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Home My WebLink AboutNC0038377_Re-issurance Applicatin_20060928To Progress Energy File: 12520 B -1 SEP 2 5 2006 Mr. Gil Vinzani, PE North Carolina Department of Environment and Natural Resources Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699 -1617 2 C 2� W E Subject: CP &L d/b /a Progress Energy Carolinas, Inc. D L� l5 V Mayo Electric Generating Plant SP 2 8 ZOQ6 NPDES Permit No. NCO038377 Re- issuance Application Dear Mr. Vmzani: ounrnt,c YYAItK rKUItI:IIUN SECTION The current NPDES permit for Mayo Electric Generating Plant located in Person County expires on March 31, 2007. Progress Energy hereby requests that the NPDES permit for the facility be reissued. Enclosed are EPA Application Form 1 — General Information, EPA Application Form 2C — Wastewater Discharge Information, and EPA Application Form 2F — Stormwater Discharges Associated with Industrial Activity, all in triplicate. If there are any questions regarding the enclosed information, please contact Steve Cahoon at (919) 546 -7457. I certify, under penalty of law, that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Sincerely, La4E. Hatcher- Manager Mayo Electric Generating Plant Attachments Progress Energy Carolinas, Inc. Mayo Steam Plant 10660 Boston Road Roxboro, NC 27574 rca ',}'" F;' y 1 '" 5 "Vol " b. ® "�� ,��,y r}e,'7,. 1"11 4.`L=h: ^E'gy `Ir }�,��s- � --'k �ti�"" 4 � m A a k °��; �["$1""rLdbS� i' }=4 i, �t,z��` :C 1F,, ° r `u Ma o'CreeC `aA may' 'r � , €�",° ' ' ` "sgpry4Aa ' a r�ir a -i-a.} , t - e� �ca.��f ^ 4UV""R se y; '� Syr 'r t' t °e' r17- tls��;pN yxro a+ bar �{ "u} a9a�"I�j "a a�'a -.�iz•Gn.rupb',�i'y , D ;� Outfa��., roc �w as�e�, y�1— Ir �u iG as � drf� 1 fur y - I - f € �„ b Pit, it } _ d "g UN: 3a1: � ¢'4i, '� /,� X02 P1,91 "§jb�UC9S'"l:rtr'4l' .w,� � �h"uGM[�, k `��: =, / �-�� ,`� 1� a� ;ry � �'•:,,,��rhr!!lly � +r, akr Welt lip ', M ri r- ' ` >'""'f^I - 4!.',��"rti ^ -.", 4''In• �x ,: rte. -rg ad�x 7mrt myn,k'ra " `; �``., ', fi, �"�" �'r� � F A d�,l ;, � � ,>•-�, h + "'.�_`�-"'� ' =, ASh _ _ -s._:y -• �`. �`T� r,�y�^".o'ma rj�c4;7r fr �, #' E S o Plant: TIT 3'r ; s; Ounall 0 R} g _ ' �� "i= .r4'�rF wS�'1-' � 'r'S' %��`+��'""�%��^it�''r~,�" 7`� °• §j.a " =/v t _7N.6 ��` "•' ;;u'_��:.� 's` 1512.E „, `�_ ' '� �rs.�r=au�• 'I�i t ° ° = ' �, �'� Is, '�, e "EYGGG G f r N +_ s�a� boats its , r , V�n u�rs.�#all�� NOXI �� rama "pi' s� au� P s 1 , r,%,°v,=�tl,'u�'IYd.' y_."r r ,y ",r 'i,- Fscp�i0. viar� '• fi,3N( v. �1 $rv'�T'r`tY y3:.I: �✓� Y;sryyGAa' -:. r:r *3 Yx,G';,i}, at f 32 t��}$1 ¢"" `mEw" -x��K 4^t n 'j11Fgs",arY'y;^ -.r1 _'S ., k°Fr .2 u`' .i �.d•''Si' '"�J;= ,@+,,F, � r. �! : �.� �'• 3'�' •'rMz z�r,p 1 t +'. 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G�,�'�;t�•w,� �f— + k�'��m ^ -�».� 3 ,�'ti'�ornw s�nipvr� 2 -_�', a ° � p „L� r `N .� n wM,te 4n`t� ^ ��_�a' 4�}4�a��/"�'�I,r � §. � •w -"i'R_ ,ZV , � >q^ �7 - � e . _ a.15, 0 _ `x_49 Mayo Steam ? t; �T kN " _ Electnc Plant �� j E �.r rr»: 4N1 r>umi<1 <, 3sE V�9'n"'.r.wl° is Y P"i c=xc 4' X,Lii &,pater, on«w?y�, NORTH a� „ �ARQI IN r �4,'�i'''n" a ;r, ylFi7w,6V'�nlc'f�e k+�..A. Fw "��nhfifira.cr,`r `7 f„onmva`:m4. mui Enclosure 2 Form 1 — Item XI Carolma -Power and Light Company Mayo Electric Generating Plant Person County, N C Page 2 of 2 September 2006 § o{ a{ Go *, \\ - - kt CD c�E = E ) \=3 coC §c U) U) U (5 ® \\ cu E 04 E U) m /° 22 »/\ ,m0 7 /] /£ &> \ / / co m D & 5 = _ » 2 ) / n - u = co b \ /4 n. U') ( E [ E k f c i= f7� ( \ 2\ CM 0c = z $ -0 2 o o 2 §7 2c f um \U- N CD AL- ./ o :3 N '_ F / 0 - E c Wit. § 0 E 0 - E c 2 m = \ k = \� } Cl) \ q = , / AL c CD co k k d § c 3. / 5t \ /� k / \ \ $ / \ c -- } 1 /X / ,u ) ¢ 9 c - Progress Energy Carolinas, Inc. Mayo Electric Generating Plant National Pollutant Discharge Elimination System Permit Number'NC0038377 Attachment 2 Form 2C - Item II -A Flows, Sources of Pollution, and'Treatment Technologies Stream Estimated Average Flow Comments 1 14 MGD Make up water-from Mayo Reservoir 2 13 7 MGD Cooling Tower make up Maximum rate is 23 7 MGD 3 0 36 MGD Raw Water treatment 4 0 002 MGD Sewage treatment plant 5 0 -00175 MGD Raw water treatment backwash 6 0 36 MGD Treated water to water storage 7 300 GPM (Max- rate) Oily waste (infrequent) to ash,pond 8 1 5 MGD Low volume waste to ash pond 9 0 05 MGD at start up Boiler blowdown to ash pond Cooling Tower basin drain to Mayo 10 2 MG /event 1 /yr Reservoir 11 9 MGD Evaporation from Cooling Tower 12 5 MGD Ash Transport 13 Variable as needed Intermittent blowdown of circulating (blowdown) water from heat- exchangers 14 8 5 MGD (recirculating flow) Heat,exchanger (primaryrr"oute) 15 0 0135 MGD (annual daily Coal pile Runoff average) 16 7 3 MGD Ash Pond discharge to Mayo Reservoir, 17 Variable as needed 'Secondary containment for anhydrous ammonia tanks 18 2 -1 MGD During Cooling Heat exchanger (secondary route) Tower out of service 19 0 253,MGD FGD Blowdown Progress EnergyiCarolinas, Inc. Mayo Electric Generating Plant National Pollutant Discharge Elimination Svstem,Permit Number NCO038377 Attachment 3 Form 2C - Item II -B Flows, Sources of Pollution, and Treatment Technologies, The Mayo Electric Generating Plant is a coal -fired electric generating plant with one unit rated at a maximum dependable capacity of 745 mw The plant, is located in Person County, North Carolina and uses No 2 fuel oil for start up and stabilization of the boiler flame Water is withdrawn from the Mayo Reservoir as'required to make up evaporative losses from the cooling tower, boiler water ,and drinking water needs Makeup pumping rates from the reservoir are highly variable depending_ upon natural weather conditions, generation load, plant operations, and evaporative loss Chemical constituents contained in the discharges from this facility will, in part, be representative of the naturally occurring chemical quality of the intake water, The discharges will also have chemical constituents of such quality and quantity associated with similar discharges for fossil generating facilities of this size, type, and in this geographical location 'Either all or part of the elements enumerated in the Periodic Table, either singularly or in any combination, may 'from time to time be contained in this discharge More detailed descriptions of the individual discharges described below OUTFALL 001 - COOLING TOWER SYSTEM Approximately once per ,year the cooling tower basin, and circulating Water system is drained by gravity (the majority of the water drains to the ash pond) approximately 2 MG is drained to the reservoir to dewater the system for ,maintenance That discharge is monitored and, reported to the state through the monthly Discharge Monitoring Report,(DMR) OUTFALL 002 —ASH POND TREATMENT SYSTEM The ash pond receives ash transport water, coal pile runoff, storm water, cooling tower blowdown, and various low volume wastes such as boiler blowdown, oily waste treatment, wastes /backwash Water from water treatment processes, plant area wash down water, and equipment heat exchanger water The sewage ,treatment plant also discharges, to the ash pond 'The ash pond provides treatment 'by sedimentation, oxidation, neutralization, equalization, and adsorption A standpipe allows for overflow release to a small secondary= settling basin for release into Mayo Reservoir Due to alga blooms, the pH of ash pond discharge canal is adjusted at the standpipe as needed Ash Transport Water — Water for sluicing fly ash and bottom ash to the ash pond is withdrawn from the closed circulating water system Some fly ash is handled dry by a pneumati'c,system and is transported off site The water in the closed ,circulating water system "is treated with a dispersant for protection of the cooling tower fill Coal Pile Runoff — The coal pile runoff is routed to the ash pond, Flow volumes are related to rainfall frequency and intensity The annual daily average flow presented previously is based on a coal pile area of 5 acres, an annual average rainfall of 44 inches and a runoff coefficient of 1 0 Cooling Tower Blowdown — Normally, ash transport water withdrawal from the closed circulating water system is sufficient to control total dissolved solids (TDS) in the cooling water During periods of maintenance, some molybdate waste from the closed cooling water system is routed to the ash pond Also during periods of maintenance, the cooling tower basin is drained to the reservoir Progress Energy Carolinas, Inc. Mayo Electric Generating Plant National Pollutant Discharge, Ell imination System Permit Number NC0038377 Low Volume Wastes — Oily Wastes — Drains containing oily wastes or water are routed to the oily waste basin The discharge from the oily waste basin is routed through the oil—water separator where the oil is removed and contained The treated water is then discharged to the ash pond The fuel oil storage tank is in a containment area with a valved drain The drain is routed to `the oily waste basin Boiler Blowdown — Boiler make -up water is withdrawn from the lake, treated by various processes and stored in tanks until needed The boiler water is treated with ammonia continuously when the boilers are in service Sodium hydroxide is used when needed during abnormal conditions Boiler blowdown is routed to the ash pond via the low - volume waste conveyance Water Treatment Wastes. — Water is withdrawn from the lake and is treated by clarification, sand ,filtration, carbon filtration, and demineralization Various wastes such as ,filter backwash, and spent regeneration chemicals such as sulfuric acid and sodium hydroxide are routed to the, ash pond via the low volume waste conveyance Miscellaneous — Other miscellaneous sources such as wash down water, water from various plant drains, secondary containment drains, laundry activity and temporary hand washing stations are routed `to the ash pond via the low volume waste conveyance Miscellaneous equipment heat exchanger water can be routed to the ash pond via the alternate cooling tower blowdown line if needed The air preheaters are water washed infrequently Then the air preheaters wastewater is discharged to thejash pond Sewage Treatment Plant (STP) — Sanitary wastes are treated on -site by an extended aeration treatment plant The plant is designed'for 0 Of25 MGD and consists of a screen, comminuter, surge tank, aeration tank, clarifier, chlorine contact chamber, and a sludge holding tank Flow from the system is dependent upon fluctuating demand due to variations in the number of personnel on site When needed, residuals are disposed of off -site by a licensed contract disposal firm The STP is routed to the ash pond via the alternate cooling tower blowdown line Flue Gas Desulfurization Blowdown — The Flue Gas Desulfurization (FGD) system directs flue gas into an absorber where a limestone (calcium carbonate) slurry is sprayed Sulfur dioxide in "the flue gas reacts with the limestone slurry to produce calcium sulfate (gypsum) This system reclaims any unreacted limestone slurry to be "reused in the absorber A small blowdown stream is used to maintain the chloride concentration in the reaction tank The blowdown stream will be discharged to a gypsum settling pond where suspended solids will be reduced prior to entering a bioreactor The bioreactor utilizes microbes to reduce soluble contaminants to insoluble forms that then precipitate from solution The treated wastewater will enter the ash pond secondary settling pond prior to outfall 002 Storm water from Limestone and Gypsum Piles, —Storm water that'falls on the limestone and gypsum storage piles will be directed to the ash pond ASH SLUICE WATER Fly ash and bottom ash is hydraulically conveyed by an ash sluice pipeline to the ash pond Water for the transport of ash is withdrawn from the closed circulating water system Some fly ash is handled dry by a pneumatic system and transported off site The water in the closed Progress Energy Carolinas, Inc. Mayo Electric Generating Plant National Pollutant Discharge Elimination System,Permit Number NC0038317 circulating system is treated with a dispersant (acrylic acid polymer) and water based non - oxidizing agent for protection of the cooling tower fill ASH MANAGEMENT AND RECLAMATION From time to time, fly and bottom ash in the, ash pond may be stacked or relocated within the diked boundary oUthe ash pond system_ As this pond management activity does not alter the chemical character of the pond contents, no change in the nature of the discharge to the ash pond is anticipated ,In the,event a practicable market becomes available, Progress Energy may,'exercise the option of reclaiming ash from the ash pond system In consideration,of the scope of such an operation, no additional discharges are expected to result from ash reclamation efforts HERBICIDE AND.PESTICIDE USAGE IN THE TREATMENT'SYSTEM POND Herbicides may be used as needed to control nuisance aquatic vegetation These herbicides are applied by licensed applicators, or persons under the immediate supervision,of a licensed applicator, m,accordance with the manufacturer's instructions Pesticides may be used as needed to perform biological assessments These, Pesticides are applied by licensed applicators, or persons under the immediate supervision of a licensed applicator, in accordance with,the manufacturer's instructions STORMWATER RUNOFF Outfall 004 — Drainaae from Outside Storaae Area Outfall 004 'is located on the northeast side of the plant site and drains to the reservoir, using catch basins, storm sewer and vegetative conveyance The industrial activity drained to this outfall' is primarily the facility's outside storage area including a loading dock Materials that are not weather sensitive are stored in this area These include empty lubricant drums, structural steel, pipes, and some large equipment parts Vi tually the entire area is loose gravel, except for the concrete unloading dock There,'is a storage shed in the back of the outside storage area This shed contains any chemicals or oils that would be stored in the area , The hazardous waste central storage area is located in this same shed Sometimes during construction projects; a portion of the outside storage area m utilized for material storage which could consist of additional structural steel Due to mobde,equipment,utilization there is,a potential for petroleum release Outfall 005 — Drainaae from Industrial Area — Main Outfall 005 is located on the northeast side of the facility and is the end point of the, plant's primary storm sewer system that drains the "power house block" of the plant using catch basins, storm sewer and vegetative conveyance Including the area around the boilers and turbine buildings (both are open, no roof or walls), precipitators, and the roofs of the machine shops, administrative buildings, warehouse, parking lot, and miscellaneous support facilities, such as the, water supply treatment, ash storage silo, SCR and transformers Also draining to this outfall through sewers is the - grassed area intended for Unit 2 at some time in the future The ,grassed Unit 2 area is sometimes utilized for fabrication of structural steel for construction / maintenance projects This area consists of gravel and grass areas For outfall 005 the potential pollutants could be coal, coal ash, sediment, and the chemical make -up of the rain Water Due to mobile equipment utilization there is a potential for petroleum release 3 Progress Energy Carolinas, Inc. Mayo,Electric Generating Plant National Pollutant Discharge Elimination System Permit Number NC0038377 Outfall 006a, b, c, d, e, - Cooling Tower Area Outfall 006 is located at the eastern, end of the site and drains the area around the cooling towers, including the roof of the chemical feed budding and associated roads and parking areas using catch basins, storm sewer and vegetative conveyance In the cooling tower area, there are five separate outfalls These outfalls involve catch basins and storm -sewers that drain to swales and then to reservoir The cooling tower itself has a basin for re- circulating cooling water and therefore, does not directly contribute to storm water runoff For this outfall the'potential pollutants could include sediment, mist from the cooling tower and chemical make -up of the rainwater A malfunction of the cooling tower basin level and / or the cooling tower make -up system could result in a potential release of cooling tower water Due mobile equipment utilization there is a potential for petroleum release On rare occasions herbicides are used for ground maintenance at the cooling towers 4 Progress Energy Carolinas, Inc. Mayo Electric Generating Plant National,Pollutant Discharge Elimination System Permit Number NCO038377 Outfall 006a, b, c, d, e, - Cooling Tower Area Outfall 006 is located, at the eastern end of,the site and drains the area around the cooling towers, including the roof of the chemical feed budding and associated roads and parking areas using catch ,basins, storm sewer and vegetative conveyance In the cooling tower area, there are five separate outfalls These outfalls involve catch basins and storm sewers that drain to swales and then to reservoir The cooling tower itself has a basin for re- circulating cooling water and therefore, does not directly contribute to storm water runoff For this outfall the potential pollutants could include sediment, mist from the cooling tower and chemical make -up of the rainwater A malfunction of the cooling tower basin level and / or the cooling tower make -up system could result in a potential release of cooling tower water Due mobile equipment utilization there is a potential for petroleum release On rare occasions herbicides are used ,for ground maintenance,at the cooling towers Progress'Energy Carolinas, Inc. Mayo Electric Generating Plant National Pollutant Discharge Elimination'System Permit Number NCO038377 Form 2C — Item VI — Potential Discharges Not Covered By Analysis Chemical Estimated Average Frequency Purpose Annual Usage Aluminum sulfate 1,000 gals Continuous Improve clan`fier floc Polymer 50 lbs. Continuous Improve clanfier floc Sulfuric acid 93% 79,000 lbs. As required Demineralizer regeneration Sodium hydroxide 170,000 lbs As required Demirferal'izer regeneration Sodium molybdate 1,100 lbs. As required Corrosion control Aqua ammonia 25,000 lbs. Continuous Boiler water pH control Sodium bicarbonate 1,3001bs. As required Sewage plant H control Sodium 100 gals Continuous Potable water bypochlonte disinfectant Polyphosphate 55 gals. Continuous Corrosion control 15 % Sodium 1,00 gals Continuous pH control hydroxide Potable water Water based non- 7,000 lbs. As required Biofoulmg control ,oxidizing agent Cooling tower Silicone based 3,900 lbs As required Defoamer treatment defoamer Cooling tower Dispersant (acrylic 17,000 lbs As required Biofoulmg control acid polymer) Cooling tower Anhydrous 450,060 gals As required Air pollution Ammonia treatment system Sulfuric -acid 50,000 lbs. As required pH control in ash and Sanunl Chlorine 1,00 lbs Continuous Sewage plant Tablets effluent treatment Limestone (Calcium 270,400 tons Continuous Flue Gas Carbonate) Desulfuization 11-1` �! •'� f 1 �'i t ` 1N / MI •MI I•• 1.•M 1 r �IH.�1•1 `l I , \ �. �• SW -004 SW -005 - 1.� t 1 ;;M 60 ft� In 1 1; 000 i 11• r 5 AMMO I 4 �r SW -006 SW-006c f ,i :'g` ` = • -..... � � '\..- ...,,.� Scale � r.fi � � � � • J 0 ft 825 ft Mayo Plant North Carolina Attachment 5 - Form 2F - Item III - Map Carolina Power & Light Company Mayo Electric Generating Plant Person County Page 1 of 3 Mayo Plant Outfalls 332' 02.989'N 716V 6.8WW Ashpond OutfaU 002 � W V, 38°31' 50.324 °N 78°63' 43.776W Ash Po 'Influard '►r� 36°31' 46.498 -N 78°63' 20.697'W Outfall vC 36°31' 39 649'N 7eSY 16.641'W OWfaU O,pS 38 °31' 38.042 °N 7e63' 07.236'W 38'31' 34.538'N outfall o GA 7s P63u 1. 9 °W Cooling Towers dminstration Building Lab ratory 36'31'30 396 °N Building 38°31' 29 160 -N O—OWfall 0060 dC N 78°62' 56 696 °W outfall oo6D # 38"31' 28 919 °N t-*3Q1''I28 1 52'N OUll alts. 78°52' 67022 °W Cdolin5Towe W CdoUng Tower Dram —.,&" W jIfW— �� /A\\ / Road. oulfau oosf=' u( outfau oo, �►M' S 500 0 500 1000 Meters W WII I.i N G1 Ix vi �a O W U J ¢ V H CL uu' v=iNac Q172c ---- 2' Y � �m d n n I I x 7 (:1 � T T f'iWC t u ❑ ti _ ❑Wt ` J L F 1 8v�ia I� x n t C0 V ce s ,~ CN O J �a 1 7 _ O aK zi / � a o Q ` 41 � N :l Cc re .0 f � N N Fi�Ni FS2 <�u J \ J a r- �o ❑o J \ \ Q Q 0 Mc d� IC J z a d J � J a 41 LL J `L 70 �o lo -j'D +.1 7 O _ O i C1 F cy < x u r N f J � x a a 4 a a J 4 J a t 3 7c j _ ?� . &gSu� -a��o Ft S 5 a ... u n ..... � x w � >< : e e. o s •• r � 1 .. t • • . • M J \ J a r- �o ❑o J \ \ Q Q 0 Mc d� IC J z a d J � J a 41 LL J `L 70 �o lo -j'D +.1 7 O _ O i C1 F cy < x u r N f J � x a a 4 a a J 4 J a t 3 7c j _ ?� . &gSu� -a��o Ft S 5 a ... u n ..... � x w � >< : e e. o s •• r � 1 .. t • • . • M f J � x a a 4 a a J 4 J a t 3 7c j _ ?� . &gSu� -a��o Ft S 5 a ... u n ..... � x w � >< : e e. o s •• r � 1 .. t • • . • M MAUR[AL_ HAND ING Pour areas of co ith ' dl mg were sevaluaiedsfor-thezr,potentral to,create,dusf or parficles.,.AlsoAhe ,methods,ofrcontrolling- the dust wek& e, aluated W ensure they were satisfactory m indintaiririig dust- control 'The;areas•e_valuated were-the, coal car�dumper, transfer boom;.conveyor;belt °system. ah&coal'pile: The primary method ofcoal car unloading is,the,coal car dumper. The coal -car dumper is equipped }with a-n( ust;suppression.systein..that is used to rhinrinzze the _generation,,of dust'duirrig- coal car unloading° Waters pray .- nozzles,are-Desi'tionedauch that-,4s the coal;carJs;.dumped,mt6 the transfer pit; the spray'suppre'sses;ariy dust that coul'd'be- credteddue io >the un_loadmg,act_iuity. r .q D fferent,condi'tions�such asvW`11 ,,,raiwand coal.condition dictate the rieedfof 1de usf. suppiessionsys "t'e'm Wlieriever tle, operators;beheye;the,system 'rs needed; it willbe arsedAto preventsthe'creatzon.of aaustthat.could' enter the�sto "rm,vvater systernar A i er operation whe `r`e`there,is_thelpotential;to cfeate.dust,is,tlie,transfer of coal-from-the conyeyor beltstothe coal -pile. In-order to mtrumize drisVand,'on asmeed.basis „,,the 1?6ortij r raised or "`lo;wered The conveyor,belt.system bas,been evaluated_for =ihe potentiallo ,create -dust. The possiliihty of the con"veyor,beltsystem =to cfeate�dust= of =com'e,in contact- wr'ths`torm water= hdg_,15e&wied'uced because�,the system' is covered. E�ffortsare.made to- ,ensure the conveyor,belts stay; covered-. The, coalspilecis known ,as a "live pile ". This isibecause of the,wayAhe coal is %d or reclaimed t& the uiiitlbbilefg, Coal t4ulled'.from.the"bottom, of the pile; therefore reducing =the.possibrlity of dust Storm water that comes.in,contact with he coal' pale is routed to arimNPDE&drscharge point 002- ,(vialihe,ash pond) SWP3'Material' Hw dhng.doc revision,3 Ju_ne'2005; _• DFP Outfalls Narrat'iVe Description Outfall- 004_ - Draijaage from>,Outside- Sfo6j�e -x i - This outfall is located-on tfie• northeast .side- of`fhe,planf,site,and drainsao the_reservoir; using ;catch basins,and, storm" sewer. The,ii du: sdial ,activity- d"rairied'to'.tius,, fall is- piimanly the 4;,:ii 'facihty's,outside:sioragearea ancludingaloading,dock Nlatenals4that are,�riotn..w.eather`sensit ve 'areYstored in ts,area- Theseihelude einpty`lutiricanfdrums; Am' ctuialisfeel, pipes; and:some t 'large equipmeni parts., Virtually,the;erifire�area is, loose . — ravel;,except�for'the concrete unloading W&., There i`s a- small`storaget-shed iii'the.back,of the,outsid6; toragexarea., This, shed contains any,chemlcalszor:oils•that would be sto "red,ih= the-,'&ea The hazardous waste central storagea&ea is located m thisaaineslied' Uuririg the SCR construction project, a;portion:of the.`oufside storage- area,is being_dedicatedj,forla- laydown aiea form atenal storage =wlucfi consists of structural ste,t,Due= o,mobile equipment, ontsitejhere is a.,potential'for 'petroleum- telease. Outfal1.005:- 135rainage_from Ind`ustr-ihI Afea The outfall is located,on the northeast ,side=of'the facility aind ris the.end point of the plant' -s primary storm,sewer system:that drains the "power house!block" of tlie�plant• Including the "area ar6u4the boilers grid tuibine buildings (both are -open, no roof orwalls), precipitators, and the roofs of the, machine�shop's „adhurnstrat'iv_e buildings,: warehouse; parking lot, and - miscellaneous support facilities,`such_as thewater supply treatment, ash storage silo, and'transformers. Also drauung,to,this.ouifall fhrouglj.sewets islthe- grassed-,area.intended for °Unit,Zat,sorAe'time'in -the future: Duriiig some construction- projects,'the,Uriit,2'; -area is,oceasionallyGufih'zed as-structural steel,and fabn&dtion,.area. 'This'are'a consists,.o'f�gfav_eLand,graas °areas -For q fall",005 the potential_poll'ufanis could- be,coal, coA�ash, sediment, and,the cherr&al:make-,up.ofthe.rairi Ovate, llueaoYinobile equipment, on- site -&re, is a potential for, petzoleumxelease ”. 4 Outfal100ba;_b,,,e,, , e— 'Cooling Tower.Area Otitfal'1006 is located'at -thi ,6astein, end,of the,site,and drains the area around,theeoolingtowerS;. includingathe�roof of {the�`chemical,feed, ,,building aridyassociated ,road "s hd-parking'areas�- In the cooling- tower,area,�there- are;flve separatezoutfalls_ All, these outfalls- involve'.catch basins and storm sewers- dratrilb swales andtheri to tlie. reservoir:, The - cooling tower,itsel'f"has aVasin for re- circulating cooling water and therefore, does not. directly contnbute-to;storm water runoff For this - outfall't)ie pgtential;pollutants could mclude-sedunent,,mistkfrorh the eoolin -tower and the chemical .make -up °of the rainwater A;rrialfiinetiori of the cooling =towel basin 11.&el and'/ or SWP3 &tfalls -doc revi'siow4 Jpne�2005 UFP` Memo 12--520'R June 4, 2.003 1'2576 di-StoI I nwa-fer- fl- oWI -in Stb- rm-1 Waiei;Qu- tf-- af- l'665- Durui&dry, ppriods',.Stormwater, W(fdIf 005,'has�a dis6lidrge that is non- storniwater;related Ibukinj-'It tune,p-efiod,-bf,'july Aqg' usf 1-99,6,an, extensive-invest , gati. , on,,wds cbndu dted,,toctFv and,resolveNhere,any watenmight be--dominig ff This investigation ,included alking Imes om., -' siFW aqd,qatch-b'asins,,loo�iii how,-�41toAhe drainage:system-,icoriductih -y4tj g -for any 1-1 - , g,Vis441 observations dunng,iioh-:n6rhiaI Ai 6rk-houxs; aO.tgyidwingkqwing§;,d-b 't' o istormwateraffd:ii6n-8tcirmwafdr drainage systems. Jia addition, dye�)kagj I d" p ace m ne2riiyi)Soh st& m-wat& dpaifigge- .- - -'-- -'-. 5 -y§teps,to eps4(�fi ctioii��eiiit4� S�rnples�of�he,,wai dry 9 cl,9s-s ,c2rMe- er-I lowing- frbiffE)IIffiff �Wifig, penods,were-',colle:cted�and analyzedi6fPE;,qW6nfiq cde -_,;,4ppgaTApqq,,,9dorandbi'b' s .Rone:bf' any-mdustnal'water'pyeseiit- It-was-666tved that the fl P-W ��oiild: aim- 6-st" .s op.a." we hdd 16r�g,penod-iSf-7noidfffall.a--ndth6 flow woul-dmcreaseif' weIad-,recenfrainfall-, t - &r',-, -, ' - - The lasi�catcfi`basin bd6rg the-outfaI'l Was--�obsdrved not t'dq-h-ave" any flow 6nfenrig it, however -,.at 'the.fiftM oI utfall- -t' her-e ' W- 66ld ' Ve i,smilla m ounf ,,ofWafer. After seve-ral, lip ur&dfte,sddrahinkthd 'sourcelof e' wate :it w as. decided that-it � ffi-usf b6,groupd witer'ntmsi a,point'betWeenAhe Duiffig,,&si ewisitj by-Aradfey BenAeft,,�,'S,dperrvisb - - di r-,oPDWQj',s.,�tbFmwafer and,-6ebcer P-eririiis� - , -1 - — --- , -1 -1 9�-;.-an'd b--�fd6mpai�ed by,Joanie Cb6ke'(ESS),jheqe investigations Were ' , 11 I — - d iscuss-ddI . He stated e'd thit ihis,was,not,urisual and-appeardd-not W d'corcehed. Mr. Bennet-was,iifo ned,that,we d6b6ment- oiihe WeventativeMaintenanc e Visual Monit6fihg1Worksh6et, that ' Wesuspe-Ct' growfdwatet-as the source from this outfall,(du-n'n&Aop-§tprm pe-nqds). He,appqarp06be'okay' with the,statement. bulcie-Phill-- ��d 3 - i'Ps Progress Energy Carolinas, Inc. Mayo Electric Generating Plant National Pollutant Discharge Elimination S`ystem Permit Number NCO038377 Attachment 9 E -mail Documentation Allowing Sampling Results From 2005 Permit Renewal Application to be used in the 2006 Permit Renewal Application Page.-1 ,of 2, Cahoon, Steve FFom: SergerChemrkov,[sergel chei-nikov @ncmad net] Sent: 'Thursday; April 06;.2006 8 55 AM To: Cahoon; Steve Subject: Req FW Mayo'NPDES Permit-Renewal Steve, Lhave,,discussed this is §ue+wi&hSusan and wehave� tided that you can use th&se,§ainples1,'for ,,permit renewal. Sergei Cahoon, ,Sieve- �wroiez Seigel; (;don't think Dever received an e- mall "reply<from.ybb4for the„ question, below;(emQhs;based,on'a phone,call we, ad_ °the afters 6ri ofHF -46 7 2006) 'Please �eply,and contacttmeiif-you have�any, -further• questions _ - Thanks! ,Steve'Cahoon Progress,Energy 9ervlce Company - Environmental Ser vices Section, .Supply,and CCO,�(Carohnas /Georgia), 'net• 770 -7457 Bell- (919) "546 =7457 Mall Gode PEB4 i -steve cahoonpgnmail tom ---- ongtnal Message--- - From: Cahoon, Steve Sent: - Monday „Fe6ruary-27, 2o06 3:54;PNt- 4o: 'seroerch'6mikoJ ncmall net, - sUOjd& "Mayo NP,DES'Perrk Renewal Sergei; -As,you,aretaware P<rogress4Energy °submitted,an NPDES= P,ermf Renewal�application�forrts -Mayo, •Electnc Generating Plant,on.July 29, 2005_ The =new permit'became;effe6ve -on January,1, 2006 ,and.&pires on,March`31, 2007 ,Anew permit - application - package •must`be,submitted "180'days prior. tothe Match °31„ 2007 ezpliation date The- samplmg e4'nisfor ourLourreriCO -DES permit was w conducted'on Apnl 1 „2005efo`r3tlie'wastewater,antl' June 2,x2005 fog <ttieistorm'",W tef Pfogress�Energy requests permission from the NPDES Unitko'allow the _May- PIbACto use the data collected from,ttie above referenced sampling events,forour upcomng,NPDES; permit,renewaf package, that, package „must!be:submltted -,,to„the NPDES Unit,by,approxlmately 6606er 3, 2006 Ttiank-you,for'your consideration If you`have -any questions please,contact -me- 911;8/,2006 Page 2 of 2 $teve Cah66n Progress Ener§y'Sewibe)ComOdy -Environmental SiRyCces-Setti6b Supply apd'CC�p (GaTo'linas/Ge-orgia) Vnet-,.770,-7457 Bell-,(919)-§416-7457 Mad,Code PEB4' �steQ6zbhd6ri 6qhmM'c&n' 7,- Oiekgdi -Ch6irfi4k7ov., Ph•.b. Eh-VikonmdrieAl -Eh ifiOei ,NPDES• Uffit, ,1617 Mail -S#iy-ici- , Cdnterl RaTeiqlf, ', - 'NC -27699-'1!6I1 -johone: 59C Jk-'9' 31�50 e�jct- ,7,73 - 83 - .fax: .919z733-0719 9/18/2006 W Mnl Progress Energy December 1, 2008 Mr. Gil Vinzani, Supervisor, Eastern NPDES Program Division of Water Quality North Carolina Department of Environment and Natural Resources 1617 Mail Service Center Raleigh, NC 27699 -1617 Subject: Carolina Power & Light Company dba Progress Energy Carolinas, Inc. Asheville Steam Electric Plant NPDES Permit Number NC0000396 Cape Fear Steam Electric Plant NPDES Permit Number NC0003433 Lee Steam Electric Plant NPDES Permit Number NC0003417 Mayo Steam Electric Plant NPDES Permit Number NCO038377 Roxboro Steam Electric Plant NPDES Permit Number NC0003425 Sutton Steam Electric Plant NPDES Permit Number NC0001422 Weatherspoon Steam Electric Plant NPDES Permit Number NC0005363 NPDES Permit Application Amendment Dear Mr. Vinzani: Progress Energy Carolinas, Inc. (PEC) proposes to amend the NPDES Permit application for the subject facilities to add three additional freeze conditioning agents. These facilities expect to receive shipments of coal treated with freeze conditioning agents during the winter months (November 15 through March 15). Freeze conditioning agents, needed depending upon expected weather conditions during transport to ensure coal does not freeze in railcars, will be applied at an approximate rate of 2 pints per ton of coal. The product names used by the various coal mines which supply fuel to Progress Energy Carolinas power plants could include one or more of the additional following products (MSDSs enclosed): Product Name Primary Composition FreeFlow SR -300 30 -50% glycerin Flomin ST -944 SRA > 50% diethylene glycol mixture and polymer /surfactant blend Bio -Pro 55 55% glycerin Coal pile runoff at each of these facilities flows to a treatment system (e.g., ash pond, cooling pond, settling basin). However, since there is a slight potential that these chemicals could be present in the wastewater that is ultimately discharged via a permitted outfall, PEC requests that these products be appended to the NPDES permit application. Note that toxicity testing is a permit requirement at each power plant outfall which contains the coal pile runoff waste stream. Mr. Gil Vinzani, NPDES• Unit December 1, 2068 Page Two Progress Energy Carolinas, Inc., appreciates the continued cooperation demonstrated by the Division of Water, Quality staff in responding to its permitting needs. If you have any questions or comments regarding this information, please contact Robin,Bryson at (919) 546 -3962. 1 certify, under penalty of law, that this document and all attachments were prepared under my direction,or supervision in accordance with d system designed 'to assure that qualified personnel properly gather and _ evaluate the information submitted Based on my-inquiry of the person or persons who manage the system, or those persons directly, responsible for gdthermg the information, ,the information - submitted its, to the best of my knowledge and belief, true, accurate, and complete 1 am' aware that-there are significant penalties, for submitting false information, including the possibility of fines and imprisonment for knowing violations Sincerely, Mr-. Charles M. Gates i Vice President —Power Generation Carolinas Progress Energy Carolinas, Inc. CMG /rb Enclosures c: Robin Bryson , bc: Leigh Barr Larry Baxley Steve Cahoon Fred Holt Shannon Langley Ricky Miller Billy Milam Laurie Moorhead Dulci'e Phillips Kent Tyndall ;; ;:asc�li, lnc. 11. C) 13ox 1571 101 igh, N-C 27602