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Home My WebLink AboutAQ_F_0800102_20210817_EI_Cmb-EI-File 2020 Emissions Inventory Review / Data Tracking Form Facility Name: East Carolina Regional Solid Waste Landfill Facility ID: 0800102 Facility Assigned to: Data Entry: Bertie County Classification: Kurt Tidd KT Confidential Copy Submitted? Title V ❑YES ❑NO Initial Review/Data Entry E& Enter date received into ED. Date Received: C.13 0 zav lR Assigned to appropriate individual. Date Assigned: G U 17,0041 Date Due: ® Paper copy submitted: One copy received with supporting documentation,certification form signed by responsible official,and appears generally complete;OR A] Electronic copy submitted: All supporting documentation and certification form(with time/date stamp)signed by responsible official has been received. Comments: Inventory Review All forms and supporting documentation appear to be complete if paper submission(check ED OS data if electronic). ��All ontact,address,phone number changes entered into I-Beam/Facilities if necessary. known operating scenarios,control devices,and emission release points have been entered for each emission urce(permitted,insignificant,and unpermitted)or note that the emission source was not operated or not required to report. 12heck if SCC codes for each OS are accurate and update if needed. OV Evaluate"U"sources for significance and address according to policy. Valculations/forms appear to add up correctly. [Ir All compliance issues are being addressed(e.g.Toxics limits,above TV thresholds, large emissions crease/decrease, installation without a permit). V11 volatile HAPs/TAPS were included in the VOC total. Calculations and control efficiencies appear correct. Emission factors are the best available and most current factors appropriate for the reporting facility(e.g. stack testing,AP-42,etc.). eview facility comments and address any issues. Update ED(Data Entry Main)if additional information is required(corrections due date and date received). 4P check all ED QA/QC reports. Comparison with previous emission inventory must be made and outliers(> 10%)must be investigated and explained. i�t inventory review comments and summarize any changes in ED-Data Entry Main"DAQ internal comments". Date Info Requested: Date Info Received: Total Days on Hold: Date Review Complete: l7 19- Signature: Date Submitted to EI Coordinator: Date Approved: (7p/ Initials: East Carolina Regional Landfill. 1.Changes in emission related to throughput of facility. 2. All SCC codes okay. 3. AP-42 emission factors used. 4. Facility added a third leachate storage tanks, no changes in emissions from the addition. Facility Total CY 2020 Emission Summary Recorded in ED Facility ID#: 0800102 Facility Name: East Carolina Regional Solid Waste Landfill Permit#(s): 08849T08 Green House Gases Pollutants(GHG) Actual Emissions Tons/Yr Pollutant CAS Demini- Change mus Not Not N/A Reported Reported CO2 equivalent(sum of individual GHG pollutant emission No GHGs times their 1995 IPCC Global Warming Potential (GWP), Reported converted to metric tons) Criteria Pollutants Actual Emissions (Tons/Year) Pollutant CAS CY 2020 CY 2019 Demini- % from ED from Fees mus Change CO CO 119.37 120.27 0.5 -0.7% NOx NOx 32.69 32.90 0.5 -0.6% PM(TSP) TSP 6.31 6.36 0.5 -0.8% PM 10 PM10 6.31 6.36 0.5 -0.8% PM2.5 PM2.5 6.31 6.36 0.5 -0.8% S02 SO2 6.19 6.27 0.5 -1.3% VOC VOC 13.04 11.45 0.5 13.9 Hazardous Air Pollutants (HAPs) Actual Emissions and/or Toxic Air Pollutants (TAPS) (Pounds/Year) Pollutant CAS CY 2020 CY 2019 Demini- % from ED from Fees mus Change Manganese& compounds 101.00 101.00 10.0 I 0.0% Manganese Unlisted Compounds - Specify Compound MNC-Other 101.00 101.00 10.0 0.0% (Component of MNC) Mercury & Compounds-all total mass includes Hg Vapor 0.070000 0.291000 0.001 1 -75.9% Mercury, vapor(Component of HGC) 7439-97-6 0.070000 0.291000 0.001 1 -75.9% Total Reduced Sulfur(TRS as total mass) 1,014.67 882.17 115.0% Hydrogen sulfide 7783-06-4 941.81 818.83 1.0 15.0% Methyl mercaptan 74-93-1 72.86 63.34 1.0 15.0% Acetaldehyde 75-07-0 2.40 2.40 10.0 0.0% 08/18/2021 Page 1 of 3 Facility Total CY 2020 Emission Summary Recorded in ED Facility ID#: 0800102 Facility Name: East Carolina Regional Solid Waste Landfill Permit#(s): 08849T08 Hazardous Air Pollutants (HAPs) Actual Emissions and/or Toxic Air Pollutants (TAPS) (Pounds/Year) Pollutant Cps CY 2020 CY 2019 Demini- % from ED from Fees mus Change Acrolein 107-02-8 0.300000 0.300000 10.0 0.0% Acrylonitrile 107-13-1 2.24 1.94 10.0 15.5% Benzene 71-43-2 92.51 80.85 1.0 14.4% Butadiene, 1,3- 106-99-0 0.100000 0.100000 1.0 0.0% Carbon disulfide 75-15-0 28.55 24.78 10.0 15.2% Carbon tetrachloride 56-23-5 1.40 1.24 1.0 12.9% Carbonyl sulfide 463-58-1 12.88 11.20 1.0 15.0% CFC-12 (Dichlorodifluoromethane) 75-71-8 275.70 243.52 100.0 13.2'%„ Chlorobenzene 108-90-7 33.27 29.39 10.0 13.2 Chloroform 67-66-3 326 2.88 100.0 13.2'%, Dichlorobenzene(p), 1,4- 106-46-7 307.62 271.69 1.0 13.2'7, Ethyl benzene 100-41-4 845.45 735.14 100.0 I5.0% Ethyl chloride(chloroethane) 75-00-3 20.08 17.74 10.0 13.2% Ethyl mercaptan 75-08-1 98.75 85.85 10.0 15.0% Ethylene dibromide (dibromoethane) 106-93-4 1 125 9.94 1.0 13.2% Ethylene dichloride (1,2-dichloroethane) 107-06-2 15.47 13.65 1.0 13.3% Ethylidene dichloride (1,1-dichloroethane) 75-34-3 95.51 84.36 100.0 13.2'Yo Formaldehyde 50-00-0 3.60 3.60 10.0 0.0% Hexane, n- 110-54-3 234.75 204.09 100.0 1 i.0(vo Hydrogen chloride (hydrochloric acid) 7647-01-0 4,216.96 5,918.32 100.0 -28.7% MEK(methyl ethyl ketone, 2-butanone) 78-93-3 929.19 812.67 100.0 14.3% Methyl chloride (chloromethane) 74-87-3 16.37 14.46 1.0 13.2% Methyl chloroform 71-55-6 29.18 25.78 100.0 13.2 Methylene chloride 75-09-2 375.84 332.01 1.0 13.2% MIBK(methyl isobutyl ketone) 108-10-1 88.66 77.17 10.0 14.9% Perchloroethylene (tetrachloroethylene) 127-18-4 257.62 227.56 100.0 13.2"G, 08/18/2021 Page 2 of 3 Facility Total CY 2020 Emission Summary Recorded in ED Facility ID#: 0800102 Facility Name: East Carolina Regional Solid Waste Landfill Permit#(s): 08849T08 Hazardous Air Pollutants(HAPs) Actual Emissions and/or Toxic Air Pollutants (TAPS) (Pounds/Year) Pollutant CAS CY 2020 CY 2019 Demini- 0% from ED from Fees mus Change Polycyclic Organic Matter(Inc PAH, dioxins,etc.NC pom 74.10 74.10 1 .0 0.0% &AP 42 historic) Propylene dichloride (1,2-dichloropropane) 78-87-5 3.39 2.99 10.0 13.4% TCE(trichloroethylene) 79-01-6 116.53 102.93 1,000.0 13.2% Tetrachloroethane, 1,1,2,2- 79-34-5 15.30 13.52 100.0 13.2% Toluene 108-88-3 2,746.61 2.388.37 100.0 15.0% Vinyl chloride 75-01-4 87.65 77.43 0.1 13.2% Vinylidene chloride 75-35-4 11.61 10.26 0.1 13.2% Xylene (mixed isomers) 1330-20-7 2,065.78 1.796.33 100.0 l5.11 Largest Individual HAP Hydrogen chloride(hydrochloric acid) 4,216.96 lbs Total HAP Emissions 11,917.31 lbs Largest Individual CAP CO 119.37 tons Total CAP Emissions 177.60 tons Total TAP Emissions 12,892.14 lbs Total Aggregate 180.53 tons Emissions DAO's Comments Rep-arding Inventory East Carolina Regional Landfill. 1.Changes in emission related to throughput of facility. 2.All SCC codes okay. 3.AP-42 emission factors used. 4.Facility added a third leachate storage tanks,no changes in emissions from the addition. 08/18/2021 Page 3 of 3 East Carolina Regional Landfill. 1.Changes in emission related to throughput of facility. 2. All SCC codes okay. 3. AP-42 emission factors used. 4. Facility added a third leachate storage tanks, no changes in emissions from the addition. 2020 Annual Emissions Inventory East Carolina Regional Solid Waste Landfill Aulander, North Carolina Facility ID No. 0800102 Title V Permit No. 08849T08 Republic Services of NC, LLC East Carolina Regional Solid Waste Landfill 1922 Republican Road Aulander, NC 27805 252-348-3322 Submitted to: North Carolina Dept. of Environmental Quality Division of Air Quality Washington Regional Office 943 Washington Square Mall Washington, NC 27889 D E V E 252-946-6481 J U N 3 0 2021 DAQ WAROSCS ENGINEERS 02219201.00-4 1 June 23, 2021 15521 Midlothian Turnpike, Suite 305 Midlothian, VA 23113 804-378-7440 • 15521 Midlothian Turnpike, Suite 305 • Midlothian, VA 23113 804 378-7440 1 www.scsengineers.com LETTER OF TRANSMITTAL TO: ELIZABETH HUDDLESTON DATE: 6/29/21 NCDEQ- DAQ WASHINGTON REGIONAL OFFICE JOB NO: 02219201.00-4 WASHI 943 WASHINGTON SQUARE MALL RE: EAST CAROLINA REG.SOLID WASTE LF WASHINGTON, NC 27889 AULANDER,NORTH CAROLINA CC: MATT EINSMANN, REPUBLIC SERVICES MIKE KAVANAUGH, ECE . . . . . . . . . . WE ARE SENDING YOU: ® Attached ❑ Under Separate Cover Via ® Report ❑ Prints ❑ Plans ❑ Change Order ❑ Specifications ❑ Copy of Letter COPIES DATE DESCRIPTION 1 6/23/21 2020 EMISSIONS INVENTORY:EAST CAROLINA ENVIRONMENTAL LANDFILL THESE ARE TRANSMITTED as checked below: ❑ For Approval ❑ Approved as Submitted ❑ Resubmit Copies for Approval ® For Your Use ❑ Approved as Noted ❑ Submit Copies for Distribution ❑ As Requested ❑ Returned for Corrections ❑ Resubmit Corrected Prints ❑ For Review and Comment ❑ FOR BIDS DUE 2021 ❑ PRINTS RETURNED AFTER LOAN TO US REMARKS: SIGNED LV C Q u IS, IU Q,Cfm m l LU S S.NACHMAN ff enclosures are not as noted, kindly notify us at once. Table of Contents Section Page TITLE V INVENTORY CERTIFICATION FORM ................................................................................................1 EXECUTIVESUMMARY........................................................................................................................... ES-1 Table Table ES-1. 2020 Air Emissions Summary........................................................................................ ES-1 Attachments A Engineering Calculations B Emissions Calculations Spreadsheets C NCDEQ AERO Forms 2020 Air Pollutant Source Emissions Inventory COPY of RECORD Date Submitted: 6/23/2021 09:37:11 Inventory Certification Form(Title V) Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander, NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory- Calendar Year 2020 These forms must be completed and returned even if the facility did not operate or emissions were zero The legally defined "Responsible Official" of record for your facility is Shane Walker This person or one that meets the definition below must sign this certification form. The official submitting the information must certify that he/she complies with the requirements as specified in Title 15A NCAC 2Q.0520(b)which references and follows the federal definition.40 CFR Part 70.2 defines a responsible as meaning one of the following: 1. For a corporation:a president,secretary,treasurer, or vice-president of the corporation in charge of a principal business function, or any other person who performs similar policy or decision making functions for the overall operation of one or more manufacturing,production,or operating facilities applying for a or subject to a permit and either i. the facilities employ more than 250 persons or have gross annual sales or expenditures exceeding$25 million(in second quarter 1980 dollars);or ii. the delegation of authority to such representatives is approved in advance by the permitting authority; 2. For partnership or sole proprietorship;a general partner or the proprietor,respectively; 3. For a municipality, state, federal,or other public agency includes the chief executive officer having responsibility for the overall operations of a principal geographic unit of the agency(e.g., a Regional Administrator of EPA). CERTIFICATION STATEMENT: (Important: Legally Responsible Official,read and sign after all submissions are final.) I certify that I am the responsible official for this facility,as described above,and hereby certify that the information contained in this air emissions report, including attached calculations and documentation, is true, accurate and complete. (Subject to legal penalties of up to$25,000 per occurrence and possible imprisonment as outlined in G.S. § 143-215.3(a)(2)) Responsible Official's Signature Below (use blue ink): Date Signed: 6/23/21 Printed Name: Shane Walker Signature: This form applies to Title V facilities. If this facility is not classified asTitle V, please telephone your regional office Emission Inventory Contact at once for proper forms. Email address of Responsible Official: SWalker@republicservices.com p E C E I V E Information on this Form cannot be held confidential JUN 3 0 2021 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 DAQ WARO 1 EXECUTIVE SUMMARY This 2020 Annual Air Emissions Inventory Report (Report) has been prepared by SCS Engineers, PC (SCS) on behalf of Republic Services of NC, LLC for the East Carolina Regional Solid Waste Landfill located in Aulander, North Carolina. This Report was prepared in accordance with Section 3.X of the Landfill's Title V Air Operating Permit(No. 08849T08) and Title 15A of the North Carolina Administrative Code (NCAC)Sections 2Q .0207 and 2D .0202, pursuant to North Carolina General Statutes Sections 143-215.65 and 143-215.107. The purpose of this Report is to provide the North Carolina Department of Environmental Quality (NCDEQ) with an estimate of the actual emissions of air pollutants from the Landfill during calendar year 2020. These estimates are based upon Landfill waste receipt records, site-specific testing data, data provided by the U.S. Environmental Protection Agency(USEPA), landfill gas(LFG) quantities measured at the site, and typical engineering assumptions for landfills. This data will be used by the NCDEQ to collect fees from the Landfill, and to ensure compliance with the Landfill's Title V Permit. The estimated emissions from the Landfill in 2020 are summarized below in Table ES-1. These estimates are summarized from all applicable sources, such as the fugitive (uncontrolled) emissions from the Landfill surface and the point source emissions from the two utility flares as well as certain insignificant sources. All other sources of air pollutant emissions from the Landfill are considered to be insignificant and are not quantified in this report. Table ES-1 . 2020 Air Emissions Summary Pollutant NMOCs VOCs HAPs NOX CO SOX PM PM10 PM2.5 TRS HCI Total Emissions 30.81 13.04 6.36 32.7 119.4 6.19 6.31 6.31 6.31 0.86 2.10 (tons/yr) This facility is equipped with an active LFG collection system, which supplies the extracted LFG to an on-site utility flare. Included in this Report are the following: • Engineering Calculations(Attachment A); • Emissions Calculation Spreadsheets (Attachment B); and, • NCDEQ AERO Forms(Attachment C). The NCDEQ AERO Forms have also been submitted electronically. 2020 Air Pollutant Source Emissions Inventory ES-1 Attachment A Engineering Calculations 2020 Air Pollutant Source Emissions Inventory Attachment A Engineering Calculations Table of Contents Section Page 1 Introduction ........................................................................................................................................1 SiteBackground.................................................................................................................................2 2 Uncollected Landfill Gas Fugitives (ES-1).........................................................................................3 Non-Methane Organic Compound Emissions...................................................................................4 Volatile Organic Compound Emissions.............................................................................................4 Hazardous Air Pollutant Emissions...................................................................................................4 Total Reduced Sulfur Emissions.......................................................................................................5 AmmoniaEmissions...........................................................................................................................6 3 Landfill Gas Flare FL-100 (CD-1).......................................................................................................7 FlareEmissions..................................................................................................................................7 LFG Utility Flare CD-1 Operating Parameters .........................................................................8 HeatRelease (MMBtu/hr) .......................................................................................................8 NitrogenOxides Emissions ......................................................................................................8 Carbon Monoxide Emissions...................................................................................................8 Particulate Matter Emissions...................................................................................................8 NMOCEmissions......................................................................................................................9 VOCEmissions..........................................................................................................................9 Sulfur Dioxide (SO2) Emissions...............................................................................................9 Hydrochloric Acid (HCI) Emissions........................................................................................ 10 HAPEmissions....................................................................................................................... 11 4 Landfill Gas Flare FL-150 (CD-2).................................................................................................... 12 FlareEmissions............................................................................................................................... 12 LFG Utility Flare CD-2 Operating Parameters ...................................................................... 13 HeatRelease (MMBtu/hr) .................................................................................................... 13 Nitrogen Oxides Emissions................................................................................................... 13 Carbon Monoxide Emissions................................................................................................ 13 Particulate Matter Emissions................................................................................................ 13 NMOCEmissions................................................................................................................... 14 VOCEmissions....................................................................................................................... 14 Sulfur Dioxide (SO2) Emissions............................................................................................ 14 2020 Air Pollutant Source Emissions Inventory Attachment A Attachment A Engineering Calculations Table of Contents Section Page Hydrochloric Acid (HCI) Emissions........................................................................................ 15 HAPEmissions....................................................................................................................... 16 5 Insignificant Activities..................................................................................................................... 17 Diesel Engines For Miscellaneous Support(IES-04) .................................................................... 17 Welding Operations (IES-05).......................................................................................................... 17 Diesel Storage Tank (IES-06) ......................................................................................................... 17 Leachate Storage Tanks (IES-07) .................................................................................................. 17 Tables Table 1. 2020 Annual Emission Rate Summary (tons/yr)................................................................1 Table 2. Utility Flare FL-100 (CD-1) Emission Factors.......................................................................7 Table 3. Utility Flare FL-150 (CD-2) Emission Factors.................................................................... 12 Table 4. Fuel Storage Tank Summary............................................................................................. 17 Table 5. Leachate Tanks Combined Emissions Data..................................................................... 18 2020 Air Pollutant Source Emissions Inventory Attachment A I INTRODUCTION The emissions inventory presented herein is the basis for the emissions values for calendar year 2020 reported in the NCDEQ forms that have been submitted electronically. The emissions sources identified were based on SCS Engineers' (SCS) knowledge of the site, discussions and correspondence with East Carolina Regional Solid Waste Landfill staff, and review of existing permits, compliance reports, and other information provided by Republic Services and CEC(LFG system operator) personnel. Table 1. 2020 Annual Emission Rate Summary (tons/yr) Emission Sources ID No. Emission Source NMOC VOCs HAPs NOX CO SOX PMio' TRS HCI Municipal Solid ES-1 Waste Landfill 30.0 11.7 4.05 -- -- -- -- 0.86 -- (Fugitive Surface Emissions) 123 Landfill Gas Open CD-1 Flare FL-100 (3000 0.38 0.37 1.06 12.57 57.3 2.78 3.04 -- 1.02 Scfm) 1,5,6 Landfill Gas Open CD-2 Flare FL-150 (3000 0.40 0.39 1.13 13.28 60.6 2.96 3.22 -- 1.08 Scfm)1.5.6 Diesel Engines for IES-04 Miscellaneous -- 0.55 0.043 6.84 1.47 0.45 0.05 -- -- Landfill Support IES-05 Welding -- _- 0.051 -- -- -- -- Operations -- -- IES-06 Diesel Storage 0.002 0.002 0.002 Tank IES-07 Leachate Storage 0.03 0.03 0.03 Tanks Total 30.81 13.04 6.36 32.7 119.4 6.19 6.31 0.86 2.10 Notes: -- Not Applicable 1 These estimates are based on a 77% LFG collection efficiency for the active LFG collection system. 2 VOC generation is estimated to be 39 percent of the NMOC generation before combustion per Table 2.4-2 of AP-42 Section 2.4 "Municipal Solid Waste Landfills," revised 11/98. 3 Total HAPs are conservatively estimated using those pollutants present in the HAPs, Section 112 of the Clean Air Act and AP-42 Table 2.4-1 and 2.4-2 (revised 11/98), and those LFG pollutants classified as TAPs by NCDEQ-DAQ. 4 Per guidance from AP-42 and in an effort to be conservative, particulate matter emissions such as PM, PM-10, and PM-2.5 are assumed to be equal. 5 Flare destruction efficiency for NVIOCs is 99.2% and 98.0% for VOCs per Table 2.4-3 of AP-42. 6 The flare emissions reflect 100% of the collected LFG (on an annual average basis). 2020 Air Pollutant Source Emissions Inventory Attachment A 1 SITE BACKGROUND The East Carolina Regional Solid Waste Landfill (Landfill) is owned and operated by Republic Services of North Carolina, LLC. The site is located on Republican Road near Aulander, North Carolina. The Landfill is subject to the New Source Performance Standards(NSPS)for Municipal Solid Waste Landfills (40 CFR 60 Subpart WWW) and the Landfill Maximum Achievable Control Technology(MACT) Standard (40 CFR 63 Subpart AAAA) based upon a waste design capacity exceeding 2.5 million Megagrams (Mg) and 2.5 million cubic meters. The Landfill commenced waste placement operations in 1993 and cells 1-14 have been developed, which comprise of approximately 122.4 acres. The Facility initially constructed an active LFG collection and control system during 2001. The system has been routinely upgraded with new installations and/or upgrades to vertical extraction wells, horizontal collectors, leachate cleanout connections, header and lateral collection piping, condensate sumps, condensate storage tank, and a blower/flare station. As of the end of 2020, the current collection and control system consisted of 97 vertical extraction ' wells, 17 leachate cleanout connections, six collectors,three manholes, and two caisson connections. The wells are connected via a network of below grade HDPE collection piping and the main header pipes are equipped with butterfly isolation valves. The LFG collection piping transports the LFG from the fill areas to the blower/flare station. The LFG control system consists of a blower/flare station equipped with two 4,000-scfm blowers and two utility flares each with a maximum rated capacity of 3,000 cfm (cumulative flare capacity of 6,000 cfm). 2020 Air Pollutant Source Emissions Inventory Attachment A 2 2 UNCOLLECTED LANDFILL GAS FUGITIVES (ES-1) This section addresses the generation of LFG, non-methane organic compounds (NMOCs), volatile organic compounds (VOCs), hazardous air pollutants (HAPs), and total reduced sulfur(TRS) compounds, and their emissions via passive LFG releases. The 2020 LFG fugitive emissions for the site are estimated in this section. LFG generation from the landfill was estimated using Version 3.02 of the EPA's Landfill Gas Emissions Model (LandGEM version 3.02). A description of the model parameters is provided in this section and the model output is included as Exhibit 1. LandGEM 3.02 uses a first-order decay equation to predict LFG generation based on the amount and age of the waste in place. The formula calculates and sums the LFG generation rate for every 1/10th of a year and uses the sum to form the annual LFG Generation Rate. The formula is presented below: n 1 M -k .. QcH, (m3/Yr) = Y kLo 10. e r i = 1 j =0.1 where: QcH4 = Methane generation rate (m3/yr)from the LANDGEM i = 1 year time increment n = (year of the calculation) - (initial year of waste acceptance) j = 0.1 year time increment k = methane generation rate constant(year-') Lo = potential methane generation capacity(m3/Mg) Mi = mass of waste accepted in the ith year(Mg) t;; = age of thejth section of waste mass M, accepted in the ith year (decimal years, e.g., 3.2 years) The methane generation potential, 6,for the MSW landfill cells was set equal to 100 cubic meters (m3) of methane (CH4) per megagram (Mg) of waste. This value is published in EPA's Compilation of Air Pollutant Emission Factors (AP-42), Volume I, Section 2.4 revised November 1998. AP-42 recommends this value of Lo for MSW landfills that are located in geographical regions that receive average or above average annual precipitation, such as Aulander, North Carolina. The methane generation rate constant, k, was set to 0.04 yr-1. This value for k is published in AP-42 and is reflective of actual LFG recovery rates measured at the site and SCS' professional engineering experience. The concentration of NMOC in LFG was set to 595 parts per million by volume (ppmv) as hexane and is based on the EPA AP-42 recommended value for municipal solid waste landfills located in areas of above average rainfall. The refuse filling history based on scale house records provided by the facility and coinciding with values used in the Title V Permit application was input to the LandGEM. This model estimates emissions based on the amount of waste in-place at the beginning of each year. Note that since 2013,the Facility has documented certain wastes as inerts.These inert wastes, under the presumption that they do not produce any landfill gas, have been excluded in total waste calculations in the LandGEM Model. 2020 Air Pollutant Source Emissions Inventory Attachment A 3 The waste in-place at the beginning of 2020 was 10.79 million Mg, which is about 11.89 million tons. The LandGEM calculates that the methane generation rate for 2020 is 27.7 million cubic meters, or about 976.6 million cubic feet (1,858 cfm).Assuming a LFG methane concentration of 50 percent, the LFG generation rate for 2020 is estimated to be 3,716 cfm. The model output is included as Exhibit 1 in Attachment B. Flow data is recorded at 10 minute intervals and compiled from the flowmeters installed at the flares. The sum of these measured flowrates represents the total LFG collection rate while the average obtained from these meters represent the average LFG flowrates. These average LFG flowrates are normalized to 50 percent methane using monitoring data obtained from the header piping at the blower/flare station. The flow data recorded from January 1 through December 31, 2020 indicates an average LFG flowrate to utility flare FL-100 of 1,389 cfm at 50 percent methane and an average LFG flowrate to utility flare FI-150 of 1,469 cfm at 50 percent methane. This value is an annualized average, not a run-time average.Thus,the average LFG recovery rate at the Facility for 2020 is 2,858 cfm, which yields a calculated collection efficiency equal to 77 percent. NON-METHANE ORGANIC COMPOUND EMISSIONS , NMOC generation from the Landfill was calculated using the LandGEM. The model parameters were similar to the values noted above and the model output is attached as Exhibit 2 in Attachment B. The LandGEM calculates that the NMOC generation rate for 2020 is 118.0 Mg or 130.0 tons. In estimating the NMOC fugitive emissions from the Landfill, LFG is calculated to be collected and combusted at 77 percent of LFG generation for 2020 using flowrate data provided by the LFG system operator, which indicated an average LFG flowrate of 2,858 cfm (normalized to 50 percent methane) collected by the existing system. Thus,the fugitive NMOC emission rate for 2020 is 30.0 tons, as shown in Exhibit 2 of Attachment B. VOLATILE ORGANIC COMPOUND EMISSIONS The LFG and NMOC generation rates were extracted from the LandGEM output and used to calculate the fugitive NMOC emissions from the Landfill during 2020. The VOC generation rates were calculated by multiplying the NMOC generation rates (shown in the LandGEM output) by 0.39 (i.e., VOC is 39 percent of NMOC per AP-42 Table 2.4-2).The Landfill fugitive VOC emission rates were calculated by multiplying the annual VOC generation by the percentage of uncollected LFG, which is calculated to be 23 percent. The fugitive VOC emission rate for 2020 is 11.7 tons, as shown in Exhibit 2 in Attachment B. HAZARDOUS AIR POLLUTANT EMISSIONS The estimation of fugitive HAP emissions from the landfill surface is based on equations(3) and (4) in AP-42 Section 2.4. Those equations are presented below. The first step is to estimate the generation rate of the pollutant in cubic meters per year(m3/yr). Next, the volumetric generation rate estimate is converted to a mass generation rate (tons per year). 3 P QP yr = 2.00 X Q('h4 I�6 (3) 2020 Air Pollutant Source Emissions Inventory Attachment A 4 where: Qp = Pollutant generation rate (m3/yr) QCH4 = Methane generation rate (m3/yr)from the LanclGEM Cp = Pollutant concentration in LFG (ppmv) 2.00 = Multiplication factor(assumes LFG is 50.0 percent methane) UM',(tons/yr) = Q,, ((MW,,(g/gmol))(1 atm)) ton (4) (8.205x10-') m 3 —atm 1000g 1907.185 kg] ((273+T)K) gmol—K kg where: UMp = Pollutant mass generation rate (tons/yr) MWp = Molecular weight of pollutant(g/gmole) T = Temperature of LFG (OC) (Standard temp of 25 degrees Celsius) Of the 187 chemical compounds identified as HAPs under Section 112 of the Clean Air Act, 28 of these compounds are listed in AP-42 Table 2.4-1 and 2.4-2. Site-specific speciated LFG data was not available for the East Carolina Regional Solid Waste Landfill. Therefore, default concentration values from AP-42 and the WIAC report(dated January 2001)were used, as shown in the HAP/TAP spreadsheet included as Exhibit 3 in Attachment B. Annual emissions of the remaining HAP/TAP compounds (i.e.,those not included in the AP-42 tables) are assumed to be negligible. The actual HAP generation rate associated with LFG produced within the waste mass for 2020 was calculated to be 15.91 Mg or 17.54 tons, and does not include hydrochloric acid, which is a by-product of LFG combustion at the utility flare. LFG is calculated to be collected and combusted at 77 percent of LFG generation for 2020. Thus,the fugitive HAP emission rate for the facility is 4.05 tons for 2020. In addition,the Non PM,o/Non-VOC HAPs fugitive emission rate was calculated to be 0.24 tons for 2020. Note that HCI is not included in the calculation of fugitive HAP emissions since it is a by- product of combustion at the flare and is not present in raw LFG. Using similar procedures,the TAP generation rate for 2020 was calculated to be 17.25 Mg(19.02 tons). In determining the TAP emissions from the Landfill, LFG is collected and combusted at 77 percent of LFG generation for 2020. Thus,the fugitive TAP emission rate for 2020 is 4.39 tons. TOTAL REDUCED SULFUR EMISSIONS Since the site-specific TRS concentration in LFG was not available, the AP-42 Section 2.4 default concentration of 46.9 parts per million by volume (ppmv)was assumed. The estimation of TRS emissions from the Landfill is based on equations (3) and (4) in AP-42 Section 2.4. The volumetric generation rate of total reduced sulfur compounds is estimated by the following equation. Note that the 2020 methane generation rate from the Landfill cells (27.7 million cubic meters) is equal to 1,858 cfm. Because the LFG collection efficiency for 2020 is calculated to be 77 percent, only fugitive emissions (23 percent of LFG generation) were used in these calculations. 2020 Air Pollutant Source Emissions Inventory Attachment A 5 TRS 3 =(2.0) 6.36x 106 m3 0f CH4 r 46.9]0 =596.6 yr of S (3) 32 g (1 atm) TRS kg - 596.6 m3 S gmol (4) yr yr 8.205 x 10-5 m3 -atm 1 OOOg (298°K gmol- °K kg The uncontrolled mass emissions of total reduced sulfur compounds are calculated below: TRS = 780.8 kg/yr = 0.86 tons/yr AMMONIA EMISSIONS ' Although MSW landfills are sources of ammonia (NH3)emissions, according to an Environmental Protection Agency(EPA)funded report titled "Development and Selection of Ammonia Emission Factors," MSW landfills are "very uncertain and not very important sources" and are "minor and insignificant influences" when compared to other possible sources.' Therefore,for purposes of this emission inventory,fugitive emission rates of ammonia from the landfill surface will be considered insignificant. 1 R. Battye,W. Battye, C. Overcash, and S. Fudge. Development and Selection of Ammonia Emission Factors Final Report. Prepared for U.S. Environmental Protection Agency. Aug. 1994. 2020 Air Pollutant Source Emissions Inventory Attachment A 6 3 LANDFILL GAS FLARE FL-100 (CD-1) Landfill gas is delivered to the blower/flare station located south of the Landfill via a 24-inch- diameter HDPE main header pipe. During 2020,the LFGCCS consisted of two 4,000 scfm skid- mounted blowers and two 3,000-cfm utility flares. During 2020,the flare emissions for FL-100 were calculated based on an average LFG flowrate of 1,389 cfm at 50 percent methane to the flare (which is equal to 48.6% of the LFG quantity collected by the system). The following calculations present emissions from the utility flare FL-100 during 2020. FLARE EMISSIONS The LFG, for purposes of calculating the products of combustion and the associated emissions, is assumed to be 50 percent methane, 40 percent carbon dioxide and 10 percent nitrogen and oxygen. The presence of nitrogen and oxygen in LFG is assumed due to the potential infiltration of ambient air into the gas extraction system through the surface of the landfill. Concentrations of other LFG constituents are negligible with regard to the combustion process. Trace LFG constituents typically make up less than 1 percent of the total gas volume. The flare emission factors are presented below in Table 2 and calculations for the FL-100 3,000 cfm flare (CD-1) are calculated using the annual average flow rate to the flare. Table 2. Utility Flare FL-100 (CD-1) Emission Factors Compound LFG Flare Emission Factors NMOCs 99.2%destruction 2 VOCs 98%destruction 2 HAPs 98%and 99.7%destruction 3 NOx 0.068 Ib/MMBtu ' CO 0.31 Ib/MMBtu ' S02 46.9 ppmv total reduced sulfur in LFG 2 PM10 0.001 Ib/hr cfm of methane 2 HCl 30.2 ppmv total Cl-in LFG 4 Notes: 1 Emission factors were obtained from AP-42, Tables 13.5-1 and 13.5-2 (revised 2/18) 2 Emission factors and destruction efficiencies were obtained from AP-42, Section 2.4 (revised 11/98). 3 HAP destruction efficiencies are for halogenated (98%) and non-halogenated (99.7%) pollutants as outlined in AP-42 (revised 11/98). 4 Cumulative chloride ion concentration as calculated using default HAP concentrations presented in the WIAC report. 2020 Air Pollutant Source Emissions Inventory Attachment A 7 LFG Utility Flare CD-1 Operating Parameters Maximum firing rate of LFG for Utility Flare: 3,000 scfm Average firing rate of LFG for Utility Flare: 1,389 scfm Average Btu content of LFG: 506 Btu/scf Assumed hours of operation: 8,760 hours Percentage of collected LFG delivered to flare: 48.6 % Heat Release (MMBtu/hr) (1,389 scfm) 506 Btu r 60 min 1 1 MMBtu scf I\ hr J 106 Btu = 42.2 MMBtu/hr Nitrogen Oxides Emissions C0.068 lb NO, )(42.2MMBtu) 8,760 hr 1 ton MMBtu hr yr 2,000 lb NOx = 12.57 tons/yr Carbon Monoxide Emissions (0.31 lb CO)(42.2 MMBtu) 8,760 hr 1 ton MMBtu hr J yr 2,000 lb CO =57.3 tons/yr Particulate Matter Emissions .ft3 CHa PM,o =[1,389 ft3LFG 0.001 lb PM,o 0.5 s min 8,760 hr 1 ton min hr_ft CH4 1 ft LFG yr ] [20001b] min min Flare PMso= 3.04 tons/yr PM2.5 is the same as PM1osince the same emission factor is used according to AP-42 Table 2.4-5. Flare PM2.5 = 3.04 tons/yr 2020 Air Pollutant Source Emissions Inventory Attachment A 8 NMOC Emissions Using the NMOC concentration in the LFG of 595 ppmv as hexane (based on AP-42) and the average LFG firing rate of the utility flare FL-100 of 1,389 scfm at 50% methane for the 8,760 hours of operation,the corresponding NMOC input to the flare is calculated using Equations 3 and 4 from AP- 42. 3 3 NMOC m =(2) 1.03 x 10' m3 of CH' 595 =12,257.0 m of NMOC yr yr 106 yr 86.18 g )(I'tm)) NMOC=[12,257m'] gmol ton _47.6 tons Yr 8.205 x 10-5 m3 —atm 1000 g 1907.185 kg yr (273+25 K� gmol—K kg Assuming an NMOC destruction efficiency equal to 99.2 percent,the actual NMOC emissions for 2020 from the utility flare FL-100 is calculated as follows: NMOCs Input to Flare * (100%-99.2%) = 47.6 tons/yr * 0.008 = 0.38 tons VOC Emissions Using the AP-42 VOC concentration of 39 percent of total NMOCs and VOC destruction efficiency of 98 percent: VOC = NMOCs * 39%*(100%-98%) = 47.6 tons/yr * 0.39 *0.02 = 0.37 tons/yr Sulfur Dioxide (SO2) Emissions The emissions of sulfur oxides, particularly sulfur dioxide (S02),from the flare are dependent on the inlet concentration of sulfur-bearing compounds in the LFG. The calculation of the estimated S02 emissions from the flare is based on the assumption that reduced sulfur compounds in the LFG are oxidized to S02. Because site-specific data for the Total Reduced Sulfur (TRS) concentration in the LFG was not available, S02 emissions from the flare are estimated based on a TRS concentration in LFG of 46.9 ppmv as cited in AP-42 Section 2.4-3. S02 (max)- MW = 32.0 g/gmole Qcha = 1,389 ft3/min *50% CHa *(525,600 min/year) =1.03 x107 m3/yr Cp = 46.9 ppmv T = 25.OoC (AP-42 default value) 2020 Air Pollutant Source Emissions Inventory Attachment A 9 Calculation of the generation rate of the pollutant: TRS y3 3 f 3 =(2.0) 1.03 x 10' m oY CH' r 46 6 =966.1 y of S r r L 106 J r 32 g )(I atm) TRS = 966.1 m3 gmol ton =1.39 tons Yr 8.205 x 10-5 m3 —atm 1000 g (273+25 K) 1907.185kgl yr gmol—K kg For every 1 tons of TRS there is approximately 2 tons of S02 due to differences in molecular weights and detailed in U.S. EPA AP-42 (revised November 1998);therefore, S02 = 2.78 tons/yr Hydrochloric Acid (HCI) Emissions Hydrochloric acid (HCl) emissions are formed when chlorinated compounds in LFG are combusted in control equipment. The estimation of HCl emissions from the Landfill are based on Equations 3, 4 and 10 in AP-42 Section 2.4. Since no site-specific values are available for the cumulative chloride ion concentration of the 18 HAP/TAP constituents that have a chloride ion,the cumulative chloride ion concentration is calculated using WIAC report default value concentration of 30.18 ppmv. The total HCl emissions are calculated by using the concentration of 30.18 ppmv and the molecular weight of 35.453 g,/gmol for chloride. Calculate the chloride emission rate, Qci, using Equation 3. _ 1,3 89 ft3 525,y 0 min m3 C 30.18ppmv 1 =623.8 y 3 (3) Q`�` min r 35.3198 f t3 10' ) r Calculate the uncontrolled mass emissions of chloride, UMa, using Equation 4. 3 35.45 g *1 atm UM(., = 623.8m 3 gmol =904.4 kg (4) Yr 8.205E—05 m —atm *1,000 S *(273+25 K) Yr gmol—K kg 2020 Air Pollutant Source Emissions Inventory Attachment A 10 Finally, calculate the controlled mass emissions of HCI, CMci, using Equation 10. t CMHC1 _(904.4)(100) 100 2.21b on(1.03) (10) kg 2,000 lb HCI = 1.02 tons/yr HAP Emissions The total flare HAPs emission rate, including HCI emissions,for the flare unit FI-100 for 2020, shown in the attached Exhibit 3, was estimated to be 1.06 tons. The total flare TAPs emission rate for 2020 was estimated to be 1.07 tons. In addition,the Non-PMio/Non-VOC HAPs flare emission rate Flare FI-100 was calculated to be 1.03 tons for 2020. 2020 Air Pollutant Source Emissions Inventory Attachment A 11 4 LANDFILL GAS FLARE FL-150 (CD-2) Landfill Gas destruction device CD-2 is a 3,000 scfm utility flare FL-150. During 2020,the flare emissions were calculated based on an average LFG flowrate of 1,469 cfm at 50 percent methane to the flare (which is equal to 51.4% of the LFG quantity collected by the system). The following calculations present emissions from the utility flare FL-150 during 2020. FLARE EMISSIONS The LFG,for purposes of calculating the products of combustion and the associated emissions, is assumed to be 50 percent methane, 40 percent carbon dioxide and 10 percent nitrogen and oxygen. The presence of nitrogen and oxygen in LFG is assumed due to the potential infiltration of ambient air into the gas extraction system through the surface of the landfill. Concentrations of other LFG constituents are negligible with regard to the combustion process. Trace LFG constituents typically make up less than 1 percent of the total gas volume. The flare emission factors are presented below in Table 3 and calculations for the FL-150 3,000 cfm flare (CD-2) are calculated using the annual average flow rate to the flare. Table 3. Utility Flare FL-1 50 (CD-2) Emission Factors Compound LFG Flare Emission Factors NMOCs 99.2%destruction 2 VOCs 98%destruction 2 HAPs 98%and 99.7% destruction 3 NOx 0.068 Ib/MMBtu ' CO 0.31 Ib/MMBtu ' S02 46.9 ppmv total reduced sulfur in LFG 2 PM10 0.001 Ib/hr cfm of methane 2 HCl 30.2 ppmv total Cl-in LFG 4 Notes: 1 Emission factors were obtained from AP-42, Tables 13.5-1 and 13.5-2 (revised 2/18). 2 Emission factors and destruction efficiencies were obtained from AP-42, Section 2.4 (revised 11/98). 3 HAP destruction efficiencies are for halogenated (98%) and non-halogenated (99.7%) pollutants as outlined in AP-42 (revised 11/98). 4 Cumulative chloride ion concentration as calculated using default HAP concentrations presented in the WIAC report. 2020 Air Pollutant Source Emissions Inventory Attachment A 12 1 LFG UtilityFlare CD-2 Operating Parameters P 9 i Maximum firing rate of LFG for Utility Flare: 3,000 scfm Average firing rate of LFG for Utility Flare: 1,469 scfm Average Btu content of LFG: 506 Btu/scf Assumed hours of operation: 8,760 hours Percentage of collected LFG delivered to flare: 51.4 % Heat Release (MMBtu/hr) (1,469 scfm� 506 Btu 60 min 1 MMBtu scf hr 106 Btu = 44.6 MMBtu/hr Nitrogen Oxides Emissions 0.068 lb NOX 44.6MMBtu 8,760 hr 1 ton MMBtu )( hr ) yr )�2,0001b) NOx= 13.28 tons/yr Carbon Monoxide Emissions (0.31 lb CO)(44.6 MMBtu) 8,760 hr 1 ton MMBtu hr yr 2,000 lb CO = 60.6 tons/yr Particulate Matter Emissions J t 3 CH4 PM,o = 1,469 ft3LFG 0.001 lb PM10 0.5 3 min 8,760 hr 1 ton min hr_ft3 CH4 1 ft LFG I yr 1120001b] min min Flare PMio= 3.22 tons/yr PM2.5 is the same as PMio since the same emission factor is used according to AP-42 Table 2.4-5. Flare PM2.5 = 3.22 tons/yr 2020 Air Pollutant Source Emissions Inventory Attachment A 13 NMOC Emissions Using the NMOC concentration in the LFG of 595 ppmv as hexane (based on AP-42) and the average LFG firing rate of the utility flare FL-100 of 1,469 scfm at 50% methane for the 8,760 hours of operation,the corresponding NMOC input to the flare is calculated using Equations 3 and 4 from AP- 42. 3 3 f 3 NMOC In =(2) 1.09x10' m oCH4 11101 5951 =12,971.0 y of NMOC y yr r J r s 86.18 g )(I'tm)) NMOC— 12,971.Om gmol ton =50.4 tons yr 8.205 x 10-5 m3 —atm 1000 g (273+25 K) 1907.185 kg yr gmol—K kg Assuming an NMOC destruction efficiency equal to 99.2 percent,the actual NMOC emissions for 2020 from the utility flare FL-100 is calculated as follows: NMOCs Input to Flare * (100%-99.2%) = 50.4 tons/yr * 0.008 = 0.40 tons VOC Emissions Using the AP-42 VOC concentration of 39 percent of total NMOCs and VOC destruction efficiency of 98 percent: VOC = NMOCs * 39%*(100%-98%) = 50.4 tons/yr * 0.39 *0.02 = 0.39 tons/yr Sulfur Dioxide (S02) Emissions The emissions of sulfur oxides, particularly sulfur dioxide (S02),from the flare are dependent on the inlet concentration of sulfur-bearing compounds in the LFG. The calculation of the estimated S02 emissions from the flare is based on the assumption that reduced sulfur compounds in the LFG are oxidized to S02. Because site-specific data for the Total Reduced Sulfur(TRS) concentration in the LFG was not available, S02 emissions from the flare are estimated based on a TRS concentration in LFG of 46.9 ppmv as cited in AP-42 Section 2.4-3. S02 (max)- MW = 32.0 Wgmole Qch4 = 1,469 ft3/min *50% CH4 *(525,600 min/year) =1.09 x107 m3/yr Cp = 46.9 ppmv T = 25.OoC(AP-42 default value) 2020 Air Pollutant Source Emissions Inventory Attachment A 14 Calculation of the generation rate of the pollutant: 3 f TRS m =(2.0) 1.09 x 10' m3 o CH, 46.9 =1,022.4 m3 of S yr yr 11101 yr 32 g-- (1 atm) TRS- 1022.4 m3 gmol ton 1 48 tons yr 8.205 x 10-5 m3 -atm 1000 g (273+25 K� 1907.185kgl = yr gmol-K kg For every 1 tons of TRS there is approximately 2 tons of S02 due to differences in molecular weights and detailed in U.S. EPA AP-42 (revised November 1998);therefore, S02 = 2.96 tons/yr Hydrochloric Acid (HCI) Emissions Hydrochloric acid (HCI) emissions are formed when chlorinated compounds in LFG are combusted in control equipment. The estimation of HCl emissions from the Landfill are based on Equations 3, 4 and 10 in AP-42 Section 2.4. Since no site-specific values are available for the cumulative chloride ion concentration of the 18 HAP/TAP constituents that have a chloride ion,the cumulative chloride ion concentration is calculated using WIAC report default value concentration of 30.18 ppmv. The total HCI emissions are calculated by using the concentration of 30.18 ppmv and the molecular weight of 35.453 g/gmol for chloride. Calculate the chloride emission rate, Qci, using Equation 3. _ 1,469 ft3 525,600 0 min m3 f 30.18 ppmv 1=659.7 y 3 (3) Q`�` min r 35.3198 t3 106 J r Calculate the uncontrolled mass emissions of chloride, UMc, using Equation 4. 3 g 35.45 1 atm UMW., = 659.7m 3 gmol =956.5 kg (4) yr 8.205E-05 m -atm *1,000 g*(273+25 K) yr gmol-K kg 2020 Air Pollutant Source Emissions Inventory Attachment A 15 Finally, calculate the controlled mass emissions of HCI, CMci, using Equation 10. CM —(956.5) )(1.03) 2.lb on (10) HCI \100 g 2 HCI = 1.08 tons/yr HAP Emissions The total flare HAPs emission rate, including HCI emissions,for the utility flare unit FI-150 for 2020, shown in the attached Exhibit 3, was estimated to be 1.13 tons. The total flare TAPs emission rate for 2020 was estimated to be 1.13 tons. In addition,the Non-PMso/Non-VOC HAPs flare emission rate Flare FI-150 was calculated to be 1.09 tons for 2020. 2020 Air Pollutant Source Emissions Inventory Attachment A 16 5 INSIGNIFICANT ACTIVITIES DIESEL ENGINES FOR MISCELLANEOUS SUPPORT (IES-04) The Landfill's permit includes an insignificant activity listing for "Diesel Engines for Miscellaneous Landfill Support" with the emission source ID IES-04. Emissions from this source were estimated in previous Annual Emissions Inventory documentation. Emissions for 2020 are estimated to be approximately equivalent and are being"carried forward" as allowed by NCDEQ guidance. WELDING OPERATIONS (IES-05) The Landfill's permit also includes an insignificant activity listing for "Welding Operations" with the emission source ID IES-05. Emissions from the Landfill's welding operations were estimated in previous Annual Emissions Inventory documentation. Emissions for 2020 are estimated to be approximately equivalent and are being"carried forward" as allowed by NCDEQ guidance. As reported in previous years, emissions of manganese remained at 101 pounds for calendar year 2020. This is reported as HAPs/TAPs of 5.05E-02 tons per year for the welding operations. DIESEL STORAGE TANK (IES-06) The Landfill's permit includes an insignificant activity with description as "Diesel Storage Tank" (IES- 06). The emissions from the diesel storage tank were estimated in previous Annual Emissions Inventory documentation using the U.S. EPA's TANKS 4.0.9d software. VOC emissions for the diesel for 2020 are estimated to be approximately equivalent based on similar throughput values and were applied to 2020. VOC emissions from diesel storage tank are presented below in Table 4. Note that the Total HAP volatilization and NMOC emissions are conservatively estimated to equal VOC emissions. Table 4. Fuel Storage Tank Summary Tank Tank Net Estimated Volume Length Diameter Throughput VOC Emissions' Contents (gal) (ft) (ft) (gal/yr) (lbs/yr) Diesel Fuel 3,000 est. 15 est. 5.8 est. 163,023 4.66 (2.33E-03 tons) Note: 1 Emissions estimated using U.S.EPA's Tanks 4.0.9d software. LEACHATE STORAGE TANKS (IES-07) The Landfill operates three (3) leachate storage tanks, with emission source ID IES-07 on the insignificant activities list in the permit. These tanks are used to store collected leachate and condensate from the Landfill prior to disposal at an offsite wastewater treatment system. The throughput of leachate in calendar year 2020 was as shown below in Table 5. For purposes of this air emissions inventory, throughput was allotted equally to all three leachate storage tanks. NMOC and Total HAP volatilization emissions were conservatively estimated to be equal to VOC emissions 2020 Air Pollutant Source Emissions Inventory Attachment A 17 for leachate tanks as shown in Exhibit 5. Estimated VOCs emissions are presented below in Table 5 and detailed emission calculations are included in Attachment B. Table 5. Leachate Tanks Combined Emissions Data Parameter CY 2020 Leachate Throughput 15,857,690 (gallons) Calculated VOC Emissions 67.35 (lbs/yr) (3.37E-02 tons/yr) 2020 Air Pollutant Source Emissions Inventory Attachment A 18 Attachment B Emissions Calculations Spreadsheets 2020 Air Pollutant Source Emissions Inventory EXHIBIT 1. ESTIMATED LFG GENERATION RATES EAST CAROLINA REGIONAL SOLID WASTE LANDFILL-AULANDER,NORTH CAROLINA Methane LFG Disposal Refuse Disposal Refuse Generation Generation Collection Collection Fugitive Year Rate In-Place Rate In-Place Rates Rates Efficiency Rates Rates (tons/yr) (tons) (Mg/yr) (Mg) (rn3/yr) (cfm) (%) (cfm) (cfm) 1993 39,176 0 35,540 0 0 0 0% 0 0 1994 243,409 39,176 220,817 35,540 1.399E+05 19 0% 0 19 1995 338,155 282,585 306,769 256,357 1.004E+06 135 0% 0 135 1996 360,489 620,740 327,030 563,126 2.172E+06 292 0% 01 292 1997 348,254 981,229 315,931 890,156 3.375E+06 453 0% 0 453 1998 404,852 1,329,483 367,276 1,206,087 4.486E+06 603 0% 0 603 1999 455,998 1,734,335 413,674 1,573,362 5.756E+06 774 0% 0 774 2000 479,380 2,190,333 434,886 1,987,037 7.159E+06 962 0% 0 962 2001 348,049 2,669,713 315,745 2,421,923 8.591E+06 1,154 25% 289 866 2002 476,861 3,017,762 432,601 2,737,668 9.497E+06 1,276 75% 957 319 2003 347,583 3,494,623 315,322 3,170,269 1.083E+07 1,455 75% 1,091 364 2004 523,055 3,842,206 474,508 3,485,591 1.164E+07 1,565 75% 1,174 391 2005 483,571 4,365,261 438,688 3,960,098 1.306E+07 1,755 75% 1,316 439 2006 527,771 4,848,832 478,786 4,398,786 1.427E+07 1,918 75% 1,438 479 2007 532,509 5,376,603 483,084 4,877,572 1.560E+07 2,096 75% 1,572 524 2008 518,584 5,909,112 470,451 5,360,656 1.689E+07 2,269 75% 1,702 567 2009 471,959 6,427,696 428,154 5,831,108 1.808E+071 2,429 75% 1,822 607 2010 547,097 6,899,655 496,318 6,259,262 1.905E+07 2,561 75% 1,920 640 2011 542,909 7,446,752 492,519 6,755,580 2.026E+07 2,723 75% 2,042 681 2012 575,739 7,989,661 522,302 7,248,099 2.141 E+07 2,877 75% 2,157 719 2013 513,022 8,565,400 465,406 7,770,400 2.262E+07 3,040 75% 2,280 760 2014 468,705 9,078,422 425,202 8,235,806 2.357E+07 3,167 75% 2,375 792 2015 438,643 9,547,127 397,930 8,661,008 2.432E+07 3,268 75% 2,4511 817 2016 470,577 9,985,770 426,900 9,058,938 2.493E+07 3,350 75% 2,513 838 2017 483,825 10,456,347 438,919 9,485,839 2.563E+07 3,445 75% 2,584 861 2018 463,804 10,940,172 420,756 9,924,757 2.636E+07 3,542 75% 2,656 885 2019 484,621 11,403,976 439,641 10,345,513 2.698E+07 3,626 79% 2,882 744 20201 492,721 1 11,889,597 1 446,9991 10,785,154 2.765E+07 3,716 77% 2,858 858 MEASURED NMOC CONCENTRATION IN LFG: 595 ppmv ASSUMED METHANE CONTENT OF LFG: 50% SELECTED DECAY RATE CONSTANT: 0.04 SELECTED METHANE GENERATION POTENTIAL: 3,203.7 ft3/ton METRIC EQUIVALENT: 100 CU m/Mg Conversions: 35.314667 cu H per cu m 1.1023113 ton per Mg 32.037 cu ft/ion per cu m/Mg EXHIBIT 2. ESTIMATED NMOC and VOC GENERATION RATES EAST CAROLINA REGIONAL SOLID WASTE LANDFILL-AULANDER,NORTH CAROLINA NMOC VOC Surface Surface Generation Generation Fugitive Generation Generation Fugitive Year Rates Rates Rates Rates Rates Rates (tons/Yr) (Mg/Yr) (tons/Yr) (tons/Yr) (Mg/Yr) (tons/Yr) 1993 0.0 0 0.0 0.0 0.0 0.0 1994 0.7 0.6 0.7 0.3 0.2 0.3 1995 4.7 4.3 4.7 1.8 1.7 1.8 1996 10.2 9.3 10.2 4.0 3.61 4.0 1997 15.9 14.4 15.9 6.2 5.6 6.2 1998 21.1 19.1 21.1 8.2 7.5 8.2 1999 27.1 24.6 27.1 10.6 9.6 10.6 2000 33.7 30.5 33.71 13.1 11.9 13.1 2001 40.4 36.6 30.3 15.8 14.3 11.8 2002 44.7 40.5 11.2 17.4 15.8 4.4 2003 50.9 46.2 12.7 19.9 18.0 5.0 2004 54.8 49.7 13.7 21.4 19.4 5.3 2005 61.4 55.7 15.3 23.9 21.7 6.0 2006 67.1 60.9 16.8 26.2 23.7 6.5 2007 73.3 66.5 18.3 28.6 25.9 7.2 2008 79.4 72.0 19.9 31.0 28.1 7.7 2009 85.0 77.1 21.2 33.1 30.1 8.3 2010 89.6 81.3 22.4 34.9 31.7 8.7 2011 95.3 86.4 23.8 37.2 33.7 9.3 2012 100.6 91.3 25.2 39.3 35.6 9.8 2013 106.4 96.5 26.61 41.5 37.6 10.4 2014 110.8 100.5 27.7 43.2 39.2 10.8 2015 114.3 103.7 28.6 44.6 40.5 11.1 2016 117.2 106.3 29.3 45.7 41.5 11.4 2017 120.5 109.3 30.1 47.0 42.6 11.8 2018 123.9 112.4 31.0 48.3 43.8 12.1 2019 126.9 115.1 26.0 49.5 44.9 10.1 2020 130.0 118.01 30.0 50.7 46.0 11.7 MEASURED NMOC CONCENTRATION IN LFG: 595 ppmv ASSUMED METHANE CONTENT OF LFG: 50% AP-42 DEFAULT(1 1/98)VOC CONTENT OF NMOC 39% SELECTED DECAY RATE CONSTANT: 0.04 SELECTED ULTIMATE METHANE RECOVERY RATE: 3,203.7 ft3/ton METRIC EQUIVALENT: 100 cu m/Mg 35.314667 cu ft per cu m 1.10231 13 ton per Mg 32.037 cu ft/ton per cu m/Mg EXHIBIT 3.2020 HAP/TAP EMISSION RATES EAST CAROLINA REGIONAL SOLID WASTE LANDFILL-AULANDER,NORTH CAROLINA =2020 Total Methane Generation(m3 CH4/yr) 27,653,798 o a LFG Collection Efficiency(/o)= 77/o Landfill Gas Temperature c C)'= 25 Halogenated Destruction Eff.(%f= 98.0% Non-Halogenated Destruction Eff.(%f= 99.7% Percentage of LFG Collected sent to Flare(s)= 100.0% 2020 FLARE HAP EMISSIONS(tpy)` Year LFG(cfm) Generated Surface Fugitives Flare Emissions Total Emissions 2020 3,716 17.54 4.05 2.184 6.23 Collected HAPs Pollutant Mal.Wt. Cone' Q(P)t M(p)2 FM(p)3 M(p)-FM(p)4 Flare Emissions (g/gmol) (Ppmv) (m3/yr) (kg/yr) (tPy) (tPy) (tons/yr) (tPy) 1,1,1-trichloroethane TAP, HAP 133.41 0.168 9.29 50.698 0.0558 0.01 0.04 0.0009 1,1,2,2-tetrachloroethane TAP'HIP 167.85 0.070 3.87 26.577 0.0292 0.01 0.02 0.0004 1,1-dichloroethone HAP 98.97 0.741 40.98 165.887 0.1825 0.04 0.14 0.0028 1,1-dichloroetheneTAPHAP 96.94 0.092 5.09 20.173 0.0222 0.01 0.02 0.0003 1,2-dichloroethane TAP,HAP 98.96 0.120 6.64 26.862 0.0295 0.01 0.02 0.0005 1,2-dichloropropone HAP 112.99 0.023 1.27 5.878 0.0065 0.00 0.00 0.0001 acr lonitrile TAP,HAP 53.06 0.036 1.99 4.321 0.0048 0.00 0.00 0.0000 benzene TAP,HAP 78.11 0.972 53.76 171.737 0.1889 0.04 0.15 0.0004 carbon disulfide TAP'HAP 76.13 0.320 17.70 55.106 0.0606 0.01 0.05 0.0001 carbon tetrachloride TAP,HAP 153.84 0.007 0.39 2.436 0.0027 0.00 0.00 0.0000 carbonyl sulfide"A' 60.07 0.183 10.12 24.866 0.0274 0.01 0.02 0.0001 chlorobenzene TAP,HAP 112.56 0.227 12.55 57.796 0.0636 0.01 0.05 0.0010 chloroethane HAP 64.52 0.239 13.22 34.880 0.0384 0.01 0.03 0.0006 chloroform TAP'HAP 119.39 0.021 1.16 5.671 0.0062 0.00 0.00 0.0001 chloromethane HAP 50.49 0.249 13.77 28.438 0.0313 0.01 0.02 0.0005 dichlorobenzene TAP'HAP 147.00 1.607 88.88 534.347 0.5878 0.14 0.45 0.0090 dichlorodifluoromethane TAP 120.91 1.751 96.84 478.893 0.5268 0.12 0.41 0.0081 dichlorofluoromethone TAP 102.92 2.62 144.91 609.945 0.6709 0.15 0.52 0.0103 dichloromethane TAP,HAP 84.94 3.395 187.77 652.292 0.7175 0.17 0.55 0.0110 ethyl mercaptan TAP 62.13 1.356 75.00 190.568 0.2096 0.05 OA6 0.0005 eth (benzene"AP 106.16 6.789 375.48 1630.259 1.7933 0.41 1.38 0.0041 ethylene dibromide TAP,HAP 187.88 0.046 2.54 19.549 0.0215 0.00 0.02 0.0003 hexane TAP"AP 86.18 2.324 128.53 453.036 0.4983 0.12 0.38 0.0011 hydrogen sulfide TAP 34.08 23.578 1304.04 1817.592 1.9994 0.46 1.54 0.0046 mercury and compounds TAP'"AP 200.61 0.000292 0.02 0.133 0.0001 0.00 0.00 0.0000 methyl ethyl ketone TAP'"AP 72.11 10.557 583.88 1721.971 1.8942 0.44 1.46 0.0044 methyl isobut I ketone TAP'HAP 100.16 0.750 41.48 169.920 0.1869 0.04 0.14 0.0004 methyl mercaptan TAP 48.11 1.292 71.46 140.601 0.1547 0.04 0.12 0.0004 perchloroethylene TAP,HAP 165.83 1•193 65.98 447.500 0.4923 0.11 0.38 0.0076 toluene TAP'HAP 92.13 25.405 1405.09 5294.320 5.8238 1.34 4.48 0.0134 trichloroeth lene TAP,HAP 1 31.40 0.681 37.66 202.410 0.2227 0.05 0.17 0.0034 vinyl chloride TAP,HAP 62.50 1.077 59.57 152.260 0.1675 0.04 0.13 0.0026 xylenes TAP."AP 106.16 16.582 917.11 3981.876 4.3801 1.01 3.37 0.0101 hydrogen chloride TAP."AP 35.45 30.180 1283.57 1860.973 2.1085 --- --- 2.1085 Total HAPs Only --- --- 15941.20 17.54 4.05 13.49 2.18 Total TAPS Only --- --- 17288.59 19.02 4.39 14.63 2.20 Total HAPs/TAPS --- --- 19178.80 21.10 4.87 16.23 2.21 Total Non-PM,o/Non VOC HAPs --- 951.23 1.05 0.24 0.80 2.12 Notes: 1. Q(p)=Volumetric emission rate of the pollutant. AP-42 Section 2.4 equation(3). 2. M(p)=Mass generation of pollutant. AP-42 equation(4). 3. FM(p)=Fugitive emission rate of the landfill surface. 4. M(p)-FM(p)=Quantity of HAPs collected from the LFG collection system. 5.The landfill gas temperature was obtained from AP-42 Page 2.4-5. 6. The AP-42 Section 2.4 default for Flare Destruction Efficiency was assumed. 7. Pollutant concentrations used to compute the estimated emissions are from the WIAC report dated January 2001 and AP-42 Section 2.4,as revised November 1998. TAP denotes compounds that are classified as toxic air pollutants per North Carolina Department of Environment and Natural Resources Division of Air Quality. "-denotes compounds that are classified as hazardous air pollutants per AP-42 and CAA Section 1 1 2. *The compounds listed above were compiled from AP-42(revised Nov.1998)and CAA Section 112. The compounds in red type are non-halogenated species. 8.New emissions factors beginning 2018 reporting year. Attachment C NCDEQ AERO Forms 2020 Air Pollutant Source Emissions Inventory COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO Listing of Emission Sources and Control Devices on Permit.See instructions *ES ID on *ES Description #CS ID *CS Description {CD ID's Air Permit Municipal solid waste landfill [NSPS Flare,One landfill gas-fired open flare(3000 CD-Flarel,CD- ES-01 Subpart WWW,MACT Subpart CS-1,CS-4 AAAA] scfm maximum flow rate) Flare2 IES-04 Diesel engines for miscellaneous landfill support IES-05 Welding operations IES-06 Diesel storage tank IES-07 Two(2)leachate storage tanks 2 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander, NC 27805 County : Bertie DAQ Region : WARO Emission Source & Operating Scenario List- See Instructions *ES Group ID *ES ID *OS ID *OS Description 1 Municipal solid waste landfill ES-01 8 CD-Flare 1 9 CD-Flare 2 IES-04 4 No.2 fuel oil-diesel engines for miscellaneous landfill support IES-05 3 maintenance shop welding rods IES-06 6 diesel storage tank IES-07 2 temporary storage of collected leachate 3 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory - Calendar Year 2020 1. Emission Source ID(from permit) ES-01 or Emission Source Group ID 2. Emission Source Description : Municipal solid waste landfill [NSPS Subpart WWW, MACT Subpart AAAA] 3. Operating Scenario ID/ OS - I/Municipal solid waste landfill Description: 4. SCC Number/Description: 50100402/Landfill Dump ; Fugitive Emissions 5. Throughput/units in 2020: 976584670 FT3/yr (e.g.production or fuel use): 6. Fuel Information %Sulfur %Ash Heat Content (If fuel is used) (Btu/units) 7. Capture Efficiency (%of Emissions from this Process Vented to Control Device or Stack): 8.Control Device Information :None Order CS-ID CD ID Control Device Description (as listed in permit) 9. Emission Release Point(ERP)Information:(Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description (in feet) Circle(enter#): (F) (Feet/sec) Rate(Acfm) Rectangle(L x W) (in 0.1 feet) F-1 FUGITIVE (NO 1 72 Area= 1 fugitive STACK) 4 Operating Scenario: OS - 1 Emission Source/Group ID: ES-01 10. Operating Schedule:(Source/OperatingScenario that best characterizes Calendar Year 2020) Hours per Day ( 24 ) Days per Week ( 7 ) Weeks per Year ( 52 ) 11.Typical Start& End Times For Operating Scenario: Start: 0 End: 2359 12. Seasonal Periods Percent Annual Throughput: Jan-Feb+ Dec 250% March-May 25% June-Aug. 25% Sept.-Nov. 25% 2020 1 2020 2020 1 2020 13. Actual Emissions per Pollutant Listed Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Criteria Emissions- Emission Control (NAAQS) Pollutant Criteria Estimation Efficiency Emission Ef Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 08 NOx NOx 08 TSP TSP 08 PM10 PM10 08 PM2.5 PM2.5 08 S02 S02 08 VOC VOC 11.7 08 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Efficiency Factor Control (Pounds/Year) Method Code (Net after all controls) (See Instructions) 2020 Acrylonitrile 107-13-1 2.22 08 Benzene 71-43-2 88.12 08 CFC-12 75-71-8 259.49 08 (Dichlo rod ifluoromethane) Carbon disulfide 75-15-0 28.27 08 Carbon tetrachloride 56-23-5 1.32 08 Carbonyl sulfide 463-58-1 12.76 08 Chlorobenzene 108-90-7 31.32 08 Chloroform 67-66-3 3.07 08 Dichlorobenzene(p), 1,4- 106-46-7 289.54 08 Ethyl benzene 100-41-4 836.47 08 Ethyl chloride 75-00-3 18.9 08 (chloroethane) Ethyl mercaptan 75-08-1 97.78 08 Ethylene dibromide 106-93-4 10.59 08 Ethylene dichloride(1,2- 107-06-2 14.56 08 dichloroethane) Ethylidene dichloride (1,1- 75-34-3 89.89 08 dichloroethane) 5 Hexane, n- 110-54-3 232.45 08 Hydrogen sulfide 7783-06-4 932.59 08 Mercury,vapor 7439-97-6 0.07 08 (Component of HGC) Methyl chloride 74-87-3 15.41 08 Methyl chloroform 71-55-6 27.47 08 Methyl ethyl ketone 78-93-3 883.53 08 Methyl isobutyl ketone 108-10-1 87.18 08 Methyl mercaptan 74-93-1 72.14 08 Methylene chloride 75-09-2 353.45 08 Perch loroethylen e 127-18-4 242.48 08 (tetrachlorethylene) Propylene dichloride 78-87-5 3.19 08 Tetrachloroethane, 1,1,2,2- 79-34-5 14.4 08 Toluene 108-88-3 2716.47 08 Trichloroethylene 79-01-6 109.68 08 Vinyl chloride 75-01-4 82.5 08 Vinylidene chloride 75-35-4 10.93 08 Xylene 1330-20-7 2043.07 08 6 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory - Calendar Year 2020 1. Emission Source ID(from permit) ES-01 or Emission Source Group ID 2.Emission Source Description : Municipal solid waste landfill [NSPS Subpart WWW, MACT Subpart AAAA] 3. Operating Scenario ID/ OS - 8/CD-Flare I Description: 4. SCC Number/Description: 5030060 1/Landfill Dump ; Waste Gas Flares 5.Throughput/units in 2020: 730058400 FT3/yr (e.g.production or fuel use): 6.Fuel Information %Sul fur 0n,11 Heat Content (If fuel is used) (Btu/units) 7. Capture Efficiency (%of Emissions from this Process Vented 100 to Control Device or Stack): 8.Control Device Information : Order CS-ID CD ID Control Device Description (as listed in permit) I CS-1 CD-Flarel One landfill gas-fired open flare(3,000 scfm maximum flow rate) 9. Emission Release Point(ERP) Information: (Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description (in feet) Circle(ewer#): (F` (Feet/sec) Rate(Acfm) Rectangle(L.x W) (in 0.1 feet) Flare VERTICAL 35 1 1200 28.09 1324 Flare STACK 7 Operating Scenario: OS - 8 Emission Source/Group ID: ES-01 10.Operating Schedule:(Source/OperatingScenario that best characterizes Calendar Year 2020) Hours per Day ( 24 ) Days per Week ( 7 ) Weeks per Year ( 52 ) 11.Typical Start& End Times For Operating Scenario: Start: 0 End: 2359 12. Seasonal Periods Percent Annual Thro ughput: Jan-Feb+Dec 25% March-May 25% June-Aug. 25% Sept.-Nov. 25% 2020 1 2020 2020 2020 13. Actual Emissions per Pollutant Listed Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Criteria Emissions- Emission Control (NAAQS) Pollutant Criteria Estimation Efficiency Emission Ef Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 57.3 08 0 NOx NOx 12.57 08 0 TSP TSP 3.04 08 0 PM10 PM10 3.04 08 0 PM2.5 PM2.5 3.04 08 0 S02 S02 2.78 08 0 VOC VOC 0.37 08 98 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Method Code Efficiency Factor Control eo oe (Pounds/Year) (Net after all controls) (See Instructions) 2020 Acrylonitrile 107-13-1 0.01 08 98 Benzene 71-43-2 0.42 08 98 CFC-12 75-71-8 7.88 08 98 (Dichlorodifluoromethane) Carbon disulfide 75-15-0 0.14 08 98 Carbon tetrachloride 56-23-5 0.04 08 98 Carbonyl sulfide 463-58-1 0.06 08 98 Chlorobenzene 108-90-7 0.95 08 98 Chloroform 67-66-3 0.09 08 98 Dichlorobenzene(p), 1,4- 106-46-7 8.79 08 98 Ethyl benzene 100-41-4 4.02 08 98 Ethyl chloride 75-00-3 0.57 08 98 (chloroethane) Ethyl mercaptan 75-08-1 0.47 08 98 Ethylene dibromide 106-93-4 0.32 08 98 Ethylene dichloride (1,2- 107-06-2 0.44 08 98 dichloroethane) Ethylidene dichloride (1,1- 75-34-3 2.73 08 98 dichloroethane) 8 Hexane, n- 110-54-3 1.12 08 98 Hydrogen chloride 7647-01-0 2049.44 08 98 (hydrochloric acid) Hydrogen sulfide 7783-06-4 4.48 08 98 Mercury,vapor 7439-97-6 0 08 98 (Component of HGC) Methyl chloride 74-87-3 0.47 08 98 Methyl chloroform 71-55-6 0.83 08 98 Methyl ethyl ketone 78-93-3 4.25 08 98 Methyl isobutyl ketone 108-10-1 0.42 08 98 Methyl mercaptan 74-93-1 0.35 08 98 Methylene chloride 75-09-2 10.73 08 98 Perch loroethylen e 127-18-4 7.36 08 98 (tetrachloroethylene) Propylene dichloride 78-87-5 0.1 08 98 Tetrachloroethane, 1,1,2,2- 79-34-5 0.44 08 98 Toluene 108-88-3 13.06 08 98 T rich lo roethylene 79-01-6 3.33 08 98 Vinyl chloride 75-01-4 2.5 08 98 Vinylidene chloride 75-35-4 0.33 08 98 Xylene 1330-20-7 9.82 08 98 9 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory- Calendar Year 2020 1. Emission Source ID (from permit) ES-01 or Emission Source Group ID 2. Emission Source Description : Municipal solid waste landfill [NSPS Subpart WWW, IVIACT Subpart AAAA] 3. Operating Scenario ID/ OS -9/CD-Flare 2 Description: 4. SCC Number/Description: 50300601/Landfill Dump ; Waste Gas Flares 5.Throughput/units in 2020: 772106400 FT3/yr (e.g.production or fuel use): 6. Fuel Information %Sulfur %Asti Heat Content (If fuel is used) (Btu/units) 7.Capture Efficiency 100 (%of Emissions from this Process Vented to Control Device or Stack): 8.Control Device Information Order ID CD ID Control Device Description (as listed in permit) 1 CS-4 CD-F are2 One landfill gas-fired open flare (3,000 scfm maximum flow rate) 9. Emission Release Point(ERP) Information:(Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description (in feet) Circle(enter#): (F) (Feet/sec) Rate(Acfm) Rectangle(L x W) (in 0.1 feet) Flare2 VERTICAL 40 1.17 1200 28.3 1825.57 Flare 2 STACK 10 Operating Scenario: OS - 9 Emission Source/Group ID: ES-01 10. Operating Schedu le:(So urce/Operating Scenario that best characterizes Calendar Year 2020) Hours per Day ( 24 ) Days per Week ( 7 ) Weeks per Year ( 52 ) 11.Typical Start& End Times For Operating Scenario: Start: 0 End: 2359 12. Seasonal Periods Percent Annual Throughput: Jan-Feb + Dec 25% March-May 25% June-Aug. 25% Sept.-Nov. o 2020 2020 2020 2020 25/o 13. Actual Emissions per Pollutant Listed Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Criteria Emissions- Emission Control (NAAQS) Pollutant Criteria Estimation Efficiency Emission Ef Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 60.6 08 0 NOx NOx 13.28 08 0 TSP TSP 3.22 08 0 PM10 PM10 3.22 08 0 PM2.5 PM2.5 3.22 08 0 S02 S02 2.96 08 0 VOC VOC 0.39 08 98 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Efficiency Factor Control (Pounds/Year) Method Code (Net after all controls) (See Instructions) 2020 Acrylonitrile 107-13-1 0.01 08 98 Benzene 71-43-2 0.45 08 98 CFC-12 75-71-8 8.33 08 98 (Dichlorodifluoromethane) Carbon disulfide 75-15-0 0.14 08 98 Carbon tetrachloride 56-23-5 0.04 08 98 Carbonyl sulfide 463-58-1 0.06 08 98 Chlorobenzene 108-90-7 1 08 98 Chloroform 67-66-3 0.1 08 98 Dichlorobenzene(p), 1,4- 106-46-7 9.29 08 98 Ethylbenzene 100-41-4 4.25 08 98 Ethyl chloride 75-00-3 0.61 08 98 (chloroethane) Ethyl mercaptan 75-08-1 0.5 08 98 Ethylene dibromide 106-93-4 0.34 08 98 Ethylene dichloride (1,2- 107-06-2 0.47 08 98 dichloroethane) Ethylidene dichloride(1,1- 75-34-3 2.89 08 98 dichloroethane) 11 Hexane, n- 110-54-3 1.18 08 98 Hydrogen chloride 7647-01-0 2167.52 08 98 (hydrochloric acid) Hydrogen sulfide 7783-06-4 4.74 08 98 Mercury,vapor 7439-97-6 0 08 98 (Component of HGC) Methyl chloride 74-87-3 0.49 08 98 Methyl chloroform 71-55-6 0.88 08 98 Methyl ethyl ketone 78-93-3 4.49 08 98 Methyl isobutyl ketone 108-10-1 0.44 08 98 Methyl mercaptan 74-93-1 0.37 08 98 Methylene chloride 75-09-2 11.35 08 98 Perch Inroethylene 127-18-4 7.78 08 98 (tetrachloroethylene) Propylene dichloride 78-87-5 0.1 08 98 Tetrachloroethane, 1,1,2,2- 79-34-5 0.46 08 98 Toluene 108-88-3 13.81 08 98 Trichloroethylene 79-01-6 3.52 08 98 Vinyl chloride 75-01-4 2.65 08 98 Vinylidene chloride 75-35-4 0.35 08 98 Xylene 1330-20-7 10.39 08 98 12 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory-Calendar Year 2020 1. Emission Source ID(from permit) IES-04 or Emission Source Group ID 2. Emission Source Description : Diesel engines for miscellaneous landfill support 3. Operating Scenario ID/ OS -4/No. 2 fuel oil - diesel engines for miscellaneous landfill support Description: 4. SCC Number/Description: 20200401/Diesel ; Diesel 5. Throughput/units in 2020: 60000 GAL/yr (e.g.production or fuel use): 6. Fuel Information %Sulfur %Ash Heat Content (If fuel is used) (Btu/units) 7. Capture Efficiency (%of Emissions from this Process Vented to Control Device or Stack): 8.Control Device Information :None Order CS-ID CD ID Control Device Description (as listed in permit) 9. Emission Release Point(ERP) Information: (Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description in feet) Circle(enter#): lF) (FeeUsec) Rate(Acfm) Rectangle(L x W) (in 0.1 feet) ERP- FUGITIVE(NO miscellaneous DIESEL STACK) 1 72 Area= 1 diesel engines 13 Operating Scenario: OS -4 Emission Source/Group ID: IES-04 10.Operating Schedule:(Source/OperatingScenario that best characterizes Calendar Year 2020) Hours per Day ( 10 ) Days per Week ( 6 ) Weeks per Year ( 52 ) 11.Typical Start& End Times For Operating Scenario: Start: 0 End: 2359 12. Seasonal Periods Percent Annual Throughput: Jan-Feb+Dec 25% March-May 25% June-Aug. 25% Sept.-Nov. 25% 2020 1 2020 1 2020 2020 13. Actual Emissions per Pollutant Listed : Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Criteria Emissions- Emission Control (NAAQS) Pollutant Criteria Estimation Efficiency Emission Ef Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 1.47 08 NOx NOx 6.84 08 TSP TSP 0.05 08 PM10 PM10 0.05 08 PM2.5 PM2.5 0.05 08 S02 S02 0.45 08 VOC VOC 0.55 08 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Efficiency Factor Control (Pounds/Year) Method Code (Net after all controls) (See Instructions) 2020 Acetaldehyde 75-07-0 2.4 08 Acrolein 107-02-8 0.3 08 Benzene 71-43-2 2.9 08 Butadiene, 1,3- 106-99-0 0.1 08 Formaldehyde 50-00-0 3.6 08 Polycyclic Organic Matter (Inc PAH,dioxins,etc. NC POM 74.1 08 & AP 42 historic amorphous glob) Toluene 108-88-3 1.3 08 Xylene 1330-20-7 0.9 08 14 j COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander, NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory- Calendar Year 2020 1. Emission Source ID(from permit) IES-05 or Emission Source Group ID 2. Emission Source Description : Welding operations 3. Operating Scenario ID/ OS - 3/maintenance shop welding rods Description: 4. SCC Number/Description: 30900500/Metal Work-Welding ; General 5. Throughput/units in 2020: 5000 LB/yr (e.g.production or fuel use): 6. Fuel Information %Sulfur %Ash Heat Content (If fuel is used) (Btu/units) 7. Capture Efficiency (%of Emissions from this Process Vented to Control Device or Stack): 8.Control Device Information :None Order CS-ID CD ID Control Device Description (as listed in permit) 9. Emission Release Point(ERP)Information: (Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description (in feet) Circle(enter#): (F.) (Feet/sec) Rate(Acfm) Rectangle(L x W) (in 0.1 feet) F-1 FUGITIVE (NO 1 72 Area= 1 fugitive STACK) 15 Operating Scenario: OS -3 Emission Source/Group ID: IES-05 10.Operating Schedule:(Source/OperatingScenario that best characterizes Calendar Year 2020) Hours per Day ( 1 ) Days per Week ( 5 ) Weeks per Year ( 50 ) 11.Typical Start& End Times For Operating Scenario: Start: 900 End: 1000 12.Seasonal Periods Percent Annual Throughput: Jan-Feb+Dec 25% March-May 25% June-Aug. 25% Sept.-Nov. 25% 2020 1 2020 2020 2020 13. Actual Emissions per Pollutant Listed Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Emissions- Emission Control Criteria PollutantPollutant Criteria Estimation Efficiency Emission Ef Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 08 NOx NOx 08 TSP TSP 08 PM10 PM10 08 PM2.5 PM2.5 08 S02 S02 08 VOC VOC 08 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Efficiency Factor Control (Pounds/Year) Method Code (Net after all controls) (See Instructions) 2020 Manganese Unlisted MNC- Compounds (Specify & Other 101 08 Component of MNC) 16 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory- Calendar Year 2020 1. Emission Source ID(from permit) IES-06 or Emission Source Group ID 2. Emission Source Description : Diesel storage tank 3. Operating Scenario ID/ OS - 6/diesel storage tank Description: 4. SCC Number/Description: 39090004/Fuel Storage- Fixed Roof Tanks ; Distillate Oil (No. 2): Working Loss 5. Throughput/units in 2020: 159070 GAL/yr (e.g.production or fuel use): 6. Fuel Information %Sulfur %Ash Heat Content (if fuel is used) (Btu/units) 7. Capture Efficiency (%of Emissions from this Process Vented to Control Device or Stack): 8. Control Device Information :None Order CS-ID CD ID Control Device Description (as listed in permit) 9. Emission Release Point(ERP) Information: (Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description (in feet) Circle(enter#): (F) (Feet/sec) Rate(Acfm) Rectangle(L x W) (in 0.1 feet) F-1 FUGITIVE (NO 1 72 Area= 1 fugitive STACK) 17 Operating Scenario: OS - 6 Emission Source/Group ID: IES-06 10.Operating Schedule:(Source/OperatingScenario that best characterizes Calendar Year 2020) Hours per Day ( 10 ) Days per Week ( 6 ) Weeks per Year ( 52 ) 11.Typical Start& End Times For Operating Scenario: Start: 600 End: 1600 12. Seasonal Periods Percent Annual Throughput: Jan-Feb+ Dec 25% March-May o June-Aug. o Sept.-Nov. 25% 2020 2020 25/0 2020 25/0 2020 13. Actual Emissions per Pollutant Listed Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Criteria Emissions- Emission Control Pollutant Criteria Estimation Emission Ef (NAAQS) Efficiency Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 08 NOx NOx 08 TSP TSP 08 PM10 PM10 08 PM2.5 PM2.5 08 S02 S02 08 VOC VOC 08 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Method Code Efficiency Factor Control eo oe (Pounds/Year) (Net after all controls) (See Instructions) 2020 18 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander, NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory -Calendar Year 2020 1. Emission Source ID(from permit) IES-07 or Emission Source Group ID 2. Emission Source Description : Two (2) leachate storage tanks 3. Operating Scenario ID/ OS -2/temporary storage of collected leachate Description: 4. SCC Number/Description: 40714698/Fixed Roof Tanks - Miscellaneous ; Specify In Comments: Working Loss 5. Throughput/units in 2020: 14747831 GAL/yr (e.g.production or fuel use): 6. Fuel Information %Sulfur %Ash Heat Content (If fuel is used) (Btu/units) 7. Capture Efficiency (%of Emissions from this Process Vented to Control Device or Stack): 8.Control Device Information :None Order CS-ID CD ID Control Device Description (as listed in permit) 9. Emission Release Point(ERP)Information: (Sources vented to more than one ERP use additional entry lines): ERP ID ERP Type Height Diameter Temperature Velocity Volume Flow ERP Description (in feet) Circle(enter ii): (F) (Feet/sec) Rate(Acfm) Rectangle(1,x W) (in 0.1 feet) F-1 FUGITIVE (NO 1 72 Area= 1 fugitive STACK) 19 Operating Scenario: OS -2 Emission Source/Group ID: IES-07 10.Operating Schedule:(Source/OperatingScenario that best characterizes Calendar Year 2020) Hours per Day ( 24 ) Days per Week ( 7 ) Weeks per Year ( 52 ) 11.Typical Start& End Times For Operating Scenario: Start: 0 End: 2359 12. Seasonal Periods Percent Annual Throughput: Jan-Feb+Dec o March-May o June-Aug. 25% Sept.-Nov. 25% 2020 25/0 2020 25/0 2020 2020 13. Actual Emissions per Pollutant Listed : Attach calculations and documentation of emission factors or other estimation methods used. Emissions- Emission Control GHG CAS GHG Estimation Efficiency Emission Ef Pollutants Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 Criteria Emissions- Emission Control (NAAQS) Pollutant Criteria Estimation Efficiency Emission Ef Pollutants Code Pollutants Method Code (Net after Factor Control (Tons/Year) (See Instructions) all controls) 2020 CO CO 08 NOx NOx 08 TSP TSP 08 PM10 PM10 08 PM2.5 PM2.5 08 S02 S02 08 VOC VOC 0.03 08 Emissions Emission Control HAP/TAP CAS Estimation Emission EF Pollutants(In Alphabetical Order) (see instructions) HAP/TAPS Efficiency Factor Control (Pounds/Year) Method Code (Net after all controls) (See Instructions) 2020 Benzene 71-43-2 0.62 08 Ethylbenzene 100-41-4 0.71 08 Methyl ethyl ketone 78-93-3 36.92 08 Methyl isobutyl ketone 108-10-1 0.62 08 Methylene chloride 75-09-2 0.31 08 Toluene 108-88-3 1.97 08 Xylene 1330-20-7 1.6 08 20 Facility Total CY 2020 Emissions Summary COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO North Carolina Department of Environmental Quality Division of Air Quality Air Pollutant Point Source Emissions Inventory -Calendar Year 2020 Record Facility-Wide Totals From all Permitted and Non-Permitted AirPollutant Emission Sources Green House Gases Pollutants GHG Actual Emissions(Tons/Year) Pollutant ICAS 12020 12019 %Change Criteria Pollutants Actual Emissions(Tons/Year) Pollutant CAS 2020 2019 %Change CO CO 119.37 120.27 -0.7483112% NOx NOx 32.69 32.9 -0.6383067% PM(TSP) TSP 6.31 6.36 -0.7861665% PM 10 PM 10 6.31 6.36 -0.7861665% PM2.5 PM2.5 6.31 6.36 -0.7861665% S02 IS02 16.19 6.27 -1.2759159% VOC I VOC 113.04 11.45 113.886464% Hazardous Air Pollutants HAPS and/or Toxic Air Pollutants TAPS Actual Emissions(Pounds/Year) Pollutant ICAS 12020 2019 1%Change Pollutant Group:Manganese&compounds Group Sum:101 Manganese Unlisted Compounds IMNC-Other 101.0 101 0.0% (Specify&Component of MNC) Pollutant Group:Mercury&Compounds-all total mass,inc Hg Vapor Group Sum:.07 Mercury,vapor(Component of 7439-97-6 -- To-07 F291 -75.94502% HGC) Pollutant Group:Total Reduced Sulfur(TRS as total mass)Group Sum:1014.67 Hydrogen sulfide 7783-06-4 941.81 818.83 15.018988% Methyl mercaptan 74-93-1 72.86 63.34 15.029998% Acetaldehyde 75-07-0 2.4 2.4 0.0% Acrolein 107-02-8 0.3 .3 0.0% Acrylonitrile 107-13-1 2.24 1.94 15.463915% Benzene 71-43-2 92.51 80.85 14.421774% Butadiene, 1,3- 106-99-0 0.1 .1 0.0% CFC-12 75-71-8 275.7 243.52 13.214523% (Dich Iorodi fl uoromethane) 21 Carbon disulfide 75-15-0 28.55 24.78 15.213876% Carbon tetrachloride 56-23-5 1.4 1.24 12.903223% Carbonyl sulfide 463-58-1 12.88 11.2 15.000003% Chlorobenzene 108-90-7 33.27 29.39 13.201774% Chloroform 67-66-3 3.26 2.88 13.19444% Dichlorobenzene(p), 1,4- 106-46-7 307.62 271.69 13.224628% Ethyl benzene 100-414 845.45 735.14 15.005304% Ethyl chloride(chloroethane) 75-00-3 20.08 17.74 13.190531% Ethyl mercaptan 75-08-1 98.75 85.85 15.02621% Ethylene dibromide 106-934 11.25 9.94 13.17908% Ethylene dichloride(1,2- 107-06-2 15.47 13.65 13.333338% dichloroethane) Ethylidene dichloride(1,1- 75-34-3 95.51 84.36 13.217166% dichloroethane) Formaldehyde 50-00-0 3.6 3.6 0.0% Hexane,n- 110-54-3 234.75 204.09 15.022787% Hydrogen chloride(hydrochloric 7647-01-0 4216.96 5918.32 -28.747345% acid) Methyl chloride 74-87-3 16.37 14.46 13.208858% Methyl chloroform 71-55-6 29.18 25.78 13.188517% Methyl ethyl ketone 78-93-3 929.19 812.67 14.337926% Methyl isobutyl ketone 108-10-1 88.66 77.17 14.889213% Methylene chloride 75-09-2 375.84 332.01 13.201405% Perchloroethylene 127-18-4 257.62 227.56 13.209702% (tetrachloroethylene) Polycyclic Organic Matter(Inc PAH,dioxins,etc.NC&AP 42 POM 74.1 74.1 0.0% historic amorphous glob) Propylene dichloride 78-87-5 3.39 2.99 13.377929% Tetrachloroethane, 1,112,2- 79-34-5 15.3 13.52 13.165678% Toluene 108-88-3 2746.61 2388.37 14.999351% Trichloroethylene 79-01-6 116.53 102.93 13.212862% Vinyl chloride -5-01-4 87.65 77.43 13.19902% Vinylidene chloride 75-35-4 11.61 10.26 13.157888% Xylene 1330-20-7 2065.78 1796.33 15.000032% 22 COPY of RECORD Date Submitted: 6/23/2021 09:37:11 As entered in AERO Facility Name: East Carolina Regional Solid Waste Landfill Facility ID : 0800102 1922 Republican Road Permit : 08849 Aulander,NC 27805 County : Bertie DAQ Region : WARO Comments From Facility: 6/23/2021 - Emiccinn Somme Comments ES IES-07 : Facility added a Third Leachate Storage Tank 23