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Home My WebLink AboutNC0002071_Draft Fact Sheet_20231122DEQ/DWR/NPDES FACT SHEET NPDES PERMIT RENEWAL Pamlico Packing Company, Inc. - Permit NC0O02O71 Joe R. Corporon, P.G. 16Nov2023 Table 1 Facility Information Applicant/Facility Name: Pamlico Packing Company, Inc. Applicant Address: P.O. Box 308 Vandemere, North Carolina 28587 Facility Address: 28 North First, Vandemere, North Carolina 28537 Permitted Flow Not limited Type of Waste: discharge from seafood packing and processing WW Code Prim. 25; Second.30, Treatment Unit Code 0000 Facility/Permit Status: Class: WPCS - PCNC, minor /Renewal County: Pamlico Count Miscellaneous Drainage Basin Neuse River Receiving Stream: Bay River Regional Office: Washington Stream Classification: SC; Sw; NSW State Grid / USGS TooQuad: G32NW / Vandemere, NC 303 d Listed? No Permit Writer: Joe R. Corporon, P.G. Subbasin: 03-04-13 Date: 16Nov2023 Drainage Area mil : <5 s . mi. Summer 7Q 10 cfs Tidal Winter 7Q10 (cfs): Tidal 30 2 cfs Tidal Average Flow cfs : Tidal IWC (%): N/A Primary SIC Code: 2092 Application to Renew — The Permittee's application received DWR, tardy by 6 months (22May2023), makes no estimates of future production. The previous application (2017) states that the site has been dormant in "the recent past," with "expectations to resume processing in the near future." BIMS monitoring database shows no record of discharge from this facility since 2015. FACILITY DESCRIPTION Permit Renewal. This facility was first permitted in 1980. The most recent permit became effective February 1, 2014, expiring on May 31, 2018. The Division has received appropriate documentation to renew on 22May2023. Pamlico Packing wishes to maintain the permit for continued intermittent use. Therefore, renewal has considered the seafood production estimated on the renewal application (December 5, 2017). Current DMR records report no discharge from this facility since August 2016. This facility is registered for eDMR. Fact Sheet - Permit Renewal — DRAFT Revised 16Nov2023 NPDES NC0002071 Page 1 of 8 Permitting History and Facility Description. Pamlico Packing sits on the north-western shore of the Bay River where local topography is flat and low-lying (— 0.5 feet above MSL). When active, the Permittee operates a five -to -six -day per week seafood packing and processing facility that utilizes both year-round and seasonal processes. Considering all waste streams, total discharge flow when active averages between 3,000 and 4,000 gallons per day (gpd) via five (5) outfalls. A previous WaRO Staff Report noted that each of five (5) outfalls discharges from the same loading dock where all wasteflow discharges within a lateral distance of 10-meters. A note will be added to the draft cover letter to the effect that, "Based on the renewal application (received 22May2023), each permitted outfall use will be updated as follows: Outfall 001 -- ice box discharge (non -process wastewater) General Permit conditions Outfall 002 -- fish processing (bottom fish) per 40CFR 408.212(b), Subpart U. Outfall 003 -- shrimp processing per 40CFR 408.122(b), Subpart L, Outfall 004 -- crab processing per 40CFR 408.22(b), Subpart B. Outfall 005 -- boiler blowdown (non -process wastewater) General Permit conditions." Production History —Past peak production (daily -seasonal) for a minor, Class I treatment facility, has reached 6,000 lbs/day (shrimp), 6,000 lbs/day (fish), and 800 lbs/day (crab), during summer months. Pamlico removes solids by physical screening through containers called "drain buckets," disposing solids to trash -bens for off -site landfill disposal. This facility discharges to the Neuse River estuary and, due to its minor flow rates, is not a member of the Lower Neuse River Basin Association. Waste Load Allocation (WLA). The Division prepared the last Waste Load Allocation in 1991. Effluent limits were based on Guidelines (pH on saltwater guidelines). The Division views this allocation appropriate for renewal except as noted herein. Verification of Receiving Stream Conditions. The Division verified discharge to the Bay River, located within sub -basin 03-04-13 [stream segment 27-150-(1)]. This waterbody has been classified SC; Sw; NSW where both lunar and wind tides influence stream flow. This waterbody is not listed as an "impaired" on the Division's 303 (d) list. This facility discharges upstream in proximity, but not within, a waterbody classified High Quality Waters (SA, HQW; NSW), see map. PERMIT LIMITS — HISTORY AND APPROACH (2019 - 2023) Seafood Production. Current BIMS databases show no discharge, and Pamlico Packing's application to renew provides no estimated seafood production (see DMRs for Outfalls 002, 003 and 004). 40 CFR monitoring for Outfalls 001 (ice -box drainage) and Outfall 005 (boiler blowdown) are permitted as non -product -contact discharges requiring only Flow, pH, and Temperature. The Division used past production data to compare technology -based effluent limits (TBEL) vs. water -quality based effluent limits (WQBELs) in accord with 40 CFR.408. In December 2017, the Permittee estimated gross production weights for fish (Table 2), shrimp (Table 3), and crab (Table 4), as required under §40CFR .408, for respective Subparts U, L and B. Renewal assigned WQBELs as best professional judgement (BPJ) for Total Suspended Solids (TSS) and Oil and Grease (O&G) as the protective, and thereby updated permit limits [for rationale, see tables and CONCLUSIONS]. Fact Sheet - Permit Renewal — DRAFT Revised 16Nov2023 NPDES NC0002071 Page 2 of 8 Table 2. Fish Processing Subpart U - Parameter Limit Calculations Outfall 002 40 CFR.408.212 (b) Renewal Production Renewal Limits Renewal Limits BPT (lbs./1000 lbs.) (gross weight) (TBELs in lbs./day) (WQBELs in mg/L) For For Maximum Average of Daily Daily Monthly Daily Monthly Parameter Daily Monthly Production Values for 30 Max Average Max Average Max Average Day Days TSS 3.6 2.0 18,000 lbs. 1,000 lbs./ day 64.8 2.0 45 30 Oil & Grease 1.0 0.55 18,000 lbs. 1000 lbs./ day 18 0.55 20 15 pH 6.0-9.0 6.0-9.0 - 6.0-9.0 6.0-9.0 6.0-9.0 TBELs TSS: 3.6x 18=64.8/2.0x 1 =2.0 TBELs O&G: 1 x 18 = 18 / 0.55 x 1 = 0.55 WQBELs for TSS = 45 mg/L DM & 30 mg/L MA WQBELs for O&G = 20 mg/L DM & 15 mg/L MA Table 3. Shrimp Processing Subpart L - Parameter Limit Calculations Outfall 003 40 CFR.408.122 (b) Renewal Production Renewal Limits Renewal Limits BPT (lbs./1000 lbs.) (gross weight) (TBELs in lbs./day) (WQBELs in mg/L) For For Maximum Average of Daily Monthly Daily Monthly Parameter Daily Monthly Production Daily Values Max Average Max Average Max Average Day for 30 Days TSS 110 38 10,000 lbs. 1,300 lbs./ day 1,100 49.4 45 30 Oil & Grease 36 12 10,000 lbs. 1,300 lbs./ day 3,600 15.6 20 15 H 6.0-9.0 6.0-9.0 - 6.0-9.0 6.0-9.0 6.0-9.0 6.0-9.0 TBELs TSS: 110 x 10 =1,100 / 38 x 1.3 = 49.4 TBELs O&G: 36 x 10 = 3,600 / 12 x 1.3 =15.6 WQBELs for TSS = 45 mg/L DM & 30 mg/L MA WQBELs for O&G = 20 mg/L DM & 15 mg/L MA Table 4. Crab Processing Subpart B - Parameter Limit Calculations Outfall 004 40 CFR.408.22 (b) Renewal Production Renewal Limits Renewal Limits BPT (lbs./1000 lbs.) (gross weight) (TBELs in lbs./day) (WQBELs in mg/L) For For Maximum Average of Daily Daily Monthly Daily Monthly Parameter Daily Monthly Production Values for 30 Max Average Max Average Max Average Day Days TSS 2.2 0.7 8,000 lbs. 2,400 lbs./ day 17.6 1.68 45 30 Oil & Grease 0.6 0.2 8,000 lbs. 2,400 lbs./ day 4.8 0.48 20 15 pH 6.0-9.0 6.0-9.0 - 6.0-9.0 6.0-9.0 6.0-9.0 6.0-9.0 TBELs TSS: 2.2x8=17.6/0.7x2.4=1.68 TBELs O&G:0.6x8=4.8/0.2x2.4=0.48 WQBELs for TSS = 45 mg/L DM & 30 mg/L MA WQBELs for O&G = 20 mg/L DM & 15 mg/L MA CONCLUSIONS: In contrast to the previous draft, DWR feels that WQBELs better protect Surface Water Quality. It is our best professional judgement (BPJ) that new limits for production outfalls better protect the environment while continuing to maintain the Permittee's ease of monitoring, reporting, and lab analyses, [see permit tables for Outfalls 002, 003, and 004]. Fact Sheet - Permit Renewal - DRAFT Revised 16Nov2023 NPDES NC0002071 Page 3 of 8 Compliance History BIMS databases show no limit violations - monitoring violations only [Jan202O-Jun2O23]. FACILITY MONTH YEAR VIOL DATE VIOL TYPE ACTION UPDATED Pamlico Packing 1 2021 03/03/2021 Late/Missing DMR NOD pauLmays Pamlico Packing 2 2020 03/31/2020 Late/Missing DMR NOV pauLmays PROPOSED SCHEDULE FOR PERMIT ISSUANCE Revised Draft Permit to Public Notice: Permit Issue [estimated]: Effective Date[estimated]: NPDES DIVISION CONTACT November 20, 2023 December 221 2023 February 1, 2024 If you have questions about any of the above information, or on the attached permit, please email Joe R. Corporon,.Z.G. boe.corporon@ncdenr.gov]. NAME: 109DIN DATE: 16Nov2023 The NC 2007-2015 Water Quality Standard (WQS) Triennial Review was approved by the NC Environmental Management Commission (EMC) on November 13, 2014. The US EPA subsequently approved the WQS revisions on April 6, 2016, with some exceptions. Therefore, metal limits in draft permits out to public notice after April 6, 2016 must be calculated to protect the new standards - as approved. Table 2. NC Dissolved Metals Water Oualitv Standards/Aouatic Life Protection Parameter Acute FW, µg/1 (Dissolved) Chronic FW, µg/1 (Dissolved) Acute SW, µg/1 (Dissolved) Chronic SW, µg/l (Dissolved) Arsenic 340 150 69 36 Beryllium 65 6.5 --- --- Cadmium Calculation Calculation 40 8.8 Chromium III Calculation Calculation --- --- Chromium VI 16 11 1100 50 Copper Calculation Calculation 4.8 3.1 Lead Calculation Calculation 210 8.1 Nickel Calculation Calculation 74 8.2 Silver Calculation 0.06 1.9 0.1 Zinc Calculation Calculation 90 81 Fact Sheet - Permit Renewal — DRAFT Revised 16Nov2023 NPDES NC0002071 Page 4 of 8 Table 2 Notes: 1. FW= Freshwater, SW= Saltwater 2. Calculatiol = Hardness dependent standard 3. Only the aquatic life standards listed above are expressed in dissolved form. Aquatic life standards for Mercury and selenium are still expressed as Total Recoverable Metals due to bioaccumulative concerns (as are all human health standards for all metals). It is still necessary to evaluate total recoverable aquatic life and human health standards listed in 15A NCAC 213.0200 (e.g., arsenic at 10 µg/l for human health protection; cyanide at 5 µg/L and fluoride at 1.8 mg/L for aquatic life protection). Table 3. Dissolved Freshwater Standards for Hardness -Dependent Metals The Water Effects Ratio (WER) is equal to one unless determined otherwise under 15A NCAC 02B .0211 Subparagraph (11)(d) Metal NC Dissolved Standard, 1 Cadmium, Acute WER*{1.136672-[In hardness] (0.041838){ 3.1485{ e^10.9151 [ln hardness]- Cadmium, Acute Trout waters WER* { 1.136672-[ln hardness] (0.041838){ 3.62361 e^{0.9151 [ln hardness] - Cadmium, Chronic WER*{1.141672-[ln hardness] (0.041838){ 4.4451 { e^{0.7998[1n hardness]- Chromium III, Acute WER*0.316 e^{0.8190[ln hardness]+3.7256{ Chromium III, Chronic WER*0.860 e^{0.8190[ln hardness]+0.6848} Copper, Acute WER*0.960 e^{0.9422[1n hardness]-1.700} Copper, Chronic WER*0.960 eA f 0.8545[ln hardness]-1.7021 Lead, Acute WER*{1.46203-[In hardness] (0.145712){ 1.460} eAl1.273[ln hardness]- Lead, Chronic WER*{1.46203-[In hardness] (0.145712)} 4.705 ) e^{l.273[ln hardness]- Nickel, Acute WER*0.998 e^{0.8460[ln hardness]+2.255) Nickel, Chronic WER*0.997 e^{0.8460[ln hardness]+0.0584{ Silver, Acute WER*0.85 • e^{l.72[ln hardness]-6.59{ Silver, Chronic Not applicable Zinc, Acute WER*0.978 e^{0.8473[ln hardness]+0.884} Zinc, Chronic WER*0.986 eA f 0.8473[1n hardness]+0.8841 General Information on the Reasonable Potential Analysis (RPA) The RPA process itself did not change as the result of the new metals standards. However, application of the dissolved and hardness -dependent standards requires additional consideration in order to establish the numeric standard for each metal of concern of each individual discharge. The hardness -based standards require some knowledge of the effluent and instream (upstream) hardness and so must be calculated case -by -case for each discharge. Fact Sheet - Permit Renewal - DRAFT Revised 16Nov2023 NPDES NC0002071 Page 5 of 8 Metals limits must be expressed as `total recoverable' metals in accordance with 40 CFR 122.45(c). The discharge -specific standards must be converted to the equivalent total values for use in the RPA calculations. We will generally rely on default translator values developed for each metal (more on that below), but it is also possible to consider case -specific translators developed in accordance with established methodology. RPA Permitting Guidance/WOBELs for Hardness -Dependent Metals - Freshwater The RPA is designed to predict the maximum likely effluent concentrations for each metal of concern, based on recent effluent data, and calculate the allowable effluent concentrations, based on applicable standards and the critical low -flow values for the receiving stream. If the maximum predicted value is greater than the maximum allowed value (chronic or acute), the discharge has reasonable potential to exceed the standard, which warrants a permit limit in most cases. If monitoring for a particular pollutant indicates that the pollutant is not present (i.e. consistently below detection level), then the Division may remove the monitoring requirement in the reissued permit. 1. To perform a RPA on the Freshwater hardness -dependent metals the Permit Writer compiles the following information: • Critical low flow of the receiving stream, 7Q10 (the spreadsheet automatically calculates the 1 Q 10 using the formula 1 Q 10 = 0.843 (s7Q 10, cfs) 0.993 • Effluent hardness and upstream hardness, site -specific data is preferred • Permitted flow • Receiving stream classification 2. In order to establish the numeric standard for each hardness -dependent metal of concern and for each individual discharge, the Permit Writer must first determine what effluent and instream (upstream) hardness values to use in the equations. The permit writer reviews DMR's, Effluent Pollutant Scans, and Toxicity Test results for any hardness data and contacts the Permittee to see if any additional data is available for instream hardness values, upstream of the discharge. If no hardness data is available, the permit writer may choose to do an initial evaluation using a default hardness of 25 mg/L (CaCO3 or (Ca + Mg)). Minimum and maximum limits on the hardness value used for water quality calculations are 25 mg/L and 400 mg/L, respectively. If the use of a default hardness value results in a hardness -dependent metal showing reasonable potential, the permit writer contacts the Permittee and requests 5 site -specific effluent and upstream hardness samples over a period of one week. The RPA is rerun using the new data. The overall hardness value used in the water quality calculations is calculated as follows: Combined Hardness (chronic) _ (Permitted Flow, cfs *Avg. Effluent Hardness, mg/L) x (s7Q10, cfs *Avg. Upstream Hardness, mg/L) (Permitted Flow, cfs + s7Q10, cfs) The Combined Hardness for acute is the same but the calculation uses the 1 Q 10 flow. 3. The permit writer converts the numeric standard for each metal of concern to a total recoverable metal, using the EPA Default Partition Coefficients (DPCs) or site -specific translators, if any have been developed using federally approved methodology. 4. The numeric standard for each metal of concern is divided by the default partition coefficient (or site -specific translator) to obtain a Total Recoverable Metal at ambient conditions. Fact Sheet - Permit Renewal — DRAFT Revised 16Nov2023 NPDES NC0002071 Page 6 of 8 In some cases, where an EPA default partition coefficient translator does not exist (ie. silver), the dissolved numeric standard for each metal of concern is divided by the EPA conversion factor to obtain a Total Recoverable Metal at ambient conditions. This method presumes that the metal is dissolved to the same extent as it was during EPA's criteria development for metals. For more information on conversion factors see the June, 1996 EPA Translator Guidance Document. 5. The RPA spreadsheet uses a mass balance equation to determine the total allowable concentration (permit limits) for each pollutant using the following equation: Ca = (s7Q 10 + Qw) (Cwgs)-(s7Q 10) (Cb) Qw Where: Ca = allowable effluent concentration (µg/L or mg/L) Cwqs = NC Water Quality Standard or federal criteria (µg/L or mg/L) Cb = background concentration: assume zero for all toxicants except NH3* (µg/L or mg/L) Qw = permitted effluent flow (cfs, match s7Q10) s7Q 10 = summer low flow used to protect aquatic life from chronic toxicity and human health through the consumption of water, fish, and shellfish from noncarcinogens (cfs) * Discussions are on -going with EPA on how best to address background concentrations Flows other than s7Q 10 may be incorporated as applicable: IQ 10 = used in the equation to protect aquatic life from acute toxicity QA = used in the equation to protect human health through the consumption of water, fish, and shellfish from carcinogens 30Q2 = used in the equation to protect aesthetic quality 6. The permit writer enters the most recent 2-3 years of effluent data for each pollutant of concern. Data entered must have been taken within four and one-half years prior to the date of the permit application (40 CFR 122.21). The RPA spreadsheet estimates the 95th percentile upper concentration of each pollutant. The Predicted Max concentrations are compared to the Total allowable concentrations to determine if a permit limit is necessary. If the predicted max exceeds the acute or chronic Total allowable concentrations, the discharge is considered to show reasonable potential to violate the water quality standard, and a permit limit (Total allowable concentration) is included in the permit in accordance with the U.S. EPA Technical Support Document for Water Quality -Based Toxics Control published in 1991. 7. When appropriate, permit writers develop facility specific compliance schedules in accordance with the EPA Headquarters Memo dated May 10, 2007 from James Hanlon to Alexis Strauss on 40 CFR 122.47 Compliance Schedule Requirements. 8. The Total Chromium NC WQS was removed and replaced with trivalent chromium and hexavalent chromium Water Quality Standards. As a cost savings measure, total chromium data results may be used as a conservative surrogate in cases where there are no analytical results based on chromium III or VI. In these cases, the projected maximum concentration (95th %) for total chromium will be compared against water quality standards for chromium III and chromium VI. 9. Effluent hardness sampling and instream hardness sampling, upstream of the discharge, are inserted into all permits with facilities monitoring for hardness -dependent metals to ensure the accuracy of the permit limits and to build a more robust hardness dataset. Fact Sheet - Permit Renewal — DRAFT Revised 16Nov2023 NPDES NC0002071 Page 7 of 8 10. Hardness and flow values used in the Reasonable Potential Analysis for this permit included: Table 4 Parameter Value Comments (Data Source) Average Effluent Hardness (mg/L) [Total as, CaCO3 or (Ca+Mg)] N/A No metals monitored Average Upstream Hardness (mg/L) [Total as, CaCO3 or (Ca+Mg)] N/A 7Q 10 summer (cfs) N/A 1 Q 10 (cfs) N/A Permitted Flow (MGD) N/A Fact Sheet - Permit Renewal — DRAFT Revised 16Nov2023 NPDES NC0002071 Page 8 of 8