irrigation Pipe must meet all the dimensional, 10 "10.750 .365 511 .413 .331 262 chemical, and uircmcnts as outlined physical re 12 12.750 .406 .606 .490 392 .311 P Y 9 in ASTM D2241, -Annex, ANSI/ASAE S376.1, and SCS 430-DID, and will be supplied in 20 fool imond's IPS Pressure-Rated PVC Pipe coupler laying lengths. .,aets the requirements of ASTM D-3139. E r 1 i1 0111 SIM; 121; 1 1msy Inquire for availability i�t INSTALLATION ®� 4 •Table 4. Ut:SI•R1rT10h' At' EAIUEpM ENT MATERIAL CLwStiIllCwllunS SOIL SOIL U1:SCAITTIO% 411' Jialnond Agricultural PVC Pipe should be assembled and C'Lws] T1'rl: 4wTIal1AL CLASSI/'ICATwN installed with uniform and continuous support from a firm Cl...1 Ii.d.. MwufK,w<°Y,u)Y,"-.I. 11.w1In.✓�•Iw••+„^•w.1••..•...� .luJin,"Awri.1.Aa.ins K,w 1l:l^irtu,rt..„n.•rrr•w.J„.rr.„.•.1. _a:., base in accordance with the installation procedures provided -I.t..Md.t.,.<wJr... in ASTM D2321,and the Installation Guide for PVC Water CIY,II So:l.•• wrp&7,,,°/,,,,,,,, ",,,•,,,,,r W w.t..•. V 4«n+...J raY d" edition is available from your t^YYI. Pipe (a "pocket-size Kt�w rY`„Y°«"•"�- ""`Nw°"'"""' """" "" o<... representative or from Diamond Plastics Corporation.) U r,„,t, &.,r..<I.w.t..•rr•..we„•..wr..l„'4.�•�'• �••••^"•.•'' <„YY flKYen 1<YiKe nn"„..✓•e. Mr+.Nu•9fG..•.,•.'J.w"..Val.„�,e C1<.w Embedment materials are to be in accordance with soil SW w<11.,r�J.wJ.Y.l:r.•, t.^JI.1^.Ir•"~•�•�- AI-.' ^°'� ' ""„' I--puK.H.<w•e Al..r.A►.0)t..•u•w.J..•".•:m._., t'k.n classifications listed under Unified Soil Classification Sr S.—H,,,�,•,,,,," ,,,, •A,,w,n„�,J:,,., System, ASTM D2487.and ASTM D2488. Lw:m,."a N..,a.:n. M.+r Nw Y}t.enwJ b•••.:.: •^ C•l...III S...I.••• CJJ f.1y 1.a•<l,,,r.CI1J 0114 Mw W<, slx.+ r..l,...1.:1._...n.:..�n.•J... Te assemble, clean mating surfaces of the bell, spigot, and N...r•<. MMtN.w'11%........J«" gasket. Apply gasket lubricant (furnished by Diamond Cr .. .„1...1..1A• lh.r1.l.,m.."rt +.�ti,�;�::J•••••.'-'--•••••'-J ew W.a,I.. M,„r Nw Y.•(. Plastics Corporation) to the entire spigot end up to the silt SJ.y. 4'..Yrl•.it. n..IW.. AI.„<.b.914..1•....• ",•••••• +•-'•: M.,Nw 5lIZ I.u•nrJ.w N.. )lal.✓•. reference mark. Also, apply lubricant to the contact surface u C1ij,t,,,,,, ,.,,, AI.+.N. .t<.J.........",....•....•t•• n„.•.. of the gasket. r<. „<Nwsen,r.„w.wM.s.t•„'.. t•l.••Iv S,..1. ML In.+1w✓ ;I....q Gwr•„r1.. .1 M1+„.•.1.1 ,,.. ....�.. I.,»..,"..„ With the pipe in straight alignment, push the spigot into f0°.,It- 50 °""w""rr"1'" CL la,,y.w.la,•...14,..I..—J... bar is used to ,.1..._„,.�....11;.I... ..I,.,..... the bell up to the insertion line. If a pry 1<w.I.r. t.w+wl"^.+4r1• �•�• '" apply forcc, the pipe should be protected by placing a board kill r.�.„ •' m;s•..w„+J..°_•..•~''•••"•` "' "'' I,r„u,rra✓,Nan SIIC. kr."n..+.1•.•`•'•w.. - between the bar and the pipe. CM ,a+1wr tl.y.er ,J.„ „, r...l.. L."r J•.•"• "• If normal force does not complete the joint, disassemble the �,,,, S tL tA1w✓ Yw nI A._IJ........ t.-•.J I.... 2M I-C joint and examine the parts to make ce,;ian they are free of L.,nrm<J:+rr•A,w.J...„., L.1+•Ji.......... 01 '1•- obstructions. Visually inspect the completed joint to insure mar r••K•"+•_��✓r L fT I rub mKS al.J eJ✓r A:1nl,ngw.r wds the gasket has not been dislodged. • S.„1,Y.•.•S•IW4 iw ASTM I)2+11.t.tep IW Cl1 m.l v.al.�I..L.•J:f ml.r.♦�1 Al 11;•:I •• 1w a•v„°al,.t ww ASTM o 7417,Ic.a Nan 5%,u•.�..YIII.—< ••• 1. .,.J.nt< .•.A ASTM o'991.*-M,.„A 31. ... 17^. ra•.., N',. .... I.:.... . ..J.rl.+: 0 0...it.:t 9f Cl...II.nw„1 Cl".10 Table 5. APPROXIMATE GUIDE FOR ESTIMATED RANGE OF DEGREE OF COMPACTION VERSUS EMBEDMENT CLASS AND MET110D The haunchin- area IS most important to the support of OF PLACEMENT AS PERCENT OF STANDARD PROCTOR 4' DENSITY OR RELATIVE DENSITY* PVC pipe. For good support. !Ile haunching area' should be FOR GRANULAR MATERIALS IN P.aRENTIIESIS•^ compacted t0 the densities given In the Long Teri» CLASS OF EMBEDMENT 1 II I 111 Iv Deflection Chats. Manufxuut.l MATERIAL DESCRIPTION GrJnulm Sand 1M Gn.d Miac°-Qra,n Fine Grain/ Marcrals Soils•chin Soils Soils Figure 2 OPtim.onn .Mwccomau"nle 91, 919 b70 / /.• I-.,S of J7.a1M I T 1 /7, n<muo 1•.•:• So.•Conwl.Ja.an Methw 4 of Bonn Denzny It wgc .°�- •.'• Compacl 9r Iw.<I wnpel 95.100 95 If•? 95 too 90.100 j ,"larnlrcr (75.1«I) ,1'•aJ 1U:1 I Q n..l.0>,Urt9k 0.95 t N. � tlo 95 73.90 .•b nul (6O7S) (fo K:: t9.1. 1I11 I Cuwwl+:J.:t)w+nuow 1695 10 i! I � :1 Ily:ra:t f,UtlU :�r •.•: •.a •j—_Ill MI (it 7\ :•�:•::•a•:•:•::-:•' :•::•:'•:•:••':•• t ... c ... 1d4101 IYs r;rl I • vr''�•�v:•.tC'.vYi�•C" •• 11„,ybC „ .. :,an yq+munnr 1uWr J.'luuwX....a1, h.��. .�.•.. aiuw.J.luuu,;h.,.«~. •.<.,«.�..•.,A.;1,.J<M1n rK w.lual Jr..1n.,IW:N...r'..r,A.. ,..I t.,il.:„,;...K.1,+al.•.I. 7 be fabricated in almost any configuration. Some epoxy coated fittings include stacks and hydrants as an integral part of the fitting. Occasionally it may be necessary to connect PVC plastic pipe to steel or CA pipe. This connection can be made with a coupling called a transition or repair coupling. In-line valves can be supplied with connections to gasket pipe. Thrust blocking is required for gasket pipe. Most thrust blocks will be concrete., Manufacturers recommended thrust blocks at any change in direction greater than 100 . Figure 1 gives an example of different arrangements for thrust blocks. f •► Figure 1 . Example of different arrangements for thrust blocks . s -5- --Specifications-- 25A PERFORMANCE GUIDE (Al) 25A X 880'WATER-REEL PERFORMANCE Inches Depth of Application 320• Nelson Sprinkler System "Irrigated Travel Speed-Feet Per Hour Degree SR100 Performance Inlet AREA Preclp 3 NOL- PSI GPM i DIA PSI Width X Length 40 50 75 1 1(10 1 125 150 250 400 Rate .63" 50 75 224 76 157 X 958 1.0 0.8 0.5 0.4 0.3 0.3 0.2 0.1 0.25 (16mm) 60 83 239 89 167 X 964 1.0 0.8 0.6 0.4 0.3 0.3 0.2 0.1 0.24 Taper 70 89 249 102 174 X 967 1.1 0.9 0.5 0.4 0.3 0.3 0.2 0.1 0.24 Ring 80 95 259 114 181 X 971 1.1 0.9 0.6 0.4 0.4 0.3 0.2 0.1 0.24 .67" 50 85 231 80 162 X 951 1.1 0.9 0.6 0.4 0.4 0.3 0.2 0.1 0.27 �. (17mm) 60 94 246 94 172 X 966 1.1 0.9 0.6 0.5 0.4 0.3 0.2 0.1 0.26 Taper 70 101 259 107 181 X 971 1.2 0.9 0.6 0.5 0.4 0.3 0.2 0.1 0.25 Ring 80 108 269 121 188 X 974 1.2 1.0 0.6 0.5 0.4 0.3 0.2 0,1 0.25 .71" 50 97 240 65 168 X • 964 1.2 1.0 0.6 0.5 0.4 0.3 0.2 0.1 0.28 (18mm) 60 106 254 100 178 X 969 1.3 1.0 0.7 0.5 0.4 0.3 0.2 0.1 0.27 Taper 70 4 1 268 114 188 X 974 1.3 1.0 0.7 0.5 0.4 0.3. 0.2 0.1 0.27 Ring 80 122 278 129 195 X 977 1.3 1.1 0.7 0.5 0.4 0.4 0.1 0.1 0.26 .75" 50 110 250 92� (_175 X 968 1.3 1.1 0.7 0.5 0.4 0,4 0.2 0.1 0.29 9tgm 60 120 264 107 185 X 972 1.4 1.1 0.7 0.5 0.4 0.4 0.2 0.1 0.29 Taper 70 .130 27T 123 194 X 977 1.4 1.1 0.8 0.6 0.5 0.4 10.2 0.1 0.28 Ring 80 139 288 139 202 X 981 1.5 1.2 0.8 0.6 0.5 0.4 0.2 0.1 0.28 79" 50 123 258 99 181 X 970 1.4 1.1 0.8 0.6 0.5 0.4 0.2 0.1 0.31 (20mm) 60 135 273 117 191 X 976 1.5 1.2 0.8 0.6 0.5 0.4 0.2 0.1 0.30 Taper 70 146 285 134 200 X 980 1.5 1.2 0.8 0.6 0.5 0.4 0.2 0.2 0.30 Ring 80 1 156 297 151 1 •208 X 984 1.6 1.3 0.8 0.6 0.5 0.4 0.3 0.2 0.30 .87" 50 152 271 118 190 X 975 1.7 1.4 0.9 0.7 0.5 0.5 0.3 0.2 0.35 (22mm) 60 167 288 139 200 X 980 1.8 1.4 0.9 0.7 0.5 0.5 0.3 0.2 0.34 Taper 70 180 1 300 159 210 X 985 1.8 1.4 1.0 0.7 0.5 0.5 0.3 0.2 0.34 Ring Hours For 880 Feet of Travel: 22.0 17.6 11.7 8.8 1 7.0 5.9 3.5 2.2 System Inlet pressure shown above Is for Turbine Drives.Engine Drives will be approx 10 PSI lower. "Area covered may vary depending on wind conditions,field dimensions and use of unspecified sprinklers. The average area covered per run is 4.1 acres. The precipitation rate Is in Inches per hour and Is based on a sprinkler arc of 320 degrees. Gearbox The'System Inlet Pressure'is the pressure required at the traveler InIeL It includes allowances for the traveler plumbing and drive,PE tube and sprinkler pressure.It does not Include any pressure allowances for field elevation or mainline pressure loss. Do not use the largest IMPORTANTI Turbine drives will have higher pressure losses at higher RPM step on the and are t recommended for travels O 1 u r b I n e rite speeds above 200/bet per hour. © pulley. LHI'gheat ds above 200 FL per hour use an Engine Orive. low the belt pulley selections below. peed pulleys: Up to 75 feet per hour. Turbine speed pulleys: From 75 to 200 feet per hour. NOTE: Sp subject to change without notice. (A1)597-0154-0 --,�1)ecificatio11S-- 25A PERFORMANCE GUIDE (Al) 25A X 880'WATER-REEL PERFORMANCE Inches Depth of Application 320• Nelson Sprinkler System -Irrigated Travel Speed-Feet Per Hour Degree SR100 Performance Inlet AREA Preclp b NO2: PSI GPM DIA PSI Width X Length 9 501 75 100 125 150 250 400 n'fe .63" 50 75 224 76 157 X 958 1.0 0.8 0.5 0.4 0.3 0.3 0.2 0.1 0.25 (16mm) 60 83 239 89 167 X 964 1.0 0.8 0.6 0.4 0.3 0.3 0.2 0.1 0.24 Taper 70 89 249 192 174 X 967 1.1 0.9 0.6 0.4 0.3 0.3 0.2 0.1 0.24 Ring 80 95 259 114 181 X 971 1.1 0.9 0.6 0.4 0.4 0.3 0.2 0.1 0.24 .67" 50 85 231 80 162 X 961 1.1 0.9 0.6 0.4 0.4 0.3 0.2 0.1 0.27 (17mm) 60 94 246 94 172 X 966 1.1 0.9 0.6 0.5 0.4 0.3 0.2 0.1 0.26 Taper 70 101 259 107 181 X 971 1.2 0.9 0.6 0.5 0.4 0.3 0.2 0.1 0.25 Ring 80 108 269 121 188 X 974 1.2 1.0 0.6 0.5 0.4 0.3 0.2 0,1 0.25 .71" 50 97 240 85 168 X 964 1.2 1.0 0.6 0.5 0.4 0.3 0.2 0.1 0.28 (tamm) 60 P14 254 100 i 178 X 969 1.3 1.0 0.7 0.5 0.4 0.3 9.2 0.1 0.27 Taper 70 268 114 188 X 974 1.3 1.0 0.7 0.5 0.4 0.3 0.2 0.1 0.27 Ring 80 122 278 129 195 X 977 1.3 1.1 0.7 0.5 0.4 0.4 0.2 0.1 0.26 .75" 50 110 250 92 C175 X 968 Y 1.3 1.1 0.7 0.5 0.4 0.4 0.2 0.1 0.29 9m m 60 120 264 107 185 X 972 1.4 1.1 0.7 0.5 0.4 0.4 0.2 0.1 0.29 Taper 70 130 27T 123 194 X 977 1.4 1.1 0.8 0.6 0.5 0.4 0.2 0.1 0.28 Ring 80 139 288 139 202 X 981 1.5 1.2 0.8 0.6 0.5 0.4 0.2 0.1 0.28 .79" 50 123 258 99 181 X 970 1.4 1.1 0.8 0.6 0.5 0.4 0.2 0.1 0.31 (20mm) 60 135 273 117 191 X 976 1.5 1.2 0.8 0.6 0.5 0.4 0.2 0.1 0.30 Taper 70 146 286 134 200 X 980 1.5 1.2 0.8 0.6 0.5 0.4 0.2 0.2 0.30 Ring 80 156 297 151 208 X 984 1.6 1.3 0.8 0.6 0.5 0.4 0.3 0.2 0.30 .87" 50 152 271 118 190 X 975 1.7 1.4 0.9 0.7 0.5 0.5 0.3 0.2 0.35 (22mm) 60 167 288 139 200 X 980 1.8 1.4 0.9 0.7 0.6 0.5 0.3 0.2 0.34 Taper 70 160 300 159 210 X 985 1.8 1.4 1.0 0.7 0.6 0.5 0.3 0.2 0.34 Ring Hours For 880 Feet of Travel: 22.0 17.6 11.7 8.8 7.9 5.9 3.5 2.2 System Inlet pressure shown above is for Turbine Drives.Engine Drives will be approx 10 PSI lower. Area covered may vary depending on wind conditions,field dimensions and use of unspecified sprinklers. The average area covered per run is 4.1 acres. The precipitation rate Is in inches per hour and Is based on a sprinkler arc of 320 degrees. Gearbox The'System Inlet Pressure'Is the pressure required at the traveler Inlet.It includes allowances for the traveler plumbing and drive,PE tube and sprinkler pressure.It does not Include any pressure allowances for field elevation or mainline pressure loss. Do not use the largest IMPORTANT! Turbine drives will have higher pressure losses at higher RPM slap on the and are not recommended for travel speeds above 200 feet per hour. OHt u r o I n e ©For speeds above 200 Ft.per hour use an Engine Drive. pulley. Follow the belt pulley selections below. Ate Lowest speed pulleys: Up to 75 feet per hour. Turbine Highest speed pulleys: From 75 to 200 feet per hour. NOTE: Specifications are subject to change without notice. (A1)597-0154.0 INC 73 Of / .S c • '�. 3l f.i�gilr' a �"4'•'�ZJ �:g �T \•\\• JD y: '+�"?•,.���<,f.:--.�:a fps d � \ � ' '{ .;}' "+gyp �' � �"�•'t•�yi.•+d f �\, / V/ /�`•. • �yl,`.','�7 !`�. w't"'ai' : � „„'Ge.`.t C y -+� r�� .+'a. �DC� �'��3�� _•� � �.ry(+�J 'b.... ... i .:..�Y fC. •y�Y n.'If'�! �t: j a �... . �•• .....fir. ..s. t �Yf l r�r �iN *•• ! � ri� :. � :3 y .ram' :ir•2 1� �. \ �\ \ ; �j .� t1. 4 � �L;,, - w`!' '.,1"r�'t'ka 4.+wr >,r+ �. .`„r'•-s 7a \� �• �. �• •a r r f y,•. .:,aft r �,J � -'f �. . •z,,1 ! t n a-.�,'iC'"+tis rk• ,Do y„a #[.,,rJ -TMj f �iy % �. d A t. *.r, r 3�O�p" 4 R s >a�;raaF,s �ar � ,t •Kt^ 1 ,� �„�. � ��. ,.p 10v 7 � .. 7�� •0..i y .+J ..;.�• N r .:: '�'}.r '�, i'�.� ;�r►q �, "�.7.aMr � �cad► Y �� �t . 44 lit 'F�y � ,. ?••..•�rt',fc� ; r` y.. o '�a1C: eq,d��•�, :�► - i s �•y( �C � � .�" a.. r� rw'I:nt• K' +•,. -s.�����^`•'Xi �.�.�. t`:::.� I ♦ �,-¢rKr.JKK-� 'F ��,U�,• •�/ r A� .�q �. 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I. . -„•e9 4• r ''• i �`•}�tl •t, -',ir1, t ���Nry,�} :,�..*i�i4 !�'�1 ��.;#J !` ,+�1•�! r �` 1j, + �qp,"' r .,ar,a �y. ���f5(��'',..;71� r 4• '�� t {,L+,p�� {)�i fi:•yti���'���a�. 6.'��Vj1i R: .•3 �r� 4 } +r+ r ..♦ •�i' ���:1+11 „ ] 4�, r �! �+Ir �r \ �l, .�,. � `r�,. C: { ,.��.,j �, Xw�!•;. 15i• •°4 tt k \ p k , •nlT.� ,7. i W N � •- y �I D �y N O • N O O A 1 . 4 d .� d Operator: Rouse L.gj,)o, County:__ Date:____ ________ ________ ________ ________- 05/26/11 Dist.to nearest residence (other than owner): ft. sows (farrow to finish):=== sows (farrow to feeder):eder):___ head (finishing only):====_ ________ ________- 2448 sows (farrow to wean):====_ head (wean to feeder):====_ ________ ________- 0 Ave. Live Weight for other operations(lbs.)=> Storage volume for sludge accum. (cu. ft.):=> Treatment Volume (min. 1 cu.ft./Ib.)=======> 1.0 25 Year-24 Hour Rainfall (in.)============> 7.5 Rainfall in excess of evaporation (in.)=====> -1.0 Drainage area of buildings & lots (sq.ft.)=> Volume of wash water(gallons/day)==========> Temporary storage period (days)=============> 180 Freeboard (ft.):____________________________> 1.0 Side slopes(inside lagoon):================> 2.5 : 1 Inside top length (ft.}:____________________> 330.0 Inside top width (ft.):==___________________> 220.0 Top of dike elevation (ft.):________________> 51.s Bottom of lagoon elevation (ft.}:==_________> 40.5 Seasonal high water table(SHWT) elev.(ft.):=> 0.0 Total required volume:===== _____—__. 498910 cu. ft. Actual design volume:====== 572083 cu. ft. Stop pumping el.(> or=to 0.0 ft.SHWT)> 47.3 ft. (> or=to 46.5 ft.Min.) Required minimum treatment volume: 330480 cu. ft. Volume at stop pumping elevation: 362034 cu. ft. Start pumping elev.:________________________> 49.8 ft. Volume at start pumping elevation: 526551 cu. ft. Actual volume less 25yr-24hr rain: 526708 cu. ft. NOTE: Verify that temp. storage is adequate: Req. volume to be pumped:====> 123055 cu. ft. Actual volume to be pumped:==> 164517 cu. ft. Operator: ________ ________ ________ ________-Scott County:__ ________ ________ ________ ________=Duplin Date:____ ________ ________ ________ ________- 05/26/11 Dist.to nearest residence (other than owner): ft. sows(farrow to finish):=== sows(farrow to feeder):eder)—= head (finishing only):====_ ________ ________- 1224 sows (farrow to wean):====_ head (wean to feeder):====_ ________ ________- 0 Ave. Live Weight for other operations(lbs.)=> Storage volume for sludge accum. (cu. ft.):=> Treatment Volume (min. 1 cu. ft./Ib.)=======> 1.0 25 Year-24 Hour Rainfall (in.)===_________> 7.5 Rainfall in excess of evaporation (in.)=====> 7.0 Drainage area of buildings&lots (sq.ft.)=> Volume of wash water(gallons/day)==========> Temporary storage period (days)=============> 180 Freeboard (ft.):____________________________> 1.0 Side slopes(inside lagoon):================> 3.0 : 1 Inside top length (ft.):____________________> 130.0 Inside top width (ft.):_____________________> 330.0 Top of dike elevation (ft.):________________> 102.5 Bottom of lagoon elevation (ft.):==_________> 90.5 Seasonal high water table(SHWT) elev.(ft.):=> 0.0 Total required volume:===== ___—____- 257430 cu. ft. Actual design volume:====== 295284 cu.ft. Stop pumping el.(> or=to 0.0 ft.SHWT)> 97.9 ft. •(> or=to 96.5 ft.Min.) Required minimum treatment volume: 165240 cu. ft. Volume at stop pumping elevation: 167509 cu. ft. Start pumping elev.:________________________> 100.8 ft. Volume at start pumping elevation: 268198 cu. ft. Actual volume less 25yr-24hr rain: 268472 cu.ft. NOTE: Verify that temp. storage is adequate: Req. volume to be pumped:====> 65378 cu. ft. Actual volume to be pumped:==> 100690 cu. ft. J...I. ;. ,..�� r �• � : t i �-1 .; ; I t �rrrr j�� ' , J r.4 ! � ! ' t ' ` ' i � � ; ' i O' ! �..1 l 1. ..I ,. I i i... r 1 ! I t •j -i. ! .I ! }. 1. s , ' i , ' ! "-'�•— —� '-�— J' i V- ` r j.. .t ! l..1 i i l_ — _i. T -n•' ' ..T .a .. ' , .} ! .. .�.{'S' _i` 'I—� •. ,, .j. i _' i { � .I. a. t ... ._� .,I ;-1 ! i I. !. i y ,} �., .. •_I....},i— ^l...y.._ra— __ � — '�—..L_i....l,..`-i._!_1_i_i._ I _ .::._ _I = _.i.�_ '- _ �...Ty.y.-: -Y ' �___.�_�1::�_.�:� �.. - _.�-��.�-j.-} `a-j—. �•---i��-• '_��.� _ _, "�=�I�:1.;..,._�.{ 1 . ,j•..��__.�..T. . it « J T —( I t ! ii I � I ! T 1• i •r� i . ., y � -I � .i . . .. .,,� r i i + i...l. : .. .. r_ ••.=4 ! ' 1, i •V } � j } � � r l i i •4�rR'•'"'. i .;_.j. /t 1..1_S 1 {- ! � L.# t � 4 � ' f � `.!��i r.,l� + ., ; } 1 ' , 1 s „i I � I f...�.. . _ i14. i ,. 1. . .i Bud Rouse PAGE 2 'ADDRESS: Mt. Olive , . TYPE AND SIZE 2448 topping OPERATION CLASS 111 DESIGNED BY Jimmy Vinson DATE 4/29/91 APPROVED BY Jimmy Vinson DATE PERMANENT STORAGE 2448 Hogs x 135 | bs per ho3 1 Cu Ft per | b . 330480 Cu Ft TEMPORARY STORAGE 330480 / bs of animal x 1 .35 cu., ft. of waste per day 80307 Cu Ft per 1000 | bs of animal wt . x 180 days RAINFALL LESS EVAPORATION 7" X 72600 sq . ft . surface area per 12"per ft 42350 Cu Ft RAINFALL - 25 YR. 1 DAY STORM 7.5" X 72600 sq . ft . of surface area per 12" per ft . 45375 Cu Ft TOTAL STORAGE NEEDED 498512 Cu Ft 18463 Cu Yds � TOTAL STORAGE AVAILABLE 503550 Cu Ft 18650 Cu Yds AMOUNT OF FILL DIKE 93500 Cu Ft PAD 193500 Cu Ft --------- TOTAL 287000 Cu Ft SETTLEMENT 10% 28700 Cu Ft -~^' --------- TOTAL AMOUNT OF FILL 315700 Cu Ft 11693 Cu Yds CUT TO FILL RATIO TOTAL EXCAVATION 408083 Cu Ft 15114 Cu Yds .~�V m l T� . ' � '—� ��� J� ^ L-� ����^ e� e�s Rz (P ''l ��� ' ��.�' ^�,�r' o-�" u��m�^�o����r �� ��/����«�' ~� ��� �— m�� ^ /r NAME: Bud Reuse APPROXIMATE ANNUAL NI TR 6EN (N) AND PHOSPHORUS (P) PRODUCTION TONS OF WASTE STORED: 48].; BEFORE ANY EFFLUENT IS APPLIED TO THE LAND IT SHOULD BE ANALYZED TO DETERMINE THE EXACT NUTRIENT CONTENT. THE NCDA LABORATORY IN RAL_E I GH PERFORMS WASTE. ANALYSES. YOU SHOULD CONTACT AGRONOMIC SERVICES DIVISION NCDA, CLUE R.I.DGE ROAD CENTER RALEIGH N.C. 27611 PHONE: 919-733-2655 WHEN APPLYING THE EFFLUENT" TO CROPLAND IT SHOULD BE DISK AND A COVER CROP SEEDED OR A ROW CROP PLANTED TO PREVENT EROSION., SOME OF THE EFFLUENT COULD BE USED FOR IRRIGATION PURPOSES DURING THE GROWING SEASON. LAND REQUIREMENTS FOR WASTE APPLICATION 2448 capacity Feeder to Finish operation:: Land Avail ,. Land Required 25.0 36. 7 ac . of cropland planted to corn 0,0 : 0.8 ac . of coastal bermuclagr-ass--gr<a ed 5.0 14.2 ac . of coastal bermudagrass--Hay 5.0 29. 4 ac . of fescue--grazed 120..3 percent of land required is available 0 scow Farrow to Feeder operation: Lane Ava i I . Land Required o 0.0 ac . of cropland planted to corn it 0.0 ac . of coastal bermudagrass--grazed 0 0.0 ac . of coastal ber-mudagr-ass--hay 0 0.0 ac . of fescue--grazed ERROR percent of land required is available 0 sow Farrow to Finish operation: Land Avail . Land Required C) 0.0 ac . of cropland planted to corn fa 0.0 ac ,. of coastal bermuda.grass-.- graze-::1 C� 0.0 ac . of coastal bermudagrass-•-Hay c> 0.0 ac . of fescue-'-'grazed ERROR percent of land required is available BEGIN PUMPING THE EFFLUENT WHEN �j,,^ THE FLUID LEVEL REACHES Outlet p i Pe e l ------------------------------ Di i NOT LOWER THE FLUID ANY , LOWER THAN .0' e I . ' 14.s ------------------------------ &E EFFLUENT SHOULD BE APPLIED AT A RATE THAT WILL NOT CAUSE ANY RUNOFF ONTO i SURROUNDING AREAS OR LEACHING INTO THE GROUND WATER RECOMMENDED APPPL I C:AT I ON RATE IS 0.5 INCHES PER HOUR AND THE MAXIMUM RECOMMENDED APPLICATION AMOUNT IS 1 INCH PER I RRGAT I►iN PAGE 3 ' NAME: Bud Rouse OPERATION AND MAINTENANCE \ / is lagoon is designed for waste treatment with minimum odor control . The time required for the planned fluid level to be reached may vary due to soil conditions , flushing operations , and the amount of fresh water added to the system. Land application of waste water is recognized as an acceptable method of disposal . Irrigation by using center pivot , Sun , or traveler is the preferred and most efficient method to dispose of the effluent from the lagoon . Care should be taken when applying waste to prevent damage to the crops and to prevent runoff from the fields . The following items are to be carried out : 1 . Begin pump-out of the lagoon when fluid level reaches invert of the outlet pipes or at a pre-determined elevation . 2. Stop pump-out before the lagoon depth is less than 6 feet deep or at a pre-determined depth . (This prevents the loss of favorable bacteria) 3. The recommended amount to apply per irrigation is one inch , and maximum recommended application rate is 0.5 inch per hour . It is recommended that the treatment lagoon be precharged to �- 2 its capacity to prevent excessive odors during beginning ,ages of the operation . Prechar8in3 reduces the concentration of the initial waste entering the lagoon thereby reducing odors . Solids should be covered with water at all times . 5. Keep vegetation on the embankment and areas around the lagoon and buildings mowed . 6. Repair any~,�_'oded areas and establish in vegetation ' T. The Clean Water Act of 1977 prohibits the discharge of pollutants into waters of the United States . The Department of Environment, -Health, and Natural Resources , Wastewater Management Section , has the responsibility for enforcing this law. 8. A | | surface water is to be diverted from the } a3oon to an adequate and stable outlet . CERTIFICATION: I hereby certify that I understand the operation and maintenance requirements stated above . Furthermore , I understand how many acres are required in order to land apply the waste and that the lagoon may have to be pumped 2 or more times a year . This design has been explained to me and I agree with all provisions ted in the design . I also certify that there are no residence \ .er than mine or my tenants ' within 750 feet of this operation . i understand that compliance with this design DOES NOT prevent someone from suing me because of nuisance or other reasons . ~ Signature_�____________��__�+~=__�_-==�______ NAME: Bud Rouse PAGE 5 SEEDING SPECIFICATIONS EA TO BE SEEDED 3 AC. APPLY THE FOLLOWING 3000 LBS. 8-8-8 FERTILIZER 6 TONS DOLOMITIC LIMESTONE 300 BALES SMALL GRAIN STRAW USE THE SEED MIXTURE INDICATED (X) 150 LBS. FESCUE GRASS (X) 105 LBS. OATS ( ) 150 LBS. BAHIA GRASS < ) 12 LBS. WEEPING LOVE GRASS ( > 36 LBS. HULLED BERMUDA GRASS ( ) 60 LBS. UNHULLED 8ERMUDA GRASS DIVERT ALL WATER TO A STABLE OUTLET ��� � THE NEAREST RESIDENCE IS 1000 FT. T.B.M. 50.0 ft. ELEVATION DESCRIPTION hub set @ sta. E 0+00 ~~ VERY IMPORTANT - PLEASE READ CAREFULLY ______________________________________ ' THE LAGOON AND THE AREA AROUND THE HOG HOUSES MUST BE SEEDED WITH EITHER A TEMPORARY OR PERMANENT GRASS, DEPENDING ON THE TIME OF THE YEAR, WITHIN THIRTY (30) DAYS FROM THE TIME THE BUILDINGS ARE COM- PLETED AND READY FOR USE. (WE RECOMMEND THAT THE LAGOON AREA, SIDE SLOPES, DRAINS AND ETC. . AS WELL AS THE SIDE SLOPES OF THE PAD BE SEEDED WITHIN FIFTEEN ( 15) DAYS AFTER CONSTRUCTION. THE SOIL WILL NOT DRY OUT AS MUCH IF SEEDED WITHIN THIS TIME FRAME WHICH WILL RESULT IN A MUCH BETTER STAND OF GRASS. ) SHAPE AREA TO BE SEEDED., INCORPORATE LIME AND FERTILIZER AND PREPARE A 3" SEEDBED. SECURE MULCH AND FIRM SEEDBED WITH A DISK, CULTIPACKER, OR SIMILAR EQUIP. -NAME: Bud ROuse PAGE 6 DEPTH [AREA OF TGIF + AREA OF BOTTOM + 4 X AREA i�F MIDSECTION] VOLUME = --------- ________________ __---_-_-- 6.0 27 DEPTH C L x W + L n W + 4 X L X W 1 VOLUME - --------- _ -------------------------------------- 27 VOLUME = .__________ _______________ ___---__ 6.0 '27 VOLUME 6.0 27 503550.0 C:U. FT. VOLUME = --------- 27.0 VOLUME = 18650.0 C:U.YDS. T::.600.0 sq.ft. 498511 .6 cu. ft . needed SIDE SLOPES 2.L u 1 o JO 4A b-6 04. i It t It I IA j j t T-1 A.j t I J 7.T' �-H Of T Li 4' 4 T-T i41.- . 1-1-I -j--... 4 J I,- t av, t -f-C- 101 1 Lill- L H-14 f I IT LL I 1 • r�' f Ill [ITY LNNp . . 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N . 72 .J � c .�4zf,1 fi•7�� i • -I �.' , i }�'ry4.r' +,,, '• f r���ti+Y'� n'r"1`•f�. } � ..-i s•rf'!('1�.Y '.L+1 Y't � '� •JC' � r �;.».�•,,, ��' �..sx-a�M���'tin!r.t . r' • 4D �` �, /�•, '., ' ��t� � T✓ �tf'�i i't� - � �"''���r �"�!f � �,1����a��•nGI' _ ;•I �' Y•,� � Ry.'. > �r•� rM•,�° ..�' ,r . tit•,r ids• L x .ate "r •. •i.a>. M! - / +r:r + '� .,(- u r.• �. •yr !'�• k .d'+t i�✓J'1 �''7 1 ,s}4,J1� '�• ( �" ,;q•h"'�S'�F}, 'y, Q�':1 tfiJ ;5 [ �4�r .rd�L'�Cr.Yr^..i>�J°► tf�,CR ,'./. �r�+�'`; Animal waste lagoons are designed with permanent storage (waste treatment volume) and temporary storage . The designed 6 month temporary storage is an estimated volume based on: 1 ) waste from animals; 2) excess rainfall after evaporation; and 3) the largest 24 hour ( one ' day) rainfall that occurs on the average of once every 25 years. The volume of waste generated from a given number of animals will be fairly constant throughout the year and from year to year. The excess rainfall will vary greatly during the year and from year to year. This estimate is based on 7 inches of excess rainfall which is equal to or exceeds the highest 6 months excess in a year. The average annual excess rainfall is approximately U inches. Therefore , an average of 8 inches of excess rainfall will need to be pumped each year. The 25 year rainfall will not be a factor to consider in an annual pumping cycle, but this storage volume must always be available. A maximum elevation is determined in each design to begin pumping and this is usually the outlet invert of pipe from building( s) . If the outlet pipe is not installed on the elevation to begin pumping , a permanent marker must be installed on this elevation to indicate when Pumping should begin. After initial filling of lagoon, a minimum 6 feet depth must be maintained for anerobic treatment of waste. An elevation must be established to stop pumping to maintain the minimum treatment depth. Pumping can be started or stopped anytime between these two elevations for operating convenience so long as site conditions permit (conditions are weather, soil , crop, and equipment to apply waste to prevent runoff or leaching) . F_yX t-his lagoon the maximum elevation to begin pum2n� i5 �` feet and the minimumelevation to pump tois feet. The design temporalr��y storage, less 25 year storm is 2 cubic feet or9121Zygal Ions. As stated before, this voo l ume,5 7 will vary considerably from year to year. This lagoon is -designed to flush buildings with recycled lagoon liquid, and fresh water should not be used for flushing after initial filling. ATTACHMENT A Page 1 WASTE UTILIZATION PLAN Producer /" County Address � v /1 U E� Kind of Operation 6> /�G'/�//'✓`b 'Type of Waste Facility Your animal waste management facility has been designed for a given storage capaciy . When the waste reaches the designed level, it must be land applied at a specified rate to prevent pollution of surface and/or ground water. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops on 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 and annual soil tests are encouraged so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Several factors are important in implementing your waste utilization plan in order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner. Always apply waste based on the needs of the crop to be grown and the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. Soil types are important as they have different infiltration rates and leaching potental. Waste shall not he applied to land eroding at greater than 5 tons per acre per year. Do not apply waste on saturated soils or on land when the surface is frozen. Either of these conditions may result in runoff to surface waters. 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 not more than 30 days prior to. planti.ng.. Injecting the waste or disking will conserve nutrients and reduce odor problems. The acres needed to apply the animal waste is based on typical nutrient content for this type of facility. Acreage requirements may be more or less based on the waste analysis report from your waste management facility. The design of your waste management facility is based on the following: Amount of Waste Produced Per Year: . 24/�Canimals x ,� waste /animal/yr = L l total waste produced. U. S. Department of Agriculture NC-ENG-34 Soil Conservation Service September 1980 File Code: 210 r HAZARD CLASSIFICATION DATA SHEET FOR DAMS Landowner 3 cL �no County C)_ Community or Group No. Conservation Plan No. Estimated Depth of Water to Top of Dam Ft, Length of Flood Pool Ft. Date of Field Hazard Investigation S "(�. - 01 / Evaluation by reach of flood plain downstream to the point of estimated minor effect from sudden dam failure. . Est. Elev. :Est. Elevation . Kind of :Improvements: of Breach Reach: Length: Width: Slope: Land Use ; Improvements Above :Floodwater Above Flood Plain: Flood Plain Ft. Ft. % Ft. Ft. 2 3 . Describe potential for loss of life and amage to existing or probable futp re downstream improvements from a sudden breach vn� , G �-��/off Hazard Classification of Dam b, c) (see NEM-Part 520.21) Dam Classification pII, III , IV, V) gy S' Lr Date lien me title Concurred By Date name title NOTE: 1. Instructions on reverse side. 2. Attach additional sheets as needed. _Q POST OFFICE BOX 759 • ROSE HILL, NORTH CAROLINA 28458 FAI® (919)289-2111 December 31, 1993 Mr. Frederick Rouse Rt. 1, Box 127 Albertson, NC 28508 Re: Frederick Rouse, 1224 Head Finisher Addition Dear Mr. Rouse: I am enclosing a copy for your use of the project design and site " location for the above 1224 head finisher addition. This project was designed based on the guidelines established by the SCS office. The Waste Utilization Plan prepared by Mr. Billy Houston, Duplin County SCS, is included with this design. Please contact me at (919) -289-2111, Ext. 524 if you have comments and/or questions concerning this package. Sincerely, MURPHY FARMS, INC. 4rojn/ en es P.E. ect Engineer JRL:smw Enclosures cc: File Steve Wall (Letter Only) PHY FARh1S, INC. Page 1 P.O. Box 759 . yse Hill, NC 28458 rarm Operator: Frederick Rouse Addition Date: 12/31/93 OPERATION AND MAINTENANCE PLAN ----------------------- This lagoon is designed for waste treatment (permanent storage) with minimum odor control. The time required for the planned fluid level to be reached (permanent + temporary storage) may vary due to soil conditions, flushing operations, and the amount of fresh water added to the system. The designed 6 months temporary storage is an estimated volume based on: 1) waste from animals 2) excess rainfall after evaporation and 3) the largest 24 hour (one day) rainfall that occurs on the average of once every 25 years. �Wa volume of waste generated from a given number of animals will be fairly ►stant throughout the year and from year to year. This estimate is based on 7.0 inches of excess rainfall which is equal to or exceeds the highest 6 months excess in a year. The average annual excess rainfall is approximately 8 inches. Therefore, an average of 8 inches of excess rainfall will need to be pumped each year. The 25 year rainfall will not be a factor to consider in an annual pumping cycle, but this storage volume must always be available. A maximum elevation is determined in each design to begin pumping and this is usually the outlet invert of pipe(s) from the building(s). If the outlet pipe is not installed on the elevation to begin pumping, a permanent marker must be installed on this elevation to indicate when pumping should begin. An elevation must be established to stop pumping to maintain the minimum treatment depth of 6 feet. Pumping can be started or stopped at any time between these two elevations for operating convenience as site conditions permit, such as weather, soils, crop, and equipment in order to apply waste without runoff or leaching. Land application of waste water is recognized as an acceptable method of disposal. Methods of application include solid set, center pivot guns and traveling gun irrigation. Care should be taken when applying waste to event damage to crops. KiLJRPHY FARMS, INC. Page 2 P.O. Box 759 Rose Hill, NC 28458 Farm Operator: Frederick Rouse Addition OPERATION AND MAINTENANCE PLAN (continued) ----------------------- The following items are to be carried out: 1. It is strongly recommended that the treatment lagoon be precharged to 1/2 of its capacity to prevent excessive odors during start—up. Precharging reduces the concentration of the initial waste entering the lagoon, thereby reducing odors. Solids should be covered with effluent at all times. When precharging is complete, flush buildings with recycled lagoon liquid. Fresh water should not be used for flushing after initial filling. 2. The attached waste utilization plan shall be followed. This plan recommends sampling and testing of waste (see attachment) before land application. 3.¢�Begin pump—out of the lagoon when fluid level reaches elevation 100.50 feet (" as marked by the permanent marker. Stop pumpjo,rt of the lagoon when fluid level reaches elevation z,97.90 feet or before the fluid depth is less than -'7%40" feet deep (this prevents the loss of favorable bacteria). The designed temporary storage volume less the 25 year — 24 hour storm volume is 65,476 cubic feet or 489,759 gallons. As stated before, this volume will vary considerably from year to year. 4. The recommended maximum amount to apply per irrigation is one (1) inch and the recommended maximum application rate is 0.3 inches per hour. 5. Keep vegetation on the embankment and areas adjacent to the lagoon mowed annually. Vegetation should be fertilized as needed to maintain a vigorous stand. 6. Repair any eroded areas or areas damaged by rodents and establish in vegetation. 7. All surface runoff is to be diverted from the lagoon to stable outlets. 8. Keep a minimum of 25 feet of grass vegetated buffer around waste utilization fields adjacent to perennial streams. Waste will not be applied in open ditches. Do not pump within 200 feet of a residence or within 100 feet of a well. (" The Clean Water Act of 1977 prohibits the discharge of pollutants into waters of the United States. The Department of Environment, Health and Natural Resources, Division of Environmental Management, has the responsibility for enforcing this law. M RPH FARMS, INC. Page 1 P.O. BOX,759 Rose Hill;:NC 28458 -3 Farm Operator: Frederick Rouse Addition Date: - 12/31/93 SEEDING RECOMMENDATIONS ------------------ Acres of Fescue Grass: 0.0 Acres of Bahia Grass: 0.0 .Acres of Hulled Bermuda Grass: 0.0 Acres of Rye Grain: 3.0 Acres of Rye Grass (Temporary vegetation): 3.0 Total Area to be seeded: 6.0 Acres Use the following seed mixtures indicated: (" 0.0 ;,.Lbs. Fescue Grass @ 60 Lbs./Acre (Best suited on clayey or wet soil conditions) Seeding Dates: September 15 To November 30 0.0 Lbs. 'Pensacola' Bahia Grass @ 60 Lbs./Acre (See Footnote No. 1) Seeding Dates: March 15 to June 30 0.0 Lbs. Hulled Bermuda Grass @ 8 Lbs./Acre (Suited for most soil conditions) Seeding Dates: April 1 to July 31 90.0 Lbs. Rye Grain @ 30 Lbs./Acre (Nursery for Fescue) 120.0 Lbs. Rye Grass 9,40 Lbs./Acre (Temporary Vegetation) Seeding Dates: Deeember 1 to March 30 210.0 Total Lbs. seed mixture are required for this application MU'RPHY FARMS, INC. Page 2 P.O. Box 759 Rose Hill, NC 28458 t Farm Operator: Frederick Rouse Addition Date: - 12/31/93 SEEDING RECOMMENDATIONS (Continued) ------------------------ Apply the following to the seeded area: 6,000.0 Lbs. of 10-10-10 Fertilizer @ 1000 Lbs./Acre 12.0 Tons of Dolomitic Lime @ 2 Tons/Acre 600.0 Bales of small grain straw @ 100 Bales/Acre All surface drains should be installed prior to seeding. Shape all disturbed areas immediately after earth moving is completed. Apply lime and fertilizer, then disk to prepare a 3 to 4 inch smooth seedbed. Apply seed and firm seedbed with a cultipacker or similar equipment. Apply mulch and secure with a mulch anchoring tool or netting. Note 1: Pensacola Bahia Grass is slower to establish than common bermuda grass. When using Bahia, it is recommended that 8 Lbs./Acre of common Bermuda be included to provide cover until the Bahia Grass is established. Frederick Rouse, 1224 Finisher Addition — Duplin County Typical View of a One—Stage Lagoon System High End Pad Elevation:— 105.80 Ft. Low End Pad Elevation:_ 102.50 Ft. Confinement Top of Dike Elevation: 102.50 Ft. Building Top width: 12 Ft. Maximum Fluid Elevation:_ 101 .20 Ft. Discharge Pipe Invert Elevation:_ 100.50 Ft. Pit Treatment Lagoon 12 M Start Pumping: 100.5( pipe (Needs to be 10.70 Ft. 97.90 adequately supported) Maximum Depth: End Pumping: Water Table: 96.00 Bottom Elevation: 90.50 Ft. Inside Side Slopes: 3:1 Outside Side Slopes: 3:1 ` CERTIFICATION OF ENGINEER The undersigned, an engineer duly registered to practice under the laws of the State of North Carolina, hereby certifies that these plans and calculations entitled " Frederick Rouse Addition " a 1,224 Head, Finishing Only Farm are an accurate copy of the work to be performed on this project. These plans fully and accurately depict the layout, location and dimensions of the project site. The design volume calculations are based on the guidelines established by the United States Department of Agriculture, Soil Conservation Service. Signature: H •'' ti S''• Z'. F / . Registration No. ��y 'ado /nSEAL o�•� `, V ! • � y ' Date: l ;zl �3 �'�•,,'L '••.....•••��y s.x�a it MUflPHY FARMS, INC. page 1 P.O. BOX 759 ; tose Hill, NC 28458 Farm Operator: Frederick Rouse Addition Date: 12/31/93 SPECIFICATIONS FOR CONSTRUCTION OF WASTE TREATMENT LAGOONS ------------------------------------------ SECTION 1: CLEARING All trees and brush shall be removed from the construction area before any excavation or fill is started. Stumps will be removed within the area of the foundation of the embankment, all fill areas and all excavated areas. All All stumps and roots exceeding one (1) inch in diameter shall be removed to a minimum depth of one (1) foot below final grade. Satisfactory disposition will be made of all debris. The foundation area shall be loosened thoroughly before placement of the embankment material. The lagoon site (and pad site if needed) is to be stripped of topsoil (minimum of 3") and stockpiled for use on dike and pad slopes (finished depth of 2-3"). SECTION 2: CUT—OFF TRENCH A cut—off trench (when specified) shall be installed as shown on the plans. SECTION 3: CONSTRUCTION Construction of excavated and earthfill areas shall be performed to the neat lines and grades as planned. Deviations from this will require prior approval of the SCS. Earthfill shall be placed in a maximum of 6" lifts and shall not be placed in standing water. Compaction shall be performed by the construction equipment or by a sheeps—foot roller during placement. he embankment of the lagoon shall be installed using the more impervious materials. Construction of fill heights shall include ten (10) percent overage for settlement. MURPHY FARMS, INC. Page 1 P.O. Box 759 Rose Hill, NC 28458 Farm Operator: Frederick Rouse Addition County: Duplin Date: 12/31/93 Soil Investigation to Determine Suitability of Proposed Lagoon Site ------------------------------------- A total of two (2) soil borings were taken on this site by Billy Houston, SCS, to determine if the existing soils would be suitable for embankment material for the lagoon. All of the borings were made in the vicinity of the proposed lagoon. The benchmark elevation of 98.94 feet is located on the top of control point #3. The estimated high water table elevation = 96.0 Feet, +/— Using the Unified Classification System, the results of the borings are as follows: Boring #1: 0 Ft. — 1 Ft. — SM material (silty sand) 1 Ft. — 2 Ft. — SM,SP materials (silty sand; poorly graded sands) 2 Ft. — 4 Ft. — SM material (silty sand) 4 Ft. — 6 Ft. — SC material (clayey sands; sand—gravel mixture) 6 Ft. — 10 Ft. — SC,SM materials (clayey sands; silty sands) Boring #2: 0 Ft. — 1 Ft. — SM material (silty sand) 1 Ft. — 2 Ft. — SM,SP materials (silty sand; poorly graded sands) 2 Ft. — 6 Ft. — SC material (clayey sands; sand—gravel mixture) 6 Ft. — 10 Ft. — SC,SM materials (clayey sands; silty sands) Based on the results of these borings, ALL of the soils available on this site are suitable to be used as embankment material for the lagoon site. A suitable clay material (SC,CL) for the liner will be required. MU,RPHY'FARMS, INC. Page 2 P.O. Box 759 - Rose Hill, NC 28458 r Farm Operator: Frederick Rouse Addition Date: - 12/31/93 SPECIFICATIONS FOR CONSTRUCTION (Continued) ----------------------------- To protect against seepage, when areas of unsuitable material are encountered, they will need to be excavated to a minimum of one (1) foot below grade and backfilled and compacted with a SCS approved material (le — CL, SC, CH). Refer to the soil investigation information in the plans for special considerations. Precautions should be taken during construction to prevent excessive erosion and sedimentation. SECTION 4: VEGETATION All exposed embankment and other bare constructed areas shall be seeded `o the planned type of vegetation as soon as possible after construction according to seeding specifications sheet. EARTHWORK CALCULATIONS Total Volumes Grid cell size: 4. 23 by 4. 24 Original drawing scale: 50. 00 ft/in ----------------------------------- Project: Frederick Rouse Drawing: Pad & Lagoon #2 Number: 1224 Finisher Addition Location: Duplin County Bid Date: Engineer: John Lenfestey Owner: Frederick Rouse Estimator: ----------------------------------- ----------------------------------- Prepared by: using SITEWORK BASIC Date: 12/31/93 Time: 09:49:20 ----------------------------------- Final surface: Proposed Initial surface: Existing Tight Volumes Expansion ( % ) Expanded Volumes Cut 7812. 40 0. 00 7812. 40 Fill 5815. 21 20. 00 6978. 26 iference 1997. 19 Net Export 834. 14 All volumes are in cubic yards. t . l @ � @ � n � v V d � 0 Q(D J G4 Y1 C YU 0 O7 v 3U 4 F@ d4N 6 of c� L 0 C •. U 0: �A 0 0 J 3Y P div , 5L A A C 440 .0Y.,- CU a (U\ @ 6YU0 'U V @ •+L I 4 4 SItd1 LM p @ A\@ a N 9 @ @ '•41 Cat v^ LO-4 a••s n 0-+34 A ,.09L 41A p 1 @ @ 0LL� #! (L OL P(0 A w n . , • '........ � �� m... . .. . . a a , ; P @ ' Jn 4 ., . o . y . ..�,u @ @ .. . . .. . . .. n ......., a-• - 'm• i a d CD m , 10 d 10 10 �o a 10 m m m m v e 10 m N (A G 0• W 10 r N A U + + + ; ti mommrztiv v mE3*.,0=11 = .r3wan390 0 4 -4r Put 1 :1 313tvt4w4 w #. iji-13"' N 7 r rf Otto.-oft NT 0 103 i D Gi4 n U.-U-n 40 110 A N4 47 vNa0 Q Q 0.3 rA a '4Sr O' pe n I la 1 4 r i T+ 0,-or rt„M 4 ra0 na 370 n µ"o D r Ott tte70 3H.1 %Ja ; at vlaa aw m A I 4 DW4 0 to D 40 a 403 - Om w rt�r ti o� 0 a Y 0 3 m a (AX Ghd " WD a + N , m - A W r M r r M • b 10 a@ V 0 F) IJ U U p 0) 10 r N A U L! @ t! @ U @ LO @ fA U @ to I I I t+ m°mmrztYQ 1 : 0 *E3rorII I ft et]ddn9goo 0 • I -0- 4 9 313 t7t*r-0 r I y-•cyµ5]n N I D N 7 it 0 9,�0� A 10 10 I=NM'f Q I ¢ (44 Cr 10NQ4 .. n7 07xn -bOp • , 7�� OvipT .tRl I c m0 ]70D µµ0 I 0 0.t .1430 N.I N A : ' ; hd �� c 0 d) c 0 it m d I 3 �� DNo '00 i : @m .t rTrr I OF. M T I ° M a UI n Ow r AD q z I w �+ I -b e tr I I I Cr^osa-Sect ion Plots Digitix.ud Points Horix. acakle: 30 -Ptiin 'Jert. aculo: 3 ftiin Project: Frederick Rou.se Drawing: Pad e. Lu oon 02 NumbeNumber-:: 1224 Fin�sher Addition �yda.ti?n: Dup 1 in CountL Engineer: John Lan+oatab Owner: Frederick Rousa Estimator: Preppared bj: using SITEWORK BASIC Data: 12-131/93 Tima: 09:33:.54 111.6 C - C' 110. 1 ................................................................................................................................................................ 108.6 ............................................................................................................................................................... 107. 1 ................................................................................................................................................................. iO3.d. .................................................Pra R A sd................................................................. ... ................. 1 04. 1 ...................................................... ........ ................................................................... ............. 1 02. .................................................................................................................. .......... 101. 1 ....................................................................................................................................................... ... .... .... .... .. .... .... .. ......... .. ... ..w..., ...... . E:Wf J Stiff -.... 98. 1 ................................................................................................................................................................. 9S.d ............................................................................................................................................................... A 9�3. 1 ............................................................................................................................................................... 43.d. 249.8 7 lrionr-ation: ^45-0 Z M:lagnifica.t i•:)n: 14. Inclination: 20.0 104.00 tti titi�ti� tiAyt 4y 1 ti ti�'�ti� �S ti 102.06 100.00I.I 1 .kkfltil�SII �� ��� titi y,� � '. '� '�� � � rti_• 91 fit, ; �• �� � ��' /�^�Y�1: fir;-i.•::• •.. t.�y :�::. ;\ -!-•: :�• :':• •ter• _ 94.00 72 .0e I' 90.eel ':,•!- .'.':• --�: i•ice':;?: Lol fer Left ' :3D M*sh Surface SD hters.h Sur•fa.ee Proposed ProJa•ct: F"oder•ick P.ouso Draw inv: Pud de Ls.•aoon 02 Mu.mbe•r: 1224 Finis.hrrr Addition Location: Duplin COL-.rltW bid Ilaa.t e Ens i rloor: John Lorlfa9.t oy Ownor•: Fna-dor•ick Rouse Eut i rna.tor.- Fropal.red b.1: uF•ina SITEWORK BASIC Dr.t e: 1 2i31 i93 Timer: AS:58:48 / a . SBtc -- — �-- o .li!H paH ;iva0 St \ e 0011 Ul -1�- �yz. � , �i � / \. 4 tau .,:: �tl%� ` � .. � •, . •"... . ` , 98tc j • •.wa0 �• I N• . /' / �^ �.�•, �-.tea/fir w� J / pt RAJ •\ � �. ' oar � `,� '�\` .' N �•'r// 2 !' , 0'ti IIJJ Itt e // h - `\ • .�• 'Yi 'a a as ,Swoo 5 It LL WOO pno =Q_.. _ `,•,\ !.r \\ _ j�� \\ •\ - C Z' \ tj yy °• •S!' ��1 13331 r USI w ad •I .` ` q/�� / �' ` 062c .0£.Z9'°LL L£t 1333 000 OEE t 1 9Ec S£c '95 PCs Oporator: Frederick Rouse County: Duplin Date: 12/31/93 Distance to nearest residence (other than owner): 850.0 feet OWN 1. STEADY STATE LIVE WEIGHT 0 sows (farrow to finish) x 1417 lbs. = 0 lbs 0 sows (farrow to feeder) x 522 lbs. = 0 lbs 1,224 head (finishing only) x 135 lbs, = 165,240 lbs 0 sows (farrow to wean) x 433 lbs, = 0 lbs 0 head (wean to feeder) x 30 lbs. = 0 lbs TOTAL STEADY STATE LIVE WEIGHT (SSLW) = 165,240 lbs 2. MINIMUM REQUIRED TREATMENT VOLUME OF LAGOON Volume = 165,240 lbs. SSLW x Treatment Volume(CF)/Ib. SSLW Treatment Volume(CF)/Ib. SSLW= 1.0 CF/lb. SSLW Volume = 165,240 Cubic Feet 3. STORAGE VOLUME FOR SLUDGE ACCUMULATION Volume = 0.0 cubic feet (As per owner's request) . TOTAL DESIGN VOLUME Inside top length = 130.00 feet Inside top width = 330.00 feet Top of dike at elevation = 102.50 feet Freeboard 1.30 feet ; Side slopes 3.0 : 1 (Inside lagoon) Total design lagoon liquid level at elevation = 101.20 feet Bottom of lagoon elevation = 90.50 feet Seasonal high water table elevation = 42.50 feet Total design volume using prismoidal formula SS/END1 SS/END2 SIDE1 SIDE2 LENGTH WIDTH DEPTH 3.00 3.00 3.00 3.00 122.20 322.20 10.70 AREA OF TOP = LENGTH *WIDTH 122.20 322.20 = 39,373 SF (AREA OF TOP) AREA OF BOTTOM = LENGTH *WIDTH 58.00 258.00 — 14,964 SF (AREA OF BOTTOM) AREA OF MIDSECTION = LENGTH * WIDTH * 4 90.10 290.10 = 104,552 SF (AREA OF MIDSECTION * 4) CU. FT. = [AREA TOP + (4*AREA MIDSECTION) + AREA BOTTOM] * DEPTH/6 ( 39,373 + 104,552 + 14,964 ) * 1.78 VOLUME OF LAGOON AT TOTAL DESIGN LIQUID LEVEL = 283,352 CU. FT. 5. TEMPORARY STORAGE REQUIRED t DRAINAGE AREA: Lagoon (top of dike) Length *Width = 130.00 330.00 42,900 square feet Buildings (roof and lot water) Length *Width = 0.0 0.0 0.0 square feet TOTAL DA 42,900 square feet Design temporary storage period to be 180 days. 5A. Volume of waste produced Approximate daily production of manure in CF/LB SSLW 0.00136 Volume = 165,240 Lbs. SSLW * CF of Waste/Lb./Day * 180 days Volume = 40,451 cubic feet B. Volume of wash water This is the amount of fresh water used for washing floors or volume of fresh water used for a flush system. Flush systems that recirculate the lagoon water are accounted for in 5A. Volume = 0.0 gallons/day * 180 days storage/7.48 gallons Volume = 0.0 cubic feet per CF 5C. Volume of rainfall in excess of evaporation Use period of time when rainfall exceeds evaporation by largest amount. 180 days excess rainfall = 7.00 inches Volume = 7.00 in * DA/ 12 inches per foot Volume = 25,025 cubic feet 5D. Volume of 25 year — 24 hour storm Volume = 7.50 inches/ 12 inches per foot * DA Volume = 26,813 cubic feet TOTAL REQUIRED TEMPORARY STORAGE 5A. 40,451 cubic feet 5B. 0 cubic feet 5C. 25,025 cubic feet 5D. 26,813 cubic feet TOTAL 92,288 cubic feet 6. SUMMARY 6.1: Total required volume 257,528 cubic feet 6.1A: Total design volume avail. 283,352 cubic feet 6.2: Min. req. treatment volume plus sludge accumalation 165,240 cubic feet 6.2A: At elev. 97.90 feet ; Volume is 167,509 cubic feet (end pumping) 6.3: Total design volume less 25yr-24hr storm is 256,539 cubic feet 6.3A: At elev. 100.50 feet ; Volume is 256,440 cubic feet (start pumping) Seasonal high water table elevation 42.50 feet 7. Designed By: John Lenfestey Approved y: Date: 12/31/93 Date: j NOTE: SEE ATTACHED WASTE UTILIZATION PLAN COMMENTS: fV,JRPFiY FARMS, INC. P.O. Box 759 ose Hill, NC 28458 hone: 919-289-2111 Calculations By: John Lenfestey Operator: _____> Frederick Rouse County: ___-_> Duplin Date: _____> 12/31/93 Dist.to nearest residence (other than owner): __—__> 850 Feet Sows (farrow to finish): _____> 0 Sows (farrow to feeder): _____> 0 Head (finishing only): _____> 1,224 Sows (farrow to wean): _____> 0 Head (wean to feeder): _____> 0 Storage volume for sludge accum. (cu. ft.): __-__> 0.00 Cu. Ft. Treatment Volume (min. 1 cu. ft./lb.) —____> 1.00 Inside top length: _____> 130.00 Feet Inside top width: __—__> 330.00 Feet Top of dike at elevation: _____> 102.50 Feet Freeboard: _____> 1.30 Feet Side slopes: _____> 3.0 : 1 25 Year — 24 Hour Rainfall =____> 7.50 Feet ottom of lagoon elevation: _____> 90.50 Feet inimum Permanent Storage Depth of Lagoon: _____> 7.40 Feet i otal required volume: _____> 257,528 Cu. Ft. Total design volume avail.: _____> 283,352 Cu. Ft. Design end pumping elev.: _____> 97.90 Feet Minimum required treatment volume: ____> 165,240 Cu. Ft. Treatment vol. at end pumping avail.: ____> 167,509 Cu. Ft. Design start pumping elev.: _____> 100.50 Feet Design Vol. — 25 Yr/24 Hr Rainfall: ____> 256,539 Cu. Ft. Design vol. at start pumping elev.: _____> 256,440 Cu. Ft. Seasonal high water table elevation: _____> 42.50 NOTE: Verify that bottom of temp. storage =____> 97.90 is above water table elevation: NOTE: Verify that temp. storage is adequate: Min. required temporary volume: 92,288 Cu. Ft. Design temporary volume available: 115,843 Cu. Ft. l' F & S Farm AWS310325 System Calibration Information presented in manufacturer's charts are based on average operation conditions with relatively new equipment. Discharge rates and application rates change over time as equipment gets older and components wear. In particular, pump wear tends to reduce operating pressure and flow. With continued use, nozzle wear results in an increase in the nozzle opening which will increase the discharge rate while decreasing the wetted diameter. You should be aware that operating the system differently than assumed in the design will alter the application rate, diameter of coverage, and subsequently the application uniformity. For example, operating the system with excessive pressure results in smaller droplets, greater potential for drift, and accelerates wear of the sprinkler nozzle. Clogging of nozzles can result in pressure increase. Plugged intakes or crystallization of mainlines will reduce operating pressure. Operating below design pressure greatly reduces the coverage diameter and application uniformity. For the above reason, you should calibrate your equipment on a regular basis to ensure proper application rates and uniformity. Calibration at least once every three years is recommended. Calibration involves collecting and measuring flow at several locations in the application area. Any number of containers can be used to collect flow and determine the application rate. Rain gauges work best because they already have a graduated scale from which to read the application amount without having to perform additional calculations. However, pans, plastic buckets, jars, or anything with a uniform opening and cross-section can be used provided the liquid collected can be easily transferred to a scaled container for measuring. For stationary sprinklers, collection containers should be located randomly throughout the application area at several distances from sprinklers. For traveling guns, sprinklers should be located along a transect perpendicular to the direction of pull. Set out collection containers 25 feet apart along the transect on both sides of the gun cart. You should compute the average application rate for all nonuniformity of the application. On a windless day, variation between containers of more than 30 percent is cause for concern. You should contact your irrigation dealer or technical specialist for assistance. *Reprinted for Certification Training for Operations of Animal Waste Management Systems Manual 1 F & S Farm AWS310325 OPERATION & MAINTENANCE PLAN Proper lagoon management should be a year-round priority. It is especially important to manage levels so that you do not have problems during extended rainy and wet periods. Maximum storage capacity should be available in the lagoon for periods when the receiving crop is dormant (such as wintertime for bermudagrass) or when there are extended rainy spells such as a thunderstorm season in the summertime. This means that at the first sign of plant growth in the later winter/ early spring, irrigation according to a farm waste management plan should be done whenever the land in dry enough to receive lagoon liquid. This will make storage space available in the lagoon for future wet periods. In the late summer/ early fall the lagoon should be pumped down to the low marker (see Figure 2-1) to allow for winter storage. Every effort should be made to maintain the lagoon close to the minimum liquid level as long as the weather and waste utilization plan will allow it. Waiting until the lagoon has reached its maximum storage capacity before starting to irrigated does not leave room for storing excess water during extended wet periods. Overflow from the lagoon for any reason except a 25-year, 24-hour storm is a violation of state law and subject to penalty action. The routine maintenance of a lagoon involves the following: • Maintenance of a vegetative cover for the dam. Fescue or common bermudagrass are the most common vegetative covers. The vegetation should be fertilized each year, if needed, to maintain a vigorous stand. The amount of fertilized applied should be based on a soils test, but in the event that it is not practical to obtain a soils test each year, the lagoon embankment and surrounding areas should be fertilized with 800 pounds per acre of 10-10-10, or equivalent. • Brush and trees on the embankment must be controlled. This may be done by mowing, spraying, grazing, chopping, or a combination of these practices. This should be done at least once a year and possibly twice in years that weather conditions are favorable for heavy vegetative growth. NOTE: If vegetation is controlled by spraying, the herbicide must not be allowed to enter the lagoon water. Such chemicals could harm the bacteria in the lagoon that are treating the waste. Maintenance inspections of the entire lagoon should be made during the initial filling of the lagoon and at least monthly and after major rainfall and storm events. Items to be checked should include, as a minimum, the following: Waste Inlet Pipes, Recycling Pipes, and Overflow Pipes --look for: 1. separation of joints 2. cracks or breaks 3. accumulation of salts or minerals 4. overall condition of pipes 2 F & S Farm AWS310325 Lagoon surface --look for: 1. undesirable vegetative growth 2. floating or lodged debris Embankment -- look for: 1. settlement, cracking, or"jug" holes 2. side slope stability-- slumps or bulges 3. wet or damp areas on the back slope 4. erosion due to lack or vegetation or as a result of wave action 5. rodent damage Larger lagoons may be subject to liner damage due to wave action caused by strong winds. These waves can erode the lagoon sidewalls, thereby weakening the lagoon dam. A good stand of vegetation will reduce the potential damage caused by wave action. If wave action causes serious damage to a lagoon sidewall, baffles in the lagoon may be used to reduce the wave impacts. Any of these features could lead to erosion and weakening of the dam. If your lagoon has any of these features, you should call an appropriate expert familiar with design and construction of waste lagoons. You may need to provide a temporary fix if there is a threat of a waste discharge. However, a permanent solution should be reviewed by the technical expert. Any digging into a lagoon dam with heavy equipment is a serious undertaking with potentially serious consequences and should not be conducted unless recommended by an appropriate technical expert. Transfer Pumps --check for proper operation of: 1. recycling pumps 2. irrigation pumps Check for leaks, loose fittings, and overall pump operation. An unusually loud or grinding noise, or a large amount of vibration, may indicate that the pump is in need of repair or replacement. NOTE: Pumping systems should be inspected and operated frequently enough so that you are not completely "surprised" by equipment failure. You should perform your pumping system maintenance at a time when your lagoon is at its low level. This will allow some safety time should major repairs be required. Having a nearly full lagoon is not the time to think about switching, repairing, or borrowing pumps. Probably, if your lagoon is full, your neighbor's lagoon is full also. You should consider maintaining an inventory of spare parts or pumps. • Surface water diversion features are designed to carry all surface drainage waters (such as rainfall runoff, roof drainage, gutter outlets, and parking lot runoff) away from your lagoon and other waste treatment or storage structures. The only water that should be coming from your lagoon is that which comes from your flushing (washing) system pipes and the rainfall that hits the lagoon directly. You should inspect your diversion system for the following: 1. adequate vegetation 2. diversion capacity 3. ridge berm height 3 F & S Farm AWS310325 Identified problems should be corrected promptly. It is advisable to inspect your system during or immediately following a heavy rain. If technical assistance is needed to determine proper solutions, consult with appropriate experts. You should record the level of the lagoon just prior to when rain is predicted, and then record the level again 4 to 6 hours after the rain (assumes there is no pumping). This will give you an idea of how much your lagoon level will rise with a certain rainfall amount (you must also be recording your rainfall for this to work). Knowing this should help in planning irrigation applications and storage. If your lagoon rises excessively, you may have an overflow problem from a surface water diversion or there may be seepage into the lagoon from the surrounding land. Lagoon Operation Startup: 1. Immediately after construction establish a complete sod cover on bare soil surfaces to avoid erosion. 2. Fill new lagoon design treatment volume at least half full of water before waste loading begins, taking care not to erode lining or bank slopes. 3. Drainpipes into the lagoon should have a flexible pipe extender on the end of the pipe to discharge near the bottom of the lagoon during initial filling or another means of slowing the incoming water to avoid erosion of the lining. 4. When possible, begin loading new lagoons in the spring to maximize bacterial establishment (due to warmer weather). 5. It is recommended that a new lagoon be seeded with sludge from a healthy working swine lagoon in the amount of 0.25 percent of the full lagoon liquid volume. This seeding should occur at least two weeks prior to the addition of wastewater. 6. Maintain a periodic check on the lagoon liquid pH. If the pH falls below 7.0, add agricultural lime at the rate of 1 pound per 1000 cubic feet of lagoon liquid volume until the pH rises above 7.0. Optimum lagoon liquid pH is between 7.5 and 8.0. 7. A dark color, lack of bubbling, and excessive odor signals inadequate biological activity. Consultation with a technical specialist is recommended if these conditions occur for prolonged periods, especially during the warm season. Loading: The more frequently and regularly that wastewater is added to a lagoon, the better the lagoon will function. Flush systems that wash waste into the lagoon several times daily are optimum for treatment. Pit recharge systems, in which one or more buildings are drained and recharged each day, also work well. 4 F & S Farm AWS310325 • Practice water conservation --- minimize building water usage and spillage from leaking waterers, broken pipes and washdown through proper maintenance and water conservation. • Minimize feed wastage and spillage by keeping feeders adjusted. This will reduce the amount of solids entering the lagoon. Management: • Maintain lagoon liquid level between the permanent storage level and the full temporary storage level. • Place visible markers or stakes on the lagoon bank to show the minimum liquid level and the maximum liquid level. (Figure 2-1). • Start irrigating at the earliest possible date in the spring based on nutrient requirements and soil moisture so that temporary storage will be maximized for the summer thunderstorm season. Similarly, irrigate in the late summer / early fall to provide maximum lagoon storage for the winter. • The lagoon liquid level should never be closer than 1 foot to the lowest point of the dam or embankment. • Don not pump the lagoon liquid level lower than the permanent storage level unless you are removing sludge. • Locate float pump intakes approximately 18 inches underneath the liquid surface and as far away from the drainpipe inlets as possible. • Prevent additions of bedding materials, long-stemmed forage or vegetation, molded feed, plastic syringes, or other foreign materials into the lagoon. • Frequently remove solids from catch basins at end of confinement houses or wherever they are installed. • Maintain strict vegetation, rodent, and varmint control near lagoon edges. • Do not allow trees or large bushes to grow on lagoon dam or embankment. • Remove sludge from the lagoon either when the sludge storage capacity is full or before it fills 50 percent of the permanent storage volume. • If animal production is to be terminated, the owner is responsible for obtaining and implementing a closure plan to eliminate the possibility of a pollutant discharge. Sludge Removal: Rate of lagoon sludge buildup can be reduced by: 5 F & S Farm AWS310325 • proper lagoon sizing, • mechanical solids separation of flushed waste, • gravity settling of flushed waste solids in an appropriately designed basin, or • minimizing feed wastage and spillage. Lagoon sludge that is removed annually rather than stored long term will: • have more nutrients, • have more odor, and • require more land to properly use the nutrients. Removal techniques: • Hire a custom applicator. • Mix the sludge and lagoon liquid with a chopper-agitator impeller pump through large -bore sprinkler irrigation system onto nearby cropland; and soil incorporate. • Dewater the upper part of lagoon by irrigation onto nearby cropland or forageland; mix remaining sludge; pump into liquid sludge applicator; haul and spread onto cropland or forageland; and soil incorporate. • Dewater the upper part of lagoon by irrigation onto nearby cropland or forageland; dredge sludge from lagoon with dragline or sludge barge; berm an area beside lagoon to receive the sludge so that liquids can drain back into lagoon; allow sludge to dewater; haul and spread with manure spreader onto cropland or forageland; and soil incorporate. Regardless of the method, you must have the sludge material analyzed for waste constituents just as you would your lagoon water. The sludge will contain different nutrient and metal values from the liquid. The application of the sludge to fields will be limited by these nutrients as well as any previous waste applications to that field and crop requirement. Waste application rates will be discussed in detail in Chapter 3. When removing sludge, you must also pay attention to the liner to prevent damage. Close attention by the pumper or drag-line operator will ensure that the lagoon liner remains intact. If you see soil material or the synthetic liner material being disturbed, you should stop the activity immediately and not resume until you are sure that the sludge can be removed without liner injury. If the liner is damaged it must be repaired as soon as possible. Sludge removed from the lagoon has a much higher phosphorus and heavy metal content than liquid. Because of this it should probably be applied to land with low phosphorus and metal levels, as indicated by a soil test, and incorporated to reduce the chance of erosion. Note that if the sludge is applied to fields with very high soil-test phosphors, it should be applied only at rates equal to the crop removal of phosphorus. As with other wastes, always have your lagoon sludge analyzed for its nutrient value. 6 F & S Farm AWS310325 The application of sludge will increase the amount of odor at the waste application site. Extra precaution should be used to observe the wind direction and other conditions which could increase the concern of neighbors. Possible Causes of Lagoon Failure Lagoon failures result in the unplanned discharge of wastewater from the structure. Types of failures include leakage through the bottom or sides, overtopping, and breach of the dam. Assuming proper design and construction, the owner has the responsibility for ensuring structure safety. Items which may lead to lagoon failures include: • Modification of the lagoon structure -- an example is the placement of a pipe in the dam without proper design and construction. (Consult an expert in lagoon design before placing any pipes in dams.) • Lagoon liquid levels-- high levels are a safety risk. • Failure to inspect and maintain the dam. • Excess surface water flowing into the lagoon. • Liner integrity -- protect from inlet pipe scouring, damage during sludge removal, or rupture from lowering lagoon liquid level below groundwater table. NOTE: If lagoon water is allowed to overtop the dam, the moving water will soon cause gullies to form in the dam. Once this damage starts, it can quickly cause a large discharge of wastewater and possible dam failure. 7 F & S Farm AWS310325 EMERGENCY ACTION PLAN PHONE NUMBERS DIVISION OF WATER QUALITY (DWQ) 910-796-7215 EMERGENCY MANAGEMENT SERVICES (EMS) 910-296-2160 SOIL AND WATER CONSERVATION DISTRICT (SWCD) 910-296-2120 NATURAL RESOURCES CONSERVATION SERVICE (NRCS) 910-296-2121 COOPERATIVE EXTENSION SERVICE (CES) 910-296-2143 This 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 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 dam. b) Pump wastes to fields at an acceptable rate. c) Stop all flow 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 cause 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) Close valves to eliminate further discharge. d) Repair all leaks prior to restarting pumps. D. Leakage from flush systems, houses, solid separators-action include: a) Stop recycle pump. b) Stop irrigation pump. c) Make sure siphon occurs. d) Stop all flow in the house,flush systems,or solid separators. 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 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 fill holes and compact with a clay type soil. 8 F & S Farm AWS310325 c) Have a professional evaluate the condition of the side walls and the lagoon bottom as soon as possible. 2. Assess the extent of the spill and note any obvious damages. a. Did the waste reach surface waters? b. Approximately how much was released and for what duration? c. Any damage notes, such as employee injury, fish kills, or property damage? d. Did the spill leave the property? e. Does the spill have the potential to reach surface waters? f. Could a future rain event cause the spill to reach surface waters? g. Are potable water wells in danger(either on or off the property)? h. How much reached surface waters? 3. Contact appropriate agencies. a. During normal business hours call your DWQ regional office; Phone #, After hours, emergency number: (919) 733-3942. Your phone call should include: your name, facility number, telephone number, the details of the incident from item 2 above, the exact location of the facility, the location or direction of the movement of the spill, weather and wind conditions. The corrective measures that have been under taken, and the seriousness of the situation. b. If the spill leaves property or enters surface waters, call local EMS phone number. c. Instruct EMS to contact local Health Department. d. Contact CE's phone number, local SWCD office phone number and the 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 the person to contact the proper agencies for you. 5. Contact the contractor of your choice to begin repair or problem to minimize offsite damage. a. Contractors Name: Agriment services,Inc. b. Contractors Address: Po Box 1096, Beulaville,NC 28518 c . Contractors Phone: (252)568-2648 6. Contact the technical specialist who certified the lagoon (NRCS, Consulting Engineer, etc.) a. Name: Geno Kennedy b. Phone: (910)289-0395 7. 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. 9 F & S Farm AWS310325 INSECT CONTROL CHECKLIST FOR ANIMAL OPERATIONS Source Cause BMP's to Minimize Odor Site Specific Practices (Liquid Systems) Flush Gutters Accumulation of solids (V)Flush system is designed and operated sufficiently to remove accumulated solids from gutters as designed. Remove bridging of accumulated solids at discharge _Lagoons and Pits Crusted Solids ( )Maintain lagoons,settling basins and pits where pest breeding is apparent to minimize the crusting of solids to a depth of no more than 6-8 inches over more than 30%of surface. Excessive Decaying vegetation(✓)Maintain vegetative control along banks of Vegetative Growth lagoons and other impoundment's to prevent accumulation of decaying vegetative matter along water's edge on impoundment's perimeter. (Dry Systems) Feeders Feed Spillage () Design,operate and maintain feed systems(e.g.. bunkers and troughs)to minimize the accumulation of decaying wastage. () Clean up spillage on a routine basis(e.g.7-10 day interval during summer; 15-30 day interval during winter). Feed Storage Accumulation of feed () Reduce moisture accumulation within and around residues immediate perimeter of feed storage areas by insuring drainage away from site and/or providing adequate containment(e.g.,covered bin for brewer's grain and similar high moisture grain products). () Inspect for and remove or break up accumulated solids in filter strips around feed storage as needed. Animal Holding Accumulation of animal () Eliminate low area that trap moisture along fences Areas wastes and feed wastage and other locations where waste accumulates and disturbance by animals is minimal. () Maintain fence rows and filter strips around animal holding areas to minimize accumulations of wastes (i.e.inspect for and remove or break up accumulated solids as needed). MIC—November 11,1996 10 F & S Farm AWS310325 Dry Manure Handling Accumulations of animal ()Remove spillage on a routine basis(e.g.7-10 day Systems wastes interval during summer; 15-30 days interval during winter)where manure is loaded for land application or disposal. ()Provide for adequate drainage around manure stockpiles ()Inspect for and remove or break up accumulated wastes in filter strips around stockpiles and manure handling areas as needed. The issues checked (vf pertain to this operation. The landowner/ integrator agrees to use sound judgment in applying insect control measures as practical. I certify the aforementioned insect control Best Management Practices have been reviewed with me. andowner Signature) For more information contact the Cooperative Extension Service, Department of Entomology, Box 7613, North Carolina State University, Raleigh, NC 27695-7613. AMIC-- November 11, 1996 11 F & SFarm Swine Farm Waste Management — Odor Control Checklist Permit No.: AWS310325 Date: 2/ /2024 INSTRUCTIONS FOR USE Owner Signature: ♦ Odor Control Checklist is required by General Statute 143-215.10C(e)(1) ♦ Check any/all the BMPs you will implement on this facility. Items checked/selected become a requirement of the CAWMP. ♦ Items in bold or pre-selected are required. ♦ Add any site-specific details related to the selected BMPs ♦ Include any other odor control measures not listed ♦ NOTE: Not all BMPs may be cost-effective for every facility. Evaluate each BMP prior to selecting for your facility. Cause/Source BMP Option to Minimize Odor Comments Site Specific Practices FARMSTEAD ♦ Swine Production Maintain vegetative or wooded buffers at or •Traps dust and gases, provides dilution near property boundary and visual screening • May require third party input/approval ♦ Improper drainage ■❑ Grade and landscape so water drains away • Reduce odors and vectors that occur from facilities and prevent ponding with stagnant conditions ❑Q Maintain farm access roads and prevent traffic • Prevents spillage during transport and in waste application area tracking of waste onto public roads ❑ Other BMPs—please describe MORTALITY MANAGEMENT ♦ Carcass ® Dispose of mortality using method approved • Required by statute and permit Decomposition by NCDA&CS State Veterinarian. Manage • May require third party input/approval According to CAWMP(Mortality Management Checklist)and permit(s). ❑ Put carcasses in refrigerated (or freezer) dead boxes within 24 hours for short-term mortality storage. ♦ Incomplete Incineration ❑ Use incinerators with secondary burners for • Reduce odors by complete incineration complete combustion. ❑ Other BMPs—please describe Swine AMOC Page 1 of 6 APPROVED—7/25/2019 F & S Farm Swine Farm Waste Management— Odor Control Checklist Permit No.: AWS310325 Cause/Source BMP Option to Minimize Odor Comments Site Specific Practices HOUSE/BARN—WASTE HANDLING ♦ Flush tanks ❑ Install flush tank covers • Pit-flush systems ♦ Odorous Gases ❑■ Flush pits at least 4 times per day • Pit-flush systems ♦ Partial microbial ❑ Empty pits at least once every 7 days • Pit-recharge or"pull-plug" systems decomposition ❑ Underfloor flush with pit ventilation ♦ Agitation of wastes ❑ Install/extend fill lines to near bottom of tanks with anti-siphon vents ❑ Install covers on outside waste collection or junction box ❑ Install sump tank covers for lift stations ♦ Ammonia ❑ Flush/recharge with treated effluent ❑ Treat waste in pits with proven biological or • Monitor for any solids accumulation in pit chemical additive ❑ Other BMPs—please describe HOUSE/BARN—FLOOR AND INDOOR SURFACES ♦ Manure covered floors ❑ Scrape manure from alleys into pens daily • Will move with other manure via pits ❑■ Install fully slotted floor system ❑■ Install waterers over slotted floor area ❑ Install feeders at high end of solid floors • Where applicable ♦ Odorous Gases ❑■ Scrape manure buildup from floors and walls •Aids in animal cleanliness ❑ Keep floors dry •Aids in animal cleanliness ❑ Install underfloor ventilation for drying ❑ Replace bedding/scrape at frequency to • Solid floor/bedding systems keep bedding dry ❑ Other BMPs—please describe Swine AMOC Page 2 of 6 APPROVED—7/25/2019 F & SFarm Swine Farm Waste Management — Odor Control Checklist Permit No.: AWS310325 Cause/Source BMP Option to Minimize Odor Comments Site Specific Practices HOUSE/BARN—VENTILATION ♦ Dust 0 Clean fans regularly—specify frequency ♦ Volatile/odorous gases no Efficient air movement ❑ Install temperature and humidity sensors to control ventilation ❑ Treat barn exhaust • Examples: biofilters,wet scrubbing,windbreaks • May reduce ventilation rate depending on method ❑ Other BMPs—please describe HOUSE/BARN—FEED ♦ Dust ❑ Install feed covers ♦ Adsorbed Gases ® Keep outdoor feed storage covered except • Required by rule 15A NCAC 02D .1802 When necessary to add/remove feed ❑ Minimize free-fall height of dry feed ❑ Install feed delivery downspout extenders to the feed covers ❑ Remove spoiled/unusable feed on regular basis ❑ Feed pellets instead of dry meal • May require third party input/approval ❑ Use feed additives • May require third party input/approval ♦ Ammonia ❑ Use feed-reduced crude protein diet • May require third party input/approval ❑ Other BMPs—please describe HOUSE/BARN—GENERAL ♦ Dust ❑ Install temperature and humidity sensors • Maintain relative humidity at 40 to 65% ♦ Odorous Gases to control ventilation ❑ Use ultraviolet light to treat indoor air ❑ Use indoor or outdoor electrostatic space • Can be used to treat exhaust air charge system ❑ Other BMPs—please describe Swine AMOC Page 3 of 6 APPROVED—7/25/2019 F & S Farm Swine Farm Waste Management —Odor Control Checklist Permit No.: AWS310325 Cause/Source BMP Option to Minimize Odor Comments Site Specific Practices LAGOON/WASTE STORAGE STRUCTURE ♦ Volatile Gases ® Maintain proper lagoon volume •Sufficient liquid volume/depth is required for proper anaerobic treatment ❑ Minimize free-fall height of waste from discharge pipe to lagoon surface ❑ Extend discharge point of pipe to below lagoon • Use caution not to scour or damage lagoon liner liquid level ❑ Maintain proper surface area-to-volume ratio ❑■ Use correct lagoon start-up procedures ❑ Aerate for odor control ® Manage sludge levels based on annual sludge survey as required by permit ❑ Keep spilled feed or foreign debris out of lagoon to prevent excess sludge accumulation ❑ Install/use solids separation system ❑ Use proven biological or chemical additives • Monitor for any increase in rate of solids accumulation ❑ Use permeable lagoon covers (not a digester) ❑ Use impermeable lagoon cover or • Methane can be flared if not utilized anaerobic digester ❑ Other BMPs—please describe LAND APPLICATION ♦ Odorous gases ® Perform land application in accordance with CAWMP ♦ Wind drift ® Pump intake near lagoon surface • Required by rule 15A NCAC 02D.1802 ❑ Pump from second stage lagoon ❑ Follow good neighbor policy .Avoid application on known weekends, special days, or holidays/eves if possible ❑Q Operate at minimum recommended pressure ❑ Increase setbacks beyond those required by statute, rule, or permit Swine AMOC Page 4 of 6 APPROVED—7/25/2019 F & SFarm Swine Farm Waste Management— Odor Control Checklist Permit No.: AWS310325 Cause/Source BMP Option to Minimize Odor Comments Site Specific Practices LAND APPLICATION (CONTINUED) M Apply during favorable wind conditions, • Recommend checking predicted average hourly (especially for traveling guns or impact wind speed within 24 hours prior to sprinklers) anticipated start ❑ When practical,apply waste on sunny days •Allows for vertical dissipation of odor rather than cool,overcast days ❑ When possible,apply waste mid-morning to •Allows for better vertical dissipation of odor late-afternoon ❑ For traveling guns, use taper-ring or taper-bore • Less odor and drift than ring nozzles nozzles ❑ For traveling guns, use largest-available nozzle that provides acceptable application uniformity ❑ Replace impact sprinklers with low-drift nozzles on center pivots and linear move systems. ❑ Use hose-drag system ❑ Use injection method for waste application ❑ Other BMPs—please describe SLUDGE DISPOSAL ♦ Odorous gases ❑ Transport sludge in covered vehicles or tankers ❑ Apply in thin, uniform layers • Speeds drying and prevents ponding ❑ Incorporate land-applied sludge as soon as • Required within 48 hours or prior to next rain event, practical after application, and in accordance whichever is first,for conventionally tilled with permit. bare soils ❑ Use injection method for sludge application ❑ Dewater sludge prior to application ❑ Use alternatives to land application, such as compost,gasification,energy generation, etc. ❑ Other BMPs—please describe Swine AMOC Page 5 of 6 APPROVED—7/25/2019 ADDITIONAL INFORMATION AVAILABLE FROM: Air Management Practices Assessment Tool (AMPAT) www.extension.iastate.edu/ampat/ AHG-538-A Certification Training for Animal Waste Management Systems:Type A NC Division of Water Resources EBAE 103-83—Lagoon Design and Management for Livestock Manure Treatment and Storage www.bae.ncsu.edu EBAE 128-88—Swine Production Facility Manure Management: Pit Recharge-Lagoon Treatment www.bae.ncsu.edu EBAE 129-88—Swine Production Facility Manure Management: Underfloor Flush-Lagoon Treatment www.bae.ncsu.edu EBAE Fact Sheet—Calibration of Manure and Wastewater Application Equipment www.bae.ncsu.edu EBAE Fact Sheet—Swine Production Farm Potential Odor Sources and Remedies www.bae.ncsu.edu NC NRCS Standard 359—Waste Treatment Lagoon www.nres.udsa.gov NC NRCS Standard 380—Wind brea k/Shelterbelt Establishment www.nres.udsa.gov NC NRCS Standard 422—Hedgerow Planting www.nres.udsa.gov NC NRCS Standard 442—Sprinkler System www.nres.udsa.gov Nuisance Concerns in Animal Manure Management:Odors and Flies; PRO107 1995 Conference Proceedings Florida Cooperative Extension Service Options for Managing Odor:A Report from the Swine Odor Task Force NC State University Swine AMOC Page 6 of 6 APPROVED—7/25/2019 Version—November 26,2018 • Mortality Management Methods Indicate which method(s) will be implemented. When selecting multiple methods indicate a primary versus secondary option. Methods other than those listed must be approved by the State Veterinarian. Primary Secondary Routine Mortality Burial three feet beneath the surface of the ground within 24 hours of knowledge of animal death. The burial must be at least 300 feet from any flowing stream or public body of water (G.S.106-403). The bottom of the burial pit should beat least one foot above the seasonal high water table.Attach burial location map and plan. Landfill at municipal solid waste facility permitted by NC DEQ under GS 15A NCAC 13B .0200. ® Rendering at a rendering plant licensed under G.S. 106-168.7. ® Complete incineration according to 02 NCAC 52C .0102. QA composting system approved and permitted by the NC Department of Agriculture&Con- sumer Services Veterinary Division(attach copy of permit). If compost is distributed off-farm, additional requirements must be met and a permit is required from NC DEQ. a In the case of dead poultry only, placing in a disposal pit of a size and design approved by the NC Department of Agriculture&Consumer Services (G.S. 106-549.70). Any method which, in the professional opinionmof the State Veterinarian, would.make possible the salvage of part of a dead animal's value without endangering human or animal health. (Written approval by the State Veterinarian must be attached). Mass Mortality Plan Mass mortality plans are required for farms covered by an NPDES permit. These plans are also recommended for all animal operations. This plan outlines farm-specific mortality man- agement methods to be used for mass mortality. The NCDA&CS Veterinary Division sup- ports a variety of emergency mortality disposal options; contact the Division for guidance. • A catastrophic mortality disposal plan is part of the facility's CAWMP and is activated when numbers of dead animals exceed normal mortality rates as specified by the State Veterinarian. • Burial must be=done in accordance with NC General Statutes and NCDA&CS Veterinary Division regulations and guidance. • Mass burial sites are subject to additional permit conditions(refer to facility's animal waste management system permit). • In the event of imminent threat of a disease emergency,the State Veterinarian may enact additional temporary procedures or measures for disposal according to G.S. 106-399.4. Signature of Farm Owner/Manager Date &'01Z� 3 Signature of chnical Specialist Date