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NC0004987_Regional Office Historical File Pre 2018 (15)
North Carolina Dep. November 3, 2008 DAVID 'RENNER GENERAL MANAGER lit DUKE ENERGY CORP MARSHALL STEAM STATION 8320 EAST NC HWY 150 TERRELL NC 28682 Michael F, Easley, Governor William G. Ross Jr,, Secretary vironment and Natural Resources Coleen,H.S ruins, DJviaion af`Waii CORRECTION Subject: Acknowledgement of Permit l Iodification Request Marshall Steam Station NPDES Permit NC0004987 Catawba County Dear Mr, Renner: The Division of Water Quality, Point Source Branch, acknowledges receipt of your permit modification request with supporting information on October 24, 2008 and receipt of payment check# 0001.134403, frp lily, in the amount of $1030.00, dated October 16, 2008. The reviewer will perform a detailed review and contact you with a request for additional information if necessary. To ensure the maximum efficiency in processing permit applications, the Division requests your assistance in providing a timely and complete response to any additional information requests. Please note at this ti application. , processing permit applications can take as long as 60 — 90 days after eip of a completed If you have any questions, please contact Jackie Nowell at 919-807-6300 ext. 76386 or via email at jackie.nowell(i?ncrail.taet . If the reviewer is unavailable, you may leave a message, and they will respond promptly. PLEASE REFER TO THE ABOVE APPLICATION NUMBER WHEN MAKING INQUIRES ON THIS PROJECT. Cc: Central File Sincerely, Singleton Point Source Branch ffice Surface Water Protection Section Permit application file NC0004987 North Carolina Division of Water Quality Internet: s w=u newaterqualtty,grg An Equ 0 7 Mail Service Center Raleigh, NC 27699-1617 Phone (914) 807-6300 >cation: 512 N. Salisbury St Raleigh, NC 27604 Fax (919) 807-6492 rttrnity!AlfirmaIive Action Employer — 50% Recycle t/1Q% Post Consumer Paper Customer Service -877-623-6748 Afk4 NCDENR North Carolina Department of Environment and Natural Resources Division of Water Quality Beverly Eaves Perdue Coleen H. Sullins Dee Freeman Governor Director Secretary November 19, 2009 Alien Stowe Water Management, Duke Energy EC13K PO Box 1006 Charlotte, NC 28201-1006 Subject: Review of Duke Energy Carolinas, NPDES Permit NC0004987, "Assessment of Balanced and Indigenous Populations in Lake Norman near Marshall Steam Station", October 2009. Environmental Sciences Section staff have reviewed the subject document which was received on October 29, 2009, Eric Fleek and Bryn H. Tracy reviewed the sections on macroinvertebrates and fish, respectively. By agreement with the Department of Environment and Natural Resources (NCDENR), Duke Energy conducts annual monitoring of Lake Norman in the vicinity of the Marshall Steam Station to support NPDES Permit NC0004987 (Part1.1. Effluent Limitations and Monitoring Requirements (outfall 001) ("The Regional Administrator has determined pursuant to Section 316(a) of the Act that the thermal component of the discharge assures the protection and propagation of a balanced, indigenous population of shellfish and wildlife in and on the receiving body of water. Water quality temperature standards must be maintained outside the approved 316 (a) mixing zone.)". The power plant operates under an DWQ- and EPA -approved Clean Water Act §316(a) thermal variance. The report does fulfill the permit obligations for reporting the results of the biological monitoring. Based on a review of the data, it is our opinion that the Marshall Steam Station is unlikely in having an impact to the benthic macroinvertebrate and fish communities in the multi -purpose Lake Norman. We also conclude that the two aquatic communities currently qualify as balanced, indigenous communities, We are continuing to review the report. However, at this time we offer the following comment and requests for future reports beginning with the 2010 report. Comment 1, Although the fish assemblage in this multi -purpose reservoir is comprised of indigenous and nonindigenous species (Tables 4-1 and 4-2), the fish community continues to be considered balanced and indigenous, We have no concerns because the Clean Water Act §316(a) does allow for '°... Such a community may include historically non-native species introduced in connection with a program of wildlife management and species whose presence or abundance results from substantial, irreversible environrnental modification" (40CFR 125.71(c), Analysis Requests 1. In addition to Tables 3-3 through 3-6, please include a taxonomic table comparing taxa occurrences for the current sampling year for each station so that a direct side -by -side comparison can be more easily conducted, Please see Table 1 as an example. 1621 Mall Service Center, Raleigh, North Carolina 27699-1621 Location: 4401 Reedy Creek Road, Raleigh, North Carohlna 27607 Phone: 919-743-84001 FAX: 919-743-8517' 1 Customer Service: 1-877-623-6748 Internet ht J/h2o.enr.state.nc,uslesb/ N©nrthCaro n a Natura/Ij An Equal Opp©rtur ty's Afl rrnati e Action Employer Table 1. Waterbody Licklog Branch Sugarloaf Creek Scot Date 8/9/2007 8/9/2007 8/9/2007 Location SR 1706 off SR 1708 off SR 1556 County Jackson Jackson Jackson Taxon Ephemeroptera Acentrella spp Plauditus dubius gp, C Baetis flbvistrige Pseudocloeon m.in.uum R A R R Allen Stowe November 19, 2009 Page 2 2. In addition to Figures 3-1 through 3-6, please include the following graphs for each station and year (in the same format as currently presented) for the following groups: Non-Chironamid Diptera, Ephemeroptera, Plecoptera, Trichoptera, Coleoptera, Odonata, Megaloptera, Crustacea, and Mollusca. Again, this will allow for a more direct side -by -side comparison for each station and each taxonomic group. In addition, EPT taxa richness and EPT density should also be reported for each station going forward. These metrics can be reported in accordance with current graphical formats. Upon completion of our detailed review, we will be communicating with you any additional concerns or comments that we might have. In the mean time, if you have any questions, please do not hesitate to contact me or my staff,. Yours truly, Jay Sauber Acting Chief, Environmental Sciences Section cc:' Eric Fleek, Environmental Sciences Section Rob Krebs, Mooresville Regional Office Jeff Poupart, Surface Water Protection Section Sergei Chernikov, Surface Water Protection Section Bryn H, Tracy, Environmental Sciences Section Charles Weaver, Surface Water Protection Section Al a NCDENR North Carolina Department of Environment and Natural Resources Division of Water Quality Beverly Eaves Perdue Coleen H. Sullins Dee Freeman Governor Director Secretary May 19, 2009 Nfs-Donna B 17OR Duke Power Marshall Steam Station 8320 E. NC 150 Hwy Terrell, North Carolina 28682 Dear Ms. Burrell: Subject: Compliance Evaluation Inspection Duke Power Marshall Steam Station NPDES Permit No. NC0004987 Catawba County, NC Enclosed is a copy of the Compliance Evaluation Inspection Report for the inspection conducted at the subject facility on May 12 and 15, 2009 by John Lesley. Whole effluent samples were collected at Outfall 002 on May 12 and 15, 2009 for use in a chronic Ceriodaphnia dubia pass/fail toxicity test. Toxicity test information will be forwarded under separate cover when available. The report should be self-explanatory; however, should you have any questions concerning this report, please do not hesitate to contact Mr. Lesley at 704-663-1699. Sincerely, Robert B. Krebs Division of Water Quality Surface Water Protection Regional Supervisor Enclosure Mooresville Regional Office Location: 610 East Center Ave.. Suite 301 Mooresville, NC 28115 Phone: (704) 663-16991 Fax: (704) 663-60401 Customer Service: 1-877-623-6748 Internet: www.ncwaterquality.org Nor thCarolina 7Vaturallt& United States Environmental Protection Agency EPA Washington, D.C. 20460 Water Compliance Inspection Report Form Approved. OMB No. 2040-0057 Approval expires 8-31-98 Section A: National Data System Coding (i.e., PCS) Transaction 1 IN! 21IIIIIIII1IIIIIII1IIIII1IIIIIIIIIiIIIIIIIIHJIl1166 Code NPDES yr/mo/day Inspection 2 151 31 NC0004987 1 11 121 09/05/12 1 17 Type Inspector Fac Type 19c1 191 sl 201 1 Remarks Frispectron-Wtsrlt'D"ays Facility-Self=iSAdiiitdritig-aalUatioriRating—"'Bt QA -__ --Reserved------ 671 3.0 169 701 41 711 DI 72I N I 73 11 1 74 75I 1 1 1 1 1 1 1 as Section B: Facility Data Name and Location of Facility Inspected (For Industrial Users discharging to POTW, also include POTW name and NPDES permit Number) Marshall Steam Station NC Hwy 150 Terrell NC 28682 • Entry Time/Date 09:00 AM 09/05/12 Permit Effective Date 05/06/01 Exit Time/Date 12:00 PM 09/05/12 Permit Expiration Date 10/04/30 Name(s) of Onsite Representative(s)/Titles(s)/Phone and Fax Number(s) /// Donna Lee Burrell/ORC/828-478-7820/ Other Facility Data Name, Address of Responsible Official/Title/Phone and Fax Number Jimmie Allen Stowe,526 S Chruch St Charlotte NC Contacted 282011002//704-382-4309/7043829840 No Section C: Areas Evaluated During Inspection (Check only those areas evaluated) il Permit MI Flow Measurement II Operations & Maintenance • Records/Reports Self -Monitoring Program • Facility Site Review • Effluent/Receiving Waters • Laboratory Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) (See attachment summary) Name(s) and John E L Signature(s) of Inspector(s) Agency/Office/Phone and Fax Numbers s ey _ MRo wQ//704-663-1699 Ext.2198/ Date S /lg %r y • Si ture Marcia f Management Q A -Reviewer ency/Office/Phone and Fax Numbers Date ��c�+1 11 llocco MRO WQ//704-663-1699 Ext.2204/ EPA Form 3560-3 (Rev 9-94) Previous editions are obsolete. Page # 1 NOES NC000.1987 yrimololay 09/05/12 inspection Type VI Section D: Summary., of Finding/Comments (Attach additional sheets f narrative and ctecchecklists as n Monthly monitoring reports were reviewed for April 2008 through March 2009, No violations were reported during the pericd, Page # 2 Permit: NC0004987 Owner - Facility: Marshall Steam Station Inspection Date: 05/12/2009 Inspection Type: Compliance Evaluation Operations & Maintenance is the plant generally clean with acceptable housekeeping? Yes No NA NE ■nn❑ Does the facility analyze process control parameters, for ex: MLSS, MCRT, Settleable Solids, pH, DO, Sludge 0 0 • 0 Judge, and other that are applicable? Comment: Permit Yes No NA NE (If the present permit expires in 6 months or less). Has the permittee submitted a new application? n n ■ f Is the facility as described in the permit? ■ n n n # Are there any special conditions for the permit? n n ■ ❑ . Is access to the plant site restricted to the general public? 1.1000 Is the inspector granted access to all areas for inspection? ■ n n n Comment: Record Keeping Yes No NA NE Are records kept and maintained as required by the permit? ■ n n n Is all required information readily available, complete and current? ■ n n n Are all records maintained for 3 years (lab. reg. required 5 years)? ■ n n n Are analytical results consistent with data reported on DMRs? ■ ❑ n n Is the chain -of -custody complete? ■ n n n Dates, times and location of sampling Name of individual performing the sampling ■ Results of analysis and calibration ■ Dates of analysis ■ Name of person performing analyses ■ Transported COCs ■ Are DMRs complete: do they include all permit parameters? MOOD Has the facility submitted its annual compliance report to users and DWQ? n ❑ ■ ❑ (lithe facility is = or> 5 MGD permitted flow) Do they operate 24/7 with a certified operator on each shift? n n 1 n Is the ORC visitation log available and current? ■ n n n Is the ORC certified at grade equal to or higher than the facility classification? ■ n n n Is the backup operator certified at one grade less or greater than the facility classification? ■ n n n Is a copy of the current NPDES permit available on site? 1 n n n Page # 3 Permit: NC00G4987 Owner - Facility: Marshall Steam Station Inspection Date: 0502`2009 tion Type: Compliance Evaluation Record Keeping acuity has copy of previous year's Annual Report on file for review', Comment Effluent Pipe �ts right°crfwaylcrthe°ouff'all properly-maintatne Are the receevi.n g water free of foam ether than trace amounts and other debris? If effluent (diffuser pipes are required) are they operating properly? Comment: Laboratory Are field parameters performed by certified personnel or laboratory? Are all other parameters(excluding field parameters) performed by a certified lab? Is the facility using a contract lab? # Is proper temperature set for sample storage (kept at less than or equal to 6.0 degrees Cels+us)? Incubator (Fecal Coliform) set to 44.:5 degrees Celsius+/- 0.2 degrees? Incubator (SOD) set to 20.0 degrees Celsius +/- 1.0 degrees? .. Yes No NA n n■n Yes No NA NE �. e nn,.n_.,,.� ■ nnn n ln■n Yes No NA NE ■ n n n ■ n n n * n n n * n n n n n * n n n * n Comment: Field parameter analysis (pH) is performed by on -site staff (Certificate No. 5155). Other testing is conducted by the Duke Energy Laboratory, Prism Labs, and Environmental Testing Solutions (toxicity testing). Effluent Sarnpling Yes No NA NE Is composite sampling flow proportional? n n ■ n Is sample collected below all treatment units? ■ 0 n n Is proper volume collected? ■ n n n Is the tubing clean? 0 0 • 0 # is proper temperature set for sample storage (kept at less than or equal to 6.0 degrees Celsius)? ■ 0 0 0 Is the facility sampling performed as required by the pemnit (frequency, sampling type representative)? * Finn Comment: Grab samples are collected in accordance with permit requirements. Samples are collected and placed on ice during storage and shipment. Page # 4 Duke Energy Jul\ Mr. Michael Parker North Carolin)epartrnent of Environment and Natural Resources Mooresville Regional Office 610 East Center Avenue. Mooresville, NC 28115 Marshall Steam Station NPDFS Permit Constructed Wetland Treatment System Mr, Parker: DUKE ENERGY CORPORATION 26 South Church Street Charlotte, NC: 28202 sr�rrxrr,, ac,°Jress: P iJ Box 1006 NC DENR M D Surface Water Prott y discussed with you at Marshall Steam Station a temporary nutrient addition. being added to the Constructed Wetland Treatment system in order to increase obiai activity and enhance treatment. The nutrient feed will be added to one of the three system trains. Attached is the MSDS on the proposed nutrient for this project. The project is scheduled to be assembled on Monday July 14, 2008 and begin operation that same week. The treatment efficiencies of this system will be thoroughly evaluated for several months in order to decide whether it should, he a permanent system, se advise if you have any questions or comments. Sincerely, Robert W Water :Manager ent. cc; Donna Burrell Matt 1luddleston www.drr+leutrverg;.horn - ' MATERTAL SAFETY DATA.SHEET Yrt �-y `I:•r`. -'t,.4,.�f :.''iA; sr'ii` mow.- C:� .. ir' - ��^ `•q'r;re ixPl y,.,i,•�,�:..r}�F: ...y'....�� .a..,r ,f'., ' 'J��5:✓1�'a'S:?'+:7 _•N�. l�;f;S•;i :�5!1y[,:•��i^ i_.ji�l..„crl.r='+a,ic'slat!o�;i�3.:.Y :f�l .;i'. •ii?, :u�5', �4/.�:I�LeS,�u•, iln:aua:�.F;..:��.s��:tfA-.•v:':s:s'i»;1?..'��1�� it_�;.IM��tA:��I�F�:'TI�14;=T1?; �a.ely.�k�...a.l�".r.�.l:::•.t;:n:SY:.yl:ri��•!:r `IC. �1 �; ��. • CHEMICAL NAME ' 'PRODUCT NAME: ' • YEAST CULTURE �P�ENTS{llo EMERGENCY TELEPHONE • •(319)• 366-07 5: ' - .. • • (800) .373=7234 (outside law), Date Prepared' 11/26/07 • IS'THIS PRODUCT HAZARDOUS IN THIS CONCENTRAT!ON.UNL ER.29;CFRFPART . -1910:12007' .YES 0 .•.Nq IF.YES, CHECK HEALTH HAZARD .0 CARCINOGEN 0 HIGHLY TOXIC 0 SENSITIZER 0 CORROSIVE 0 TOXIC • APPEARANCE AND ODOR • 0:7'Ai3G T ORGAN EFFECT. • [] IRRfTANT • OR, CHECK -PHYSICAL HAZARD 0•COM13USTIBLE LIQUID Cj EXPLOSIVE COMPRESSED GAS' 0 FLAMMABL:E O.ORGANIC.PEROXIDf •0 OXIDIZER • 0 PYROPHORIC • ' • 0 UNSTABLE (REACTIVE) .4R 1/VATER-REACTIVE Hazardous Components (Specific' Chemical Identity, ' , ' • ' Other Llmits • Common Names(s)'° OSHA'PEL ACG1H •TLV ' Recommended. %Optional` • ° E )110.1 l!A1110F.i.EEI I.QAf :S?HA> ..':BOILING. POINT • ..VANOR PRESSURE.(mrrig•Hg) • •' VAPOR DENSITY (AIR,= 1)'• •' N/A, • . N/A' NIA •• • - SOLUBILITY IN WATER:', N/A . • Typrcal - Tan granular powder SPECIFIC GRAVITY (H20 = 1) • N/A. . MELTING POINT. N/A • EVAPORATION RATE N/A (Butyl Acetate = 1) NSITII(I56t`1:;" • • • Qf'lomit t" ' ;;.3,ig`onfai iior4Xv.w$#aN Fi zotD DATA ``otii ` i!%!tol 4 's,; lic FLASH POINT (METHOD USED) FLAMMABLE LIMITS • :LEL: • ' •U EL . • • • EXTINGUISHING•.MEDIA ' •', 'NIA. N/A N/A N/A• Water'- Chemical -' CO2 • SRECIAL FIRE:FIGHTING PROCEDURES NIA ... -,• '. . • UNUSUAL FIRE FIGHTING HAZARDS • • All.dusts frorri. grain products 'are ' . ' highly. explosive at critical .air -dust • doncentrations ' . ' • .. • • !: - ',1� 4L�sS 'ir{;,i, ,#�iY C'yr ;`yl c �� 7.r. yf,•,' _,;�. -�. .,i.. . � ,,:,+rL'-��,.: 4: :��wl,, �[; , ivi+nr!. ,i�S" 1: e..i.� m,7r.f,:ix,x ;1\;; el� 0�;lli'h°`.T+3.:ynl�.rt4,c�' ?�i�; Ili!`lflti�A �V zXl .. E+... �+s 11 t .v .. / '��it`ti�yi<j y { �'tiJ; !ts'1'� •�� A�t�'i, '"'!, 'rnf d 'I i ,,.,;i',.���,�r,n��,.:a��,; :!��,..�•,r�,,,�,t ILITY . :LINIS:1?AriM..O STABLE ® . • CONDITIONS TO AVOID • 'INCOMPATIBILITY (MATERIALS TO AVOID) Strorig oxidizing.agents;• moisture; , high temperatures •. HAZARDOUS DECOMPOSITION'OR BYPRODUCTS • Norie- - HAZARDOUS POLYIZATION • MAY •OCUI 0 WILL NOT OCCUR igl .CONDITIONS TO TO AVOID ' . CC r F aa��.1s?r5. ..�� �� .�ti fie• h z •.h.v�..,-�..r�, i�.� 1, i;`slis 4iV�.02...1 t= 7n2-`i,"yra�• I sty r: T!i�r4� d'Fc. :S F.0 li. 'f, =f";. awv `S' f7 �A •,% 'fti H 11` eH 14 AtAr•F _: )�gyIp r 511 A..:•_•5r �� = �•`- �1�2r7gr#pr � !tt • •n, ,, r- i �+'I..-•tr iit iub'�,, a;» r a ,wn;=>'a.3� yr �- a a-•s +' c•-. y •,j.�, d'f3i��jl"Y �s�45�;4 tir �` !� S. �•. aj.! 'i1M4 ��y�: Ib 4 . j n. .4e4 ROUTE(S) Oi✓ ENTRY: • INHALATION.•® SKIN 0 INGESTIION ® . HEALTH HAZARDS (ACUTE AND CHRONIC} ,,;Individuals rtiith.ow knn grain deist • allergies, or• chronic'. respiratory':' disease'should avoid, carztact with all dusty conditions • . :..' • : -. ' • . CARCINOGENICITY: • No ' NPT.•.r <:. No ' . OSHA' REGULATED • SIGNS'AND SYMPTIONS OF EXPOSURE. No• Dust may affect allergies or respiratory problems • ' MEDICAL CONDITIONS GENERALLY AGGRAVATED • BY EXPOSURE EMERGENCY AND FIRST AID PROCEDURES •• Dust'related probterris No specific procedures Zex l�i�, �rNdd . STEPS TO BE TAKEN IN CASE. MATERIAL 1S., • RELEASED OR.SPILLED WASTE DISPOSAL METHOD, PRECAUTiONSTO BE TAKEN IN, • HANDLING,;4.ND STORING • • OTHER`PRECAUTIONS- s��rSiii4 ERtil'E�>1%�7 Conventional cleariup. • • In accordarjce with Federal,' State' and L:oal.'regulations ' •• • Store•in a, cool,•dry area •' ;. '' None 4ti.M1 � yY4,kpK,,��,. ��� t , r.' '-I i �s...,. . y.._.. rMt.SG irk' U r} 3 r'S Xri�s��,� ` �1tsU74t dg{bi��� �i�s 31a�'�{na�i ire +{� 1�/�< t���jj�d���{7 c{,�•6�1 f �Iili,G'7i'{, ,I i1ySw":i GF..-v ,�llA �I 13610.1i�AA.1�Y.�,ff�.gl1#� 6 ;.FiJ_]� " s.• . RESPIRATORY PROTECTION (SPECIFY TOPE) • • 'General aIl-purpose dust mask• f ` • ' desired IS.RESPIRATORY PROECTION. ' '. • • : •©.NECESSARY'.T® UNNESSARY'IF VENTILATION IDENTIFIED BELOW1 USED •; .,VENTILATION ' ....LOCAL EXHAUST • • SPECIAL • ' Yes t.;NIA . MECHANICAL (GENERAL.) OTHER • PRQTECTIVE GLOVES , YES (SPECIFY TYPE) ' 'Safety glasses a good practice EYE PROTECTION. • ;'0 YES,(SPECIl✓.Y TYPE)" -•®NO: , OTHER PROTECTIVE CLOTHING OR EQUIPMENT • • •HYGENIC'PRACTICES•. • • . IS•PROTECTIVE CLOTHING . , NECESSARY.' • .• ® UNNEOE$ARY IP OTHER•CONTROL MEASURES, ARE USED • Good manufacturing practices - _ • SUCROSE MSDS Number: S7394 * * * * * Effective Date: 07/08/04 * * * * Supe,•cedes; 0S/08/03 • 24H11ur Ekyipenay irloplian1:4094 G-21f. CHEMiAEe:14 0420314 t r Safety Data Sheet Natrcnt♦�Fla�pan:htodaaede OA11li7Ebt 4T3�049�66$ ..Ouleldo U.O.Arid C44nadp ChlrthQna2'0 274 6i'' ' N47c; DHEG3if11:Q,;tiANOTEO oz►dl�apsisei Ftimplidoaaniarematff6t Yriumbeiiklabe •.. uerObiAlip.411. 451011t0fe iinl:akm4ri rlao. Inwlulrl2� a;alq ldarc,, fig), eKpcsvm or ooaklaiq. • , f�uYitylrspot►nlaala.:r •; ' • • • ihl n¢tronetoaacytis&anff'slrufd kiatiu©ctadd to cut-teato, 8eofro (t.8op g• Eei5a7Eoi-aassiafcu;.. Prroduct.Identification : • . • Syaonyiins: a1Ofia=21=gltieop9ranbsyl-beta-DLfructofurarlosida; sugar. CAS'l�toi; 57-50-1 • ' • Molecular Weight: 342,3 . •CliebtjcnlToimuIa: C12H22011 . •Prodiict Guiles: J.T: I3alcer; 4005,.4072,"4074, 4097; 4842 • Mali1helcrbdt: 1397,3723, 8324;8360f'• •• 2 ;Composition/Information on Ingredients • ingredient • •Hazaxdo'us ,• • 'Sud•ose Yes. • 'CAS ' No 57-50-1 Percent, -. 90: 3. Hazards Identification • Cmergeliey Overview SUCROSE CAUTION! MAY FORM COMBUSTIIILE DUST CONCENTRATIONS IN AIR. NUISANCE DUST; HIGH . CONCENTRATIONS MAY IRRITATE EYES AND RESPIRATORY TRACT. SAF-T-DATA(") Ratings (Provided here for your convenience) Health Rating: 1 - SIight Flammability Rating: 2 = Moderate Reactivity Rating: I - Slight . Contact Rating: l » Slight ' • • Lab Protective Equip: GOGGLES;. LAB COAT; PROPER GLOVES .. Storage Color Code: Green (General Storage) • Potential Health•Effects :.Iplialatidir ' Not expected.to be a health hazard; Nuisance dust. lnlialation of high concentrations inay cause coughing and'upper . respiiatory tract -irritation; . ' • • , ..• . • • Inge'stioii '• . . . ; ' .. . •' i3xtreipely large'oral dosages' may prodttce''gastrointestiiial disturbances. 'Sinn Confect: • ' '• .,'No.adiierse effects expected. • Eye•Coiitact: . • ' • ... , ',..• •No'advetse,effects expected but dust 'May cause Mechanical irritation. ' Chi•onic'1Cxposni•e:: • ' ,No information found ' ' . • 'Aggravation of.Pi•e-existing Condititiuis: No infoi`ination found, ' 4: =First Aid Measures' Iithaliitioa: Reinove.to fresh air. Get medical attention for any breathing difficulty. • • Ingestion:- : • . If1ai'ge amounts were swallowed, give water to drink and get medical advice: : •Skin Contact'. . . • '. " . Not.eXpected to redtiiie first aid measures.' •' • Eye Contrictt . ' ' Waslt•tboi•oughly with running water. Get•inedical advice' if irritation' dt;velops; 5. Fire Fighting. Measures Fire: Not considered to be a fire hazard. Explosion: Fine dust dispersed in air in sufficient concentrations, and in the presence of an ignition source is a potential 'dust explosion hazard; Miniinum explosible concentration in air: 0.045 g/l. Fire Extinguishing Media • ' Use any means suitable for extinguishing surrounding fire. SUCROSE Special Information: - In the event of a fire, wear full protective clothing and NlOSHrapproved self-contained breathing apparatus with fill] facepicce operated in the pressure demand or other positive pressure mode. . ' OE Accidental Release.Measures 1. . Reinove all sources of ignition, Ventilate area, of leak or spill. Wear appropriate personal protective ecluiprnent'as • specified in Section 8: Spills: Cleali'up spills in a manned' that does not disperse dust into the air: ,Use ton -sparking tools and eclriipinent. Reduce airborne dust and prevent scattering by-inoistening with'water; Pick up•spill for recovery . or -disposal and place in a closed container. • 7.' Handling and Storage, Keep•iri a.tightly closed container; stored in'a cool, dry,.ventilated area:Protect against.phy5ical darriage:Isolate ffom: any source of heat or ignition: Containers of this,inaterial maybe hazardotls when empty, since they retain,product • residues.(dust, solids);. observe'afl warnings. aiid precautions,listed for the pioduct�, : •• . 8. Exposure Controls/Personal Protection . Airborne Exposure Liinits: ' Sucrose: ' • _ OSHA Permissible Exposure Limit (PEL) - . ' Respiirable fraction: 5 tng(m3 (TWA) ' -total dust: 15 mgiih3. (TWA) • ' - - ACGI I Tliresliold,Liniit Valise (TLV) - . • 10.ing(ni3 (TWA), ....MLA A4 classifiable as a !Inman carcinogen. ' Ventilation Systems... -• ' .A'systeni of ]deal and/or general- exhaust is recommended to keep employee exposures below tbeAir€borne L posnre.- '• Limits. Local exhaust ventilation is generally preferred because -It can control the eiivssioris'oithe contaminant at its;': . •'source; preventing dispersion Olt into. the general work area. Pleaserefer to the ACGIi-i `document, Lrduslrial. Verzlilatiorr, r1 Manual ofReco7rFmerrdedFractices; most recent edition, fo'r details; - • Personal: Respir'ators'(NIOSH A'ppr(vei!): If the exposure limit is exceeded -and engineering controls are hot -feasible a half facepiece particulate respil`atoi ', (NIOSH type.N95 Orbetter filters) maybeworn foriup to ten tidies the exposure liinit.or'the.inaxitnitm rise concentration specifiied,by.the appropriate regulatory "agency or respirator suppljer•;'whichever is Iowe'st.,.Afiull-face piece particulatc.respirator (NIOSH type N100 filters) maybe worn up to 5t) tithes the expos}tre' limit; or the iiiaxin�tirn use concentration specified by the, appropriate regulatory -agency; or respirator'stapplier, wliiclaever..is.lowest: If oil ' particles (e.g. lubricants, cutting fluids, glycerine, etc.) are present, ttsea NIOSH'.type R oi•P.filter; For einei•genaies or instances where the exposure levels are not known, use a filll-facepiece positive=pressure, air -supplied respirator.. WARNING: Air-pitrifying.respiiatQrs do not protect workers iri oxygen -deficient atmospheres. ', Skin Protection: • ' . Wear protective gloves and clean body -covering clothing. Eye Protection: • Safety glasses. SUCROSE 9. Physical and Chemical Properties Appearance: . • Monoclinic sphenoidal crystals. 'Odor: . • Characteristic caramel.. -- . SoInbiIity: : I.• gm/0.5 nil water :Density:. ' pH: Solutions are•neutrai to litmus. yolatfles by volitiiie a 21C (70F): • • •0 • • • •130iliiig I'oiut: Not applicable:• Nieiting 1'oirt#� . ;TO -• 186C (320 ;•367F) .'.Vapo'r Derisity(Afr=1): Jo.inf armatioli.,%und; Vapor Pi e�sui•e' (nnii'fg): • No itiforrnatipil foiti�d: . ••.'witpor>itiotiRate (BiuAc-41): No inforrnatiorl found. , 10; Stability and Reactivity • •' StAbility: ' • . . . , • - Stable under or4iaary conditions of u'se aid. storage. . ' Hazni'dons•35ecoinpositi'on:Pi oducfs:'' • • ,' .•. '' Carbon dioxide andcarbbnmonoxide rnay..forrn`When heated to decoinposition.. • • - =' Hazardotis'Polym rization.: ;• . ' \/i11•not•occitr. , _ ' • . ' • ' • Iiiconipatibillties. ' " . Oxidizers, sulft ric acid:and nitric acid. ' to Avriid: •. Heat, flanies,,ignition sources and incoiupatibles; 11. Toxicological Information Oral rat L1750:•29700 mg/lfg; investigated as a mntagen, reproductive effector. \Cancer Lists\ Ingredient. Sucrose (57-50-1) • ---NTP Carcinogen -- Known • Anticipated IARC•Category • No . No' None S Uelt OS 12. EeOlogital Information Environinental Fate: , • • No information found.' Environnientnl Toxicity: - No information found. :13.DispasaIConsderations . • . .• • • . . • ' •• •••Whatevei•cannot bO,saifred for recovery Oj:recYcling should be managed in an appropriate and apprOV ed•Oiaste disposal : . • :•••'., •••• faejlity, Proc4sing, .9'se.Ot contamination of.this.ptOchict may change the tiv4tenanageifient options . State andiocal . • . - . d i s li 6 s 1 regulations h-14y. 'diffeffrOM'federal diipopal regulations,•Dispoae'Of contaip4.and•unnsed contents hi... • .• ...• .• •. . •• '- ' • • • accordance witli federal; state and local requife1nents.4 • ' • .—, _ • ' . • .,., .. .. . .. : . , • • . • .. .. : ... ,.. ". • .-".:14.7tranSpetriltifOrni6tIOnz, . • : Ntitfeulated. • : . • ; : " . ••• ... • ...•• , . • , - • .•.; • . • .15. Regulatoryinformation • • • - • • . 01: • Status Part ;••. • . Ingrechent- '•• • • ' • • : - • .:TSCA 3C Jpar•!••••.Austii.a)..i.aj.' . . • • - , . ..• ' • ..S1,1d±OPO (57-5071) , • • • Ingredient • Part • 4p ' 'Yep Y466. ,t No . • . , ..•.• • • • • •. Korea • bSt •-•• zN,Tthpi; '. ''Phii'.•; °. .: • ' • • • ' '. . `: • ' • ill'orOq'o. (57-,5b:L1) . ' ' • - , • . ¥06- ' .Yes ,; No 'Y'p . .. • . . • I • • • , . . , • i .-- \iedei41,*State:.&.nternational.Rettlationa . Part 1\ ' . • . . -SARA 3.421-; . . : SAM 3.13 • ''..ii.:laredient liQ TPQ: -'List ' Chemi6a1..Cat6.. Suordse (57513‘,1) No No ' • 'No No \Federal,. State & International Regulations 'Part. \.'' :RdRA- -TSCA- , •Ingredient CERCLA. 261.33 13.(d). . . Slicft•se 57-50-1). No Nd No ' • • SUCItoSE Chemical Weapons Convention: No • TSCA•12(b): No CDTA': No SARA 311/312: Acute:'No Chronic: No i+'ire: Yes Pressure: No Reactivity; No •(Pure / Solia) - Australian Iiiacliecn'Cocle;' None aflo.cated. . • Poison Seiieclule; None allocated: ' Wl<iltilJS: . • . . "I'liis'MSD,s has been p'eiiared accbi'cling'to the hazard criteria of the•Controlled Products Regulations (CPR.).•and the •.'• MSDS coritains.all of the informafiou required.•by the CPR. • • • 6.Other:lnforma#ion :'� . NFPA.Ratiitgs;:Health: 0 Flainiiiability: ]. Reactivity: 0 ; . • , Label Hazard'Wni ning;. . . • ' , ' • ;CACJTXONT;MA{ ORM:COMBLISTIBLEDUSTCONCENTRATI.ONS•INAi.R:,NUISANCE-177J,S•T:.PIIGI-I CONCENTRATIONS ..AY I10.l'i `iI EYES A'ND RESPIRATORY TRACT'. '. �' • -• • ' . Label.Pi'eeautiocis: • • ., Avoid dust cloud. in'presenoe of ari ignition $ounce. . . •.Maintain adequate ventilation. • . : - . :Keep cohteiner elosed. ' Label Tii'st Aid:. • , . • _ • • If iitlialed, remove t9 fresh air:Ott- nedical attention for any breathing flush eyes with plenty ofrvAter for at (east 15 tnint tes. • . • .I?aoditet Use: Laboratoiy•Reagent. , • ..• •-, Revision.Iiiformation: .. . 1VISD'S. Section(s)'changed .shice.lastrevision of.docuineilt iilchjde: •3; 8. ' Discinnner: . • • • difficulty. In case of eye Contact; ininiediately • ***4,*****i; *********ai* 4,*xk * * *=r�:*i. **;**ioopc* * * 4.: i:,, ,.. ovicleg'the Int'orpiatfgii'coiithmccl ;licreili tit good'fnitll:61it'aiiriice no"represeietntion • •` as ro is•ann renenSlveness 0! .:iccui=AC�+. This clod:melt.is inteiulecl only ns ;c:guule..to the.appropi'late • ••precatit'ionni•y,h;i:id�ling of the it a(6.1 l by a properly frsin;ed'persoui usln:g this pt oduct; Indcvicii:als receiving.:: • ; the Inforniiitign imtrst eirei � i4.41 tindependent ji;dgindit In. deternahjing•dts'appropcinteness•foi n p:;i icr,t•iar ptic pose.l 1 .: z ' •.; iYIAI S NO REP l SLN`l'ATIONS,IaR WARRANTIES, .. RYTI E1 1' Xt'1tLab'C)lt liY1P]ri-LD,.INULi1J ING:WITI-IOUT•LINII;TATION'ANY)ARRANTIES•OF • MI,RCHANTABILITY,F,ii'NES,0ORA;P;prrriCULAIt PURPOSE WITIi.RES�PECTTO:'1HE INFORMA:TJON •SET: FOR'IT#' R ;REIN`OR T :PRODUCT TO WIIICH THE INroRMATION REFERS, • • • •• ACCORDINGLY;' >" ;•• • . , RESULTING I+ROM JSI OF; LTANCE UP * *4<*'' ***•**44,,A**xi******** **+•*-*1a ********.* Prepared by: Environinental Health &Safety Phone Number: (314) 654-1600 (UJ'.S.'A.) ILL NOT lE RpSPONSII3LI; FQR•DAis4AGI S•• ' • ' TTIIS XNTOIIGIAT) ON;',• ' 4* ***4*** ***** **i;,44,;c:**x:*4* ************** Material,Safety Data Sheet aee. to ISO/DIS 11014 Date Prepared-`rh4r/.iU >' . • Prarfact inane: Ilacta Crisitone;'Parrci•eallcDi. es! of Casein • Catalog :znmber:225930. • • Alemnfacerrrer/Snirt}lier: ..1iiforuratinli aeparrnrenr: Technical services Technical Ser•vie s . • • kniergency'Injartrtatinrr:. Iiicase'of a chemical emergency,' spill, fire, exposure,. oi•. accident contact, '771-0100 oi••(800-638-8663, or CheinTi•ec at'(800429;9300. Page 1/5 Revielved On: 12/21/2007;. 2 CI IflpOirti(iii/Data` aulepaitumc!ti#% Chemical' CAS' No: Desei•iptlon: • Not applicable ' 3 Pikat•ils • • kazarii rieserlptlon: ' •• . This pi•oduct contains' no hazardous cdnstituents, or (he concenti atiaii of all clrerrticcal constituents are below the r.egulalory ihresho&l,iintits.deserihed by Occupational Safety Health Atchnilifseration 1 c{zard Cornmunlcation Starnlard.29 CFR 191.0.1260, the Canada's'woi•kplace:llnz ndous .kiaterials ' Irfor•]uaiiori:Sysietin,0II41,11S2 and the European Directive 91/155/C 'C, and 93/112/IC•.' • NFPA ratings (sc1,le 0-4) • Health'= 0 Fire,=0 Recidivity = 0. • I�fMIS hiin• gs (scale'0-4) F1eallh = 0' Fire=D Reactivity-= 0 • 4 First aid rrreas:,rc. • • • Oeneral_lnfcirrurrlloci;Nospeclalnieasirresiecluired: ' • Met: irllialhlinn Seelc medical 1realrrrenl in case ofcomplairus.. . . • After shin cotrtacl'Irriniediately trash with water and soap and rinse lhorougghly. After eye coiitact Rinse opened eye for several minutes under running crater. lfsyniptorrrs persist, consi'rlt a doctor, • After swallowing Ifsymlitosns persist consult doctor: (E a8uduo'pi uoj) sassr'J3 j i /i,S - uo f)aato.rd adg • .• ,•Oual'dfnba.ro'aJf.ttlta a sadoj.juw)slsa.1palmetto ••rsJitivi fo riojtjajoid'. Trott? 11dsa.r patio.[o pooJ atu[ pr[uayo tasr 'ar;uoadlrxrdpfapbi.31qfpa/svao ;ru .•.•Sf •' : pahtoJlojaq p jitgys s11.73JtuaLJo . 1lt/ptrvy .rof sa,ut4:qaru rf tvtral jftUaa rd jbrasrt.ay saittsyaut. olrjali,(yliiiu adllaa)artl Jtt,1atla6' • triatr:dprrbhaaj).?atory fuieossrad°:• sisvq so pass aWnt:ttorlpa;to ar(! 3ut.rrt P1Jun.a.rant pill.sjsrJ ayZ.:irofJtiiirrtrjtlj jualr{lr1�y' , pagnbat!OM :aatiJrl aonrarjlJv.ffuhdb,Jiiopu.a,yribarturltsatrJn,t.jrurl!rJ)Jdisluarroiliitoj ;. L tualr aas ,'dirij� raifjtr ohp isura/sS(s Jvaprii:jat fo uylsap 111agt) ira!lutrt rof li pliabyp11T4 a twp1 . Iv),ld plulrl,rdad pu111 sio.quo a llisod kj j g• = • palnas,fJ1[(Srl d/bvtdaaa.[ daaJl.:suompiiooa,5'U.tOjs)ttogtr t.,,Oairwful iarp .ing • slu3Sp ptippjxn '(cylptif?SuJots tm?urtroa auotr1 a�Urvis jrtogv tioljgriiiu jul, • • ,3 0 > `:sajavt(laaar.ptiv sruoarato)shq latuaq o) s/uaura.rfribait'• • • • aU.rojs . satnsvatu Jtiload, am :sa.tifpiku siropsojd Jsupv, U. riop)valatifiuoqu uartuuirnfrt . Pa.urtha•r sa.rrisuar[ilgjoads QM .8tllp(a. J afus ;rof rro/Jytti tgfrtf : ' 0.1[1,fi a ilk.• • p.Ol .Yt1p111 eft) ��. - • • ••paF,Lvm4 a11.saaui)Jsgiis s1i1.raW(114) ax :rioljuttt:iofrip tnriopjlirjte••:, , a'ritt 6a t sa iirsbauJ julaadsON f*.2alioo/i u:1 jap .tbtf sa,iiisz fl • • .t•t tir.ro a�'trods d•uavi iijfii • do adr •i :r •oit�a)n.id Jd1rrauriro.rp,crra:rofsa.dlsriayV : • pa.7prtlia.r;am isitoljuvaa:rd1(pfnspa1Utat uosvad,: • Vf1.111.11)r7111'r7s`lt.1p.rlllj[f9p/ia 9• ' • pa:rrrda.e savii)r3ads oN7uatudputhiva,bfadt1uJn?3tsllos.4 Jottojr btptdt sa.rf.taU/1y211.'dv.rds iajV,r.io vbjtualia m!Edo a 1 ... • •,sjua$11 �3iq: sjrrrYtiiJaa a)gvil,ks, • (1'aged Jo •p iro ) SQSmV 5Jijl t41?Qyllaopo,[dsx1)'rttoyS'.iotaop rofuor)vturoftij': • • rrpasu,9 fo Jsa.8rQ Jtya,tatu d.'arrvtjsDD `wag :mail toupu.)d - • • 400t/1Z/ZI :uO pa4tap6ay 610tr SKI/USI o) '001) 3aarpS 1411q (OMIS 11)14aMAT . 100t71i/7t :vadvda.e l am. r7 • Matetya! Safety Data Sheet acc. to ISO/MS 11014 Date.Prepar•ed: 12/21/2007 Prodricl mine: Baclo Casilone, Pancreatic Digest of Casein •Body proteclloit: Protective pork•.clothing Page 3/5 Reviewed On: 12/21/2007 (Con{d. oIpop 2) 94'1tyskyil {t tcf chfaatea! %),'riper /id; Gene.f.al lnfarination ' • Fortin Color: ' S'olfa!' Powder • ' : Beige.' Cjraracterislia • Clrpngein eonditlop :'• • • Undeterrniried: Mellhrg ppliil/Melting rdirge: Not deterrtilne'd • Ilnilirrg poLil/llniliitg i riiige::. Not determined .FlaSlf polar: ,F1?Vi!!abi1tO (soiirl,.gaseAiis Not alipliccrble 'Pradiict is not flauuiable. Dariger.of ex7 liision: • ••.• .• Product does irot preseiti an explosloli hazard. . Densiiy;: ' R ' Noi cleter•ri'rined : . So/Nlrillly. f i, %MLscibility i barb ' . • lYrite•i :• Insoluble. '.SollfLs coiilenf:. - 100.0.% • • : f1. SYciliilkii Waif r etictisjily''•' 7i;ir`eriital. rletliiriposilia r.l 01;4111ons'to bg:rii oirleri: , I /o decb17rpos:tion f useed according to spec f cations. - - •;Drrnget otis .actiatrs No'•dangerorts`reacliorrs luigivir . ' 'Dairperntrs epr•?flucfs ajdecorirposllions No dangei:ons deconrposition p'odrtets,knofdn;'.• 4. 1.I. roxi c lhg1cal..f ftri ttrllalt • .,Aetiteloxicitj: Prinupy lrrifalrl'effect: . -. •; ari tlfe shin; No it, ilaling effect.• on the eye; No irritating effect. • •• Sersillzatio t,: No sensitizing Effects known. • , • Additional toxicological lnfol oration' then used and handled adcor•ding fb specifications, the product does. not haye any harnifrrl effects.,' according •to our experience and the inforwalion provided tons. . The substance is Prot subject to classificaliorr. • • usA {Caiitcl, on pugs 4)' • Material Safety Data Sheet acc. W ISO/DIS 11014 ' Dale'Prcpared:12/21/2007 Page 4/5 Reviewed Ont. I2121/2007 Product name: Saclo Caslli:we; Pancreatie•Digesi of Casein • (confd. ofpaga 3) . 12 L'c ilo ,licaai'irt fiirrntallalr: Rcatoxiral effects Other lrrfornratlnir: '•„ • ' : . , •The eeologiehl effects have not been tlior•otighly frivesligated, but:cur eenlly nape have been identrfreil.• ▪ Gene� al rt hies; Geiser Billy trot hazai•doas for wafer•. , • ' ,' 1 D3� jro sill eritichleratiort ° . • Prodricl; Reconiifrertdation ,' S?rialler'cjilanlilies Cali be tllsposed of i'vith solid waste.;• • , Dispose of utaler•ial in accarda►ice with federal (4.0 CFR 261.3), stale and local recjuirerrieuts. T is prgdircl is; riot eonsldereel a RCRA hazprd6ns wriste, • •Uricleanerl paclrrrglrrgs: ' Recofnr reird{rlfon: •Disposzrl tints: be riicide accoiding to•stale and fedei•al regrilq(foiTs. ••leecouilninded clearising ageirl,• Water, ifnecessary!witty clednsingagents.... "'' • : • .. l4�7'��irlrtifirillf In•%af�trrrtlnli::.� .. DOT regrnlailairs: , = flaierrl•cless: - " . • .. ... .• • Land transport ADR/RID. (crass -border) , :. •,ADR/R!D clriss: . - - • . ' _ : - ' • Marifirue.lrautspa• r!'•IMD•G:, • • I4WDg Class: :• _ , ='111arltie pedlulant, '•.»o • • . • Air lrairspos( JCA G-TI grid IA TA-DCI;: • • 1CAo/IATA Crass: - • . • . . 'la ; TriinsporU4rklllional lnfarnlation: : • . ... . ' • . • ' • ' • • . •.IJ: ci: dashed line appears in 'the l-/azai•[l Class section for. the type' of lrarisporlall oir, • this •1 rjd.icaies the : ' prod:fel is liar regnlgfed for' rr•ansportaiiarr.; • • -•.;..! S4R4 Section .355 (erti.'errrely:l1 azardo:rs substances) ; •-%. ' • •• .. .. " • . ; Sirbsiance'Fs flat !!stet[ . . •• .. • • " •, . • . • . ••. • • SA1i4 Secrlon 3,13 (spec fc toxic cl ernicai listings) • . • 5rrbstance is not]. ' : • - • TSCA (Toxic Substances Contrpl Act), •• • • Substance is listed Contd. on pages) • YSri • • adr;zirtrasa.idau aaraias .s.v! •fqn,„.. quo • , vfo zvritd5 T 1q a1FY'rfq pal0a.la. �OSI4r: Itratul,rvffaQ•juattrtrgfr114 prui><lafvs ' ?SUSl1Wurtrssl luauilivdaq . • • • • • • • . • 7stxa Jvyl sp rvz0y.. • rffuo asp'a.ty asa"yllvtfr aaruri.rbii$ roar uvo aet�rrtaray page.rosapa.ry sp.rvziisi,utvraap il$notjjfji;•uotputd . puts y1?�i'pasri aq pfnbys sp,tvzvy iisne {sfwi.itiasad dt arirp s/vjralnui UN '.rasa ayi fo eifrjigtsubdsa.r afos aijj • . s1 fvt.ralvru sasp f o sflllicmflris fo uottrzutilt.ialap /btir 'uta.tat, pariruruoq t�oiJtitrrro/tr1 ayj fo trala jlturo'o. • io Tgn.inaaU'arjl :idf •1aitaoslvint salltlt gvtj;,(ith satiriissz sai ivfptsgtis slt fo sCiru;.io,,jtrnduro,D .PirV;trosttnfoi j , `trolyag'ira'ylfau; ;ia�a,ito�! `aJbari brs:'st tgaray`l�aultiluoo uotiv�trivfitt .?a3pjntourf:.ino..fo jsaq•ayl'p;�• :l!opnttl rafrirt ,w,j; gr. • :rarnni•.rof sltobuDzvef lost fffju.ratrao :ssvP p,rdzu►/0W4f • - '• •. srrot fblrl8a.r junto ltiN , • •sivf ralotts srrop.rpz+itf ud suotivirtf*d of 2iqupvl.rad suorjyirt2a,t trd1lvafftlsrapr qi 1oefgns'lou si. l�ltpo.sd y,L • . . , - - : 'srt ol. ssiuo 1 a.ntic.raltj fo saauios / i ail) of 2u oa5b trotlri¢frssvp Os lop!'ijrrs 1nu st'aalrrllsqus ay,L" , , • : sfvortuatta Sutjpsw.y upq.n su0r;v1 Oo,s`f) /Vs .raua2.arfi aa:ta3.g0 , ., • ' uofJvrrr,rof}t1 prvfbzuy11.•N►pfa.r13ulio.r11. ;: ;0411.10.iiai.aoirulsgtis • :.(111JOV. 4a7 parlsijgvlsa auju, lndiri7 ploriso,irl,L) it,ZL (rtrtiiRaid rC&ulo 7rzoi. jviio/,UM • . pa1sr/ lou sr"aotrvlsgn (.raativ0'tro ria•rugsau..iof,Cstigakiiiitofriitr*rlf j1lVIA":. • • :sairoaly� iCjfajtrab'orrla;iv� patsf/ joir sr;ajutiisgris' ,'gf11viavl1uliratrrrlvp,tap asiirla ol,trerbtis/,slsioitiiarj,9•=,s-9;ito llsbdurj.Liri.rofily jlajstf jou'sr'aoud)sgriS : . • - :satutri,tof,frlplxo/ a41jpnpo.rdai asuri.`o1 tin(orri sfualutai'10 - 59)i,ofllsodv4a • : •. ' ... _])..atsij.lotr'si`0511 sgns: •. . •• •tsafvrrrafaufcr,Spiro, ar10.1spu.rda,raSW0 Ol t/Aiotr}fsjvnttubrfj 99.irullfsodu;iduiirrojlU5•: • • ,. '.4,a3L'dJo:piud0):, ' ;`waisii jdusj,aouuisqus. ,raanva asnvp"ot trowrr59 irlasva/o maw agva:ratrvd satio00,3 oluvi,iatirvit lairfta.rd KOoz1i .'ti :it paatalitatf Pipit S'IQ/OSi o1 '7ju loath* WW1 (OAS( /D1.ra/.vAT L Jo -Jl /Zf :parvda.fd alva. Subject: RE: Marshall pH From: "Lewis, Ronald E" <relewisl @duke-energy.com> Date: Fri, 14 Mar 2008 08:55:42 -0400 To: "Marcia Allocco" <marcia.allocco@ncmail.net>, "Michael Parker" <michael. parker@ncmaiil. nets Marcia and Mike, Thanks for your assistance. More detailed in -process monitoring of the ash basin by our environmental chemistry staff via a boat is scheduled today to further evaluate this event and modification of the curren in -process monitoring program. Thanks, Ron Duke Energy Mail Code: EC13K 526 S. Church Street Charlotte, NC 28202 Office 980-373-5710 Mobile 704-607-8755 From: Marcia Allocco[maiito:marcia.allocco@ncmaii.net] Sent: Friday, March 14, 2008 8:44 AM To: Michael Parker Cc: Lewis, Ronald E Subject: Re: Marshall pH Ron and Mike, 1 have no problem with using this as the 5-day report for compliance purposes. Regards, Marcia .Allocco Michael Parker wrote: Ron, eid routine I have forwarded your email to Marcia Allocco, who is our NPDES compliance coordinator. She can respond and let you know if this email will suffice for a 5-day follow-up. Mike Lewis, Ronald E wrote: As a follow-up to my phone message today, another compliance sample for pH was collected at outfall 002 today to verify treatment per the addition of caustic. The pH was 6.75 s.u. Please notify me if this will suffice for the five day follow-up report. Thanks, Ron 1 of 2 3/14/2008 8:57 AM eam Station NC0004987 pH compliance at Ou,.. Subject: [Fwd: Marshall Steam Station NC0004987 pH compliance at ©utfall 002] From: Michael Parker <michael.parker@ncmail.net> Date: Fri, 14 Mar 2008 07:01:06 -0400 To: Marcia Allocco <Marcia.Allocco@ncmail.net> FYI Michael Parker - (iohael . Parkercal.net. Environmental Engineer II� North Carolina Dept. of Environment & Natural Resources Division of Water Quality 610 East Center Avenue Suite 301 Mooresville, NC 28115 Ph: (704) 663-1699 Fax: (704) 663-6040 Subject: Marshall Steam Station NC0004987 pH compliance at Outfall 002 From: "Lewis, Ronald E" <relewis1@duke-energy.com> Date: Wed, 12 Mar 2008 17:36:07 -0400 To: <michael,parker@ncmaii.net> CC: "Burrell, Donna L" <dlburrell@duke-energy.com>, "McCabe, Patrick J" <pjmccabe@duke-energy.com>, "Mitchell, David F" <dfmitchell@duke-energy.com>, "Nispel, Debbie" <debbie.nispel@duke-energy.com> Mike, This is a follow-up notification to my phone message left at approximately 4:59 PM of a pH measurement of a 5.79 s.u. at Marshall's outfall 002 at 4:35 PM today. Caustic addition has been initiated to adjust the pH of the effluent to between 6.0 and 9.0 s.u, Routine in -process pH monitoring upstream and downstream of outfall 002 had indicated no concern for additional treatment. I will be at Marshall tomorrow and plan to follow-up with you by the end of the day. If you have further questions, I can be reached at my mobile phone number below or by email. Thanks for your assistance, Ron Duke Energy Mail Code: EC13K 526 S. Church Street Charlotte, NC 28202 Office 980-373-5710 Mobile 704-607-8755 Content -Type: Marshall Steam Station NC0004987 pH compliance at Outfall 002.em1 Content -Encoding: 1 of 1 3/14/2008 8:44 AM Subjects Fray Dat Fri To: ege CC: Marct Ran, rhll pH Nhl Parker <michaeLparke� 14 Mar - Ronald E" kreiewiel duke- n r y.c r ,lln<Marcia,Allocco,• nernail.net> have fors coordinate follow-up. e ncmati arded your email to idreie All0ccc She can respond and let you kno e is Rona ( w ate; our NPDES c mpl ance email gill suffice for As a folio' -.0 tc my phone message today another c e li.ance araPie for PH Boll eted-at outfall 592 today to verify' reatrceper the addition of caus The pH was 6.75 s.u. Please notify me if this gill suffice for the five day follow-up report. Thanks, Ron h ichasl Parker ?ichael .. Environmentl Engineer I1,. North Carolina eft, cifEnvl Division of Water Quality, 610 East Center Avenue' uite 01 t doreevill.e 1, snm nt Resource lax: (7 ) 5040 4/2008 Duke Energy. December 3, 2007 Mr. Mike Parker State of North Carolina Department of Environment and Natural Resources Division of Water Quality Mooresville Regional Office 610 East Center Avenue Mooresville, North Carolina 28115 Subject: Duke Energy Carolinas, LLC — Marshall Steam Station Revision of Active Ash Basin Boundary Dear Mr Parker: CORPORATE ENS SERVICES Duke Energy Ca,rporation 52 S Orr r Ch El I tti7 St, C h rit)1 C 28202 11,1niling AddreSs: C 1 3K PO Bax, Poe , te, NC 2820,101006 Per our telephone conversation, please reference the attached drawing for the proposed ash landfill ("Proposed Landfill Site #1") located within the current boundary of the active ash basin at Marshall Steam Station, Duke Energy is considering permitting a synthetically lined industrial landfill on this site Duke Energy requests that this 101 acre portion of the ash basin (Proposed Landfill Site #1") be officially removed from the active ash basin boundary This reduction in area will not compromise wastewater treatment within the active ash basin. If you have any concerns regarding this request, please contact me at (704) 382-4309, In the absence of any feedback from your office, we will assume that our proposed course of action is acceptable and will initiate the landfill permitting process with the N.C, Division of Waste Management, Thank you for your assistance on this matter. .Sincerely, Allen Stowe Water Management NC DENR MRO urtoce Water Protection W 41i.duk 6,P e n e fg y, Com 'Tk- Michael F. Easley, ovG emar 9Q William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Coleen Sullins, Director Division of Water Quality November 1, 2007 Ms. Donna Burrell. ORC Duke Power Marshall Steam Station 8320 E. NC 150 Hwy Terrell, North Carolina 28682 Subject: Compliance Evaluation Inspection Duke Power Marshall Steam Station NPDES Permit No. NC0004987 Catawba County, NC Dear Ms. Burrell: Enclosed is a copy of the Compliance Evaluation Inspection Report for the inspection conducted at the subject facility on October 30, 2007 by John Lesley and Donna Hood . Please inform the facility's Operator -in -Responsible Charge of our findings by forwarding a copy of the enclosed report. The report should be self-explanatory; however, should you have any questions concerning this report, please do not hesitate to contact Mr. Lesley, Ms. Hood, or me at 704-663-1699. Sincerely, Robert B. Krebs Division of Water Quality Surface Water Protection Regional Supervisor Enclosure cc: Central Files Catawba County Health Department. JL NorthCarolina Naturally Litt 1. NNCIJEN. N. C. Division of Water Quality, Mooresville Regional Office, 610 E. Center Ave. Suite 301, Mooresville NC 281I5 (704) 663-1699 Customer Service 1-877-623-6748 EPA Uni Envarananental Pra¢ect tin Agen Washington, D.C. 20460 Water Compliance Inspection Report ection A; National Data System Coding (Le., PCS) Form Approved_ OMB No. 2040-0057 Approval expires 8-31-98 Trra�nl!saction Cade 1 U 2 II5 2i1 1 1 1 I I l f NPDES NC0004987 yr/mo/day Remarks II ill Inspection Work Days Facility Self -Monitoring Evaluation Rating 2.0 j 69 70 a 711 inspection Type Inspector 181 i g II 1 .�1 1 QA______-----------__Res 72 to 1 731 1 174 751 1 Fac Type 20111 80 ion R; F Name and Location of Facility Inspected (For Industrial Users discharging to POTW, also include POTW name and NPDES permit Number) Marshall Steam Station N1 Hwy 150 Terrell NC 28882 Entry Time/Date ertnit Effective Date Exit Time/Date 07,/10/3 Permit Expiration Date, 10/04/30 Name(s) of On Representatives)/Titles(s)/Phone and Fax Number(s) / / / Donn Frxrr il/ RC "828 47 -7820/ )Name, Address of Responsible Official/Title/Phone and Fax Number Jimmie Allen Stowe,526 S Church St Charlotte NO 2020'1002i/704- Contact No Facility Data Section C: Areas Evaluated During inspection (Check only those areas evaluated Permit 1 Self -Monitoring Program Section ©: Flow Measurement Facility Site Review of Finding/Comments (A Operations & Maintenance $ Effluent/Receiving Waters h additional sheets of nar Records/Reports Laboratory ive and checklists as nec (See attachment summat Name(s) and Sign Donna Hood Inspector(s) ure of Management Q A rev EPA Form 3560-3 (Rev 9-94) Previous editions are obsolete. Agency/Office/Phone and Fax Numbers MR0 WQ/// MR0 'NQ//704-653-1E99 EN.t.270r Agency/Office/Phone and Fax Numbers NIRO xQ//704-235-2204/ Date Page # NPDES 31 NC0004987 111 121 yr/rnolday 07/10/30 r 17 Inspection Type 181A 1 Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) No violations were reported during the period September 2006 through August 2007. Page # 2 Permit: NC0004987 Owner - Facility; Marshall Steam Station Inspection Mateo' 10/30/2007 Inspection Type; Compliance Evaluation Permit No NA NE (If the present permit expires in 6 months or less). Has the permittee submitted a new application? n n E n ■ nnn n n u n Is access to the plant site restricted to the general public? ■ n n n Is the inspector granted access to all areas for inspection? ■ n n Comment:. Operations & I i t'nt+ nance Yes No NA NE Is the plant generally clean with acceptable housekeeping? ■ n n n Does the facility analyze process control parameters, for ex: MLSS, MCRT, Settleable Solids, pH, DO, Sludge • 0 0 .fudge, and other that are applicable? Comment:: Record Keeping Are records kept and maintained as required by the permit? Is all required information readily available, complete and current? Are all records maintained for 3 years (lab. reg. required 5 years)? Is the facility as described in the permit? # Are there any special conditions for the permit? analyses Yes No NA NE Are analytical results consistent with data reported on DMRs? EDDO ■ 0 n n ■ ■ ■ ■ ■ ■ n❑n Has the faculty submitted its annual compliance report to users and DWQ? 0 0 • 0 (If the facility is = or > 5 MGD permitted flow) Do they operate 2417 with a certified operator on each shift? DDED Is the ORC visitation long available and current? ■ n n n Is the ORC certified at grade equal to or higher than the facility classification? • n n n Is the backup operator certified at one grade less or greater than the facility classification? • 0 0 0 Is a copy of the current NPDES permit available on site? • n n n Is the chain -of -custody cornpiete? Dates,, times and location of sampling Name of ndividual performing the sampling Results of analysis and calibration Dates of analysis Name of person performo Transported COCs Are DMRs complete: do they include all permit parameters? Page # Permit: NC0004987 Owner - Facility: Marshall Steam Station Inspection Date: 10/30/2007 Inspection Type: Compliance Evaluation Record Keeping Yes No NA NE Facility has copy of previous year's Annual Report on file for review? ❑ ❑ ■ ❑ Comment: Effluent Pipe Yes No NA NE Is right of way to the outfall properly maintained? ■ ❑ ❑ ❑ Are the receiving water free of foam other than trace amounts and other debris? ■ ❑ 0 0 If effluent (diffuser pipes are required) are they operating properly? ❑ ❑ ■ ❑ Comment: Effluent Sampling Yes No NA NE Is composite sampling flow proportional? ❑ ❑ ■ ❑ Is sample collected below all treatment units? ■ ❑ ❑ ❑ Is proper volume collected? • ❑ ❑ ❑ Is the tubing clean? ❑ 0 ■ 0 Is proper temperature set for sample storage (kept at 1.0 to 4.4 degrees Celsius)? ■ ❑ ❑ ❑ Is the facility sampling performed as required.by the permit (frequency, sampling type representative)? ■ ❑ ❑ ❑ Comment: The facility staff conducts pH monitoring (Field Parameter Certification No. 5155). Samples are collected by Prism Labs for analyses at Duke Energy Environmental Lab. Prism Labs conducts IoW level mercury analysis. Environmental Testing Solutions conducts toxicity testing. Laboratory Yes No NA NE Are field parameters performed by certified personnel or laboratory? ■ ❑ ❑ ❑ Are all other parameters(excluding field parameters) performed by a certified lab? ■ ❑ ❑ ❑ # Is the facility using a contract lab? ■ 0 ❑ ❑ Is proper temperature set for sample storage (kept at 1.0 to 4.4 degrees Celsius)? 0 0 • 0 Incubator (Fecal Coliform) set to 44.5 degrees Celsius+/- 0.2 degrees? ❑ ❑ ■ ❑ Incubator (BOD) set to 20.0 degrees Celsius +/- 1.0 degrees? 0 0 • 0 Comment: See Effluent Sampling Comments Page # 4 Duke Energy Corporation 5:66 ShoEh Clhurch St. 006 August 24, 2©07 Marcia Allocco, Environmental Chemist NCDENRfDivision of Water Quality Surface Water Protection Section Mooresville Regional Office 610 East Center Avenue, Suite 301 Mooresville, NC 28115 Mark Pettit, Rescue/Hazmat Coordinator Catawba County 100-A SW Blvd P.O, Box 389 Newton, NC 28658-0389 Subject; "Brown Scum" Incident Near Marshall Steam Station - August 18, 2007 Ms. Allocco and Mr. Pettit: As discussed with Donna Burrell and Duane Harrell of Duke Energy's Corporate EHS Services department during your investigation near Marshall Steam Station last Saturday,. Duke is providing the attached discussion of the "brown scum" event and analytical results from the sample collected. We hope that this summary helps in your investigation and in the event there are future sightings in the coming weeks. If you have any questions or require further detail, please feel free to give me a call at (704) 382-7161 or Duane Harrell of our Environmental Laboratory at (704) 875-5453. Sincerely, Patrick J. McCab PE Manager - Environmental Field Support Duke Energy - Carolinas Generation During late summer and early fall, people on our lakes often observe patches of "brown scum" on the surface of the water. This is more common is coves and near shore, but windrows of "brown foamy scum" are also observed in main lake areas. The presence of this material is a normal event. As plants and animals go through their normal life cycles and die, they release cell contents, including microscopic oil droplets, and cell membranes. This material mixes with leaf litter, fungal spores, pollen, and very small soil particles to form the brown scum. The process may have been accelerated in certain areas of Lake Norman due to low water levels which expose expanses of shoreline. If some perturbation occurs, such as wave action or fluctuating water levels, fine sediments and organic matter may be washed into the lake. Apparently an event of this sort occurred on Saturday, 18 August. About 400- 500 mL of water was collected from the area and transported on ice to the Duke Energy Environmental Lab. A sub -sample was examined under the dissecting microscope (25X) and appeared to be mostly detrital material to include bits of leaf litter, small hollow stems, some pollen grains, and very fine sediment. Another sub - sample was examined under high power (500X) and contained high numbers of microscopic algae, but not sufficient to be called a bloom. Most of the algae were green algae and diatoms. Detritus, both inorganic and organic, was the most prevalent material by far. Most of the organic material looked like deteriorating plant matter and dead algae. The inorganic material was mostly fine sediment particles. Further analyses were conducted to determine chlorophyll and total and organic solids. The chlorophyll concentration was high (25.5 µg/L, or ppb), but well below the NC limit for outfalls and blooms of 40 lag/L. Total solids content was 8.98 mg/L, while organics constituted 2.83 mg/L. These analyses tend to confirm that the event was the result of existing localized conditions. No evidence of an oil or other spill was observed. March 27, 2007 Mr, Michael Parker Duke Enue8r7gy8tC808k8P8o 0r::ion 526 So mc 282 Chadotte, Mai Tkp., Addres . 108,180 P° Pm6 ' - NC 2820 North Carolina Department of Environment and Natural Resources Ivlooresville Regional Office 610 East Center Ave. Mooresville, North Carolina 28115 Subject: Marshall Steam Station Flue Gas Desulfurization Wastewater Treatment System Pilot Test Dear Mr, Parker: With reference to our recent conversation, this letter is to inform you that a pilot test is planned to begin in May 2007 at Marshall Steam Station (MSS). This test is expected to last for at least six months. The pilot test system is a scaled down model to simulate part of the wastewater treatment system (WWTS) that is being put in place at Belews Creek Steam Station and also Allen Steam Station, This WWIS's primary purpose is to treat for selenium. The pilot system will be receiving approximately 1 to 2 gpm of waste water from MSS's Flue Gas Desulfurization WWTS. This wastewater will then be sent through the pilot system. The treated water will then be returned to the on -site WWTS sump, This sump discharges to the front of the WWTS. The 1 to 2 gpm treated flow from the pilot system is very small in comparison to the expected flow of 538 gpm being treated by the full scale WWTS, There should be no adverse impacts to the MSS WWTS due to the operation of this pilot system, If you need additional please contact me at 704 382-4669lf you would like to see the pilot test in operation please let me know. Sineetely, Robert R. Wylie, Engineer Water Management Michael F. Easley, Gover& William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P.E. Director Division of Water Quality May 23, 2006 Mr. John Williamson Duke Energy Corporation 12700 Hagers Ferry Road Mail Code: MGO1EM Huntersville, North Carolina 28078 Subject: Compliance Evaluation Inspection Duke Power Marshall Steam Station NPDES Permit No. NC0004987 Catawba County, NC Dear Mr. Williamson: Enclosed is a copy of the Compliance Evaluation Inspection Report for the inspection conducted at the subject facility on May 19, 2006 by John Lesley of this Office. Toxicity test results will be forwarded under separate cover when available. Facility operation is commendable. Please inform the facility's Operator -in -Responsible Charge of our findings by forwarding a copy of the enclosed report. The report should be self-explanatory; however, should you have any questions concerning this report, please do not hesitate to contact Mr. Lesley or me at 704-663-1699. Enclosure Sincerely, Ce-Fri -17 D, Rex Gleason, P.E. / Surface Water Protection Regional Supervisor cc: Central Files Catawba County Health Department jl �� o�ttra NENR Naturally Mooresville Regional Office Division of Water Quality Phone 704-663-1699 Customer Service Internet: www.ncwaterqualitv,org 610 East Center Ave, Suite 301 Mooresville, NC 28115 Fax 704-663-6040 1-877-623-6748 An Equal Opportunity/Affirmative Action Employer — 50% Recycled/10% Post Consumer Paper EPA Transaction Code U 251 211w111111 Inspection Work Days United States Environmental Protection Agency Washington, D.C. 20460 er Compliance Inspection Report Section A: National Data System Coding (Le., PCS) NPDES Form Approved, OMB No. 2040-0057 Approval expires 8-31-98 yr/mo/day Inspection Type Inspector Fac Type NC0004987 111 121 06/08/10 117 18u 1911.1 20u Remarks 1 1 1 1 1 I IJ 11 I I_ I I 1 1 Facility Self -Monitoring Evaluation Rating E1 67 2.0. .. 1! 69 70W 711 DI Section B: Facility Data --------------------------R ese rued------- 74 751 1 1 1 1 1. Name and Location of Facility Inspected (For Industrial Users discharging to POTW, also include POTW name and NPDES permit Number) Marshall Steam Station NC Hwy 1.50 Terrell NC 29682 Entry Time/Date 06/05/1 Permit Effective Date 05/©6/01 Exit Time/Date :20 AM 06 /05/ 19 Permit Expiration Date 1©/04/30 Name(s) of Onsite R p esentative(s)/Titles(s)/Phone and Fax Number(s) Donna Lee Burrell/QRC/829-478-7820/ Name, Address of Responsible Official/Title/Phone and Fax Number J Allen Stowe,Mail Code Ed13k - Duke Ener Contacted 282011006//704-382-4.309/ 91 Corporation Charlckte N No Other Facility Data In Permit. Facility Site Review Section C: Areas Evaluated During Inspection (Check only those are Operations & Maintenance • Records/Reports Laboratory ion D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as nece u • Effluent/Receiving Waters (See attachment summary) Name(s) and Signature John E Lesley Inspectors) Self -Monitoring Program Agency/0 fice/Phone and Fax Numbers MRQ WQ//704-663-1699 Ext.270/ Date Signature of Management Q A Reviewer Agency/Office/Phone and Fax Numbers Date EPA Form 3560-3 (Rev 9-94) Previous editions are obsolete. Page # lirr NPDES 3( N00004987 (11 .12( yr/mo/day 06/05/19 17 Inspection Type 18U 1 Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) Monthly monitoring reports were reviewed for the period of April 2005 through March 2006. No violations were reported in the review period. Page # 2 Permit: NC0004987 Owner - Facility: Marshall Steam Station Inspection Date: 05/19/2006 Inspection Type: Compliance Evaluation Is access to the plant site restricted to the general public? Is the inspector granted access to all areas for inspection? Comment: Cutfall 004 - Wetlands Treatment System is under construction. The outfall is currently inactive. Record Keeping Are records kept and maintained as required by the permit? ■ 0 0 0 Is all required information readily available, complete and current? ■ 0 0 0 Are all records maintained for 3 years (lab, reg. required 5 years)? ■ 0 0 0 Are analytical results consistent with data reported on DMRs? •000 Is the chain -of -custody complete? ■ 0 0 0 Dates, times and location of sampling ■ Name of individual performing the sampling ■ Results of analysis and calibration ■ Dates of analysis ■ Name of person performing analyses ■ Transported COCs ■ Are DMRs complete: do they include ail permit parameters? • 0 Has the facility submitted its annual compliance report to users and MAX)? 0 0 • 0 (If the facility is = or > 5 MGD permitted flow) Do they operate 24/7 with a certified operator on each shift? 00.0 Is the ORC visitation log available and current? ■ 0I 0 0 Is the ORC certified at grade equal to or higher than the facility classification? • 000 Is the backup operator certified at one grade less or greater than the facility classification? 51000 Operations & Maintenance Yes No NA NE Is the plant generally clean with acceptable housekeeping? • 0 0 0 Does the facility analyze process control parameters, for ex: MLSS, MCRT, Settleable Solids„ pH, DO, Sludge C1 0 ■ 0 Judge, and other that are applicable? Comment: The facility operation and maintenance is most commendable. Permit Yes No NA NE (If the present permit expires in 6 months or less). Has the permittee submitted a new application? 00110 Is the facility as described in the permit? • 000 # Are there any special conditions for the pen -nit? O ■ O Q D 0 ■ 0 ■ 0 Q 0 Yes Ne NA Ng. Page # 1 Permit: NC0004987 Owner - Facility: Marshall Steam Station Inspection Date: 05/19/2006 inspection Type: Compliance Evaluation Record Keeping Yes No NA NE Is a copy of the current NPDES permit available on site? • ❑ 0 0 Facility has copy of previous year's Annual Report on file for review? 0 0 • 0 Comment: Effluent Pipe Yes No NA NE Is right of way to the outfail properly maintained? ■ DDO Are the receiving water free of foam other than trace amounts and other debris? ■ ❑ ❑ ❑ If effluent (diffuser pipes are required) are they operating properly? 0 ❑ • 0 Comment: Laboratory Yes No NA NE Are field parameters performed by certified personnel or laboratory? • ■ ❑ ❑ ❑ Are all other parameters(excluding field parameters) performed by a certified lab? ■ ❑ ❑ ❑ # Is the facility using a contract lab? ■ ODD Is proper temperature set for sample storage (kept at 1.0 to 4.4 degrees Celsius)? ■ ❑ ❑ ❑ Incubator (Fecal Coliform) set to 44.5 degrees Celsius+/- 0.2 degrees? ❑ 0 ■ 0 Incubator (BOD) set to 20.0 degrees Celsius +/- 1.0 degrees? 0 0 • 0 Comment: Samples are collected and stored on ice. The facility holds Laboratory Field Parameter Certification No. 5155 for pH. Environemental Testing performs Toxicity Testing. The Duke Energy Environmental Lab conducts (or subcontracts to Pace Labs or Prism Labs) all other analyses. Effluent Sampling Yes No NA NE Is composite sampling flow proportional? 0 0 • 0 is sample collected below all treatment units? ■ ❑ ❑ ❑ Is proper volume collected? • DOO Is the tubing clean? 0 0 ■ 0 Is proper temperature set for sample storage (kept at 1.0 to 4.4 degrees Celsius)? 0 0 • 0 Is the facility sampling performed as required by the permit (frequency, sampling type representative)? NOD ❑ Comment: All samples are grab samples, collected and shipped on ice. Page # 4 Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P.E. Director Division of Water Quality December 15, 2006 oi- ENVIP Rrare a. AND NAT! R r.L P.703 URGE$ 5155 MooRErV-, t - • ,: Mr. David Greene r Duke Power Company LLC d/b/a Duke Energy Carolinas, LLC - Marshall MGO3A2 Hagers Ferry Rd. DEC 1 9 200t Huntersville, NC 28078- SUBJECT: Wastewater/Groundwater Laboratory Certification Renewal Mr + f"'"' Field Parameters Only°` - Dear Mr. Greene: The Department of Environment and Natural Resources, in accordance with the provisions of NC GS 143-215-.3 (a) (10), 15 NCAC 2H .0800, is pleased to renew certification for your laboratory to perform specified environmental analyses required by EMC monitoring and reporting regulations 15 NCAC 2B .0500, 2H .0900 and 2L .0100, .0200, .0300, and 2N .0100 through .0800. Enclosed for your use is a certificate describing the requirements and limits of your certification. Please review this certificate to insure that your laboratory is certified for all parameters required to properly meet your certification needs. Please contact us at 919-733-3908 if you have questions or need additional information. Sincerely, /474- Pat Donnelly - Branch Manager Enclosure cc: Chet Whiting Mooresville Regional Office Nor hCarolina ?afllral`lji Laboratory Section 1623 Mail Service Center Raleigh, NC 27699-1623 Internet: www.dwglah.org Location: 4405 Reedy Creek Road Raleigh, NC 27607 Phone (919) 733-3908 Customer Service Fax (9 t 9) 733.6241 1-877-623-6748 An Equal OpportunityIAffirmalive Action Employer — 50% Recycled/10% Post Consumer Paper STATE OF NORTH CAROLINA DEPARTMENT OF THE ENVIRONMENT AND NATURAL RESOURCES DIVISION OF WATER QUALITY LABORATORY CERTIFICATION PROGRAM In accordance with the provisions of N.C.G.S. 143-215.3 (a) (1), 143-215.3 (a)(10) and NCAC 2H.0800: Field Parameter Only 5lAT C DUKE POWER COMPANY LLC D/B/A DUKE ENERGY CAROLINAS, LLC - MARSHALL Is hereby certified to perform environmental analysis as listed on Attachment 1 and report monitoring data to DWQ for compliance with NPDES effluent, surface water, groundwater, and pretreatment regulations. By reference 15A NCAC 2H .0800 is made a part of this certificate. This certificate does not guarantee validity of data generated, but indicates the methodology, equipment, quality control procedures, records, and proficiency of the laboratory have been examined and found to be acceptable. This certificate shall be valid until December 31, 2007 Certificate No. 5155 Attachment North Carolina WastewaterlGroundwater Laboratory Certification Certified Parameters Listing FIELD PARAMETERS ONLY _ab Name: Duke Power Company LLC dlb/a Duke Energy kddress: MGO3A2 Hagers Ferry Rd. Huntersville, NC 28078- Certificate Number. 5155 Effective Date: 01/01/2007 Expiration Date: 12/31/2007 Date of Last Amendment: the above named laboratory, having duly met the requirements of 15A NCAC 2H.0800, is hereby certified for the measurement of the parameters listed below. CERTIFIED PARAMETERS INORGANICS Sid Method 4500 H B TEMPERATURE Std Method 2550B This certification requires maintance of an acceptable quality assurance program, use of approved methodology, and satisfactory performance on evaluation samples. Laboratories are subject to civil penalties and/or decertification for infractions as set forth in 15A NCAC 2H.0807. Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources December 15, 2006 5157 Mr. David Greene Duke Power Company LLC d/b/a Duke Energy Carolinas - Riverbend MGO3A2 Hagers Ferry Rd. Huntersville, NC 28078- SUBJECT: Wastewater/Groundwater Laboratory Certification Renewal Field Parameters Only Dear Mr. Greene: Alan W. Klimek, P.E. Director Division of Water Quality DEC , `J The Department of Environment and Natural Resources, in accordance with the provisions of NC GS 143-215-.3 (a) (10), 15 NCAC 2H .0800, is pleased to renew certification for your laboratory to perform specified environmental analyses required by EMC monitoring and reporting regulations 15 NCAC 2B .0500, 2H .0900 and 2L .0100, .0200, .0300, and 2N .0100 through .0800. Enclosed for your use is a certificate describing the requirements and limits of your certification. Please review this certificate to insure that your laboratory is certified for all parameters required to properly meet your certification needs. Please contact - us at 919-733-3908 if you have questions or need additional information. Sincerely, - 75:# Pat Donnelly Branch Manager Enclosure cc: Chet Whiting Mooresville Regional Office Na �hCarolina Laboratory Section Internet: www.dwolah.org Location: 4405 Reedy Creek Road Raleigh, NC 27607 1623 Mail Service Center Raleigh, NC 27699-1623 Phone (919) 733-3908 Customer Service Fax (919) 733-6241 1-877-623-6748 An Equal Opportunity/Affirmative Action Employer — 50% Recycled/10% Post Consumer Paper STATE OF NORTH CAROLINA DEPARTMENT OF THE ENVIRONMENT AND NATURAL RESOURCES DIVISION OF WATER QUALITY LABORATORY CERTIFICATION PROGRAM In accordance with the provisions of N.C.G.S. 143-215.3 (a) (1), 143-215.3 (a)(10) and NCAC 2H.0800: Field Parameter Only DUKE POWER COMPANY LLC D/B/A DUKE ENERGY CAROLINAS - RIVERBEND Certificate No. 5157 Is hereby certified to perform environmental analysis as listed on Attachment I and report monitoring data to DWQ for compliance with NPDES effluent, surface water, groundwater, and pretreatment regulations. By reference 15A NCAC 2H .0800 is made a part of this certificate. This certificate does not guarantee validity of data generated, but indicates the methodology, equipment, quality control procedures, records, and proficiency of the laboratory have been examined and found to be acceptable. This certificate shall be valid until December 31, 2007 Pat Donnelly Attachment North Carolina WastewaterlGroundwater Laboratory Certification Certified Parameters Listing FIELD PARAMETERS ONLY _ab Name: Duke Power Company LLC d/bla Duke Energy \ddress: MGO3A2 Hagers Ferry Rd. Huntersville, NC 28078- Certificate Number: 5157 Effective Date: 01/01/2007 Expiration Date: 12/31/2007 Date of Last Amendment: the above named laboratory, having duly met the requirements of 15A NCAC 2H.0800, is hereby certified for the measurement of the parameters listed below. CERTIFIED PARAMETERS NORGANICS )H Std Method 4500 H B TEMPERATURE Std Method 2550B This certification requires maintance of an acceptable quality assurance program, use of approved methodology, and satisfactory performance on evaluation samples. Laboratories are subject to civil penalties andlor decertification for infractions as set forth in 15A NCAC 2H.0807. �plipPr- pF 1ATFRQ Michael F. Easley, Governor ,0 G William G. Ross Jr., Secretary '� r North Carolina Department of Environment and Natural Resources °' �,� - Alan W. Klimek, P.E. Director Division of Water Quality DIVISION OF WATER QUALITY August 11, 2006 Mr. Miles Pollack, Project Director Duke Energy Corporation P.O. Box 425 Terrell, North Carolina 28682 Subject: NPDES General Permit No. NCG010000 Marshall Stearn Station On -Site Project Catawba County Dear Mr. Pollack: Recently you were sent a letter from the Division of Land Resources (DLR) indicating that the Sedimentation and Erosion Control Plan for the subject development had been approved. Accompanying the DLR letter was NPDES General Stormwater Permit No. NCG010000, which authorizes you to discharge stormwater to the surface waters of North Carolina from point source discharges associated with construction activities including clearing, grading, and other land disturbing activities. The purpose of this letter is to advise you of the importance of the General Permit and the liabilities in the event of failure to comply with the terms and conditions of the Permit. If you have not already done so, it is suggested that you thoroughly read the permit. Of particular importance are Parts I and II of the permit. Parts I and II set forth the minimum visual monitoring and reporting requirements for your s(ormwater discharge. In particular, Part I, Section B describes the visual monitoring frequencies and locations, the requirement to maintain a rain gauge onsite, and the need to maintain a written record of all inspections. Upon commencement of your land disturbing activity, you must initiate the visual monitoring and record keeping requirements in this permit. The visual monitoring data results must be maintained on -site and made available to a DWQ representative upon request. The retraining parts of the Permit set forth definitions, general conditions and special conditions applicable to the stormwater discharge(s). The conditions include special reporting requirements in the event of noncompliance, bypasses, treatment unit/process failures, etc. ©TA 1 N% `hCarolina NCDENR aturally Mooresville Regional Office Division of Water Quality Phone 704-663-1699 Customer Service Internet: vvrrtiv.ncwaterquality.org 610 East Center Ave, Suite 301 Mooresville, NC 28115 Fax 704-663-6040 1-877-623-6748 An Equal Opportunity/Affirmative Action Employer-50% Recycled/10% Post Consumer Paper Failure to comply with the terms and conditions of an NPDES permit may subject the permittee to enforcement action pursuant to Section 143-215.6 of the North Carolina General Statutes. A civil penalty of up to $25,000 per violation (and/or criminal penalties) may be assessed for such violations. If you find at any time that you are unable to comply with the terms and conditions of the Permit, you should contact this Office immediately. As mentioned previously, the purpose of this letter is to advise you of the importance of your N P DES General Stormwater Permit. Please read the permit and contact this Office at 704/663-1699 in Mooresville if you have any questions or need clarification. We look forward to providing any assistance. Sincerely, e (1,2 D. Rex Gleason, P.E. Surface Water Protection Regional Supervisor A:\SWNPDESLTR.doc North Carolina Department of Environment and Natural Resources Division of Land Resources James D. Simons, PG, PE Land Quality Section Michael F. Easley, Governor Director and State Geologist William G. Ross Jr., Secretary August 9, 2006 LETTER OF APPROVAL WITH MODIFICATIONS Mr. Miles S. Pollack, Project Director Duke Energy Corporation Post Office Box 425 Terrell, North Carolina 28682 RE: Project Name: Marshall Steam Station On -Site Road Project Acres Approved: 7 Project ID: CATAW-2007-002 County: Catawba, 8320 East Highway 150 River Basin: Catawba Submitted By: Duke Energy Corporation Date Received by LQS: August 8, 2006 Plan Type: New Dear Mr. Pollack: This office has reviewed the subject erosion and sedimentation control plan. We find the plan to be acceptable with modifications and hereby issue this Ietter of Approval With Modifications. The Modifications Required for Approval are listed on the attached page. This plan approval shall expire three (3) years following the date of approval, if no Iand-disturbing activity has been undertaken, as is required by Title 15A NCAC 4B .0129. Please be advised that Title 15A NCAC 4B .0118(a) requires that a copy of the approved erosion control plan be on file at the job site. Also, you should consider this letter to give the Notice required by G.S. 113A-61.1(a) of our right of periodic inspection to insure compliance with the approved plan. North Carolina's Sedimentation Pollution Control Program is performance -oriented, requiring protection of existing natural resources and adjoining properties. If, following the commencement of this project, it is determined that the erosion and sedimentation control plan is inadequate to meet the requirements of the Sedimentation Pollution Control Act of 1973 (North Mooresvi!ie Regional Office 610 East Center Avenue, Suite 301, Mooresville; North Carolina 28115 • Phone: 704-663-1699 ;FAX: 704-663-6040 Letter of Approval with Modifications Duke Energy Corporation August 9, 2006 Page 2 of 3 Carolina General Statute 113A-51 through 66), this office may require revisions to the plan and implementation of the revisions to insure compliance with the Act. Acceptance and approval of this plan is conditioned upon your compliance with Federal and State water quality laws, regulations, and rules. In addition, local city or county ordinances or rules may also apply to this land -disturbing activity. This approval does not supersede any other permit or approval. Please be aware that your project will be covered by the enclosed NPDES General Stormwater Permit NCGO 1000 (Construction Activities). You should first become familiar with all of the requirements for compliance with the enclosed general permit. Please note that this approval is based in part on the accuracy of the information provided in the Financial Responsibility Form, which you have provided. You are requested to file an amended form if there is any change in the information included on the form. In addition, it would be helpful if you notify this office of the proposed starting date for this project. Please notify us if you plan to have a preconstruction conference. Your cooperation is appreciated. ZSK/ae Enclosures: Sincerely, (L Zahid S. Khan Regional Engineer Land Quality Section Certificate of Approval Modifications Required for Approval NPDES Permit cc: HDR Engineering, Inc. of the Carolinas .Inspection Department Surface Water Protection er of Approval with Modifications Duke Energy Corporation August 9, 2006 Page 3 of 3 MODIFICATIONS REQUIRED FOR APPROVAL Project Name: Marshall Steam Station On -Site Road Project Project ID: CATAW-2007-002 County: Catawba 1. Please provide a copy of most current deed for this site. 2. Temporary linings must be provided in each vegetative channel or ditchline with excessive velocity (> 2 FPS) to ensure seed germination and permanent stabilization. Please indicate the type of lining proposed for each ditchline or channel. d74 NCDENR Michael F. Easley Governor William G. Ross, Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P-E,, Director Division of Water Quality \l\e OFFICE April 8, 2006 APR 0 7 200 Mr. Ron Lewis Senior Scientist, Environmental Support Duke Power EC 13K/ P.C. Box 1006 Charlotte, North Carolina 28201 Subject: Proposal for Information Collection/ Phase II 316 (b) Rule NC0004987 Marshall Steam Station. Dear Mr. Lewis:. The Division of Water Quality has reviewed the Proposal for Information Collection submitted by Duke Power on. March 2, 2006. The Division concurs with findings and recornmendations outlined in the Proposal for Information Collection. If you have any questions concerning this issue, please contact Sergei Chernikov at telephone number (919) 733-5083, extension 594. Sincerely, cc. Central Files. NPDES Permit File EPA, Region IV, Karrie-Jo Shell nfnf cirteo ection, Biological Assessment Unit, Bryn Tracy N. C. Division of Water Quality 1 NPDES Unit 1617 Mail Service Center, Raleigh, NC 27699-1617 Internet: h2o.enr.state.nc.us Phone: (919) 733-5083 fax: (919) 733-0719 DENR Customer Service Center: 1 62 7748 Duke rev Powers October 26, 2005 Ms. Coleen Sullins Permits and Engineering Unit North Carolina Department of Environmental, Health and Natural Resources Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 SUBJECT: Delegation of Authority - Requested Information Duke Energy NPDES Permitted Stations Notification of Mail Code Address Change Dear Ms. Sullins: WILLIAM F. HALL, ll1 Group Vice President Fossil -Hydro Generation Duke Power EC11 P 1 526 South Church Street Charlotte, NC 28202-1802 704 392 3940 704 382 9840 fax wfhal12@duke-energy. cam OCT 3 12005 i §i, DEPT. OF ENVIRONMENT AND NATURAL RE O W' CEE MOORESVI LE r Eb1ONAL OFFICE Duke Power requests the State's databases be revised to reflect that all correspondence and requested information related to the permits specified in the attached list be addressed to Mr. J. Allen Stowe — Mail Code EC13K, Duke Energy Corporation, P.O. Box 1006, Charlotte, NC 28201- 1006. This will prevent any delays of correspondence associated with NPDES permits. If you have questions or need additional information, please contact Mr. Stowe at 704-382-4309. Sincerely, Bill Hall GVP Fossil/Hydro Generation Duke Power Attachment cc: Rex Gleason, NCDENR, Mooresville, NC David Goodrich, NCDENR, Raleigh, NC Steve Mauney, NCDENR, Winston-Salem, NC Forest Westall, NCDENR, Asheville, NC www.dukepower.com Permits Currently Held: Allen Steam Station - NC0004979 Belews Creek Steam Station - NC0024406 Belews Creek Steam Station - WQ0005873 Belews Creek Steam Station Flyash Landfill Permit #85-03 Buck Steam Station - NC0004774 Cliffside Steam Station - NC0005088 Dan River Steam Station - NC0003468 Lincoln Combustion Turbine Station - NC0080781 Marshall Stearn Station - NC0004987 Marshall Steam Station Flyash Landfill Permit #18-04 Riverbend Steam Station - NC0004961 Bridgewater Hydro Station - NCG500102 Cowans Ford Hydro Station - NCG500139 Lookout Shoals Hydro Station - NCG500120 Mountain Island Hydro Station - NCG500131 Oxford Hydro Station - NCG500119 Rhodhiss Hydro Station - NCG500108 Tuxedo Hydro Station - NCG500110 Bear Creek Hydro Station — NCG500124 Bryson Hydro Station — NCG500129 Cedar Cliff Hydro Station — NCG500125 Mission Hydro Station — NCG500128 Nantahala Hydro Station — NCG500136 Tennessee Creek Hydro Station — NCG500123 Thorpe Hydro Station — NCG500127 Tuckaseegee Hydro Station — NCG500126 • AO& NCDENR North Carolina Department of Environment and Natural Resources Division'of Water Quality Michael F. Easley, Governor CERTIFIED MAIL RETURN RECEIPT REQUESTED Mr. Michael A. Ruhe, Manager Environmental Support Duke Energy Corporation P.O. Box 1006 (EC 11 E) Charlotte, NC 28201-1006 Subject:. Dear Mr. Ruhe: February 22, 2005 William G. Ross, Jr., Secretary Alan W. Klimek, P.E., Director Notice of Violation - Effluent Limitations Tracking #: NOV-2005-LV-0106 Marshall Steam Station NPDES Permit No. NC0004987 Catawba County A review of the December 2004 self -monitoring report for the subject facility revealed a violation of the following parameter: Pipe 002 Parameter Total Iron Reported Value Limit 1.704 mg/L 1.0 mg/L FIN Remedial actions, if not already implemented, should be taken to correct any problems. The Division of Water Quality may pursue enforcement actions for these and any additional violations. If the violations are of a continuing nature, not related to operation and/or maintenance problems, and you anticipate remedial construction activities, then you may wish to consider applying for a Special Order by Consent. You may contact Richard Bridgeman of this Office for additional information. If you have questions concerning this matter, please do not hesitate to contact Mr. Bridgeman or me at 704/663-1699. Sincerely, D. Rex Gleason, P.E. Surface Water Protection Regional Supervisor cc: Point Source Branch RMB Mooresville Regional Office 610 East Center Avenue, Suite 301, Mooresville, North Carolina 28115 Phone: 704-663-1699 l Fax: 704-663-6040 / Internet: h2o.enr.state.nc.us An Equal Opportunity/Affirmative Action Employer — 50% Recycled/10% Post Consumer Paper NorthCarohna� Naturally December 15, 2004 5155 Ms. Penny Franklin Duke Energy Marshall Steam Station MGO3A2 Hagers Ferry Rd. Huntersville, NC 28078- Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources SUBJECT: Wastewater/Groundwater Laboratory Certification Renewal FIELD PARAMETERS ONLY Dear Ms. Franklin: Alan W. Klimek, P.E. Director Division of Water Quality Nt; r;E?T. OP ENVIRONIMIEir'T P:ND P$Vg '- OURCES P .O - '.L OFFICE DEC 1 6 2004 WATL G.;1,1 1 Y SECTION The Department of Environment and Natural Resources, in accordance with the provisions of NC GS 143-215- .3 (a) (10), 15 NCAC 2H .0800, is pleased to renew certification for your laboratory to perform specified environmental analyses required by EMC monitoring and reporting regulations 15 NCAC 2B .0500, 2H .0900 and 2L .0100, .0200, .0300, and 2N .0100 through .0800. Enclosed for your use is a certificate describing the requirements and limits of your certification. Please review this certificate to insure that your laboratory is certified for all parameters required to properly meet your certification needs. Please contact us at 919-733-3908 if you have questions or need additional information. Sincerely, l James W. Meyer fe4- Laboratory Section Enclosure cc: Chet Whiting Mooresville Regional Office Laboratory Section 1623 Mail Service Center; Raleigh, NC 27699-1623 4405 Reedy Creek Road; Raleigh, NC 27607 Phone (919) 733-3908 / FAX (919) 733-6241 / Internet: www.dwglab.org No `hCarolina Vatura!!i An Equal Opportunity/Affirmative Action Employer-- 50% Recycled/10% Post Consumer Paper Certificate No. 5155 STATE OF NORTH CAROLINA DEPARTMENT OF THE ENVIRONMENT AND NATURAL RESOURCES DIVISION OF WATER QUALITY LABORATORY CERTIFICATION PROGRAM In accordance with the provisions of N.C.G.S. 143-215.3 (a) (1), 143-215.3 (a)(10) and NCAC 2H.0800: Field Parameter Only DUKE ENERGY MARSHALL STEAM STATION Is hereby certified to perform environmental analysis as listed on Attachment I and report monitoring data to DWQ for compliance with NPDES effluent surface water, groundwater, and pretreatment regulations. By reference 15A NCAC 2H .0800 is made a part of this certificate. This certificate does not guarantee validity of data generated, but indicates the methodology, equipment, quality control procedures, records, and proficiency of the laboratory have been examined and found to be acceptable. This certificate shall be valid until December 31, 2005 gdyba James W Meyer ' i Attachment North Carolina Wastewater/Groundwater Laboratory Certification Certified Parameters Listing FIELD PARAMETERS ONLY aab Name: Duke Energy Marshall Stearn Station Address: MGO3A2 Hagers Ferry Rd. Huntersville, NC 28078- Certificate Number: 5155 Effective Date: 01/01/2005 Expiration Date: 12/31/2005 Date of Last Amendment: The above named laboratory, having duty met the requirements of 15A NCAG 2H,0800, is hereby certified for the measurement of the parameters listed below. CERTIFIED PARAMETERS INORGANICS pH Std Method 4500 H B TEMPERATURE Std Method 2550B This certification requires maintance of an acceptable quality assurance program, use of approved methodology, and satisfactory performance on evaluation samples. Laboratories are subject to civil penalties and/or decertification for infractions as set forth in 15A NCAC 2H.0807. ASSESSMENT OF BALANCED AND INDIGENOUS POPULATIONS IN LAKE NORMAN NEAR MARSHALL STEAM STATION DUKE POWER A DUKE ENERGY COMPANY 1 _ October 2004 TABLE OF CONTENTS CHAPTER TITLE PAGE EXECUTIVE SUMMARY i LIST OF TABLES iii LIST OF FIGURES v 1 INTRODUCTION 1-1 2 STATION OPERATION 2-1 3 MACROINVERTEBRATES 3-1 4 FISH 4-1 EXECUTIVE SUMMARY • Per agreement with the North Carolina Department of Environment, and Natural Resources (NCDENR), annual physicochemical monitoring, and assessments of macroinvertebrate and fish populations at selected locations in Lake Norman continues. This report presents data collected from 1999 through 2003. Results of data analyses completed since submittal of the previous report in 1999 are reported and support renewal of the existing permitted thermal limits for Marshall Steam Station (MSS). • MSS operated continuously from 1999 through 2003, and station operation during this period was similar to previous years. MSS operated at an average capacity of 77% over the five-year period. Monthly average discharge water temperatures at MSS were in compliance with NPDES permitted thermal limits of 93.9 °F (34.4 °C) July 1 through October 31, and 91.9 °F (33.3 °C) the rest of each year, over this five- year period. • The macroinvertebrate data exhibit substantial variability; however, the variability is consistent with that observed for historical data. The data for the current study exhibit the same general density and taxa diversity trends noted during the previous study period. Current study results indicate that the macroinvertebrate densities and taxa diversity observed during 1999 — 2003 at locations uplake, downlake and in the vicinity of MSS are indicative of balanced and indigenous macroinvertebrate communities in these locations. • A diverse fish community was present in the littoral portions of Lake Norman around MSS. The fish community encompasses a range of trophic groups including planktivores, insectivores, omnivores, and piscivores. • The MSS discharge area of Lake Norman typically yielded more fish than adjacent regions of Lake Norman. The higher fish abundance in the MSS discharge during summer is likely due to generally higher nutrient concentrations at uplake locations and several other specific factors, including water temperatures close to ambient temperatures, flowing water, and rip -rapped shoreline, as opposed to the bare clay bank shorelines of other locations. i • Fish health assessment scores on Lake Norman indicate that largemouth bass and their local aquatic environment are not experiencing atypical levels of stress. • Lake Norman forage fish populations have been dynamic during the past few years. The introduction of alewife and most recently, blueback herring Alosa aestivalis has resulted in some alterations in the forage community. Despite the change in the species composition of the forage community and the inherent variability of clupeid populations over time, population estimates have been fairly stable. Forage fish densities in Lake Norman are similar to those noted in other Catawba River reservoirs of similar trophic status. • Based on the diversity and biomass of the Lake Norman littoral fish community, the abundance of fish in the MSS discharge canal, the good health of largemouth bass throughout Lake Norman and specifically in the MSS discharge canal, and the abundance of forage fish available to limnetic predators, it is concluded that the thermal regimes resulting from the operation of MSS have supported the protection and propagation of a balanced and indigenous fish community in Lake Norman. • Comparison of MSS operation and environmental monitoring data indicate that balanced and indigenous populations continue to exist in Lake Norman in the vicinity of MSS. This supports a conclusion that the present thermal limits should be maintained when the Station NPDES permit is renewed. ii LIST OF TABLES TABLE # TITLE PAGE 1-1 Description of Lake Norman sampling locations in the vicinity of 1-2 Marshall Steam Station (MSS), Catawba County, NC. 2-1 Marshall Steam Station CCW flow rate for each unit for 1-, 2-, 2-5 and 3-pump operation. 3-1 Densities (per square meter) of macroinvertebrates collected 3-4 annually from Location A (uplake of MSS) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 — 1998, but were absent during 1999 — 2003. 3-2 Densities (per square meter) of macroinvertebrates collected 3-7 annually from Location B (near MSS discharge) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 — 1998, but were absent during 1999 — 2003. 3-3 Densities (per square meter) of macroinvertebrates collected 3-10 annually from Location D (mid -lake near MSS) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 — 1998, but were absent during 1999 — 2003. 3-4 Densities (per square meter) of macroinvertebrates collected 3-13 annually from Location E (downlake from MSS) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 — 1998, but were absent during 1999 — 2003. 3-5 General descriptions of the substrate found at Locations A, B, D, 3-16 and E in the vicinity of MSS during July of 1999 through 2003. Substrates are listed with the most prevalent type first. Organic matter (om) is typically composed of small sticks, leaf and/or grass fragments, etc. 4-1 Summer electrofishing catches, number of species, dissolved 4-9 oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 18, 2000. iii LIST OF TABLES (continued) TABLE # TITLE PAGE 4-2 Summer electrofishing catches, number of species, dissolved 4-10 oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 17, 2001. 4-3 Summer electrofishing catches, number of species, dissolved 4-11 oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 11, 2002. 4-4 Summer electrofishing catches, number of species, dissolved 4-12 oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 15, 2003. 4-5 Fish numbers, biomass, and numbers of fish species collected 4-13 during spring electrofishing of ten 984 ft (300 m) shoreline transects near MSS and a reference location midway between MSS and MNS in Lake Norman, 1993 —1997 and 1999 — 2003. 4-6 Species composition and number of individuals collected during 4-14 spring electrofishing of ten 984 ft shoreline transects in the vicinity of the MSS discharge and a reference location midway between MSS and MNS, 1993 — 1997 and 1999, and 2000 -- 2003. 4-7 Fish health assessment scores for largemouth bass at four Lake 4-15 Norman locations, 1993 through 2003. 4-8 Number collected, species composition, and modal length class of 4-16 forage fish collected from three purse seine samples taken in Lake Norman during late summer - early fall, 1993 — 2003. 4-9 Hydroacoustic estimates of forage fish densities and population 4-17 sizes in each of six Lake Norman zones. iv LIST OF FIGURES FIGURE # TITLE PAGE 1-1 Sampling locations on Lake Norman. 1-3 2-1 The daily and monthly average water temperature (°F) of the 2-6 condenser cooling water discharged from Marshall Steam Station and percent capacity from January 1, 1999 through December 31, 2003. 3-1 Mean density (with ranges within sample location replicates) of 3-17 macroinvertebrates collected annually from Lake Norman near MSS from 1993 — 2003. 3-2 Total number of taxa collected annually from Lake Norman 3-18 near MSS from 1996 — 2003. (Oligochaeta were not identified to species prior to 2000, which increased total taxa abundance during 2000 — 2003). 3-3 Number (per square meter) of Oligochaeta, Diptera, and 3-19 Corbicula collected annually at Location A from 1999 — 2003. 3-4 Number (per square meter) of Oligochaeta, Diptera, and 3-19 Corbicula collected annually at Location B from 1999 — 2003. 3-5 Number (per square meter) of Oligochaeta, Diptera, and 3-20 Corbicula collected annually at Location D from 1999 - 2003. 3-6 Number (per square meter) of Oligochaeta, Diptera, and 3-20 Corbicula collected annually at Location E from 1999 — 2003. 4-1 Spring electrofishing locations, fish health assessment locations, 4-18 hydroacoustic zones, and purse seine Iocations in Lake Norman, NC. 4-2 Summer electrofishing average catch per unit effort (CPUE, 4-19 1994 — 1999) and CPUE during 2000 through 2003 at five sampling locations near MSS in Lake Norman, NC. 4-3 A&B Spring electrofishing data summary for areas of Lake Norman 4-20 near MSS and a reference location midway between MSS and MNS. A) Number of fish and B) biomass of fish collected from ten 984-ft shoreline transects in each region. v LIST OF FIGURES (continued) FIGURE # TITLE PAGE 4-4 Example forage fish length frequency distribution (combined 4-21 from three purse seine sampling locations) collected during September 2003 in. Lake Norman, NC. vi CHAPTER 1 INTRODUCTION Per agreement with the North Carolina Department of Environment, and Natural Resources (NCDENR), annual physicochemical monitoring, and assessments of macroinvertebrate and fish populations at selected locations in Lake Norman continues (Table I-1 and Figure 1-1). Physicochemical and biological data are collected at five locations near Marshall Steam Station (MSS) and include an upstream, background site (location A), two sites within the immediate projected impact of MSS's discharge (locations B and C), and two downstream, recovery sites one of which represents an area of the lake that is expected to be minimally impacted by the discharge (location D), and the second (location E) representing a downlake area presumably outside the influence of the effluent plume. The objective of this on -going monitoring program is to provide an assessment of the balanced and indigenous nature of the biological populations in Lake Norman with respect to operation of MSS, and evaluate renewal of thermal limits in the Station NPDES permit (NC0004987). The thermal limit for MSS is a monthly average discharge (i.e., end -of -pipe) temperature limit of 93.9 °F (34.4 °C) during July 1 through October 31, and 91.9 °F (33.3 ° C) the rest of each year. Review of past studies by regulators have determined pursuant to Section 316(a) of the Clean Water Act that the thermal component of the discharge of MSS assures the protection and propagation of balanced, indigenous populations in Lake Norman. This report presents data collected since submittal of the previous summary reports (Duke Power 1994, 1999) and includes data collected from 1999 through 2003. These data were also compared with other past and present on -going environmental monitoring programs conducted in this watershed. LITERATURE CITED Duke Power Company. 1994. Assessment of balanced and indigenous populations in Lake Norman near Marshall Steam Station. Duke Power Company, Charlotte, North Carolina. Duke Power. 1999. Assessment of balanced and indigenous populations in Lake Norman near Marshall Steam Station. Duke Power, Charlotte, North Carolina. 1-1 Table 1-1. Description of Lake Norman sampling locations in the vicinity of the Marshall Steam Station (MSS), Catawba County, NC. Report Location Designation Duke Power Location # Location Description County Approximate river miles upstream of the Cowans Ford Hydro Longitude Latitude A 15.5 The first cove on the left upstream from MSS intake cove. Catawba 16.9 -80.9461 35.6163 B 14.7 First cove along northern shoreline going into the MSS CCW discharge cove. Catawba 13.9 -80.9573 35.5942 C 14.5 In MSS discharge canal approx. 160 yds from the discharge structure at the warning cable across the canal. Catawba 13.9 -80.9644 35.5951 D 13.0 Large cove halfway between channel markers 14 & 15 on the west side of the channel. Catawba 12.7 -80.9527 35.5753 E 19.0 Cove formerly proposed for power plant site intake or discharge. IredeIl 9.0 -80.9301 35.5297 Lookout Shoals Hydro K,ey, Monitoring Locations Figure KI©mCIEs 2 4 Ar t 0 Marshall Steam Station B (14. E Cowans Ford Hydro McGuire Nuclear Station Sampling 'locations on Lake Norman. Duke Power historical sample location identifiers are listed in parentheses. 1-3 CHAPTER 2 STATION OPERATION BACKGROUND INFORMATION Marshall Steam Station (MSS) is located on the western shore of Lake Norman (Figure 1-1), just north of Charlotte, North Carolina, in Catawba County. Its four generating units have a combined operating capability of 2090 MWE-net. Units 1 and 2 are each rated at 385 MWE- net and began commercial operation in 1965 and 1966, respectively. Units 3 and 4 are each rated at 660 MWE-net and began commercial operation in 1969 and 1970, respectively. MSS receives once -through condenser cooling water (CCW) from below a skimmer wall located at the end of a 1.3-mi (2.1-km) long cove. The cove's surface area is about 200 acres (81 ha) and its volume is approximately 250 million ft3 (7 million m3). The skimmer wall was designed to retain the upper 60 ft (18.3 m) of water on the lake side of the wall at full pond. The opening below the skimmer wall through which the station CCW is withdrawn, is about 10 ft (3 m) deep and 270 ft (82.3 m) wide. Units 1 and 2 each have two condenser cooling water pumps and Units 3 and 4 each have three condenser cooling water pumps. Typically, only one pump per generating unit is used during the cool winter months or when the unit is operating at reduced load. During the warmer summer months when units are operating at full -load, either two or three pumps are generally used depending on which units are operating. Maximum rates of cooling water flow are 423 cfs (11.8 cms) each for Units 1 and 2, and 709 cfs (19.9 cms) each for Units 3 and 4. Thus, the maximum possible station CCW flow rate is 2264 cfs (63.4 cms). Under one pump/unit operation, the maximum CCW flow rate for the entire station is 1,230 cfs (34.4 cms). Refer to Table 2-1 for a listing of CCW flow rates for each unit under one-, two-, and three -pump operation. The condenser cooling water from MSS is discharged into a one -mile long cove. The discharge cove spreads from a width of 75 ft (22.9 m) and depth of 33 ft (10.1 m) at the discharge structure, to a width of 850 ft (259.1 m) and a depth of 50 ft (15.2 m) at the mouth of the discharge cove. The total area of the discharge cove is about 75 acres (30.4 ha). 2-1 Lake Norman can be classified as oligotrophic, or nutrient poor, based on year 2002 assessments performed by the State in association with the Lake Assessment Program, which is conducted on a five-year cycle (NCDENR 2003). Nutrients and chlorophyll a values were consistently either low or less than the laboratory reporting limits for the specific analyte, whereas metal concentrations were within applicable water quality standards. Elevated levels of surface dissolved oxygen concentrations and dissolved oxygen saturation values were observed in the upper, riverine section of the reservoir. These observations are similar to results reported by Mecklenburg County Department of Environmental Protection for lower Lake Norman (MCDEP 2003), and to that reported by Duke Energy for year 2002, and earlier; based on water quality sampling of Lake Norman associated with NPDES requirements for McGuire Nuclear Station (Duke Power 1995, 1996, 1997, 1998, 1999b, 2000, 2001, 2002, 2003). THERMAL DATA Marshall Steam Station is operated by Duke Power as a base -load generating facility, and station operation during the period January 1999 through December 2003 was similar to previous years. MSS operated continuously from 1999 through 2003 with peak pumping of condenser cooling water during the summer. Electric generation, expressed as monthly average percent capacity, ranged from a minimum of 38% in November 1999 to a maximum of 98%, measured in December of 2001 and 2003. MSS operated at an average capacity of 77% over the five-year period. The seasonal cycle of discharge water temperatures at MSS over the period January 1999 through December 2003 was similar to that observed in previous years (Figure 2-1; Duke Power Company 1994, 1999). Monthly average discharge water temperatures at MSS were in compliance with NPDES permitted thermal limits of 93.9 °F (34.4 °C) July 1 through October 31, and 91.9 °F (33.3 °C) the rest of each year, over this five-year time period (Figure 2-1). Discharge water temperatures ranged from a minimum monthly average of 71.2 °F (19.6 °C) in January 2001 to a maximum monthly average of 93.4 °F (34.1°C) in September 2002 (Figure 2-1). Average daily discharge temperatures ranged from a minimum of 54.8 °F (12.6 °C) in January 2003 to a maximum of 99.7 °F (37.6 °C) in September 1999 (Figure 2-1). Discharge temperatures are linked to a combination of local meteorological conditions, and electrical generation. 2-2 CONCLUSIONS MSS operated continuously from 1999 through 2003, and station operation during this period was similar to previous years. Electric generation, expressed as monthly average percent capacity, ranged from a minimum of 38% in November 1999 to a maximum of 98%, measured in December of 2001 and 2003. MSS operated at an average capacity of 77% over the five-year study period. Monthly average discharge water temperatures at MSS were in compliance with NPDES permitted thermal limits of 93.9 °F (34.4 °C) July 1 through October 31, and 91.9 °F (33.3 °C) the rest of each year, over this five-year period. LITERATURE CITED Duke Power Company. 1994. Assessment of balanced and indigenous populations in Lake Norman near Marshall Steam Station. Duke Power Company, Charlotte, North Carolina. Duke Power Company. 1995. Lake Norman maintenance monitoring program: 1994 Summary. Duke Power Company. 1996. Lake Norman maintenance monitoring program: 1995 Summary. Duke Power. 1997. Lake Norman maintenance monitoring program: 1996 Summary. Duke Power. 1998. Lake Norman maintenance monitoring program: 1997 Summary. Duke Power. 1999a. Assessment of balanced and indigenous populations in Lake Norman near Marshall Steam Station. Duke Power, Charlotte, North Carolina. Duke Power. 1999b. Lake Norman maintenance monitoring program: 1998 Summary. Duke Power. 2000. Lake Norman maintenance monitoring program: 1999 Summary. Duke Power. 2001. Lake Norman maintenance monitoring program: 2000 Summary. Duke Power. 2002. Lake Norman maintenance monitoring program: 2001 Summary. Duke Power. 2003. Lake Norman maintenance monitoring program: 2002 Summary. 2-3 Mecklenburg County Department of Environmental Protection. 2003. Lake monitoring data summary for 2001-2002. NCDENR. 2003. Basinwide assessment report; Catawba River Basin. North Carolina Department of Environment and Natural Resources Division of Water Quality. 203pp 2-4 Table 2-1. Marshall Steam Station CCW flow rate for each unit for 1, 2, and 3-pump operation. Unit Number 1-Pump (cfs) 2-Pump (cfs) 3-Pump (cfs) 1 281 423 (423)1 2 281 423 (423)1 3 334 564 709 4 334 564 709 Station Total 1,230 1,974 2,264 l Units 1 and 2 have only two CCW pumps available. 2-5 120 110 100 - L a) a) 50 A 90 - Q ■ 80 / 1 ■� n. 70 amp - ' p ob 60 40 T- 4 30 20 10= 0 in co - Average Monthly Temperature — IN— Maximum Daily Average Temperature - -0- - Minimum Daily Average Temperature - • Monthly Average Generation Capacity d 4i ;At,. ,a ; - iA'■b a�■n �'■b �.■4 b LI 1 P - ■v Q ■ R')\- it i 141 ■�.`2■'c� 1■` ■ 1■bn.d 0.o cocs -o4 O, 100% 80% m _rt 60% 0 40% -20% `c i 1 1 1 I L L ▪ L c- L L an • L0 io 6▪ 0 0 o ▪ 0 o ▪ CDo 0 0 0 0 0 0 to co CO o o o —1..-1....a.N Iv ^) N co w co Co Figure 2-1. The daily and monthly average water temperature (°F) of the condenser cooling water discharged from Marshall Steam Station and percent capacity from January 1, 1999 through December 31, 2003. CHAPTER 3 MACROINVERTEBRATES METHODS AND MATERIALS Benthic macroinvertebrate sampling was conducted annually in late July of each year from 1999 — 2003 as part of the continuing monitoring program for Marshall Steam Station (MSS). As in previous years, samples were collected from Lake Norman uplake of MSS (Location A), near the MSS discharge canal (Location B), mid -lake near MSS (Location D), and further downlake (Location E) (Table 1-1 and Figure 1-1). A ponar dredge was used to collect five sample replicates at each location. Samples were collected at depths ranging from 2-3 m to bracket the depth of peak benthic abundance (Brinkhurst 1974). Samples were washed through a 500-µm mesh sieve and preserved individually with 70% ethanol containing rose bengal stain. The substrate of each replicate was identified, based on a visual analysis of substrate types during the sieving process, and the resulting data was recorded. Organisms were sorted in the laboratory and identified to the lowest practical taxon. Macroinvertebrate densities were calculated by extrapolating ponar densities to a standard 1 m2 bottom area. The assessment of the balanced and indigenous nature of the benthic community was determined by comparing macroinvertebrate densities and taxa abundance among the sample locations uplake, downlake, and near the MSS discharge canal. RESULTS AND DISCUSSION Substrate Typically, the substrate was similar at all locations, being composed primarily of silt, sand, and organic matter (om). Clay was observed in the substrate at Location A in 1999 and Location E in 2002 and 2003 (Table 3-5). Density During 1993 — 2003, overall mean macroinvertebrate densities varied substantially among years, locations and replicates within locations (Figure 3-1). The observed variability in Lake Norman macroinvertebrate data is fairly indicative of the inherently variable nature of 3-1 reservoir macroinvertebrate data. It is typical to observe substantial temporal and spatial variability for these types of data. It is also important to note that there can be substantial variability in density data among replicates at the same location, as indicated by the density range bars in Figure 3-1. This within location variability is an important consideration when comparing density data among years and locations and assessing community changes relative to natural variability. During the current study period, 1999 — 2003, Location D had the highest overall mean macroinvertebrate density, followed by Locations A, E, and B. The mean annual macroinvertebrate density at Location A ranged from 1,811/ m2 in 1999 to 6,157/ m2 in 2002. Densities at Location B ranged from 1,534/m2 in 2002 to 4,677/m2 in 2001. Macroinvertebrate densities at Location D ranged from 2,797/m2 in 2002 to 7,483/m2 in 2001, the highest density of macroinvertebrates collected during the 1999 — 2003 study period. Macroinvertebrate densities at Location E ranged from 1,294/m2 in 2002, the lowest density recorded during the 1999 — 2003 study period, to 6,348/m2 in 1999. Taxa As during previous study years, taxa abundance during 1999 — 2003 varied by year and location (Tables 3-1 through 3-4 and Figure 3-2). Taxa abundance was greatest in 2003, when all four locations exceeded the number of total taxa collected in eight years. Overall taxa abundance was lowest in 2002, when Location B had 17 taxa. It is important to note that Oligochaeta were not identified to species prior to 2000 and adding species identifications in 2000 — 2003 increased total taxa abundance. The average number of total taxa collected at each location during 1999 — 2003 was comparable to previously reported data from 1996 — 1998. With the exception of 2000 results, macroinvertebrate diversity declined slightly from Location A to Location B, and then generally increased further downlake. During 1999 — 2003, samples were comprised primarily of Oligochaeta, Diptera, and Corbicula (Figures 3-3 through Figure 3-6). As observed with overall densities, Oligochaeta, Diptera and Corbicula densities varied by location and year. At Locations A and B, Oligochaeta and Diptera taxa dominated the collections. Corbicula collections at Location B were extremely low during all years of the study period. At Location D, Corbicula generally dominated the collections, while Diptera and Oligochaeta abundances were lower and 3-2 alternated in abundance each year of the study period. Location E collections were dominated by Corbicula in 1999, then Oligochaeta and Diptera taxa from 2000 — 2003. CONCLUSION As noted in the Results and Discussion section, the 1999 — 2003 macroinvertebrate data exhibit substantial variability; however, the variability is consistent with that observed for historical data. The data for the current study exhibit the same general density and taxa diversity trends noted during the previous study period of 1996 —1998. Current study results indicate that the macroinvertebrate densities and taxa diversity observed during 1999 — 2003 at locations uplake, downlake and in the vicinity of MSS are indicative of balanced and indigenous macroinvertebrate communities in these locations. LITERATURE CITED Brinkhurst, R.O. 1974. The benthos of lakes. The MacMillan Press, London. 190 pp. 3-3 Table 3-1. Densities (per square meter) of macroinvertebrates collected annually from Location A (uplake of MSS) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 —1998, but were absent during 1999 — 2003. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Annelida Oligochaeta Rnotidrntifiedto g species until 2000 663 1731 4546 465 Haplotaxida Naididae 17 Dero spp. 26 9 _ Nais communis 17 Nais variabilis 43 Pristina sima 52 Pristinella osborni 9 Ripistes parasita 95 Stylaria lacustris 34 Tubificida Tubificidae 697 2196 1059 491 Aulodrilus limnobius 103 Aulodrilus pigueti 26 Branchirua sowerbyi 43 172 Limnodrilus hoffineisterei 17 9 Potamothrix vejdovskyi 43 Tubifex harmani 60 Polychaeta SabelIida Sabellidae Manayunkia speciosa 43 215 258 534 629 2781 34 Arthropoda Acari 9 9 9 17 Coleoptera EImidae Macronychus glabratus 9 Insecta Diptera Ceratopogonidae Palpomyia-Bezzia complex 9 26 9 17 9 34 52 Chaoboridae Chaoborus spp. 9 9 60 * * * * * 3-4 Table 3-1 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Chironomidae-Chironominae Chironomus spp. 17 60 17 Cladopelma spp. 9 34 Cladotanytarsus spp. 77 336 646 155 164 155 405 1025 Cryptochironoinus spp. 17 95 17 95 86 34 60 60 Cryptotendipes spp. 17 17 52 43 Cryptotendipes emorsus 9 17 17 Dicrotendipes modestus 9 17 9 Dicrotendipes neomodestus 9 17 9 34 Glyptotendipes spp. 34 77 9 Microchironomus spp. 9 17 77 Nilothaurna spp. 121 Pagastiella spp. 17 26 Pagastiella ostansa 9 Parachironomus spp. 9 26 9 Paralauterborniella spp. 9 Paralauterborniella nigrohalter 9 Polypedilum spp. 34 Polypedilum flavum 9 Polypedilum halterale 69 17 284 Polypedilum scalaenum 17 Polypedilum simulans/digitifer 69 9 Pseudochironomus spp. 26 52 103 Stempellina spp. 9 52 17 77 * * * 60 Stictachirononrus spp. 17 121 95 77 52 706 9 370 Tanytarsus spp. 224 9 276 26 9 241 121 103 Chironomidae-Orthocladiinae Nanocladius spp. 9 Parakiefferiella spp. 9 Chironomidae-Tanypodinae Ablabesmyia spp. 60 17 9 Ablabesmyia annulata 43 9 34 26 Ablabesmyia mallochi 9 34 Coelotanypus spp. 112 9 112 9 * 52 * 138 Djalmabatista pulchra 9 9 9 Procladius spp. 775 9 129 * * * 215 181 Procladius (Holotanypus) sp. 17 34 3-5 Table 3-1 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Procladius bellus 9 155 Ephemeroptera Bactidae Caenidae Caenis spp. 95 327 9 17 34 9 138 Ephemeridae Hexagenia spp. 17 17 34 * 9 34 17 69 MegaIoptera Sialidae Sialis spp. 17 9 17 17 17 Trichoptera Hydropsychidae Cheumatopsyche spp. 86 Hydroptilidae Hydroptila spp. 17 9 Orthotrichia spp. 52 Leptoceridae Oecetis spp. 9 17 43 34 Polycentropodidae Polycentropus spp. 9 Mollusca Pelecypoda Heterodonta Corbiculidae Corbicula fluminea 77 310 77 465 258 138 1214 611 Veneroida Sphaeriidae 17 181 Nematoda 17 103 9 17 9 17 Nemertea Enopla Hoplonemertea Tetrastemmatidae Prostoma graecens 9 26 Total Density for Year 2240 2820 7301 1811 2102 4888 6157 4719 Total Taxa for Year 21 19 33 22 22 32 21 36 3-6 Table 3-2. Densities (per square meter) of macroinvertebrates collected annually from Location B (near MSS discharge) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 —1998, but were absent during 1999 — 2003. Taxa 1996 1997 1998 1999 2000 2001 1 2002 2003 Annelida Oligochaeta •not frizgoo 284 1145 2402 1162 Haplotaxida Naididae 26 Tubificida ' Tubificidae 560 3134 474 86 Aulodrilus limnobius 34 Aulodrilus pigueti 852 Branchirua sowerbyi 69 Limnodrilus hoffmeisterei 9 9 Potamothrix vejdovskyi 17 Polychaeta Sabellida Sabellidae Manayunkia speciosa 9 293 26 9 34 60 * 17 Arthropoda Acari 17 9 Insecta Diptera Ceratopogonidae Palpomyia-Bezzia complex 9 17 34 17 95 9 52 Chaoboridae Chaoborus spp. 353 818 224 34 232 121 * 9 Chironomidae-Chironominae Chironomus spp. 9 69 26 9 Cladopelma spp. 172 164 121 * 60 138 17 26 Cladotanytarsus spp. 17 77 Cryptochironomus spp. 34 17 43 26 129 Cryptotendipes spp. 353 405 181 77 Cryptotendipes emorsus 129 198 34 310 * * * * _Dicrotendipes modestus 9 Dicrotendipes neomodestus 43 Dicrotendipes nervosus 9 Harnischia spp. 34 9 3-7 Table 3-2 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Harnischia curtilamellata 43 Microchironomus spp. 17 17 Nilothauma spp. 9 Pagastiella spp. 17 43 34 Pagastiella ostansa 9 52 17 Paratendipes spp. 17 Polypediluna halterale 77 69 52 1093 Polypedilum simulans/digitifer 17 60 26 60 * * * * Pseudochironomus spp. 43 301 9 9 9 Stictochironomus spp. 17 17 Tanytarsus spp. 77 250 189 34 69 26 232 Chironomidae-Orthocladiinae Parakiefferiella spp. 34 9 Chironomidae-Tanypodinae Ablabesmyia spp. 17 Ablabesmyia annulata 250 86 60 34 34 9 189 103 Ablabesmyia mallochi 34 9 Clinotanypus spp. 17 9 Cnotanypus spp. 327 86 267 69 138 121 60 129 Procladius spp. 353 172 164 * 17 9 224 336 Procladius (Holotanypus) sp. 52 9 155 Procladius bellus 9 9 52 Tanypus spp. 9 Ephemeroptera Baetidae Caenidae Caenis spp. 17 9 Ephemeridae Hexagenia spp. 232 60 17 60 26 26 138 52 Megaloptera Sialidae Sialis spp. 26 26 52 * * * * * Odonata-Anisoptera Corduliidae 9 Trichoptera Hydropsychidae Cheumatopsyche spp. 9 3-8 Table 3-2 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Leptoceridae Oecetis spp. 60 9 9 17 9 189 Mollusca Pelecypoda Heterodonta Corbiculidae Corbicula fluminea 17 60 17 26 9 * 26 17 Nematoda 9 146 17 43 34 34 Nemertea Enopla Hoplonemertea _ Tetrastemmatidae Prostoma graecens 9 PlatyheIminthes Turbellaria Tricladida Planariidae Dugesia spp. 17 Total Density for Year 2324 4303 3548 2118 1739 4677 1534 3686 Total Taxa for Year 17 29 18 19 23 24 17 30 3-9 Table 3-3. Densities (per square meter) of macroinvertebrates collected annually from Location D (mid -lake near MSS) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 —1998, but were absent during 1999 — 2003. Taxa _ 1996 1997 1998 1999 2000 2001 2002 2003 Annelida Oliochaeta 'notidentifiedto g 6pCCICS until 2000 456 1197 293 491 Haplotaxida Naididae 26 Allonais pectinata 17 Pristina acuminata 26 Pristinella osborni 43 Stylaria lacustris 9 Tubificida Tubificidae 758 689 723 706 Aulodrilus limnobius 17 Bothrioneurum vejdovskyanum 9 Branchirua sowerbyi 60 Limnodrilus hoffineisterei 9 Tubifex harmani 52 Polychaeta Sabellida Sabellidae Manayunkia speciosa 172 2118 1472 1119 1205 3633 146 818 Arthropoda Acari 26 26 34 Insecta Diptera Ceratopogonidae 52 Palpomyia-Bezzia complex 52 69 9 52 17 34 43 95 Chaoboridae Chaoborus spp. 17 9 17 9 Chironomidae-Chironominae 9 Axarus spp. 9 Chironomus spp. 9 Cladopelma spp. 9 Cladotanytarsus spp. 52 60 34 138 26 370 112 585 Cryptochironomus spp. 26 69 69 43 34 138 17 77 Cryptotendipes spp. 69 77 129 146 387 3-10 Table 3-3 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Cryptotendipes emorsus 34 Demicryptochironomus cuneatus 17 Dicrotendipes neomodestus 9 Harnischia spp. 17 9 Harnischia curtilamellata 17 Nilothauma spp. 9 Pagastiella spp. 9 9 Paralauterborniella spp. 34 26 Paralauterborniella nigrohalter _ 9 26 _9 34 Polypedilum halterale 26 17 Polypedilum simulans/digitifer 17 17 9 Pseudochironomus spp. 86 172 95 448 9 9 * 60 Stempellina spp. 9 103 9 17 52 34 198 Stenochironomus spp. 9 Stictocluronomus spp. 103 34 34 1 112 26 284 69 77 Tanytarsus spp. 26 52 17 52 43 181 * 250 Chironomidae-Orthocladiinae Parakiefferiella spp. 1 9 9 9 Chironomidae-Tanyp o dinae Ablabesmyia mallochi 9 9 34 Coelotanypus spp. 26 34 34 9 43 Djalmabatista pulchra _ 9 9 17 Procladius spp. 43 26 9 * 9 * 34 138 Procladius bellus 17 Ephemeroptera Baetidae Caenidae Caenis spp. 95 9 Ephemeridae Hexagenia spp. 17 Trichoptera Hydropsychidae Cheumatopsyche spp. 9 Leptoceridae Nectopsyche exquisita 9 Oecetis spp. 86 52 69 17 9 26 3-11 Table 3-3 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Polycentropodidae Polycentropus spp. 9 17 17 Endoprocta Calyssozoa Pedicellinida Umatellidae Urnatella gracilis 17 Mollusca Pelecypoda Heterodonta Corbiculidae Corbicula fl'untinea 1283 1636 1739 1180 2824 801 1231 1946 Veneroida Sphaeriidae 224 Pisidium spp. 947 Nematoda 9 164 69 207 69 112 34 * Nemertea Enopla Hoplonemertea Tetrastemmatidae Prostoma graecens 17 26 9 77 26 60 77 Platyhelminthes Turbellaria Tricladida Planariidae Dugesia spp. 9 17 Total Density for Year 2413 5967 4341 4102 5347 7483 2797 6001 Total Taxa for Year 19 20 22 23 25 20 22 30 3-12 Table 3-4. Densities (per square meter) of macroinvertebrates collected annually from Location E (downlake from MSS) from 1996 — 2003. Highlighted taxa are taxa that were present each year. Taxa with an asterisk are taxa that were present in 1996 —1998, but were absent during 1999 — 2003. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Annelida Oligochaeta .not identified to species until 2000 775 999 3014 1171 Haplotaxida Naididae 172 Nais communis 17 Nais variabilis 9 Pristina longisoma 9 Ripistes parasita 9 Stylaria lacustris 9 Tubificida Tubificidae 766 1180 43 379 Bothrioneururn vejdovskyanum 9 Branchirua sowerbyi 26 Limnodrilus hoffmeisterei 9 Polychaeta Sabellida Sabellidae Manayunkia speciosa 982 189 164 2118 344 2144 86 * Arthropoda Acari 17 9 17 17 Insecta Diptera Ceratopogonidae Palpomyia-Bezzia complex 34 43 _ 26 138 138 52 43 60 Chaoboridae Chaoborus spp. 9 26 Chironomidae-Chironomidae Chironomus spp. 26 17 9 60 Cladopelma spp. 9 34 9 Cladotafiytarsus spp. 146 301 1464 26 250 86 17 155 Cryptochironomus spp. 181 34 43 26 112 138 17 9 Cryptotendipes spp. 69 103 207 26 Cryptotendipes emorsus 69 181 43 52 * * * * Dicrotendipes neomodestus 9 17 3-13 Table 3-4 Continued. Taxa 1996 1997 1998 1999 2000 2001 2002 2003 Glyptotendipes spp_ 34 9 Harnischia spp. 60 Pagastiella spp. 103 9 Pagastiella ostansa 34 52 138 26 43 * * * Parachironomus spp. 17 r Paralauterborniella nigrohalter 34 17 26 34 Polypedilum halterale 60 241 17 Polypedilum simulans/digitifer 60 52 Pseudochironomus spp. 26 17 34 69 34 103 Stempellina spp. 9 189 34 319 129 * * 34 Stictochironomus spp. 77 9 9 138 9 Stictochironomus caffranius 17 Tanytarsus spp. 413 241 69 121 138 585 52 181 Tribelos spp. 17 Chironomidae- Ortho cladiinae Cricotopus spp. 9 Nanocladius spp. 17 Parakiefferiella spp. 9 9 34 Thienemanniella spp. 17 Zalutschia zalutschicola 9 Chironomidae-Tanypodinae Ablabesmyia spp. 69 129 9 Ablabesmyia annulata 34 9 _ Ablabesmyia janta 26 Ablabesmyia mallochi 9 43 17 9 121 52 34 Coelotanypus s #p. 34 26 146 * 138 * * 17 Djalmabatista pulchra 9 9 34 121 17 9 Procladius spp. 43 181 138 * * * 9 86 Procladius (Holotanypus) sp. 17 103 Procladius bellus 86 17 Ephemeroptera Baetidae 9 Ephemeridae Hexagenia spp. 9 60 155 9 112 * * 9 Megaloptera Sialidae Sialis spp. 9 284 69 * 26 26 17 43 3-14 Table 3-4 Continued. Taxa , 1996 1997 1998 1999 2000 2001 2002 2003 Odonata-Anisoptera Gomphidae 9 Odonata-Zygoptera Coenagrionidae Argia spp. 9 Trichoptera Hydroptilidae Hydroptila spp. 9 Leptoceridae Oecetis spp. 17 34 Polycentropodidae Cyrnellus fraternus 9 Polycentropus spp. 9 34 121 9 Mollusca Pelecypoda Heterodonta r Corbiculidae Corbicula j un:inea 1515 525 1533 2101 629 672 224 43 Veneroida Sphaeriidae 17__ Nematoda 26 69 Nemertea Enopla • Hoplonemertea Tetrastemmatidae Prostoma graecens 77 34 9 9 Platyhelniinthes Turbellaria Tricladida Planariidae Dugesia spp. 17 Total Densifor Year 4504 3461 7217 6348 3237 6199 1294 1656 Total Taxa for Year 24 22 22 23 25 26 28 31 3-15 Table 3-5. General descriptions of the substrate found at Locations A, B, D, and E in the vicinity of MSS during July of 1999 through 2003. Substrates are listed with the most prevalent type first. Organic matter (om) is typically composed of small sticks, leaf and/or grass fragments, etc. Year A B D E 1999 silt . clay om sand om silt sand silt om sand sand om silt 2000 silt sand om silt sand om silt sand om silt sand om 2001 silt om sand silt om silt om sand silt sand om 2002 silt om sand silt om silt om sand clay silt sand 2003 silt om sand silt om sand silt om sand clay sand silt 3-16 16,000 14,000 12,000 10,000 8,000 6,000 4,000 2,000 - ABDE Jul-1993 ABDE ABDE Ju1-1994 Ju1-1995 ABDE ABDE Aug-1996 Jul-1997 ABDE ! ABDE ABDE Aug-1998 Jul-1999 Jul-2000 ABDE ABDE Jul-2001 Jul-2002 ABDE Jul-2003 Figure 3-1. Mean density (with ranges within sample location replicates) of macroinvertebrates co Norman near MSS from 1993 — 2003. e ed annually from Lake ■A glB IIID •E 40 35 30 25 — e — sa 20 m i z 15 ::: — 10 — 5 — — — 1996 1997 1998 1999 2000 2001 2002 2003 Figure 3-2. Total number of taxa collected annually from Lake Norman near MSS from 1996 — 2003. (Oligochaeta were not identified to species prior to 2000, which increased total taxa abundance during 2000 — 2003). 3000 2500 2000 1500 1000 500 0 Location A • _ ///. / /' A. •• � / /' /' /' / /' /' /• //. / •Ill! / i /./ / /. 1999 2000 2001 2002 T Oligachaeta — Ir . Diptera—'Corbicula 2003 Figure 3-3. Number (per square meter) of Oligochaeta, Diptera, and Corbicula collected annually at Location A from 1999 — 2003. 3500 3000 2500 2000 1500 1000 500 0 Location B / • / / / / / J --. / / / •- — ....Ak /›.-.....----**/ 1999 2000 2001 2002 —r--Oligochaeta ---•Diptera •—•••••••Corbicula 2003 Figure 3-4. Number (per square meter) of Oligochaeta, Diptera, and Corbicula collected annually at Location B from 1999 — 2003. 3-19 Location D 3000 2500 2000 1500 1000 500 0 ' i �. , .... i `. // y, 1999 2000 200I 2002 —Oligachaeta Diptera —e--Corbicula 2003 Figure 3-5. Number (per square meter) of Oligochaeta, Diptera, and Corbicula collected annually at Location D from 1999 — 2003. Location E 2500 2000 A 1500 , , / ,• A 1000 / 500 0 1999 2000 2001 2002 2003 —E—Oligochaeta —•k-• Diptera-=0""Corbicula Figure 3-6. Number (per square meter) of Oligochaeta, Diptera, and Corbicula collected annually at Location E from 1999 — 2003. 3-20 CHAPTER 4 FISH METHODS AND MATERIALS Summer Electrofishing Fish were collected from Lake Norman near Marshall Steam Station (MSS) in July, 2000 — 2003, using a boat -mounted electrofisher during daylight hours. Two netters collected all stunned fish. Fish were identified to species and measured for total length (TL, mm) before being returned to the lake. Sampling locations consisted of one location uplake from the MSS intake (Location A), two locations in the discharge canal (Locations B and C), and two locations downstream from the MSS discharge (Locations D and E, Table 1-1 and Figure 1-1). Shoreline segments of 328 ft (100 m) were electrofished on the left and right banks at each cove location. The number of species and catch per unit effort (CPUE, number of fish/328 ft) were calculated for each sampling location. Water temperature (°F and °C) and dissolved oxygen concentration (mg[L) were measured with a calibrated thermister and dissolved oxygen probe, respectively, at each location. Summer electrofishing samples are part of the required MSS 316(a) annual monitoring program. Spring electrofishing, fish health assessments, and hydroacoustic surveys on Lake Norman are part of Catawba-Wateree Hydro relicensing activities. These additional sampling protocols provide information relative to potential MSS impacts and data are included here to further assess the balanced and indigenous nature of the Lake Norman fish community. Spring Electrofishing Fish were collected during daylight hours with a boat -mounted electrofisher from Lake Norman in April or May, 2000 — 2003, when surface water temperatures ranged from 59 to 68 °F (15 to 20 °C). Two netters collected all stunned fish and all fish collected were identified, sorted, counted, and weighed in aggregate by species and then returned to the lake. Water temperature (°F and °C) was measured with a calibrated thermistor. 4-1. Ten 984 ft (300 m) shoreline transects were sampled during daylight in the vicinity of MSS and at a reference location midway between MSS .and the McGuire Nuclear Station (MNS) (Figure 4-1). All transects were subjectively selected to include the various shoreline habitat types that exist in Lake Norman. The only areas excluded were shallow flats where the electrofishing boat could not get within 10-13 ft (3-4 m) of the shoreline. Catch, biomass, and number of species/9,843 ft (3,000 m) were calculated for each sampling location. Fish Health Assessment The health of largemouth bass was assessed at 27 locations throughout the Catawba River, including four Lake Norman locations, during October 2000 and 2003 (Figure 4-1). The four Lake Norman locations were: the vicinity of Lake Norman State Park (Zone 5), the MSS discharge canal (Locations B and C), a midlake location (in the same area as the spring electrofishing reference location in Zone 3), and the MNS discharge canal (Zone 1). Fifteen largemouth bass between 10 and 18 in (250-450 mm) TL were collected by electrofishing at each location, fatally anesthetized, and autopsied by the Fish Health Assessment Index methods of Coughlan et al. (1996). Bass tissues, organs, and blood were evaluated and scored for deviations from normal appearances or values. Scores for the 15 bass were averaged to arrive at a fish health assessment score for each location. Higher location scores indicate relatively poorer fish health. Hydroacoustic Surveys Mobile hydroacoustic surveys of the entire lake and its major tributaries were conducted at night during September, 2000 — 2003, to estimate forage fish populations. Surveys typically covered the region from the Cowans Ford Dam to the region just north of the SR 1004 bridge (a distance of approximately 25.4 river miles) and included Ramsey, Davidson, and Mountain Creeks. Lake Norman was divided into six zones to more accurately account for spatial heterogeneity in water quality and fish productivity (Figure 4-1). Hydroacoustic surveys employed a multiplexing 200-kHz digital transducer system. This multiplexing system consisted of a side -scan split beam transducer (sampling the top 6.5 ft (2 m) of •the water column) and a down -looking dual -beam transducer (sampling from 6.5 ft (2 m) below the surface to the bottom) to detect surface -oriented and deeper fish, respectively. The transducer system was periodically calibrated using US Navy standards at the BioSonics 4-2 Laboratory, Seattle, Washington. The transducer system was also standardized prior to each acoustic sample with a tungsten carbide reference sphere as a standard target. Individual forage fish targets were used to generate average back -scattering cross -sections (target strengths). Returning voltages were scaled by the average back -scattering cross-section and processed via echo integration for generation of fish densities. The average fish density was calculated at 1/4-km intervals and processed by bootstrap procedures to generate average fish densities in each of six zones in Lake Norman (Provalis Research 2002). Yearly forage fish population estimates for Lake Norman were the sum of fish densities for a particular zone multiplied by that zone's surface area. Purse seine samples were collected at night during September, 2000 — 2003, to determine species composition and size distribution of forage fish `counted' by hydroacoustic techniques. The purse seine measured 400 x 30 ft (118 x 9 m) with a 3/16 in (4.8-mm) mesh and samples were taken from three areas of Lake Norman (Figure 4-1). These areas included mid -channel locations near the Lake Norman State Park (Zone 5), the mouth of Davidson Creek (Zone 2), and the forebay of Cowans Ford Dam (Zone 1) that are approximately 19.8, 5.5, and 1 river miles uplake from the Cowans Ford Dam, respectively. Balanced and Indigenous Assessment The assessment of the balanced and indigenous nature of the fish community in Lake Norman included a comparison of species numbers and CPUE data from locations upstream of, downstream of, and in the discharge canal from MSS during summer electrofishing. Similar type comparisons were made with spring electrofishing data. Additionally, the fish community around MSS was evaluated for the health of largemouth bass and the sustainability of the forage fish population over time. RESULTS AND DISCUSSION Summer Electrofishing The number of species and CPUE during summer electrofishing at all locations around MSS ranged from four to nine and from 11.0 to 143.5 fish/328 ft, respectively, from 2000 to 2003 (Tables 4-1 to 4-4). The number of fish species present at each of the two discharge locations (Locations B and C) varied, and was not consistently the highest nor lowest of the 4-3 locations sampled. The combined annual species composition in the vicinity of MSS was typically dominated by centrarchids, followed by cyprinids. Centrarchids comprised from 64.5 (2001) to 90.6 % (2003) of the fish community around MSS. Clupeids, percids, and ictalurids were minor contributors to the species assemblage. During 2000 and 2002, the highest CPUE was measured in the MSS discharge at Location C (Figure 4-2). The highest CPUE during 2001 and 2003 was measured downlake at Location E. In all four years of sampling, the highest, or second highest, CPUE was measured at one of the two discharge canal locations despite the fact that these two locations typically had the highest water temperatures and the lowest dissolved oxygen concentrations. Electrofishing catch rates typically are influenced by a range of variables including productivity, gear efficiency, bottom substrate, available cover, turbidity, water temperature, and water velocity. The higher CPUE in the MSS discharge during summer is likely due to several of these factors, including water temperatures close to ambient temperatures, flowing water, and rip -rapped shoreline (Location C), as opposed to the . bare clay bank shorelines of other locations. Summer electrofishing results observed from 2000 — 2003 are similar to those demonstrated in previous reports from 1991 —1999 (Duke Power 1994, 1999). Spring EIectrofishing Fish numbers and biomass per 9,843 ft of shoreline ranged from 1,157 to 3,277 and 80.4 to 387.3 kg, respectively, in the vicinity of the MSS discharge and from 1,314 to 2,349 and 81.1 to 115.4 kg, respectively, at the reference location (Table 4-5 and Figure 4-3). High spring 2003 rainfall totals elevated lake levels and inundated shoreline vegetation, providing the appropriate cues to trigger common carp Cyprinus carpio spawning near MSS. The resulting high biomass measured (387.3 kg in 2003) can be attributed to the collection of 141 common carp weighing over 255 kg. The average numbers of fish and biomass collected around the MSS discharge were typically greater than those from the downlake reference location. The average number of fish species collected was also typically greater at MSS than the reference location. A total of 28 species and hybrid lepomids were collected near MSS from 2000 to 2003 while 27 species and hybrid lepomids were collected at the reference location (Table 4-6). Spring electrofishing data indicate that the region of Lake Norman near the MSS discharge yielded more species and numbers of fish, resulting in higher fish biomass than the downlake reference location. Declining nutrient concentrations with increasing proximity to the Cowans Ford Dam is probably one of several factors that contributed to the 4-4 reduced fish biomass observed downlake. Species composition information from all the spring electrofishing samples indicates that centrarchids dominate the Lake Norman fish community (65.9% of all fish collected) followed by cyprinids, clupeids, ictalurids, moronids, percids, catostomids, lepisosteids, and salmonids. The salmonids are undoubtedly the remnants of bait bucket releases by striped bass fishermen. Species composition information from spring electrofishing is comparable to that found around MSS during summer electrofishing though a larger variety of species inhabit the shoreline in spring compared to summer. Fish Health Assessment Fish health assessment scores for Lake Norman largemouth bass ranged from 18 to 30 from 2000 to 2003 (Table 4-7). Scores for the entire Catawba River ranged from 8 to 48 and averaged 23.9 (2000) and 30.3 (2003) (Duke Power, unpublished data). Largemouth bass are one of several top predators in the Lake Norman food chain and integrate the effects of various stressful physical, chemical, and biological conditions. Experience has demonstrated that scores greater than 45 identify areas where the integration of these stressful conditions may be a cause for concern and further studies. All Lake Norman fish health scores were less than 45 and all MSS scores were generally less than, or equal to, the average for the entire Catawba River. The health of largemouth bass residing in the vicinity of MSS is good and generally similar to that of bass from other regions of Lake Norman. Hydroacoustic Surveys Purse seine sampling at three Lake Norman locations identified threadfin shad as the dominant forage species from 2000 to 2003 (Table 4-8). Prior to 2000, threadfin shad comprised from 99 to 100% of the forage fish population collected. Angler introductions of alewife Alosa pseudoharengus in 1999 have gradually changed the forage fish species composition and now roughly 20% of the forage is alewife. Alewife persistence in the reservoir will be a continued focus of future studies. The modal size class of threadfin shad rose briefly in 2000 and 2001, into the 50-60 mm TL range, and now appears to be in the 40- 50 mm size range (Figure 4-4). Forage fish densities (no.lhectare) in the six zones of Lake Norman ranged from 1,800 to 13,158 during 2000 to 2003 (Table 4-9). With the exception of 2000, threadfin shad densities were generally highest uplake in Zone 5 and lower downlake. The limited amount 4-5 of 'sampleable' habitat in Zone 6 (the most uplake zone) complicate discussions about this trend; during the drought year of 2002 water depths were insufficient to safely lower the transducers and collect data in this zone. Higher densities of forage fish in uplake regions have been demonstrated previously in Lake Norman (Siler et al. 1986) and in Missouri reservoirs (Michaletz and Gale, 1999) and are related to higher nutrient concentrations in these regions. Forage fish densities in Lake Norman are similar to those noted in other Catawba River reservoirs of similar trophic status. Forage fish population estimates ranged from approximately 64.3 million to 85.7 million during 2000 to 2003. These estimates have been fairly constant since 1997 and average approximately 76 million fish. CONCLUSION A diverse fish community was present in the littoral portions of Lake Norman around MSS. From 2000 through 2003, summer electrofishing produced 17 species of fish representing seven families. Centrarchids numerically dominated fish populations here, followed generally by cyprinids, percids, moronids, catostomids, ictalurids, and clupeids. A similar species composition trend was found during spring electrofishing when 28 species representing nine families were collected. These families encompass a range of trophic groups including planktivores, insectivores, omnivores, and piscivores. The MSS discharge area of Lake Norman typically yielded more fish than adjacent regions of Lake Norman. Electrofishing CPUE indices, both numeric (spring and summer) and gravimetric (spring), were usually higher around the MSS discharge than in adjacent lake areas. In general, higher nutrient concentrations in the uplake regions of Lake Norman probably contribute to the higher CPUE near MSS. The higher CPUE in the MSS discharge (Location C) during summer is likely due to several other specific factors, including water temperatures close to ambient temperatures, flowing water, and rip -rapped shoreline, as opposed to the bare clay bank shorelines of other locations. Largemouth bass are one of several top predators in Lake Norman; through diet and the aquatic environment, they integrate the effects of various stressful physical, chemical, and biological conditions. The fish health assessment index is a survey tool employed to identify fish populations succumbing to undue levels of stress. The lack of elevated fish health 4-6 assessment scores on Lake Norman indicates that largemouth bass, their prey items, and their local aquatic environment are probably not experiencing levels of stress beyond that experienced in some Catawba River reservoirs that do not receive heated effluent. Lake Norman forage fish populations have been dynamic during the past few years. The introduction of alewife (and most recently, we have collected blueback herring Alosa aestivalis) has resulted in some alterations in the forage community and will be the focus of continued studies. Forage fish population densities, as measured by hydroacoustics, were generally greatest in uplake portions of Lake Norman. Despite the change in the species composition of the forage community and the inherent variability of clupeid populations over time, population estimates have been fairly stable. Threadfin shad and alewife in Lake Norman have consistently provided forage, though now more diverse in size and habitat utilization, to limnetic predators. Past studies have indicated that there is "a balanced and indigenous fish community in Lake Norman" (Duke Power Company 1994, 1999). The present study reinforces that conclusion. Based on the diversity and biomass of the Lake Norman littoral fish community, the abundance of fish in the MSS discharge canal, the good health of largemouth bass throughout Lake Norman and specifically in the MSS discharge canal, and the abundance of forage fish available to limnetic predators, it is concluded that the thermal regimes resulting from the operation of MSS have supported the protection and propagation of a balanced and indigenous fish community in Lake Norman. LITERATURE CITED Coughlan, D. J., Baker, B. K., CIoutman, D. G., and Rash, W. M. 1996. Application and modification of the fish health assessment index used for largemouth bass in the Catawba River, North Carolina -South Carolina. Pages 73-84 in L.E. Miranda and D.R. DeVries, editors. Multidimensional approaches to reservoir fisheries management. American Fisheries Society Symposium 16. Duke Power Company. 1994. Assessment of balanced and indigenous populations in Lake Norman near Marshall Steam Station. Duke Power Company, Charlotte, North Carolina. Duke Power. 1999. Assessment of balanced and indigenous populations in Lake Norman near Marshall Steam Station. Duke Power, Charlotte, North Carolina. 4-7 Michaletz, P. H. and C. M. Gale. 1999. Longitudinal gradients in age-0 gizzard shad density in Iarge Missouri reservoirs. North American Journal of Fisheries Management 19:765-773. Provalis Research. 2002. Simstat for Windows, Version 2.07. Provalis Research. Montreal, Canada. Siler, J. R., W. J. Foris, and M. C. Mclnerny. 1986. Spatial heterogeneity in fish parameters within a reservoir. Pages 122-136 in G. E. Hall and M. J. Van Den Avyle, editors. Reservoir fisheries management: strategies for the 80's. American Fisheries Society, Southern Division, Reservoir Committee, Bethesda, Maryland. 4-8 Table 4-1. Summer electrofishing catches, number of species, dissolved oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 18, 2000. 2000 Scientific Name Cyprinidae Cyprinella chloristia Cyprinella nivea Cyprinus carpio Notropis hudsonius Ictaluridae Ictalurus punctatus Ccntrarchidae Lepomis auritus Lepomis gulosus Lepomis hybrid Lepomis macrochirus Lepomis microlophus Micropterus satnoides Percidae Perca flavesceus Total Number of Individuals CPUE (#/328ft) Total Number of Species Surface Temperature (F) Surface Temperature (C) Dissolved oxygen (mg/L) Location A BCD E (15.5) (14.7) (14.5) (13.0) (19.0) Total Common Name NNNNN N % Greenfin shiner Whitefin shiner Common carp Spottail shiner Channel catfish Redbreast sunfish Warmouth Hybrid sunfish BIuegill Redear sunfish Largemouth bass Yellow perch 1 3 4 0.98 16 7 1 30 51 105 25.74 3 3 0.74 4 1 5 1.23 1 1 0.25 6 2 7 14 13 42 10.29 7 7 1.72 2 1 2 5 1.23 4 69 97 11 7 188 46.08 7 3 3 13 3.19 1 4 24 2 3 34 8.33 1 1 0.25 31 9I 143 64 79 408 100.00 15.5 45.5 71.5 32.0 39.5 40.8 5 5 7 9 5 11 85.5 86.9 89.4 84.9 83.7 29.7 30.5 31.9 29.4 28.7 8.6 1.9 0.7 6.2 8.1 4-9 • s • Table 4-2. Summer electrofishing catches, number of species, dissolved oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 17, 2001. 2001 Scientific Name Cyprinidae Cyprinella chloristia Cyprinella nivea Cyprinus carpio Notropis hudsonius Catostomidae Moxostoma macrolepidotum Ictaluridae Ictalurus punctatus Pylodictis olivaris Moronidae Morone americana Centrarchidae Lepomis auritus Lepomis gulosus Lepomis hybrid Lepomis macrochirus Lepomis microlophus Micropterus salmoides Percidae Perca flavescens Total Number of Individuals CPUE (#/328ft) Total Number of Species Surface Temperature (F) Surface Temperature (C) Dissolved oxygen (mg/L) Location A BCDE (15.5) (14.7) (14.5) (13.0) (19.0) Total Common Name NNNNN N Greenfin shiner 2 17 19 3.04 Whitefin shiner 4 1 12 52 69 11.04 Common carp I 1 0.16 Spottail shiner 114 114 18.24 Shorthead redhorse 1 2 3 0.48 Channel catfish Flathead catfish White perch Redbreast sunfish Warmouth Hybrid sunfish Bluegill Redear sunfish Largemouth bass Yellow perch 1 1 0.16 1 1 0.16 8 8 1.28 16 1 7 7 26 57 9.12 4 1 5 0.80 3 4 1 8 1.28 5 71 85 2 51 214 34.24 4 10 1 4 19 3.04 6 13 77 4 100 16.00 2 3 1 6 0.96 38 102 190 24 271 625 10D.00 19.0 51.0 95.0 12.0 135.5 62.5 7 6 9 5 9 14 84.7 86.2 90.9 84.2 82.8 29.3 30.1 32.7 29.0 28.2 8.6 2.9 0.8 7.4 8.2 4-10 Table 4-3. Summer electrofishing catches, number of species, dissolved oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 11, 2002. 2002 Scientific Name Cyprinidae Cyprinella chloristia Cyprinella nivea Cyprinus carpio Notropis hudsonius Ictaluridae Ictalurus punctatus Centrarchidae Lepomis auritus Lepomis cyanellus Lepomis gulosus Lepomis hybrid Lepomis macrochirus Lepomis microlophus Micropterus salmoides Percidae Perca Jlavescens Total Number of Individuals CPUE (#/328ft) Total Number of Species Surface Temperature (F) Surface Temperature (C) Dissolved oxygen (mg/L) Location A BC DE (15.5) (14.7) (14.5) (13.0) (19.0) Total Common Name NNNNN N Greenfin shiner Whitefn shiner Common carp Spottail shiner Channel catfish Redbreast sunfish Green sunfish Warmouth Hybrid sunfish Bluegill Redear sunfish Largemouth bass Yellow perch 3 3 0.69 4 5 31 40 9.17 1 I 2 0.46 38 38 8.72 1 1 0.23 25 6 54 10 18 113 25.92 1 1 0.23 1 3 6 10 2.29 5 7 5 2 4 23 5.28 15 17 48 5 33 118 27.06 2 5 7 2 16 3.67 8 12 45 5 70 16.06 I 1 0.23 101 52 166 23 94 436 100.00 50.5 26.0 83.0 11.5 47.0 43.6 8 7 6 4 6 12 85.3 88.9 94.1 86.5 84.4 29.6 31.6 34.5 30.3 29.1 7.5 3.1 1.7 5.5 7.5 4-11 s • Table 4-4. Summer electrofishing catches, number of species, dissolved oxygen concentrations, and water temperature at five locations on Lake Norman in the vicinity of MSS, July 15, 2003. 2003 Scientific Name Clupeidae Dorosoma cepedianum Cyprinidae Cyprinella chloristia Cyprinella nivea Cyprinus carpio Catostomidae Moxostoma macrolepidotum Ictaluridae Ictalurus punctatus Pylodictis olivaris Centrarchidae Lepomis auritus Lepomis gulosus Lepomis hybrid Lepomis rnacrochirus Lepomis microlophus Microplerus salmoides Pomoxis nigromaculatus Percidac Perca jlavescens Total Number of Individuals CPUE (#/328ft) Total Number of Species Surface Temperature (F) Surface Temperature (C) Dissolved oxygen (mg/L) Location A BCDE (15.5) (14.7) (14.5) (13.0) (19.0) Total Common Name N N N N N N Gizzard shad 3 1 4 0.61 Greenfin shiner 2 2 0.30 Whitefin shiner 2 17 24 43 6.55 Common carp 1 2 2 5 0.76 Shorthead redhorse 1 3 4 0.61 Channel catfish 1 1 0.15 Flathead catfish 1 1 0.15 Redbreast sunfish 8 12 15 1 69 105 16.01 Warmouth 7 7 6 20 3.05 Hybrid sunfish 5 2 3 12 22 3.35 Blucgill 5 128 79 11 157 380 57.93 Redear sunfish 2 7 11 2 8 30 4.57 Largemouth bass 3 17 7 1 8 36 5.49 Black crappie 1 1 0.15 Yellow perch 1 1 2 0.30 22 182 I24 41 287 656 100.00 11.0 91.0 62.0 20.5 143.5 65.6 8 8 7 8 8 14 86.2 84.6 88.9 83.3 82.4 30.1 29.2 31.6 28.5 28.0 7.4 2.8 1.6 6.9 7.6 4-12 • • Table 4-5. Fish numbers, biomass, and numbers of fish species collected during spring electrofishing often 984 ft (300 m) shoreline transects near MSS and a reference location midway between MSS and MNS in Lake Norman, 1993 —1997 and 1999 — 2003. Year Location Catch 1993 1994 1995 1996 1997 1999 2000 2001 2002 2003 Average Marshall Fish Number 1219 1415 866 1416 2253 1421 2496 1946 1157 3277 1747 Biomass (Kg) 106.7 122.0 86.4 176.3 128.4 107.9 84.9 118.9 80.4 387.3 139.9 Species # 16 18 17 19 21 20 16 18 20 24 18.9 Reference Fish Number 2478 759 765 612 1372 998 1314 1951 1776 2349 1437 Biomass (Kg) 120.0 117.1 73.0 108.0 83.9 80.4 89.3 81.1 103.0 115.4 97.1 Species # 17 13 16 14 16 16 15 16 18 24 16.5 • • • Table 4-6. Species composition and number of individuals collected during spring electrofishing of ten 984 ft shoreline transects in the vicinity of the MSS discharge and a reference location midway between MSS and MNS, 1993 --1997 and 1999, and 2000 - 2003. Scientific Name Lepisosteidae Lepisosteus osseus Clupeidae Alosa pseudoharengus Dorosoma cepedianum Dorosoma petenense Salmonidae Oncorhynchus nrykiss Cyprinidae Cyprinella chloristia Cyprinella nivea Cyprinus carpio Notemigonus crysoleucas Notropis hudsonirrs Notropis procne Catostonridae Carpiodes cyprinus Moxostoma macrolepidotunr Ictaluridae Ictalurusfurcatus Ictalurus punctatus Pylodictis olivaris Moronidae Morone anrericana Morone chrysops Morone saxatilis Centrarchidae Lepomis auritus Lepomis gibbosus Lepomis gulosus Lepomis hybrid Leponds macrochirus Lepomis microlophus Micropterus punctulatus Micropterus sahnoides Ponroxis annularis Ponroxis nigromaculatus Percidae Etheostoma fusiforme Etheostoura olnrstedi Percaflavescens Common Name 1993 - 1999 Marshall Reference 2000 - 2003 Marshall Reference N % N % N % N % Longnosegar 2 0.03% 1 0.01% 1 0.01% Alewife Gizzard shad Threadfin shad Rainbow trout 45 0.51% 57 0.77% 81 0.94% 50 0.72% 30 0.34% 94 1.27% 944 10.99% 1524 21.82% 840 9.46% 58 0.78% 2 0.02% 1 0.01% Greenfin shiner 22 0.26% 12 0.17% 50 0.56% 153 2.07% Whitcfin shiner 734 8.54% 586 8.39% 1257 14.16% 1470 19.89% Common carp 157 1.83% 168 2.41% 190 2.14% 51 0.69% Golden shiner 8 0.09% 5 0.07% 4 0.05% 2 0.03% Spottail shiner 410 4.77% 67 0.96% 472 5.32% 561 7.59% Swallowtail shiner 4 0.05% 1 0.01% 1 0.01% Quillback 5 0.06% 6 0.09% 3 0.03% 3 0.04% Shorthead redhorse 2 0.02% 4 0.05% Blue catfish Channel catfish Flathead catfish White perch White bass Striped bass Redbreast sunfish Pumpkinseed Warmouth Hybrid sunfish Bluegill Redear sunfish Spotted bass Largemouth bass White crappie Black crappie Swamp darter Tessellated darter Yellow perch 2 0.02% 8 0.11% 22 0.26% 14 0.20% 37 0.42% 40 0.54% 7 0.08% 4 0.06% 14 0.16% 6 0.08% 8 0.09% 6 0.07% 6 0.07% 103 1.16% 4 0.05% 4 0.06% 2 0.02% 3 0.04% 3 0.03% 2 0.03% 1386 16.14% 1017 14.56% 957 10.78% 1004 13.59% 4 0.05% 63 0.73% 95 1.36% 150 1.69% 118 1.60% 219 2.55% 206 2.95% 213 2.40% 197 2.67% 2731 31.79% 1939 27.76% 3418 38.51% 2622 35.48% 114 1.33% 174 2.49% 468 5.27% 477 6.45% 15 0.17% 12 0.16% 1349 15.70% 911 13.04% 573 6.46% 420 5.68% 3 0.03% 51 0.59% 118 1.69% 1 0.01% 19 0.26% 1 0.01% 1 0.01% 1 0.01% 1 0.01% 3 0.04% 256 2.98% 80 1.15% 17 0.19% 3 0.04% Total Number of Individuals 8590 100% 6984 I00% Total Number of Species 25 21 8876 100% 28 7390 100% 27 4-14 110 o • Table 4-7. Fish health assessment scores for largemouth bass at four Lake Norman locations, 1993 through 2003. Year Location 1993 1994 1996 1998 2000 2003 Uplake (Zone 5) 20 27 nm 22 30 19 MSS Discharge Canal 36 27 24 16 20 30 Midlake (Zone 3) 17 25 nm 20 18 18 MNS Discharge Canal 24 31 38 19 28 25 Average - Entire Catawba River 29.6 27.3 29.3 23.6 23.9 30.3 * nm = not measured e 4.15 • • Table 4-8. Number collected, species composition, and modal length class of forage fish collected from three purse seine samples taken in Lake Norman during late summer - early fall, 1993 — 2003. 1993 1994 1-995 1996 1997 199E 1999 2000 2001 2002 2003 Number collected 13,063 1,619 4,389 4,465 6,711 5,723 5,404 4,265 9,652 10,134 33,660 Species composition (%) Threadfin shad 100 99.94 99.95 100 99.99 99.95 99.26 87.4 76.47 74.96 82.59 Gizzard shad 0 0.06 0.05 0 0.01 0.05 0.26 0.22 0.01 0 0.14 Alewife 0 0 0 0 0 0 0.48 12.37 23.52 25.04 17.27 Threadfin shad modal length class (mm) 31-35 36-40 31-35 41-45 41-45 41-45 36-40 51-55 56-60 41-45 46-50 Table 4-9. Hydroacoustic estimates of forage fish densities and population sizes in each of six Lake Norman zones. Density (##/hectare) Zone 1993* 1994* 1995* 1996 1997 1998 1999 2000 2001 2002 2003 1 34,309 14,340 33,013 25,585 2,971 6171 4,090 4,353 4,752 3,289 4,744 2 45,239 14,186 15,070 14,420 3,520 8646 4,756 6,376 4,264 3,785 7,666 3 51,257 20,409 57,200 46,434 5,793 9237 5,189 5,104 6,241 7,679 4,847 4 44,082 21,638 75,374 29,263 3,105 5552 6,098 4,176 5,236 3,228 4,791 5 73,687 25,8I6 99,845 38,463 11,139 5430 11,368 5,068 11,513 9,363 13,158 6 73,687 25,816 99,845 3,638 1,102 880 3,547 2,589 3,173 9,363 1,800 Population Estimate Zone 1993* 1994* 1995* 1996 1997 1998 1999 2000 2001 2002 2003 1 78,259,000 32,710,000 75,303,000 58,359,000 6,777,000 14,076,000 9,329,000 9,929,000 10,839,000 7,502,000 10,821,000 2 I39,431,000 43,723,000 46,447,000 44,444,000 10,849,000 26,648,000 14,658,000 19,651,000 13,142,000 11,666,000 23,627,000 3 177,120,000 70,524,000 197,656,000 160,454,000 20,018,000 31,919,000 17,931,000 17,637,000 21,566,000 26,535,000 16,749,000 4 54,265,000 26,636,000 92,785,000 36,023,000 3,822,000 6,835,000 7,507,000 5,141,000 6,446,000 3,974,000 5,898,000 5 155,I85,000 54,368,000 210,274,000 81,003,000 23,459,000 11,436,000 23,941,000 10,673,000 24,246,000 24,194,000 27,711,000 6 35,222,000 12,340,000 47,726,000 1,739,000 527,000 421,000 1,695,000 1,238,000 1,5I7,000 ** 860,000 Total 639,482,000 240,301,000 670,191,000 382,022,000 65,451,000 91,333,000 75,062,000 64,269,000 77,756,000 73,871,000 85,666,000 * 1993 thru 1995 data corrected for inclusion of surface oriented fish. ** Drought conditions, and resulting low water levels, prevented collection of data in Zone 6. Zone 5 density data was used for Zone 6 and the surface areas combined. Figure 4-- Covwans ford Hydro Legend Node station Spina E Viactoori5 hoe® L cations f h Health Assess Me nt Lonaticrta Font Snine Lonatet Its Spring electrofishing locations, fish health assessment locations, hydroaeoustic zones, and purse seine locations in Lake Norman, NC. 4-l8 160.0 Lu 120.0 a 80.0 40.0 0.0 A B C E Location Average © 2000 x 2001 © 2002 • 2003 Figure 4-2. Summer electrofishi,ng average catch per unit effort (CPUE, 1994 — 1999) and CPUE during 2000 through 2003 at five sampling locations near MSS in Lake Norman, NC. 4-19 to a • A 450 400 350 300 250 Y 200 150 1993 1994 1995 1996 1997 1999 Year 2000 2001 2002 2003 100 — 50 — -t fil it f 1993 1994 1995 1996 1997 1999 2000 2001 2002 2003 Year ID Marshall ■ Reference Figure 4-3. Spring electrofishing data summary for areas of Lake Norman near MSS and a reference location midway between MSS and MNS. A) Number of fish and B) biomass of fish collected from ten 984 ft shoreline transects in each region. 4-20 • A • 250 - 200 - 50 - 0 0 Threadfin shad • Gizzard Shad la'Alewife 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 Length Group (rum) Figure 4-4. Example forage fish length frequency distribution (combined from three purse seine sampling locations) collected during September 2003 in Lake Norman, NC. 4-21 Michael. A. Ruche Duke Energy Corporation PO Box 1006 Charlotte, NC ittee: Ali NCDENR 06 Michael F. Easley Governor William G. Ross, Jr„ Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P.E., Director Division of Water Quality September 9, 2004 Subject: Renewal Notice NPDES Permit NGD004987 Marshall Steam Station Catawba County Your NPDES permit expires on April 30, 2005, Federal (40 CFR 122.41) and North Carolina 15.A. NC:AC 2Fi0105(e)) regulations require that permit renewal applications must be filed at least 180 days prior to expiration of the current, petsr t. If you have already mailed your renewal application, you may disregard this notice. To satisfy this requirement, your renewal package must be sent to the Division postmarked no later than November 1, 2004. Failure to request renewal by this date may result in a civil assessment of at least $500.00., Larger penalties may be assessed depending upon the delinquency of the request. If any wastewater discharge will occur after April 30, 2005, the current permit must be renewed. Discharge of wastewater without a valid permit would violate North Carolina General Statute 143-215.1; unpermitted discharges of wastewater maybe assessed civil penalties of up to $25,000 per day. If a31 wastewater discharge has ceased at your facility and you wish to rescind this permit, contact me at the telephone number or address listed below. You may also contact the Mooresville Regional. Office at (704) 663-1699 to begin the rescission process. Use the enclosed checklist to complete your renewal package. The checklist identifies the items you must submit with the permit renewal application. If }rau have any questions, please contact me at the telephone number or e-mail address listed below. Sincerely, Charles H. Weaver, Jr. NPDES Unit cc: Central Files Mooresville Regional Office, Water Quality Section NPDES File 1617 Mail Service Center, laleigh, North Carolina 27699-'1617 919 733-5083, extension 511 (lax) 919 733-0719 Visrr us ON THE INTER ET @ hltp:flh2o.enr.state.nc.usJNPDES e-mail, charies.weaver@ncmailnet NPDES Permit NC0004987 Marshall Steam Station Catawba County The following items are REQUIRED for all renewal packages: ❑ A cover letter requesting renewal of the permit and documenting any changes at the facility since issuance of the last permit. Submit one signed original and two copies. ❑ The completed application form (copy attached), signed by the permittee or an Authorized Representative. Submit one signed original and two copies. ❑ If an Authorized Representative (such as a consulting engineer or environmental consultant) prepares the renewal package, written documentation must be provided showing the authority delegated to any such Authorized Representative (see Part II.B.11.b of the existing NPDES permit). ❑ A narrative description of the sludge management plan for the facility. Describe how sludge (or other solids) generated during wastewater treatment are handled and disposed. If your facility has no such plan (or the permitted facility does not generate any solids), explain this in writing. Submit one signed original and two copies. The following items must be submitted by any Municipal or Industrial facilities discharging process wastewater. Industrial facilities classified as Primary Industries (see Appendices A-D to Title 40 of the Code of Federal Regulations, Part 122) and ALL Municipal facilities with a permitted flow > 1.0 MGD must submit a Priority Pollutant Analysis (PPA) in accordance with 40 CFR Part 122.21. The above requirement does NOT apply to privately owned facilities treating 100% domestic wastewater, or facilities which discharge non process wastewater (cooling water, filter backwash, etc.) PLEASE NOTE: Due to a change in fees effective January 1,1999, there is no renewal fee required with your application package. Send the completed renewal package to: Mr. Charles H. Weaver, Jr. NC DENR / Water Quality / NPDES Unit 1617 Mail Service Center Raleigh, NC 27699-1617 . o,vdust Addition to Condenser Subject: Re: Sawdust Addition to Condenser Date: Wed, 14 Jul 2004 14:56:01 -0400 From: Jackie Nowell <jackie.nowell@ncmail.net> To: Ronald E Lewis <relewisl@duke-energy.com> CC: Michael.Parker@ncmail.net, Donna L Burrell <dlburrel@duke-energy.com>, Monte W Neill <mwneill@duke-energy.com>, Dave Goodrich <Dave.Goodrich@ncmail.net> Hello Ron, A review of the submitted data from the sawdust study shows that the addition of sawdust does not cause any increase in the effluent values for TSS or BOD5. Based on that data, effluent monitoring for those two parameters can be discontinued during future addtions of sawdust to the condenser tubes. However, if the quantity of sawdust added should be greater than the highest value of 300 lbs noted in the data, DWQ recommends that the pre and post monitoring for TSS and BODS be reinstated. Please contact me if any additional questions. Jackie Nowell Ronald E Lewis wrote: >Jackie, >Per my phonemail message, I'm forwarding a note following discussion with >Mike Parker concerning our request to discontinue monitoring when sawdust >is added to the CCW system to temporarily plug small tube leaks. After >discussing with Mike Parker this request for Marshall Steam Station, we >determined that since you were involved in the approval of this protocol >for all the Duke Power stations you needed to be contacted to review this >request, . Please review the attached data and determine if monitoring can >be discontinued during this protocol. >If you need more information or wish to discuss further, please call me >(980) 373-5710. Forwarded by Ronald E Lewis/Gen/DukePower on 07/02/2004 10:52 AM Ronald E Lewis To: Michael.Parker@ncmail.net 07/01/2004 02:21 cc: Donna L Burrell/Gen/DukePower@DukePower, Monte W PM Neill/Gen/DukePower@DukePower Subject: Sawdust Addition to Condenser >Mike, >Per my phone mail message, I'm forwarding monitoring results that were >collected when sawdust was used to plug small condenser tube leaks until >repairs could be done during an outage. Currently Unit #1 at Marshall 1 of 2 10/15/04 1:40 PM wdust Addition to Condenser 1 >Steam Station has some small tube leaks. As currently permitted, Duke >plans to add sawdust to the CCW system to plug the small leaks, but would >like to do so without having to do pre and post monitoring, as required >previously. The attached document contains the results of the samples >collected during previous sawdust additions. As you can see, no apparent >significant impact occurred from the sawdust addition to the station >discharge Please advise, if addition of sawdust can proceed without >monitoring. >(See attached file: Sawdust Study.xls) 2 of 2 10/15/04 1:40 PM o Condenser Subject: Sawdust Addition to Condenser Date: Thu, 1 Jul 2004 14:21:18 -0400 From: Ronald E Lewis <relewisl @duke-energy.com> To: Michael.Parker@ncmail.net CC: Donna L Burrell <dlburrel@duke-energy.com>, Monte W Neill <mwneill@duke-energy.com> Mike, Per my phone mail message, I'm forwarding monitoring results that were collected when sawdust was used to plug small condenser tube leaks until repairs could be done during an outage. Currently Unit #1 at Marshall Steam Station has some small tube leaks. As currently permitted, Duke plans to add sawdust to the CCW system to plug the small leaks, but would like to do so without having to do pre and post monitoring, as required previously. The attached document contains the results of the samples collected during previous sawdust additions. As you can see, no apparent significant impact occurred from the sawdust addition to the station discharge Please advise, if addition of sawdust can proceed without monitoring. (See attached file: Sawdust Study.xls) iSawdust Study.xls Name: Sawdust Study.xls Type: EXCEL File (application/msexcel Encoding: base64 1 of 1 7/13/04 8:53 AM raliSteam Station Condenser Tube Leaks Sawdust Study Date quantity of sawdust added samples collected TSS (pre) TSS (post) BOD (pre) BOD (post) 7/19/00 yes < 4.0 mg/I < 2.0 mgll 7/20/00 200 lbs. yes 5.0 mgll < 2.0 mgll 7/20/00 25 Ibs. no 7/31/00 yes < 2.0 mgll 813/00 50 lbs. yes < 4.0 mg/1 < 4.0 mg/I 3.3 mg/I 2.1 mgll 814/00 50 Ibs. no 817100 150 lbs. yes < 4.0 mg/I 4.0 mg/I < 2.0 mg/I < 2.0 mgll 8/8/00 150 lbs. yes < 4.0 mg/I < 4.0 mg/I < 2.0 mg/I < 2.0 mg/I 8/10100 300 lbs. yes < 4.0 mgll < 4.0 mg/I 6.8 mg/I 9.6 mg/I 9/18/00 300 lbs. yes 4.0 mgll 4.0 mgll < 2.2 mgll < 2.2 mg/I 9/21/00 300 lbs. yes 4.0 mg/I 4.0 mg/1 <_2.2 mg/I < 2.2 mgll 9127/00 300 lbs. yes 6.0 mgll 6.0 mgll < 2.0 mgll 4.1 mg/1 9/28/00 300 lbs. yes 9.0 mgll 4.0 mg/I 8.3 mgll < 2.3 mgll 9/30/00 300 lbs. yes < 4.0 mgll 4.0 mg/I < 2.7 mg/1 < 2.7 mg/1 4/16/01 yes < 4.0 mg/1 < 4.0 mgll 2.4 mgll < 2.4 mg/1 4/19101 yes < 4.0 mg/1 4.0 mg/I < 2.6 mgll < 2.6 mg/1 6/14101 yes 4.0 mg/I 4.0 mg/I 5.5 mgll 4.4 mgll 8/3101 yes < 4.0 mg/1 4.0 mg/I < 2.0 mgll < 2.0 mgll 8/13/01 yes < 4.0 mg/I < 4.0 mg/I 4.9 mg/I < 2.0 mgll 8116/01 yes < 4.0 mgll 4.0 mgll < 2.0 mgll < 2.0 mgll 8121/01 yes 5.0 mg/I 4.0 mg/I 12 mg/I 11 mg/I 8/27101 yes 4.0 mg/I 4.0 mgll 12.0 mgll < 2.3 mgll 912/01 yes 7.0 mg/I 4.0 mg/1 < 2.1 mgll < 2.1 mg/I 9/6/01 yes 4.0 mgll 6.0 mg/1 3.4 mg/I 3.5 mg/I 9/16/01 yes 4.0 mgll 4.0 mg/I 7.2 mgll 4.5 mgll Duke /Power. A Duke Energy Company November 24, 2003 To: Mark McIntire North Carolina Department of Environment. and Natural Resources Division of Water Quality 1617 Mail Service Center Raleigh, North Carolina 27699-1617 Subject: Marshall Steam Station Proposed Modification to NPDES Permit No. NC0004987 Dear Mr. McIntire: FOSSIL -HYDRO GENERATION ' Duke Power EC11 E / 526 South Church Street Charlotte, NC 28202-1802 NC DEPT. OF ENVIRONMENT - AD t4ATt j RESOURCES 'A l�iESVILLE FIEGIONALOFFICE CEID 1 W0V 2 5 2003 SECTION With reference to the proposed subject NPDES permit modification, Duke Energy Corporation (Duke) offers the following comments. The modified NPDES permit includes weekly monitoring for the influent and effluent of the new internal waste water treatment system (WWTS) and also weekly monitoring at the current WWTS (outfall 002) for several new parameters. Duke requests that the monitoring frequency be revised from weekly to monthly for the new identified NPDES parameters and also that the monitoring requirements for the influent to the new WWTS be eliminated. Duke plans to install a constructed wetland waste water treatment system in order to treat the flue gas desulfurization (FGD) waste water. The pilot study being conducted at Clemson University indicates that this treatment system will sufficiently remove targeted pollutants. Additionally, once the new WWTS is installed and in operation, Duke plans to conduct in -process monitoring in order to ensure that the system is operating as designed. This monitoring will focus on several of the parameters that are identified in the proposed NPDES permit, in addition to other performance parameters as determined by the system designer. Additional comments on the subject permit are as follows: 1. It is requested that page numbers be included. 2. It is requested that the page for outfall 004 follow the page for outfall 003. 3. Under the "NOTES" for outfall 004 it is requested that a statement be inserted that the submittal of monthly DMRs is only required once the FGD system begins operation. This will reduce the paper work until the operation begins. www.dukepower.com 4. On the page entitled "3. Effluent Limitations and Monitoring Requirements Outfall 002", in the first paragraph it states that outfall 002 is an "internal" outfall. This outfall is actually a "final" outfall. Therefore, it is requested that "internal" be replaced with the word "final". 5. Under Part I. item 7., the word "flue" is misspelled. 6. Under Part I. item 11., the wording used in other NPDES permits provides further clarification on when the Biocide Worksheet 101 is not required. The current wording in other NPDES permits states," Completion of Biocide Worksheet Form 101 is not necessary for those outfalls containing toxicity testing. Division approval is not necessary for the introduction of a new biocide into an outfall currently being tested for toxicity." It is requested that this wording be included in the NPDES permit for Marshall Steam Station. 7. Under Part I. item 13., "Buck Steam Station is referenced instead of "Marshall Steam Station". It is requested that the reference be changed to "Marshall Steam Station". 8. Under Part I. item 16. (7), the word "Minimum" should actually be changed to "Maximum". This restricts the chemical cleaning from being diluted and suspending the metals during a chemical metals cleaning. 9. In Parts II and IV references are made to municipalities. This new wording does not apply to Marshall Steam Station since it is not considered a municipality. In order to minimize some potential misinterpretations, it is Duke preference that the paragraphs that refer to municipalities be deleted. Duke appreciates the opportunity to review and provide comments on this proposed permit modification. We will be glad to meet and discuss any items that you would like to discuss further. If you need additional information or have any questions please contact Robert Wylie at (704) 382-4669. Sincerely, Michael A. Ruhe, Manager Environmental Support cc: Ms. Karrie-Jo Robinson -Shell - USEPA Region IV Mr. Michael Parker — NCDENR Mooresville Regional Office Michael F. Easley, Governot William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P. E. Director Division of Water Quality Colecn H. Sullins, Deputy Director Division of Water Quality November 10, 2003 Mr. Michael Ruhe, Manager Water Protection Duke Energy Corporation PO Box 1006 (EC11E) Charlotte, North Carolina 28201-1006 Subject: Compliance Biomonitoring Inspection Duke Power Marshall Steam Station NPDES Permit No. NC004987 Catawba County, NC Dear Mr. Ruhe: Enclosed is a copy of the Compliance Biomonitoring Inspection Report for the inspection conducted at the subject facility on October 24, 2003 by John Lesley of this Office. Effluent Samples were collected on October 21 and 24, 2003 by Division staff for use in a chronic toxicity test. The test utilizing these samples resulted in a pass. • ; The report should be self-explanatory; however, should you have any questions concerning this report, please do not hesitate to contact Mr. Lesley or me at (704) 663-1699. Sincerely, . Rex Gleason, P.E. Water Quality Regional Supervisor Enclosure cc: Central Files Kevin Bowden, Aquatic Toxicology Unit Catawba County Health Department NorthCarolina # Naturally ,ICDEr2 N. C. Division of Water Quality, Mooresville Regional Office, 919 North Main Street, Mooresville NC 28115 (704) 663-1699 Customer Service 1477-623-6748 #0A4( pRarE United States Environmental Protection Agency, Washington , DC 20460 NPDES Compliance Inspection Report A� North Carolina Department of Environment and Natural Resources Division of Water Quality, Mooresville Regional Office NCDENR Form Approved OMB No. 2040-0003 Approval Expires 7/31/85 Section A: National Data System Coding Transaction Code NPDES Permit No. YR/MO/DAY Inspection Type Inspector Facility Type N 5 NC0004987 03/10/24 B S 2 Inspection Work Days Facility Self -Monitoring Program Evaluation Rating BI QA Reserved 2 4 D N Section B: Facility Data Name and Location of Facility Inspected: Duke Power Marshall Stearn Station Highway 150, Terrell Catawba County, North Carolina Entry Time: 11:00 Exit Time: 12:00 Date: 03/10/24 Permit Effective Date: August 1, 2001 Permit Expiration Date: April 30, 2005 Name(s) On Representatives Title(s) Phone No(s): of -Site Donna Burrell / ORC / 828-478-212I Name and Address of Responsible Official: Mr. Michael Ruhe Duke Energy Corporation Post Office Box 1006 (EC11E) Charlotte, North Carolina 28201-1006 Title:. Manager Water Protection Phone No. 704-373-3231 Contacted? No Section C: Areas Evaluated -During Inspection ❑ ❑ ❑ • Permit Records/Reports Facility Site Review Effluent/Receiving Waters ❑ • ❑ ❑ Flow Measurement Self -Monitoring Program Compliance Schedules Laboratory ❑ • ■ ❑ Operations & Maintenance Sludge Handling/Disposal Pretreatment Program Stormwater ❑ Sewer Overflow ■ Pollution Prevention ' • Multimedia 0 Other: Toxicity Test Section D: Summary of Findings/Comments See Attached Sheet(s) for Summary Signature(s) of Ins ector }. ..--- John Les Agency/Office/Telephone: DENR-DWQ/MRO/(704) 663-1699 FAX: (704) 663-6040 Date: November 7, 2003 Signature of Reviewer: Agency/Office Date: Regulatory Office Use Only Action Taken Date: Noncompliance Compliance orm 3560-3 (Revised 3-85) Previous Editions are Obsolete Duke Power Marshall Steam Station NPDES Permit No. NC0004987 Page 2 Whole effluent samples were collected on October 21 and 24, 2003 by John Lesley for use in a chronic Ceriodaphnia dubia pass/fail toxicity test. Duke Power Marshall Steam Station has an effluent discharge permitted at 5.3 MGD entering Lake Norman - Holdsclaw Creek (7Q10 of 60.0 CFS). The test using these samples resulted in a pass. Toxicity test information follows: Test Type Test Concentration Test Result Control Survival Control Mean Reproduction Test Treatment Survival Treatment Mean Reproduction First Sample pH First Sample Conductivity First Sample Total Residual Chlorine Second Sample pH Second Sample Conductivity Second Sample Total Residual Chlorine 3-Brood Ceriodaphnia dubia pass/fail 12% sample Pass 91.7% 22.7 neonates 100% 22.2 neonates 6.90 SU 176 micromhos/cm <0.0052 mg/1 6.60 SU 175 micrornhos/cm <0.0052 mg/1 Test results for these samples indicate that the effluent would not be predicted to have water quality impacts on the receiving stream. i11r1ihac%l..lctl°te., vlutauct Duke 1'owwer— Environmental Support P,(.), Box 1006 :hurl atte. North Ca.roiittt C8 (sl-10 6 Ruhe Michael F. Easley Governor North Carolina. Department of or vi iori i f toter Quality NAY A NPl)ix,S Permit; Modification Request Permit NC0004987 i<ut°shall Steam Station \iecklenburg County iota received -oar permit rt oditication request and h6O.00 kee iaaicl :iv check, #0()01004156) on ,Mr. Mark \lclntire of fort, "on is needed about this prof Please note that the NPDES Un since the first quarter of 1,998. Our workloads. While we do not expec one of many that N[r. McIntire ,is currently e NPDES Unit will review your reel If voau have stag' xadditional questions concert 7 33-5083, extension Cc: Ce:nrra{l NPDES Unit Mooresville Rc ic;tnal f.-)fficc/ ll'%sate N. C. Division of Water Quality, 1 NPDES Unit 1617 Ma Service Center: Raleigh: NC 27699-1617 Internet: h2o.enr.state,nc.us uest and will contact you if further acant positic ns; the l ya'x t has not been Kish} staffed permit writers are currently carrying extremely heavy itu handling your request, he aware that your application is subject applicatiotn, ple; Phone: (919) 733-5083, extension 538 Fax: (919) 733-0719 e mail. christie.gackson4ncnail,net t (919) pir Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Deparrnent of Environment and Natural Resources Alan W. Klimek, PM., Director Division of Water Quality November 13, 2002 Mr. Michael Ruhe Duke Power Company 13339 Hagers Ferry Road MGO3A5 Huntersville, North Carolina 28078-7929 Subject: Compliance Biomonitoring Inspection Duke Power Marshall Steam Station WWTP NPDES Permit No. NC0004987 Catawba County, NC Dear Mr. Ruhe: Enclosed is a copy of the Compliance Biomonitoringilnspection Report for the inspection conducted at the subject facility on November 12, 2002 by Mr. John Lesley of this Office. Please inform the facility's Operator -in -Responsible Charge of our findings by forwarding a copy of the enclosed report_ A grab sample was obtained from the ash basin discharge on November 12, 2002 by Division staff for use in a chronic Ceriodaphnia dubia pass/fail toxicity test. Toxicity test results will be forwarded under separate cover when available. The report should be self-explanatory; however, should you have any questions concerning this report, please do not hesitate to contact Mr. Lesley or me at (704) 663-1699. Sincerely, D. Rex Gleason, P.E. Water Quality Regional Supervisor Enclosure cc: Central Files Catawba County Health Department JL NCDENR N. C. Division of Water Duality 919 North Main Street, Mooresville NC 28115 Phone (704) 663-1699 FAX ,(704) 663-6040 Jai S 1) T elk W United States Environmental Protection Agency, Washington , DC 20460 Aryl!NPDES Compliance Inspection Report __ North Carolina Department of Environment and Natural Resources NCDENR mast- Division of Water Quality, Mooresville Regional Office a , Dawm•Err o Exons.an *wow. Form Approve OMB No. 2040-000 Approval Expires 7/31/85 Section A: ' National Data System Coding Transaction Code NPDES Permit No. YR/MO/DAY Inspection Type Inspector Facility Type N 5 NC0004987 02/11/12 B S 2 Inspection Work Days Facility Self -Monitoring Evaluation Rating BI QA ...........Reserved 2 4 N N Section B: Facility Data Name and Location of Facility Inspected: Duke Power Marshall Steam Station Hwy 150, east of Terrell Catawba County, North Carolina Entry Time: 10:10 Exit Time: 11:00 Date: 02/11/12 Permit Effective Date: August I, 2001 Permit Expiration Date: April 30, 2005 Name(s) of On Representatives Phone No(s): -Site -Title(s) Donna Burrell/ORC/828-478-2121 Name and Address of Responsible Official: Mr. Michael Ruhe Duke Power Company 13339 Hagers Ferry Road Huntersville, North Carolina 28078-7929 Title: Manager Water Compliance Phone No. 704-875-596I Contacted? No Section C: Areas Evaluated During Inspection f l ® Ki ® Permit Records/Reports Facility Site Review Effluent/Receiving Waters / l ❑ .0 Flow Measurement Self -Monitoring Program CompIiance Schedules Laboratory ® ❑ ❑ 111 Operations & Maintenance El Sewer Overflow Sludge Handling/Disposal ❑ Pollution Prevention Pretreatment Program ❑ Multimedia Stormwater ❑ Other: toxicity * Section-D:.Summary of Findings/Comments See Attached Sheet(s) for Summary * Aquatic toxicity test -results will be forwarded under separate cover when available. Signature(s) of Insp r(s): Agency/Office/Telephone: DENR-DW /MRO/ 704 663-1699 FAX: (704)663-6040 Q ( ) Date: November mb r 13, 2002 John Lesle L..-" Signature of Reviewer: Agency/Office Date: Regulatory Office Use Only Action Taken Date: Noncompliance Compliance EPA Form 3560-3 (Revised 3-85) Previous Editions are Obsolete Duke Power Marshall Steam Station NPDES Permit No. NC0004987 Page 2 John Lesley last inspected the facility on June 15, 2001. Permit: The permitted facility is as described in the NPDES Permit. No deficiencies were found. Facility Site Review/Operation and Maintenance: The facility discharges from the following locations: Outfall 001 Once through non -contact cooling water, intake screen backwash Outfall 002 Metal cleaning wastes, coal pile runoff, ash transport water, domestic wastewater, and Iow volume wastes from the ash -settling basin. Outfall 002A and 002B Yard sump overflows Outfall 003 Non -contact cooling water from the induced draft fan control house — discharges to Lake Norman through outfall 001. The facility appeared to be well managed and maintained. The ORC and backup operators have the proper certification for the operation of the facility. Biocides are not added to the non -contact cooling water. Records and Reports: All records were up-to-date and available for inspection. Records and reports consist of instrument calibration logs, ORC log, monthly monitoring reports, flow records, chain -of -custody forms, and sample analysis reports. Self -Monitoring Program: Monthly monitoring reports were reviewed for the period September 2001 through August 2002. No violations were reported during the period. Grab samples are collected and shipped on ice in accordance with permit conditions. Laboratory: The facility staff measures pH and temperature. Field parameter certification has been obtained (Certificate No. 5155, expires 12/31/02). Toxicity testing is performed by Environmental Testing Solutions. The Duke Power Environmental Services Laboratory conducts all other analyses. Flow Measurement: Flow is measured by means of pump log data at outfall 00I and a staff gauge located at outfall 002. Effluent/Receiving Waters: No impact was observed on the receiving waters by the discharges from outfall 001 and 002. Sludge Disposal: Ash is disposed of in accordance with Ash Reuse Permit No. WQ000045. Michael F. Easley Governor William G. Ross, Jr., Secretary Department of Environment and Natural Resources Gregory J. Thorpe, Ph.D., Acting Director Division of Water Quality April 30, 2002 Ms. Kathryn Tronsberg Senior Manager, Financial Advisory Services Group Deloitte & Touche, LLP Valuation Group 2500 PPG Place Pittsburgh, Pennsylvania 15222-5401 SUBJECT: Tax Certification No. TCS-MV-107 Wastewater Treatment Facilities Duke Power Marshall Steam Station NPDES No.NC0004987 Catawba County, North Carolina Dear Ms. Tronsberg: Attached are two(2) copies of Tax Certification Number TCS- MV-107 covering the operation of wastewater treatment facilities as specified in the subject NPDES Permit issued by the North Carolina Environmental Management Commission. The Company may use this Certification to obtain tax benefits in keeping with the appropriate Statutes. Sincerely, 11 D. Rex Gleason Water Quality Regional Supervisor Attachment cc: Catawba County Health Department arZi NCDENR Customer Service 1 80D 623-7748 Division of Water Quality 919 North Main Street Mooresville, NC 28115 Phone (704) 663-1699 Fax (704) 663-6040 OFAr&-9 QG Michael F. Easley Governor William G. Ross, Jr., Secretary Department of Environment and Natural Resources Gregory J. Thorpe, Ph.D., Acting Director Division of Water Quality Mr. John C. Bailey, Director - Property Tax Division Department of Revenue P.O. Box 871 Raleigh, North Carolina 27604 Subject: Dear Mr. Bailey: April 30, 2002 Tax Certification No. TCS-MV-107 Wastewater Treatment/ Abatement Facilities Duke Power Marshall Steam Station NPDES No.NC0004987 Catawba County, NC Attached is Tax Certification No. TCS-MV-107 covering the operation of wastewater treatment facilities as specified in the permit application and subject NPDES Permit issued by the North Carolina Environmental Management Commission. Duke Power may use this Certification in keeping with the appropriate Statutes. of these treatment facilities is available Carolina Division of Water Quality. Customer Service 1 800 623-7748 Sincerely, to obtain tax benefits A detailed description in the files of North D. Rex Gleason, P.E. Water Quality Regional Supervisor Division of Water Quality 919 North Main Street Mooresville, NC 28115 Phone (704) 663-1699 Fax (704) 663-6040 DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES ' RALEIGH TAX CERTIFICATION (Franchise/privilege; Amortization; Property) In accordance with the provisions of the General Statutes of North Carolina (G. S. 105-122(d), 105-130.10, 105-147(13), 105- 275(8)), this is to certify that: Duke Power Marshall Steam Station Catawba County HAS BEEN ISSUED NPDES Permit No. NC0004987 for the discharge from and the operation of wastewater treatment facilities consisting of the Following: 1-Ash basin system 2-Bottom & fly ash collection & sluicing system 3-Ash basin process wastewater sump system 4-Sanitary waste system connected to the ash basin 5-Pumps, piping and controls pertinent to the listed facilities The wastewater treatment facilities are located at Duke Power Company's Marshall Steam Station in Terrell, Catawba County. Treated effluent is discharged into the Catawba River Basin. The Environmental Management Commission and the Department of Environment and Natural Resources have found the treatment facilities: a. Have been constructed or installed; b. Comply with the requirements of the Commission; c. Are being effectively operated in accordance with the terms and conditions of the Permit, Certification of Page Two Duke Power Tax Certification Approval, or other document of approval issued by the Commission; and d. Have as their primary rather than incidental purpose the reduction of water pollution resulting from the discharge of wastewater. Issued at Mooresville, North Carolina this the 30th day of April, 2002 by the directive of the North Carolina Environmental Management Commission and the North Carolina Department of Environment and Natural Resources. , D. Rex Gleason, P.E. Water Quality Regional Supervisor Mooresville Regional Office TCS-MV-107 Duke Energy March 19, 2002 Mr. Rex Gleason Water Quality Supervisor. Department of Environment and Natural Resources Mooresville Regional. Office Division of Water Quality 919 North Main Street Mooresville,. NC 28115 Duke Energy (: rporatk r� 5400 Westheiwrrer Court EO. lux 1642 Housarn, TX 77251-1642 MAR 2 0 2002 14C DEP i air' ~ 'I T olE iT Al 'to rdATIRAL RESOUCCES WaOREVVILLE REGtO 4, L OFFICE Subject: Marshall Steam Station, Catawba County NPDES Permit. No. NC0004987 Request for Tax Exemption Certification of Qualifying Water Pollution Control Equipment for Duke Energy Corporation d/b/a :Duke Power Company Dear- Mr, Gleason: Pursuant to North Carolina General Statute 105-275(8), please find enclosed three (3) copies of an application .letter requesting tax exemption certification for qualifying water pollution control equipment at Duke Energy Corporation's d/b/a Duke Power Company, Marshall :Steam Station (the "Plant"), located in Terrell, Catawba County, North Carolina. Submission of these letters is required as a process step in the State of North. Carolina Department of Revenue's pollution control certification process for tax exemption of certain assets used in water pollution control capacities within the Plant. Please see the enclosed letter for a list of qualifying water pollution control equipment being submitted for tax exemption certification. If you have any questions regarding, this request for tax exemption certification, please contact me at (713) 989-3296 or Ms. Kathryn q°ror sberg of Deloitte & Touche at (412) 3.38-7822. Very truly yours, Kelly J. Voelkel, C:MI Director, Property Tax, Division Enclosures cc: Samar Bou-Crlrazale John .Mease Gary Taylor Jeff Binkley Kathryn Tronsberg (DENR Division of Water Quality) (Duke Energy - Charlotte) (Duke Power - Marshall Steam. Station) (Deloiitte & Touche - Atlanta) (Deloitte & Touche - Pittsburgh