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HomeMy WebLinkAboutNC0001422_Study Quarterly Progress_20211122 �� DUKE L.V.Sutton Energy Complex 801 Sutton Steam Plant Rd Ie ENERGY, Wilmington,NC 28401 PROGRESS n 910.341.4750 November 15, 2021 Certified Mail#70i92280000i43973i67(2copies) RECEIVED Mr. Sergei Chernikov NCDEQ-DWR, Water Quality Permitting Section NOV 2 2 2021 1617 Mail Service Center Raleigh, NC 27699-1617 NCDEQID���NIJb S Subject: Duke Energy Progress, LLC. L. V. Sutton Energy Complex NPDES Permit NC0001422 Water-Effect Ratio (WER) Study Quarterly Progress Dear Mr. Chernikov: In accordance with Sections A. (2.) footnote 8. and A. (21.) 5. of the NPDES permit N0001422 effective 7/1/2020, Duke Energy Progress LLC hereby submits the WER Quarterly Progress Report. If you have any questions concerning this submittal, please do not hesitate to contact either: • Ms. Elizabeth Glenn, Environmental Specialist in our Permitting and Compliance Group, phone (980) 373-0530 or email Elizabeth.Glenn @duke-energy.com, or • Mr. Kent Tyndall, EHS Professional for the L. V. Sutton Energy Complex Plant; phone (910) 341-4775 or e-mail Kent.Tyndall@duke-energy.com. I certify, under penalty of law, that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted.Based on my inquiry of the person or persons who manage the system,or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Sincere , \,/ James Corriher General Manager C: Certified Mail#7019 2280 0001 4397 3174(1 copy) Morella Sanchez-King NC DEQ-DWQ, WiRO 127 Cardinal Drive Extension Wilmington, NC 28405-3845 NPDES COPPER WATER-EFFECT RATIO (WER) STUDY QUARTERLY PROGRESS REPORT Duke Energy Progress, LLC - L.V. Sutton Energy Complex NPDES Permit NC0001422 PURPOSE The NPDES Permit NC0001422 (effective date 7/1/2020) for the L.V. Sutton Energy Complex (Sutton) contains a Copper compliance schedule for Outfall 008 extension by 2 years to allow the facility to conduct a Water-Effect Ratio (WER) study. This permit requires Duke Energy to provide quarterly progress reports. • Section A. (2.) Note 5. of the permit state: The (Total Copper) limits become effective on October 1, 2022 to allow the facility to conduct a Water Effect Ratio Study. The facility shall provide a quarterly progress reports to the Division. • Section A. (21.) 5. of the permit state: The limits for Cu shall become effective on October 1, 2022. The facility shall provide a quarterly progress reports to the Division. BACKGROUND In 1972, Carolina Power and Light constructed the 1,100-acre cooling pond at the L.V. Sutton Energy Complex to provide condenser-cooling water for the three-unit 613-MW coal-fired power plant. The cooling pond consists of a 2.36-mile central main dike, which bisects the pond, and six wing dikes, ranging in length from 500 to 2,500 ft., designed to maximize circulation of water and cooling efficiency (see Figure 1). The cooling pond has a mean depth of 6.2 ft. with a normal pool elevation of between 8.5 ft. and 10.5 ft. mean sea level (MSL). The land surrounding the approximately 13.7-mile shoreline is generally undeveloped and primarily forested. Heated water from the steam condensation process is released to the effluent channel and flows in a generally counterclockwise direction around the cooling pond to the Sutton Plant intake where it is recirculated. There is no discharge of water from the cooling pond into the Cape Fear River except through NPDES permitted Outfall 001 sluice gates. Duke Energy staff must manually open the sluice gate(s) at Outfall 001 to allow water to flow from the cooling pond into the Cape Fear River. Under normal conditions the sluice gate(s) remain closed. Duke Energy maintains the level of the cooling pond by pumping from a raw water intake located on the Cape Fear River into the cooling pond as needed. There are no streams or natural surface waters contributing inflow to the cooling reservoir; all water within the pond consists of either rainfall, wastewater discharges from the Sutton Plant, or pumped makeup water from the Cape Fear River. Page 1 of 4 Prior to 2015, the cooling pond was operated as a wastewater treatment unit under the terms of the effective NPDES. In December 2015, NCDEQ issued a permit which classifies the cooling pond as waters of the state, and therefore required Sutton Plant to meet water quality-based limits on effluent discharges into the pond through outfall 008. The 2015 permit contained metals monitoring requirements at outfall 008 for selenium, arsenic, mercury, copper and zinc. In October 2017, a revised permit was issued containing limits on arsenic, selenium, and copper based on Reasonable Potential Analysis of discharges to the newly designated lake. Duke Energy is seeking the development of site-specific copper monthly average and daily maximum limits in accordance with 15A NCAC 02B, Water Quality Standards for Surface Waters. DISCUSSION The former three coal generating units which operated at the Sutton Plant from the 1950s until 2013 utilized condenser tubes made in part from copper. These condenser tubes were in contact with the recirculated cooling water and were the primary source of copper in the wastewater. The natural gas combined cycle plant, brought online with the retirement of the coal units, use titanium condenser tubes. However, it is likely that existing copper in the cooling pond is due to legacy coal operations. Ambient copper levels monitored in the Cape Fear River are typically below water quality standards. An additional potential source of copper in the cooling pond is the use of copper herbicides. There have been occasional nuisance algal blooms in the pond, most notably in 1999, 2010 and 2012, which were direct results of the increased phosphorus input from the Cape Fear River intake. Duke Energy continually evaluates the pond for the presence of invasive species such as filamentous algae, and routinely applies herbicide as early as possible after detection to prevent nuisance conditions within the cooling pond while minimizing the quantity of herbicides needed for control. Duke Energy also regularly stocks triploid grass carp to prevent nuisance aquatic weed (macrophyte) growth within the cooling pond. Metals such as copper are generally less toxic to aquatic organisms in site water versus laboratory dilution water, though all US Environmental Protection Agency (EPA) water quality criteria (WQC) were derived from results of aquatic toxicity tests conducted in laboratory dilution water. In response to the concern that the WQC are overly protective for most waters of the United States, the USEPA approved several options for deriving site-specific limits. Included in the list of options is the water-effect ratio (WER). The WER procedure produces a ratio that represents the difference in toxicity between a specific wastewater facility's site water and standard laboratory dilution water. This ratio, or WER, may be used by the permitting authority to determine a site-specific metal permit limit for the facility. Guidance for conducting WER studies was published by the EPA in 1994 as Interim Guidance on Determination and Use of Water-Effect Ratios for Metals, (Interim Method). Page 2 of 4 SUMMARY OF QUARTERLY ACTIONS 1 Q 2020 • Duke Energy submitted to DEQ a proposed study plan and sampling plan for the development of a copper water effects ratio for NPDES Outfall 008. • The Division approved the copper WER study and sampling plan. 2Q 2020 • Duke Energy began the study plan while closely monitoring COVID-19 and taking precautions to protect the health and safety of our teammates. 3Q 2020 • NPDES Permit, effective date 7/1/2020. requires Duke Energy to provide quarterly progress reports. • The laboratory work for the WER study is completed. • We are currently reviewing the data with our consultants. 4Q 2020 • Duke Energy has provided comments to our consultants on the draft WER study. • Duke intend to submit this request to DEQ along with 316(a) thermal variance information in one package 1st Q of 2021. 1Q 2021 • Duke to submit WER study and 316(a) thermal variance information to DEQ by 3/27/2021. 2Q 2021 • Duke postmarked the NPDES Permit Mod containing the WER study and 316(a) thermal variance information on 3/23/2021 for delivery to DEQ via USPS certified mail. 3Q 2021 • Duke submit this WER Quarterly Progress Report in accordance with Sections A. (2.) footnote 8. and A. (21.) 5. of NPDES permit N0001422 effective 7/1/2020. 4Q 2021 • Duke submit this WER Quarterly Progress Report in accordance with Sections A. (2.) footnote 8. and A. (21.) 5. of NPDES permit N0001422 effective 7/1/2020. Page 3 of 4 Duke Energy Progress. LLC. NPDES Permit NCOGC01422 L,V. Sutton Electric Plant 2020 Permit Application +acc • t 3C • Meters Make Outfali _ Pomp 010 Sutton ash Landfill Sutton Cooling Pond t al Ash Pond rsY.ava:s O utfal l Outfall 008 Q11 :xs.or. EfFuent ----C annel to lJ Coaling Fend • NFGES OUttatle VAIG02 S'�'rODd s'!;D]e OUtfall (� Condenser 001 : i Fc.z-ICcc ll�•� .—� ,Aluirsaa` Vi;i:Ct Re*ea_ NC]R?tIGAflOLIFLk Attachment S-te Ma: L V. SLtt01 Energy CGr17 ax Figure 1: Figure 1- L.V. Sutton Cooling Pond Page 4 of 4