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NC0004979_Initial Certification State to Discharge Bottom Ash Transport Water_20211013
f ' Julie K.Turner,Vice President /`•s DUKE Carolinas Coal Generation 410 S.Wilmington Street ENERGY. Raleigh, NC 27601 o: 919.546.6227 Julie.Turner@duke-energy.com Sergei Chernikov, Ph.D. North Carolina Department of Environmental Quality Division of Water Resources Industrial NPDES Permitting Unit 1617 Mail Service Center Raleigh,NC 27699-1617RECEIVED Reference: Duke Energy Progress, LLC 0 C T 13 2021 Duke Energy Carolinas,LLC Initial Certification-40 CFR §423.19(c) NCDEQIDWRINPDES Dear Dr. Chernikov: On November 3, 2015,the U.S. Environmental Protection Agency (EPA)issued the Federal Steam Electric Power Generating Effluent Limit Guidelines and Standards (ELG Rule). The 2015 rule addressed discharges from a number of sources, including bottom ash transport water. On October 13, 2020,the rule was reconsidered by EPA and revisions were effective as of December 14, 2020. The final rule revised limitations and standards for bottom ash transport water. Specifically,the final rule established Best Available Technology Economically Achievable(BAT)as a high recycle rate system with a site-specific volumetric purge which cannot exceed 10 percent of the bottom ash transport water system's volume on a 30-clay rolling average. The enclosed documents provide the initial certification statement of the bottom ash system capacity as required by 40 CFR §423.19(c). Affected facilities include the following: • Allen Steam Station—Permit No. NC0004979 • Belews Creek Steam Station—Permit No.NC0024406 • Marshall Steam Station—Permit No.NC0004987 • Roxboro Steam Electric Plant—Permit No.NC0003425 In addition to providing the initial certification,this correspondence provides notification under NPDES Permit Standard Condition II.E.8: "Where the Permittee becomes aware that it failed to submit any relevant facts in a permit application, or submitted incorrect information in a permit application or in any report to the Director, it shall promptly submit such facts or information [40 CFR 122.41(1)(8)]." Specifically, during the course of 2021,the referenced NPDES permits were modified to include updated language based on the October 13, 2020 revisions. Preliminary information on the capacity of the bottom ash transport systems was used to develop the applications and Sergei Chemikov,Ph.D. Initial Certification Page 2 subsequent permit revisions. As detailed in the attached documents,these values have changed slightly. As permits are modified, this information will be corrected. In the interim,we have worked with our generating stations to ensure that they will comply with the updated values in lieu of those shown in the permit. Closing If you have any questions or concerns about the information provided in this submittal, please do not hesitate to reach out to Ms. Cynthia Winston,PE at(919) 210-1931 or Cynthia.Winston@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 offines and imprisonment for knowing violations. Sincerel , Julie K. urner Vice President, Carolinas Coal Generation Enclosures cc: Scott LaSala, Marshall Don Safrit,NCRH Robert Howard, Roxboro Lori Tollie,Lewisville Randy Gantt,Allen Elizabeth Glenn, Energy Center Brenda Johnson, Belews Creek Shannon Langley,NCRH Derek Henderson,NCRH Cynthia Winston,NCRH BURNStilISDONNELL. Allen Steam Station Initial Certification Statement to Discharge Bottom Ash Transport Water steNaN DUKE ENERGY® RECEIVED Duke Energy )Cr13202 1 NODE /Q DWR/NP ®ES Allen Steam Station Project No. 133407 Revision 0 October 8, 2021 Alien Steam Station Initial Certification Statement to Discharge Bottom Ash Transport Water Prepared for Duke Energy Allen Steam Station Project No. 133407 Belmont, North Carolina Revision 0 October 8, 2021 Prepared by Burns & McDonnell Consultants, Inc. Kansas City, Missouri INDEX AND CERTIFICATION Duke Energy Allen Steam Station Initial Certification Statement to Discharge Bottom Ash Transport Water Report Index Chapter Number Number Chapter Title of Pages 1.0 Executive Summary 2 2.0 High Recycle System Description 6 Appendix A Bottom Ash Equipment System Volume and Water Balance 9 Appendix B Bottom Ash Piping Detailed Build-Up 2 Certification I hereby certify, as a Professional Engineer in the State of North Carolina,that the information in this document was assembled under my direct personal charge. This report is not intended or represented to be suitable for reuse by Duke Energy or others without specific verification or adaptation by the Engineer. I hereby certify that this initial certification was prepared for the Duke Energy Allen Steam Station in accordance with standard engineering practices and based on my knowledge, information, and belief,the content of this Certification when developed in August 2021 is true and meets the requirements of 40 CFR§ 423.19(c). I hereby certify that I am familiar with the ELG regulation requirements and Duke Energy's Allen Steam Station. 00,0111,n,n,,,,,,,, N CAR Dave Guinta, P.E. 1 0/k) 360 (North Carolina License No. PE045360) ss 10/08/2021 Date: 10/8/2021 , iD GU\�• `,•`` ,. Owner's Certification of Compliance - 40 CFR 122.22 Pursuant to 40 CFR 122.22, I certify under penalty of law that this document e t 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 fine and imprisonment for knowing violations. On beha of Duke Ener : G�1 Juli . Turner (Printed Name) Vice President, Carolinas Coal Generation (Title) October 12,2021 (Date) Allen Steam Station Certification Letter Table of Contents TABLE OF CONTENTS Page No. 1.0 EXEC UTIVE SUMMARY 1-1 2.0 HIGH RECYCLE SYSTEM DESCRIPTION 2-1 2.1 Bottom Ash System Description 2-1 2.2 List of All Potential Discharges under 40 CFR § 423.13(k)(2)(i)(A)(1)—(4) 2-4 2.2.1 Closed loop bottom ash chemistry considerations 2-5 2.3 Wastewater treatment systems at Allen 2-8 APPENDIX A — BOTTOM ASH EQUIPMENT SYSTEM VOLUMES AND WATER BALANCE APPENDIX B — BOTTOM ASH PIPING DETAILED BUILD-UP Duke Energy—Allen Steam Station TOC-1 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter Table of Contents LIST OF TABLES Page No. Table 2-1: Allen's Active Wetted Volume Summary 2-4 Table 2-2: Allen's Purge Discharges 2-4 Table 2-3: Scaling Index Ranges 2-6 Table 2-4: Circulating Water Quality and Scaling Indexes for Purge Calculations 2-7 Table 2-5: Allen's Wastewater Treatment Systems 2-8 Duke Energy—Allen Steam Station TOC-2 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter List of Abbreviations LIST OF ABBREVIATIONS Abbreviation Term/Phrase/Name BA bottom ash BAT Best Available Technology Economically Achievable BMcD Burns& McDonnell Allen Allen Steam Station CCR Coal Combustion Residual CDR Continuous Dewatering and Recirculating CFR Code of Federal Regulations Duke Duke Energy ELG Rule Effluent Limitations Guidelines and Standards for the Steam Electric Power Generating Point Source Category EPA U.S.Environmental Protection Agency FGD flue gas desulfurization gpm gallons per minute Duke Energy—Allen Steam Station i Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter Executive Summary 1.0 EXECUTIVE SUMMARY On November 3,2015,the U.S. Environmental Protection Agency(EPA)issued the federal Steam Electric Power Generating Effluent Limit Guidelines and Standards (ELG); see 80 FR 67838. The 2015 rule addressed discharges from flue gas desulfurization (FGD)wastewater, fly ash transport water, bottom ash (BA) transport water, flue gas mercury control wastewater, gasification wastewater, combustion residual leachate,and non-chemical metal cleaning wastes. The 2015 rule was reconsidered by EPA, with updates finalized on October 13, 2020 (see 85 FR 64650), and effective as of December 14,2020. The final rule revises limitations and standard for two of the waste streams addressed in the 2015 rule: BA transport water and FGD wastewater. For BA transport water,the final rule establishes Best Available Technology Economically Achievable (BAT) as a high recycle rate system with a site-specific volumetric purge (defined in the final rule as BA purge water) which cannot exceed 10 percent of the BA transport water system's volume where the purge volume and associated effluent limitations are established by the permitting authority. EPA selected a 95th percentile of total system volume as representative of a 30-day rolling average, which results in a limitation of 10 percent of total system volume and requires the NPDES permitting authority to develop a site-specific purge percentage that is capped at 10 percent. EPA recognizes that some plants may need to improve their equipment, process controls, and/or operations to consistently meet the limitations included in this final rule; however, this is consistent with the Clean Water Act, which requires that BAT discharge limitations and standards reflect the best available technology economically achievable. This document serves as the initial certification statement required by 40 CFR § 423.19(c). On behalf of Duke Energy(Duke),this initial certification seeks to discharge BA transport water pursuant to 40 Code of Federal Regulations(CFR) §423.13(k)(2)(i)at the Allen Steam Station(Allen), located in Belmont,North Carolina.As required by the ELG Rule,this plan includes the following: A. A statement that the professional engineer is a licensed professional engineer(refer to Index& Certification page). B. A statement that the professional engineer is familiar with the regulation requirements(refer to Index&Certification page). C. A statement that the professional engineer is familiar with the facility(refer to Index& Certification page). D. The primary active wetted bottom ash system volume in 40 CFR§423.11(aa)(refer to Table 2- 1). Duke Energy—Allen Steam Station 1-1 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter Executive Summary E. Material assumptions, information,and calculations used by the certifying professional engineer to determine the primary active wetted bottom ash system volume(refer to Appendices A and B). F. A list of all potential discharges under 40 CFR§423.13(k)(2)(i)(A)(1)through(4),the expected volume of each discharge,and the expected frequency of each discharge (refer to Table 2-2). G. Material assumptions, information,and calculations used by the certifying professional engineer to determine the expected volume and frequency of each discharge, including a narrative discussion of why such water cannot be managed within the system and must be discharged(refer to Table 2-2). H. A list of all wastewater treatment systems at the facility currently,or otherwise required by a date certain under this section(refer to Section 2.3). I. A narrative discussion of each treatment system including the system type, design capacity,and current or expected operation(refer to Section 2.3). Allen consists of five operating coal-fired units: Units 1 and 2 are both 165 MW pulverized coal fired units built in 1957. Units 3, 4 and 5 are all 275 MW pulverized coal fired units built in 1959, 1960 and 1961, respectively. Unit 3 has been retired and is no longer in operation. Two more units are scheduled for retirement in December of 2021, with the remaining units operating intermittently and scheduled for retirement in December of 2023.Allen's existing BAT high recycle system utilizes wet sluicing to transport bottom ash from each operating unit to a remote dewatering conveyor system to dewater the bottom ash. The system can be operated as a closed loop or as a high recycle rate system. Duke is requesting to purge up to 10 percent of the total system volume (up to 58,100 gallons per day) related to system water chemistry, limited remaining operating life, and intermittent operation as allowed under 40 CFR § 423.13(k)(2)(i). Duke Energy—Allen Steam Station 1-2 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description 2.0 HIGH RECYCLE SYSTEM DESCRIPTION As required by 40 CFR§423.19(c)(3)(D)through(I),the following is a description of the existing bottom ash system at Allen, including the assumptions, information, and calculations used by the certifying professional engineer to determine the primary active wetted bottom ash system volume and the expected volume and frequency of each discharge. This section also includes a description of the wastewater treatment systems at Allen. 2.1 Bottom Ash System Description Units 1 &2 each have one bottom ash hopper,while Units 4& 5 each have two bottom ash hoppers in operation(6 total hoppers in operation). After combustion, ash that accumulates in the bottom of the boiler(referred to as bottom ash)is captured in these bottom ash hoppers located directly beneath the boilers. Bottom ash is then crushed into small pieces by the crushers in each hopper before being sluiced by jet pumps to a system of remote dewatering conveyors. The Unit I &2 hoppers are conveyed to the two remote dewatering conveyors via a common pipeline. Unit 4 & 5 each have a dedicated header which is used to convey the ash from the two hoppers per unit into the two remote dewatering conveyors. Bottom ash particles are settled in the conveyors with the assistance of lamella assemblies. The settled ash particles are then dragged out of the wetted portion of the conveyors and emptied into a dewatering bunker before being transported via truck to the CCR landfill for disposal. Transport water from the dewatering process overflows each conveyor into a single surge tank and before being pumped back to the bottom ash system for recycling. The water from the surge tank is recycled for use as sluicing water for each bottom ash hopper,as well as to supply water to each hoppers seal trough and cooling water system. The hopper cooling and seal trough water supplied to the bottom ash hoppers overflow into three separate hopper overflow tanks: one shared by the Unit 1 &2 hoppers, one shared by the two Unit 4 hoppers,and one shared by the two Unit 5 hoppers. This water collected in the overflow tanks is then conveyed to the two remote dewatering conveyors. A Continuous Dewatering and Recirculation(CDR) Sump is located near the remote dewatering conveyors which collects drainage from the bottom ash dewatering bunkers, and other drains and overflows from the bottom ash dewatering system. This water is then returned to the two remote dewatering conveyors. Duke Energy—Allen Steam Station 2-1 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description Major equipment for Allen's bottom ash system consists of six boiler hoppers,two dewatering conveyors, two process overflow troughs, one surge tank,three bottom ash overflow hoppers,and the CDR sump. The sluice supply piping and the water return piping has been included in the system calculation as well, while the miscellaneous interconnecting piping throughout the system has been excluded. A summary of pertinent system data is provided in Duke Energy—Allen Steam Station 2-2 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description Table 2-1. A site plan can be found below on Figure 1. a1 OVERFLOW TANK AND 2 _ - OVERFLOW PUMPS IN I i ] e :BASEMENT FOR EACH UNIT a (TOTAL 5 TANKS,10 PUMPS) .-.— y .' 1mgg ,1� A (�( i SFC HP PUM �` ( i �Vi k EI HOLDING BASIN f'� (3)IN BASEMENT mil 1 l !If "..a v�px. — rr , 7 UTILITY RACK •■; '' t J L. I 1 r •I,• �� ��Cam/ / ± 4!) li �If Mitirli=7.7 „`.' '\` •i "li,m ti now.. � m• r I :v I • 71 . � l ,�1,,,,,,i,,,,„ila \ A a ;\1,4 l'i7+iL �. I'ti` SFC A /� e ....p ik = t ,. MAINTENANCE i 4 / r • 41- i a1 j�s ��<— i TANK /1 1 '� dlf DEWATERING i' ,,,— 1a \ BUNKERS—, \ r�� /'i/'/ LOADINGAREA \ . ',. • . �ft f —la \, Ifi q . /,•�i virot ,POWER DISTRIBUTION • �Y/lij��. ,� -,.\s�,: ; ��I ` CENTER(PDC) ,�`S .I 41i' _/ SURGE TANK �;',$ ittp. I �/- SUBMERGED FLIGHT/ . ` CONVEYORS(SFC) Figure 1 -Allen Steam Station Plan Drawing Duke Energy-Allen Steam Station 2-3 Burns&McDonnell October 2021 Rev 0 I Allen Steam Station Certification Letter High Recycle System Description Table 2-1: Allen's Active Wetted Volume Summary Component Total Cumulative Qty Volume Component System Volume Description Qty Units Volume y (Gal) (Gal) (Gal) Unit 1&2 Bottom Ash Hopper 1 ea 22,442 22,442 22,442 Unit 4 Bottom Ash Hopper 1 ea 24,686 24,686 47,127 Unit 5 Bottom Ash Hopper 1 ea 24,686 24,686 71,813 Bottom Ash Hopper Overflow 3 ea 590 1,770 73,583 Tanks Dewatering Conveyors 2 ea 147,130 294,259 367,842 Process Overflow Trough 2 ea 5,028 10,057 377,899 CDR Sump 1 ea 7,719 7,719 385,618 Surge Tank 1 ea 100,728 100,728 486,346 Piping* 1 lot 94,582 94,582 580,928 Total Nominal Volume 580,900 10% gallon/day 58,090 10% gallon/hour 2,420 10% gallon/min 40 *For a detailed breakdown of the piping quantity see Appendix B. 2.2 List of All Potential Discharges under 40 CFR § 423.13(k)(2)(i)(A)(1) — (4) Table 2-2 summarizes the discharges from the bottom ash system at Allen: Table 2-2: Allen's Purge Discharges Discharge Average Stream Flow Description Frequency (gpm)1 Following significant storm events. The system was designed to manage a 25-year/24-hour storm event Precipitation-related inflows equivalent to 6"of rainfall atop open generated from storm events top tanks and sump, or 14,850 gallons. exceeding a 10-year storm event of This volume would replace up to 10.3 (A)(1) 24-hour or longer duration(e.g., 30- gpm of makeup water during the once Stormwater NA day storm event)and cannot be in 25-year event. In the event of a managed by installed spares, large enough storm,or repeated redundancies,maintenance tanks, events, excess water would be and other secondary bottom ash managed within the maintenance tank system equipment and spares to the extent possible, but ultimately some water would have to be removed to prevent overtopping. Duke Energy—Allen Steam Station 2-4 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description Discharge Average Stream Flow Description Frequency (gpm)1 (A)(2) Regular inflows from wastestreams Additional wastestreams are not other than bottom ash transport comingled with the bottom ash system Process NA water that exceed the ability of the at Allen and,therefore,will not Wastestreams bottom ash system to accept require discharge. recycled water Makeup water is very soft and somewhat corrosive. Water within the To maintain system water bottom ash system has strong (A)(3) chemistry where installed corrosive tendencies that increase over equipment at the facility is unable time when the system is operating. Water to manage pH,corrosive Sulfate concentrations are about 20 Chemistry 40 substances,substances or times higher than the lake water that conditions causing scaling,or fine feeds the system when operating Purge particulates to below levels which closed loop.A 10%purge is needed impact system operation or along with pH adjustment to help maintenance address corrosion concerns during the intermittent operating periods. To conduct maintenance not otherwise included in(A)(1),(2), The system includes a Maintenance or(3)of this table and not tank. If the system must be drained (A)(4) exempted from the definition of for maintenance,the water is Maintenance NA transport water in§423.11(p),and transferred to the maintenance tank when water volumes cannot be and will be either returned to the Flows managed by installed spares, system or purged in accordance with redundancies,maintenance tanks, the 10%discharge restrictions. and other secondary bottom ash system equipment 2.2.1 Closed loop bottom ash chemistry considerations Allen has been operating as a closed-loop system since July of 2019. During that time,the bottom ash system has experienced corrosion. Duke installed pH control equipment in November of 2019 to mitigate the effects of the chemistry concerns.Due to the intermittent nature of system operations only a small dataset was available to evaluate baseline system water quality;however,the available data correlated well with predicted concentrations.Table 2-4 shows that despite the current operation of pH and alkalinity control equipment the system water is corrosive under current conditions(when in operation), and that a 10%purge plus pH adjustment would be needed to improve the water quality. Several scaling indices can be used to model the scaling and corrosive properties of the water. These are the Puckorius Scaling Index(PSI),The Ryznar Scaling Index(RSI),the Langelier Scaling Index(LSI), and the Larson-Skold index(L-SI). The PSI,RSI,and LSI all use alkalinity,hardness,temperature,and Duke Energy—Allen Steam Station 2-5 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description pH to estimate calcium scale and corrosivity, comparing the pH of the system to the equilibrium pH and the pH of saturation. The L-SI looks at the concentrations of carbonate,bicarbonate, sulfate, and chloride to estimate the tendency for sulfate and chloride to interfere with scale formation and to support corrosion due to sulfate and chloride chemistry. The target ranges for these indices are shown in Table 2-3. Table 2-3: Scaling Index Ranges PSI RSI LSI L-SI Extreme Corrosion >9.0 >9.0 <-2 >4.0 >9.0 - >7-5-9.0 -2.0- -0.5 40 Slight Corrosion >7-0 >7-0-7.5 >-0-5 0.8- 7.5 0.0 <1.2 >6-0- >6-0-7.0 >0-0-0.5 <0.8 In range 7.0 Slight Scaling 5.0-6.0 5.0-6.0 >0.5-2.0 NA Heavy Scaling <5.0 <5.0 >2.0 NA Burns& McDonnell prepared a model of the bottom ash system to simulate existing conditions and to predict future conditions under a variety of operating scenarios. For comparison,the model showed a makeup water rate of 12.7 gpm to achieve the same bottom ash water quality that was observed in the system.The model was then used to calculate the index values and show the potential for scale formation or corrosion. Table 2-4 below provides a summary of these results for several potential operating scenarios. Duke Energy—Allen Steam Station 2-6 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description Table 2-4: Circulating Water Quality and Scaling Indexes for Purge Calculations 2021 10%+ 10%Purge Index Condition * Current Optimize (gpm) gpm Makeup Indexes Makeup GPM 13 40 52 32 Purge% 2.90% 10% 10% 5% pH 8.20 9.00 9.00 9.00 TDS mg/L 196 79 71 88 Calcium mg/L 33 11 9 13 Sulfate mg/L 106 33 25 37 Chloride mg/L 7.09 3.77 3.71 3.79 Puckorius SI 11.22 Ryznar SI 9.26 6.99 7.15 6.84 Langelier SI 1.01 0.92 1.08 Larson-Skold I 10.27 0.18 0.14 0.20 * pH control is assumed Plant operating data summarized in the 2021 Condition column of Table 2-4 indicates that an average observed makeup water rate of 13 gpm is required to replace water that is removed with the ash and miscellaneous other system losses. The system is operating as a closed loop,meaning that there is no active blowdown or purge.As ash is removed from the system,water adheres to the ash particles via surface tension,and then drains through the ash pile. Excess water is captured in drains,but a substantial portion of the water that has adhered to the ash evaporates or remains with the ash,rather than being returned to the system. The 2021 data shows that for the 2021 Condition case despite the current operation of pH and alkalinity control equipment the system water is both scaling and corrosive,with the sulfate concentrations elevating the Larson-Skold index into a severe corrosion range. The 10%Purge column of Table 2-4 represents a scenario with a total purge volume of 10%or 40 gpm, as if the current makeup rate represents a portion of the purge flow, and assuming the system would operate with pH control. It shows that this purge rate brings all the indexes into a green or blue condition, which is desirable,aside from the PSI. Adding the 10%purge volume to the current makeup rate (considering current operations are closed loop)shows that increasing the purge rate does not improve the PSI, and that further adjustment to the chemistry would be needed to meet this scaling index. Because the PSI shows that increasing the purge rate had a negative effect on this scaling index,the system was modeled to create conditions that would optimize the PSI while remaining in the acceptable ranges for the other scaling and corrosion indexes. To optimize the index values, a purge of 5%of the Duke Energy—Allen Steam Station 2-7 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description system volume each day(32 gpm)while also adjusting the pH to 9 by increasing both the bicarbonate and carbonate alkalinity within the system (see the Optimize Indices column in Table 2-4). Therefore, it is projected that a 5%to 10%purge and pH adjustment would improve the system,but further chemistry adjustments would also be required to get the PSI into an appropriate range. 2.3 Wastewater treatment systems at Allen Table 2-5 summarizes the existing water treatment systems at Allen. Table 2-5: Allen's Wastewater Treatment Systems System Design Capacity Current Operation Expected Operation Type Physical/chemical treatment with pH adjustment, coagulant, organosulfide, Discharge to primary settling clarification, and solids basin with eventual handling. Downstream of discharge via NPDES FGD physical/chemical treatment Outfall 006. Wastewater is a biological treatment Treatment 440 gpm (excluding system with polishing System cooling water) ultrafiltration. Domestic wastewater discharge, coal pile runoff, misc. stormwater flows, wastewater from turbine non-destructive testing,CCR Intermittent polymer and landfill leachate, effluent Low addition followed by settling from the FGD WW Volume 6.0 MGD and pH adjustment if needed treatment system,yard drain Wastewater in Lined Retention Basin sump,water treatment filter System backwash,bottom ash purge from the submerged flight conveyors,extracted groundwater, laboratory wastes, and the power house sump at Unit 5. Recirculation in holding Coal Pile pond for pH adjustment and 1100 gpm polymer addition prior to Coal pile runoff Runoff discharging to the Lined Retention Basin System The Allen facility operates a wet FGD scrubber and treats up to 440 gpm of FGD wastewater in a physical/chemical treatment system followed by selenium reduction bioreactors and polishing Duke Energy—Allen Steam Station 2-8 Burns&McDonnell October 2021 Rev 0 Allen Steam Station Certification Letter High Recycle System Description ultrafiltration. Following the FGD wastewater treatment system the effluent is routed(after internal Outfall 005)to the Lined Retention Basin System (LRBS). The LRBS also receives other low volume wastewater from the plant along with coal pile runoff after being stored and treated in a holding basin with polymer and caustic. The feed lines to the LRBS can also be treated with polymer and caustic to adjust pH and assist in settling solids in the basin before discharge via Outfall 006. The water balance for Allen is included in Appendix A.No other wastewater treatment systems are in use at the facility. Duke Energy—Allen Steam Station 2-9 Burns&McDonnell October 2021 Rev 0 111111 APPENDIX A - BOTTOM ASH EQUIPMENT SYSTEM VOLUMES AND WATER BALANCE Burns& McDonnell World Headquarters 9400 Ward Parkway Kansas City, MO 64114 1 O 816-333-9400 F 816-333-3690 www.burnsmcd.com BURNS MSDONNELL Allen Steam Station 133407 Initial Certification Letter Appendix A — Bottom Ash Equipment Volumes and Water Balance Rev Date By Checked Description A 9/1/2021 LAS DRG INITIAL ISSUE B 9/27/2021 LAS DRG UPDATED DRAFT C 10/5/2021 LAS DRG UPDATED DRAFT 0 10/8/2021 LAS DRG ISSUED FINAL BURNS�McDONNELL i s s i 4 I 4 4 l6/15 _C00(00 1.T4 F01.10.4...IRWE BEN NRMOIXM.EDAT DE FACTORY LANGUAGE=Dar. lall.L.UCLA RESPONSE OIE•I®IIA INO) TO A 0119 KOOK. u.,.Fr NBa Q Q D.DNa 1 OPFMW MO rDE.SPAM ff�, LDMGNHNTIN PAIR•CFT rt WNC CO #0 NOl CY641gNPOMI•B Ft NC T. _ TO OWN nw TD 1 MOI YacaWm„cm ,of mm,) NO \i�Y.,flPFINIGED Nc WOW. R YLFWroA,me VENT OEICIN OOFLOR —8— I so NwoFNrtwOO) IY-0FCTMWIOSSOB E. 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RAN.ELEVATIONS YCTICNY STM S IV LMER ■� DETAIL s m.44�w^• or PIPE NIPPLE 11[-SCHWA 6' f-�YIR SCALE.IK-I'-0'O RANT w[ BAR 3rJ s 4:°RW A1V1 G DETAIL O1 15A3A1 'i" 0'.HIE OER FLw TANK SRSORT LEG LOADS o .�wx.MAU eELu]IT.NORM cwaNA SCALE T•I'5 [ 1[- 4 LSl DEAD LOAD. 1.0 APS nNE Rn PIP()R•CES SN/A TER LOAD• S5 APS '....T.....E.w w N T1...._.Asp*, ' � UNITED CONVEYOR CORPORATION - NSTMIAna NOTE, UPLIFT LOAD DUE i0 ttGW.-4.5 APS e�w�ee xGNI.N MOH¢6i ROTATE SO THAT NE MIME DETAIL SEfl6[MAR(N-S a E-r)LOAD.1Ti APS ET•,, � N 11E rMN„�N`P.G1.E0...Ica, IQI r00 A PONT'S IONARD TIE OUTLET SCALE:tIf•I'O'O WOK VIM.•13 MPS _ .Ay-F Too YAWS n xoT a..Rx�[ xoTV7 'QOARunas mmS - fl{E BEFORE VELD.M RACE T V(2)PLACES LOADS ARE PER E.RAIN SUPPORT LEG 2 A OE0 ITEM 2 41tl041 w u. - r.... Fa WINE» inn .. .......... RVq.- OA05 APPLIED AT LIE ROTTEN 6 BAY RATE I NOISED PH 1ESEl CONNECTION 11,'16 W,jv FO l4I/TRUCIaAL�PRO.ECi5451011\54M1-l(1402*IG5�S-54a1-I6-OB2oNG POSITIVE GRAM(LOADS ARE MANNARO LOADS 0 ISSUED FOR CONSTRUCTION ,I4-/2F07 0 Lx l/4•=1._0• 5.1-16 v 5 5-54041-16-082 a 1 I 2 I 3 _ . I 4 1 5 MI 6 1 7 8 I 9 .....,..1M .1I1 ^ 11 I 'I I I Plant Allen 2018 Water Schematic 1 Condenser Cooling Outfall 001 Water 649 MGD South Fork River Outfall 002A Intermittent Catawba River Sanitary Waste 1 Coal Handling -- Stormwater f-- Sumps Landfill Leachate 1 Coal Yard Sump 1 An Holding osin Internal >< 1 FGD 1 FGD W WTS OutfallOutfall�D2 QDS Stormwater # Ash Basin _ 18.6 MOD 18.6 MGD Catawba River Water Treatment Seeps! FGD Storm water Sump Atm T 1 Ash Silo Sump _ Sto m ater _ 1 Catawba River 1 Boiler 1 Turbine Mt Sumps 4 I 1 Boiler Rm Sumps 1 Yard Drain Sump Retention Basin _ New Outfall 00X 6.0 MGD Catawba River Misc Equip Cooling Outfall 003 &Seals 4.5 MGD South Fork River 1 Powerhouse sumo Outfall 002B (Intermittent) Catawba River Limestone Storm water Sump Intake Screen _ Outfall 004 1 Backwash 6.5 MGD Catawba River Asiatic Clam/Debris Filter Backwash Catawba ItIver Hold: 1)Line for Intake screen to Catawba ever 2)Line from Asiatic Clam/Debris Filter Backash to Catwba river 3)Intermittent water line from Powerhouse to Catawba river 4)APH line 111 APPENDIX B - BOTTOM ASH PIPING DETAILED BUILD-UP Burns& McDonnell World Headquarters 9400 Ward Parkway Kansas City, MO 64114 jm BURNS &MSDONNELL Allen Steam Station 133407 Initial Certification Letter Appendix B — Bottom Ash Piping Detailed Build-Up Rev Date By Checked Description A 9/30/2021 LAS DRG INITIAL ISSUE 0 10/8/2021 LAS DRG ISSUED FINAL BURNS t1SDONNELL 1 Line Name/Description Qty Qty Length(If) Size Component Component Units (in) Volume(Cu.ft) Volume(gal) Unit 1/2 Ash Sluice to SFC(Ash Line A) 1 ea 798.6 12 627.2 4,691.8 Unit 4 Ash Sluice to SFC(Ash Line D) 1 ea 672.8 12 528.5 3,953.1 Unit 5 Ash Sluice to SFC(Ash Line C) 1 ea 544.5 12 427.6 3,199.0 U1/2 BA Hopper Overflow to SFC 1 ea 3,090.7 8 1,073.7 8,032.0 U4 BA Hopper Overflow to SFC 1 ea 2,603.1 8 904.3 6,764.8 U5 BA Hopper Overflow to SFC 1 ea 3,014.4 8 1,047.2 7,833.8 U 1/2 BA hopper to 1/2 Overflow tank 1 ea 82.9 8 28.8 215.4 U 4 BA hopper to U4 Overflow tank 1 ea 54.5 8 18.9 141.6 U 5 BA hopper to U5 Overflow tank 1 ea 55.5 8 19.3 144.2 Discharge of LP water supply pumps-Unit 1/2 1 ea 2,737.6 12 2,150.1 16,084.1 Discharge of LP water supply pumps-Unit 4 1 ea 2,695.7 12 2,117.2 15,837.8 Discharge of LP water supply pumps-Unit 5 1 ea 2,712.1 12 2,130.1 15,934.0 "Header"at surge tank oulet and LP water supply pump inlet 1 ea 241.4 24 673.9 5,041.1 LP Water system.From Surge tank to header 1 ea 9.5 14 8.9 66.9 Inlet to LP water pump(from 24""header") 1 ea 49.1 10 26.9 201.2 LP pumps to HP pump SFC area(goes over top of surge tank) 1 ea 83.4 6 16.7 125.2 LP pumps to HP pump SFC area(goes over top of surge tank) 1 ea 86.5 6 17.4 129.8 LP pumps to HP pump SFC area(goes over top of surge tank) 1 ea 80.5 6 16.1 120.7 Wraps around surge tank 1 ea 140.4 3 28.2 210.7 Inlet to HP water supply pumps 1 ea 161.7 12 127.0 950.1 Inlet to HP water supply pumps 1 ea 120.3 12 94.5 706.7 Inlet to HP water supply pumps 1 ea 183.3 12 143.9 1,076.6 To clinker crusher/hopper area from LP water pumps 1 ea 593.0 6 119.0 890.0 To clinker crusher/hopper area from LP water pumps 1 ea 236.8 6 47.5 355.4 To clinker crusher/hopper area from LP water pumps 1 ea 71.7 6 14.4 107.6 Pipes around Hopper,overflow tank,and clinker crusher 1 ea 8.9 3 0.5 3.4 Pipes around Hopper,overflow tank,and clinker crusher 1 ea 19.2 3 1.0 7.4 Pipes around Hopper,overflow tank,and clinker crusher 1 ea 25.9 3 1.3 10.0 Pipes around Hopper,overflow tank,and clinker crusher 1 ea 25.5 3 1.3 9.8 Part of clinker crusher sump system/LP water-Unit 1 1 ea 59.8 4 5.3 39.6 Part of clinker crusher sump system/LP water-Unit 2 1 ea 66.8 4 5.9 44.2 Part of clinker crusher sump system/LP water-Unit 4 1 ea 69.5 4 6.1 46.0 Part of clinker crusher sump system/LP water-Unit 5 1 ea 72.3 4 6.39 47.8 SFC sump pump to SFC 1 ea 146.7 6 29.4 220.2 4"hose from pump to pipe 1 ea 19.8 _ 4 1.7 12.9 Pipes dumping SFC BA into surge tank 1 ea 57.6 18 101.8 761.7 Miscellaneous pipe to SFC tank-unable to identify 1 ea 216.6 8 75.6 565.6 Total Piping Volume 1 LOT 94,582.2 111 � BURNS M_c DONNELL. CREATE AMAZING. Burns& McDonnell World Headquarters 9400 Ward Parkway Kansas City, MO 64114 O 816-333-9400 F 816-333-3690 www.burnsmcd.com