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Cape Fear Steam Station (21)
0 0 Q � 4 r a r. �,'yJ�S'• '` w"WINt >,s �:� - •:!i_:t } ;� -'+ ` �- '"�' .fir} � ',�,}.• �3�5 � ��� r Y� � v itt �., � �:. � ; F� �' .�'- •a,. 1'•. tl ♦ Q�i.� 1 1���' Please nrint or tvne in the unshaded areas only Form Approved. OMB No. 2040-0086. FORM U.S. ENVIRONMENTAL PROTECTION AGENCY I. EPA I.D. NUMBER 1 �+ GENERAL INFORMATION 6 TIA F \r/EPA Consolidated Permits Program NCD 0 0 0 8 3 0 919 p GENERAL (Reniti "G, iia!/pyrr2 L;.brjar_j 1 2 1J 11 15 UVV L9 GENERAL INSTRUCTIONS LABEL ITEMS D r� 1 If a preprinted label has been provided, affix it in the designated space. Review the information carefully, if any of it is incorrect, cross through it and enter the coned data in the appropriate fill-in area below. Also, if any of the preprinted data is absent (the area to the left o/ the label space lists the I. EPA I.D. NUMBER III. FACILITY NAME P EAS P LABEL N P E information that should appear), please provide it in the proper �J WATER QUALITY fill-in area(s) below. If the label is complete and coned, you need not complete Items I, III, V, and VI (except VI -8 which must regardless) Complete all items if label V. FACILITY MAILING ADDRESS DENR - Wedanc% ater Branch le has been provided. Refer to the instructions for detailed item been provided. ions and for the legal authorizations under which this VI. FACILITY LOCATION data islcollec ed. II. POLLUTANT CHARACTERISTICS INSTRUCTIONS: Complete A through J to determine whether you need to submit any permit application forms to the EPA. If you answer "yes" to any questions, you must submit this form and the supplemental form listed in the parenthesis following the question. Mark "X" in the box in the third column if the supplemental form is attached. If you answer "no" to each question, you need not submit any of these forms. You may answer "no" if your activity is excluded from permit requirements; see Section C of the instructions. See also, Section D of the instructions for definitions of bold-faced terms. Mark W Mark'x' SPECIFIC QUESTIONS vas NO FATTACHED SPECIFIC QUESTIONS FORM vas No ATTACHED A. Is this facility a publicly owned treatment works which B. Does or will this facility (either existing or proposed) results in a discharge to waters of the U.S.? (FORM 2A) X include a concentrated animal feeding operation or aquatic animal production facility which results in a 16 17 16 19 m 21 discharge to waters of the U.S.? (FORM 2B) C. Is this a facility which currently results in discharges to�/ X �/ X D. Is this a proposed facility (other than those described in A / X waters of the U.S. other than those described in A or B or B above) which will result in a discharge to waters of above? (FORM 2C) zz v z4 the U.S.? (FORM 2D) zs 26 n E. Does or will this facility treat, store, or dispose of F. Do you or will you inject at this facility industrial or hazardous wastes? (FORM 3) X municipal effluent below the lowermost stratum X containing, within one quarter mile of the well bore, 26 z6 Jo underground sources of drinking water? (FORM 4) 31 32 1 33 G. Do you or will you inject at this facility any produced water H. Do you or will you inject at this facility fluids for special or other fluids which are brought to the surface in processes such as mining of sulfur by the Frasch process, connection with conventional oil or natural gas production, X solution mining of minerals, in situ combustion of fossil X inject fluids used for enhanced recovery of oil or natural fuel, or recovery of geothermal energy? (FORM 4) gas, or inject fluids for storage of liquid hydrocarbons? (FORM 4) „ 35 36 37 3s I. Is this facility a proposed stationary source which is one J. Is this facility a proposed stationary source which is of the 28 industrial categories listed in the instructions and�/ X NOT one of the 28 industrial categories listed in which will potentially emit 100 tons per year of any air instructions and which will potentially emit 250 pollutant regulated under the Clean Air Act and may affect year of any air pollutant regulated under the 40 41 42 or be located in an attainment area? (FORM 5) and may affect or be located in an (FORM 5) ,�` III. NAME OF FACILITY SKIP Cape Fear Steam Electric Plant 4�, c I 1 IV. FACILITY CONTACT A. NAME & TITLE (last, fiavt, & title) B. PHONE (aN en c 2 Randy Cox, Plant Manager 9 9-7 4-5 15 I6 45 45 46 1 4a 61 52- 55 V.FACILTY MAILING ADDRESS A. STREET OR P.O. BOX i 3 500 CP& Road f5 t6 45 B. CITY OR TOWN C. STATE D. ZIP CODE 4 Moncure C 245 9 15 16 40 11 12 47 51 VI. FACILITY LOCATION A. STREET, ROUTE NO. OR OTHER SPECIFIC IDENTIFIER c 5 5 0 C & oad S 16 45 B. COUNTY NAME Chatham I6 70 C. CITY OR TOWN D. STATE E. ZIP CODE F. COUNTY CODE (jknovn) H6 M n u eC 2 5 9 3 15 1 16 b I1 42 47 51 EPA Form 3510-1 (8-90) CONTINUE ON REVERSE CONTINUED FROM THE FRONT VII SIC CODES 4 -di tt to order of non A FIRST B SECOND l' 7 m 4`911 to is s ect (e aric Power Se rvi cee 7 s 1e (Sp ecl jy) C THIRD D FOURTH c - (sped) (sped) , 7 1s 18 1D 7 15 tE 10 _ VIII,'OPERATOR INFORMATION A 'NAME B Is the,name fisted"In Item rs Carolina Power & Light Company d/b/a Progress Energy Carolinas, IriC. VIII,Aalsotheowner? m YES O NO, C STATUS OF OPERATOR (Cnter the appropriate letter trtto'the amnrer box "tj'Yhber, " speck) D PHONE,(area code & no ) F=iFEDERAL(specfy) ` St='STATE M =PUBLIC (other thnnjederal or state)' P A 9119-`04'-5200 P = PRIVATE' O = OTHER (Tpech) 5a 15, e 1 15 18 ]t E STREET OR,P,O BOX' ,,�� FT.r'v;�� Y �t+d`s.: a sc, 'rn• ;7,,,jf' n w:.a 4 5'61 CP&L Roa c kis `wry.'3,� % m ss ��r'ik t`a �,.3M�'-`+�'.;�+kit,�;>�?'=�`d.b:�sw'..�Yar�is41s'�k'�'�T ,.,cs�ti�'r>".'4 v'�Y83•wr+�`v' F CITY,OR TOWN 1G ,STATE, H ZIP CODE 1 IX- INDIAN LAND c Is the facility located on Indian lands? B Monure JNSJ 27559 - - ❑ YES 0 NO 53 47 51 X EXISTING ENVIRONMENTAL PERMITS A NPDES rnchaTer to Surface IVa tel ' D,PSD' AtrCsmtsstotts roiPrtioseUSourcet c T n T 9 1 N, NC00034'33y Pr.rA":X :tri s _jam" � 4 • _ y��aLL syr' �F 15 16 17 10 ]0 15 1 1B 1 17 16 b a r 'fi�� i way B UIC t/nder round In ecnon I/ lutds EOTHER s' eu C T 1 _ c T' 1 (specify) jy) 9 U 9 C RCRA Hazardous If'astes E OTHER specify) C T c T i (spectjy) 9 R 9 15is "_ to 00 15 ,B 1 17 115 m 1- XI MAP. Attach to'this`application a topographic map of the area extending to at least one mile beyond property boundaries ,The,map must show the=outline of the facility, the Iocabon of each of its,existtng and proposed intake and discharge structures; each of its hazardous waste treatment; storage, or disposal facilities, and each -well where it injects fluids underground,.lnclude all springs, rivers, and other surface water bodies in the map area See instructions for prease`regwrements arowdeatbnefdescrt XII NATURE OF+ BUSINESS tion The Cape -Fear Steam Electric Plant is an electric generating facility consisting ofr`two coa143.red'units and four combined -cycle combustion turbines XIII CERTIFICATION (see instructions) I cerhfy under penalty of law that I have personally examined and am familiar wdh the information stibmdted to this, application and ail attachments and that, based;on my inquiry of those persons immediately responsible for obtaining the information contained to the apphcehon, i behave that"the information is,true, accurate, and complete 1 ,am, aware that there are significant penalties for submitting false information, including the possibility of fine and tmpnsonment A NAME4OFFICIAL- TITLE (type orprint) B SIGNAT E C DATE SIGNED Randy Cox, Plant'Manager COMMENTS�FOR OFFICIAL USE ONLY a EPA Form 3510-1 (8-90) EPA I.D. NUMBER (coni from Item 1 ojl-orm /) Form Approved. Please Drint or Woe in the unshaded areas only. NCD000830919 OMB No. 2040-0086.Approval expires 3-31-98. FORM 2C NPDES U.S. ENVIRONMENTAL PROTECTION AGENCY APPLICATION FOR PERMIT TO DISCHARGE WASTEWATER 4 80EPA EXISTING MANUFACTURING, COMMERCIAL, MINING AND SILVICULTURE OPERATIONS Consolidated Permits Program I. OUTFALL LOCATION For each outfall, list the latitude and longitude of its location to the nearest 15 seconds and the name of the receiving water. A OUTFALL NUMBER B. LATITUDE C. LONGITUDE (list) 1 DEG 2 MIN 3 SEC 1 DEG 2 MIN 3 SEC D. RECEIVING WATER (name) 007 35 35 15 79 02 39 Unnamed tributary to Cape Fear River ll. FLOWS, SOURCES OF POLLUTION, AND TREATMENT TECHNOLOGIES A. Attach a line drawing showing the water Flow through the facility. Indicate sources of intake water, operations contributing wastewater to the effluent, and treatment units labeled to correspond to the more detailed descriptions in Item B. Construct a water balance on the line drawing by showing average flows between intakes, operations, treatment units, and outfalls. If a water balance cannot be determined (e.g., for certain mining activities), provide a pictorial description of the nature and amount of any sources of water and any collection or treatment measures. B. For each outfall, provide a description of: (1) All operations contributing wastewater to the effluent, including process wastewater, sanitary wastewater, cooling water, and storm water runoff; (2) The average flow contributed by each operation; and (3) The treatment received by the wastewater. Continue on additional sheets if necessary. 1. OUT- 2. OPERATION(S) CONTRIBUTING FLOW 3 TREATMENT FALL NO. (list) b. AVERAGE FLOW b. LIST CODES FROM a. OPERATION (list) (include units) a. DESCRIPTION TABLE 2C-1 007 Ash pond discharge 2.5 MGD Sedimentation, neutralization 1-U 1-K Once-thru cooling `--low w/ towers 254.8 MGD Evaporation 1-F Once-thru cooling flow w/o towers 193.4 MGD Evaporation 1-F Low volume wastes 0.07 MGD Sedimentation, neutralization 1-U 1-K Coal pile runoff 0.05 MGD Sedimentation 1-U Storm water runoff 0.18 MGD Sedimentation 1-U Sanitary wastes 0.002 MGD Oxidation, sedimentation, 2.e 1-U disinfection 2-F See Attachment 3 for descriptions. OFFICIAL USE ONLY (effluent guidelines sub -categories) EPA Form 3510-2C (8-90) PAGE 1 of 4 CONTINUE ON REVERSE CONTINUED FROM THE FRONT ,C Except for storm runoff, leaks,'or spills„are any of the,discharges described, in, Items II -A or B,Intermittenf or seasonal? ❑ YES (complete the jollowing,rable) W1 NO (go to Section III) 3 FREOUENCY 4 FLOW a DAYS PER WEEK (specify average) b,MONTHS' 'PER YEAR (speck, average) a FLOW, RATE,(nt,aigr) B TOTAL VOLUME `(rpecth anti iir rrr) C DURATION (m days) .1 OUTFALL NUMBER (list) 2,OPERATION(s) CONTRIBUTING'FLOW (list) 1 LONGTERM AVERAGE 2 ,MAXIMUM DAILY T LONG TERM,, AVERAGE 2 'MAXIMUM. DAILY III' PRODUCTION 4 A Does,an effluent guideline limitation promulgated by EPA under Section 304 of the,Clean Water Act apply to your facility? W1 YES (complete Item III -B) _[],Nb (go to Seaton IV) B Are the limitations In the applicable effluent guideline expressed In terms of production (or othermeasure of operation)? ❑ YES (complete Item 111-0 W1 NO (go to Section 1V) C if you answered `yes' to Item III -B, list the quantity which represents an actual measurement of your level of production, expressed In the terms and,units used In the applicable effluent guideline, and indicate the affected outfalls 1 AVERAGE DAILY PRODUCTION 2 AFFECTED OUTFALLS (lrrt_ontjall numbers) a QUANTITY PER DAY b UNITS OF MEASURE c OP„ERATION, PRODUCT, MATERIAL, ETC (spec) IV IMPROVEMENTS A Are you now required by any Federal', State,& local authority to roeet,any Implementation schedule for the construction, upgrading or operations of wastewater .treatment equipment or practices or any other environmental programs which may affect the discharges described in this,application? This Includes, but is not limited to, permit conditions, administrative or enforcement orders., enforcement compliance"schedule Ietteis, stipulations„courtordeis, and grant or loan conditions ❑ YES'(cotnplete the following table) NO (go'to Item IV -B) 1 IDENTIFICATION OF CONDITION, AGREEMENT, ETC 2 AFFECTED OUTFALLS3 - BRIEF'DESCRIPTION OF PROJECT 4 FINAL COMPLIANCE DATE a NO b SOURCE OF DISCHARGE a REQUIRED b PROJECTED i I B OPTIONAL You may attach additional sheets describing an additional water pollution control programs or other environmental projects which may affect our Y 9 Y P p 9 ( p l Y Y discharges) you now have underway or which you plan Indicate whether,each program is now underway or planned,�and,Indicate your actual or planned schedules for construction ❑ MARK -X -,IF DESCRIPTION OF ADDITIONAL CONTROL- PROGRAMS IS ATTACHED EPA Form 3510-2C (8-90) PAGE '2 ON CONTINUE ON PAGE 3 EPA I D NUMBER (cop),from Item,] ofrorm I) CONTINUED FROM PAGE 2 NCD000830919 11 EPA Form 3510-2C (8-90) PAGE 3 of 4 CONTINUE ON REVERSE V INTAKE AND EFFLUENT CHARACTERISTICS A„B, & C See instructions before proceeding —Complete one"set of tables for each outfall —Annotate the outfall number in the space provided NOTE Tables WA, V-B;,and V-C'are included on separate sheets numbered V-1 through V -9- D Use the space below to list any of the pollutants listed in Table 2c-3,of the instructions, which you know or have reason to believe Is discharged or may be discharged from any outfall For every pollutant you list, bnefly,descnbe the reasons you believe it to be present and report any,analybcal data in your possession 1 POLLUTANT 2 SOURCE 1 POLLUTANT 2 SOURCE Asbestos Trace amounts in insulation Strontium Trace amounts in coal Uranium Trace amounts in coal Vanadium Trace amounts in coal Zirconium Trace amounts in coal VI POTENTIAL DISCHARGES NOT COVERED BY ANALYSIS Is any poilutant,listed in Item V -C a substance,or a,component of,a substance which you currently use or manufacture awamintermediate or final product or byproduct? ' ']'YES (hst all such pollutants below') ❑ NO (go m Ire. VI -B) The following substances may be present in coal Antimony_ Arsenic Beryllium Cadmium Chromium Copper Lead ,Mercury Nickel Selenium Silver Thallium Zinc See Attachment 4 for other potential discharges not covered by analyses EPA Form 3510-2C (8-90) PAGE 3 of 4 CONTINUE ON REVERSE CONTINUED FROM THE,FRONT VII BIOLOGICAL TOXICITY TESTING DATA Do you have any lk owledge,or reason to believe that any biological teatfor'acute or chronic,toxicity has been made on any of your, scharges or on a receiving water in relation to your tlistiharge wdhin the' last 3,years? ' © YES (tdennfy the tests) and describe their purposes below) ❑ NO (go to Section 1/111) As required by the current NPDES permit (effective September 1, 2006) chronic toxicity tests have been performed on a, quarterly basis on the combined wastewater, dicharge (Outfali 007) AT1 tests have passed for the last three years, VIII CONTRACT ANALYSIS INFORMATION Were any of the analyses reported in Item V performed 6y,a contract laboratory or donsultmg firm? ® YES (list the name, address, and telephone noniber of, and pollotams analyzed by, ❑ NO (go to Section UI each such laboratory or firm belou-) A,NAME B ADDRESS C TELEPHONE D POLLUTANTS ANALYZED (area code & no (hst) Tritest, Inc 6701 Conference Drive 919-834-4984 All pollutants Raleigh, NC 27607 IX CERTIFICATION l,cerhfy under penalty of law that, this document and all aHachments were prepared under, my direction or supervision to accordance with a system designed to assure that qualified personnel property 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 gattienng the information, the information,submitted is, 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 fine and impnsoninent for knowing violations A NAME & OFFICIAL TITLE (typee or print) B PHONE NO (area code & no ) Randy Cox, Plant Manager 919-774-5200 C SIGNATURE D DATE t= X.;' SIGNED ^J c� - EPA Form 3510-2C'(8-90) ` l PAGE 4 of 4 `moo w `yv 'mow O }y O a Q } Z Q Z Z Q aQ 3 EE Z aQ O S2 z Yipo N a o w Q < C W £�' 3 N v FQ- z �Q E wLU N ~w Z_ O z � $ Z 6 J W > O O � E > rz Q z Q W U W w N °j, O z O U > :3D > N c� > E OU N U) 3 v� O b LS d O r X X X X Z Le) F C C z E v v U) o E ~ o o d zz Z zz z r m Q c y �'v w U0 C w0 zF a a a a a Q o v� z c zrQ OK rn C) < a° E E E � � b1 vLL w N~ C LL w 0, O « v u V) O} N in r'1 C) O N a v u v J z Q 0 Z Z¢ N N O , N Q T W p i N L N V CO T P J y > W Q U Co N N O Q Z O o > L m i. g O :� y NW N 6 N N E�� W� Q z m m OD o o Z = _p rl N O �.�! O U $ 'S W w ~ N O • � s Z O U Z ci U c O Zb" U OU O 2 N— Z W 7 J N Q E D D C .� J > 0 U -jLL a N Z > > > 0O W 0 `c N A W D n n y N 7 •- 5 O '�' Z W ° O V H LL LL W J Q co Q yEQ DOD N O E T° D J N > �• r � U _ Q y O .� N W lL t 0 0 In C y ro ° Z Z O O ri °a C', $ Ln .-1 N O t ti V rn w n p U v O C Q > �z �� N O° LLJ D N N o Q W U W > w > W .0 I > �_ 0 E'- J Q Q > > G y J W y > N Q C c y Oc J Q d' o r O i. w a �� N g O ~QQ c d H • L) co -21Q m nN 0 v z m p ko N �j u m z O W o O �QQ N m m n ro d x U q K h to w N N —a �.°.. x �tO1 z 2 y �. z N O W W W W D� N T W X n J W U « Z 7 J 7 J Z c o J Y wa m 'p O Z E z w > > > O- I u u u x LL w E z Q O 61 rn ° U d c 2^ ?� 1 .Y �? m a r O O Q ma^ u Lu ��A Q a L� 'E•o O �K o L a^> m a^�q c u z Q Z ~ p1° L@ o� ov E 3 E� E`c F- �zz JQQ� Ed> o� o o �' �¢ m E v aEi F t .c Q i° ` F: a Q a v m 0) V H u ! ti ms r _ a �pN 6it ci ITEM V -R CONTINUED FROM FRONT EPA Form 3510-2C (8-90) - PAGE V-2 CONTINUE ON PAGE V-3 2 MARK °X' 3 EFFLUENT 4 UNITS 5 INTAKE (oprranan 1 POLLUTANT b -MAXIMUM 30 DAY VALUE -c LONG TERM°AVRG VALUE a -LONG TERM AND a b a MAXIMUM DAILY VALUE ({favadable) (fmadable) AVERAGE VALUE CAS NO BELIEVED BELIEVED d NO_ OF a CONCEN- b NO OF (�favadable) PRESENT ABSENT CONCENTRATION (2) MASS_ CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b MASS CONCENTRATION (2) MASS ANALYSES g Nitrogen \ / Total Organic (as X M / \ h Orland X 6.8 6,650 1 mg/L kg/d Grease I Phosphorus \ , (as P), Total �[ (%72314-0) / \ I Radioactivity (1)'Alpha,Total X (2) Beta Total X *, (3)'Radium v Total (4) Radium 226 Total �\ k Sulfate (as s0,) (14808-79-5) 1 ,Sulfide x(as S) m Sulfite (as SO,) (14265-45-3) n Surfactants X o 'Aluminum- Total X v nazs-so-s) p Barium, Total \ (7440-39-3) n q Boron, Total \� (7440-42-8) x r Cobalt, Total `X, * (7440-48-4) / ` _ XTotal 0.023 0 022 1 ug/L kg/d (7439sln�n-89.6) L Magnesium Total (7439 95-4) u !Molybdenum, Total *, (7439.98-7) y Manganese, Total (7439-96-5) i - w Tin, Total (744D -31-5) - - x Titanium Total u (7440-32=6) EPA Form 3510-2C (8-90) - PAGE V-2 CONTINUE ON PAGE V-3 EPA I.D. NUMBER (copy from Item 1 )fPorm 1) OUTFALL NUMBER CONTINUED FROM PAGE 3 OF FORM 2-C NCD000830919 007 PART C - If you are a primary industry and this outfall contains process wastewater, refer to Table 202 in the instructions to determine which of the GC/MS fractions you must test for. Mark "X" in column 2a for all such GC/MS fractions that apply to your industry and for ALL toxic metals, cyanides, and total phenols. If you are not required to mark column 2a (secondary industries, nonprocess wastewater outfalls, and nonrequired GCIMS fractions), mark "X" in column 2-b for each pollutant you know or have reason to believe is present. Mark 'X" in column 2-c for each pollutant you believe is absent. If you mark column 2a for any pollutant, you must provide the results of at least one analysis for that pollutant. If you mark column 2b for any pollutant, you must provide the results of at least one analysis for that pollutant if you know or have reason to believe it will be discharged in concentrations of 10 ppb or greater. If you mark column 2b for acrolein, acrylonitrile, 2,4 dinitrophenol, or 2 -methyl, 6 dinitrophenol, you must provide the results of at least one analysis for each of these pollutants which you know or have reason to believe that you discharge in concentrations of 100 ppb or greater. Otherwise, for pollutants for which you mark column 2b, you must either submit at least one analysis or briefly describe the reasons the pollutant is expected to be discharged. Note that there are 7 pages to this part. please review each carefully. Complete one table (all 7 pages) for each outfall. See instructions for additional details and requirements. 2. MARK"X' 3. EFFLUENT 4. UNITS 5. INTAKE (oprionaQ 1. POLLUTANT b. MAXIMUM 30 DAY VALUE C. LONG TERM AVRG. a. LONG TERM AND a b c a. MAXIMUM DAILY VALUE (ifavailable) VALUE (ijavadablc) AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED d. NO. OF a. CONCEN- b. NO. OF (1) (t) (1) (1) ffatnilable) REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b. MASS CONCENTRATION (2) MASS ANALYSES METALS, CYANIDE, AND TOTAL PHENOLS 1 M. Antimony, Total c 3 2 ug/L (7440-36-0) 2M. Arsenic, Total < 3 < 3 < 3 5 ug / L (7440-38-2) 3M. Beryllium, Total < 2 2 llg/L (7440-41-7) 4M. Cadmium. Total X < 2 2 ug/L (7440339) 5M. Chromium, Total < 5 < 5 < 5 5 Ug/L (7440 47-3) \/ (M"C^o�ppeB;.Total /\ 28.5 27.9 28-5 27.9 9.9 9.7 5 ug/L kg/d 7M. Lead, Total X 5 (7439-92-1) < 2 ug / L 8M. Merc. Total (7439-97-8) /\ X < 0.2 < 0.2 < 0.2 5 ug/L 9M. Nickel, Total < 5 < 5 < 5 5 U ug/L (7440-02-0) 10M. Selenium. Total (7782-09-2) 13.2 12.9 3. 3 3.2 < 2 54 u L g/ k d g/ 11 M. Silver, Total (7440-22-4) X < 10 2 ug/L 12M. Thallium, Total (7440-28-0) < 1 2 u9/L 13M. Zinc, Total (7440-66--6) X27.8 27-2 2 ug/L kg/d 14M. Cyanide, Total (57-12-5) X < 0.005 1 Ing/L Phenols, Total /\ X 11.9 11.6 1 ug/L kg/d DIOXIN 2.33,8 -Tetra -DESCRIBE RESULTS chlorodibenzo-P- Dioxin (1764-01-6) /X\ EPA Form 3510-2C (8-90) PAGE V-3 CONTINUE ON REVERSE CONTINUED FROM THE FRONT EPA Form 3510-2C (8=90) PAGE V-4 CONTINUE`ON PAGE V-5 2 MARK W 3 EFFLUENT 4 UNITS 5 INTAKE (optional) 1 POLLUTANT b,MAXIMLIM 30 DAY VALUEc ,LONG TERM AVRG a LONGTERM AND a b c a MAXIMUM DAILY VALUE (rf—Mable) VALUE (favadable) AVERAGE VALUE CAS NUMBER TESTING, BELIEVED BELIEVED' d NO OF a_CONCEN- W NO OF (1) (t) (1) (1) (favarlable) REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b MASS CONCENTRATION (2) MASS NALYSES GC/MS FRACTION -VOLATILE COMPOUNDS 1V A=oleinv < 50 1 ug/L (107-02-8) 2V Acrylondnle X < 50 1 ug/L (107-13.1) 3V Benzene X < 5 1 ug/L (71-432) - — - - 4V Bis (( Moro meJryQ Ether ` X (542-88.1) 5V. Bromoform X < 5 1 ug/L (75.232) - -- -- - - 6V Carbon Tetrachloride - I X 5 - (56-235) < 1 ug/L 7V Chlorobenzene X < 5 1 ug/L (108-90-7) - - - BV, Chlorodr- bromomethane \ / X < 5' 1 ug/L (124.48.1) / \ ' 9V Chloroethane < 5 1 ug/L (75-M3) - 10V 2 -Chloro- ethylwnyl Ether 10 < 1 ug/L (110.75-8) 11V Chloroform X 5 1 (67-66-3) < ug/L 12V Dichloro- bromomethaneX < 5 1 ug/L (75-27.4) 13V D:chloro- drfluoromethane - - (75.71-8) 14V 1,1-Dichloro- x < 5 1 ug/L ethane (75-34=3) 15V 1;2-Dichloro- X 5, ethane (107-06-2) < 1 ug/.L- g/.L 16V 16V 1 1-Dichloro-\/ < 5 1 ug/ -L ethylene (75:354)X 17V 1,2-Dichloro-` X < 5 1 ug/L propane (78-87-5) 18V 1.3Dichlora- propylene \ , X < 5 1 ug/L (542-75.6) 19V Ethylbenzene (100-41:4yX < 5 1 ug/L 20V Methyl I /\ X < 10 1 ug/L Bromide (74-839) 21V Methyl (7487-3) <, 5 1 ug/-LCFilonde EPA Form 3510-2C (8=90) PAGE V-4 CONTINUE`ON PAGE V-5 CONTINUED FROM PAGE V-4 EPA,Form'3510-2C (8-90) PAGE V-5 CONTINUE ON REVERSE 2 MARK'X' 3 EFFLUENT 4 UNITS 5 INTAKE (opuonan 1 POLLUTANT b MAXIMUM 30 DAY VALUE c LONG TERM AVRG a LONGTERM AND a b c a MAXIMUM DAILY VALUE (rfavadable) VALUE (rfavarlable) AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED d NO OF a CONCEN- (1) b NO OF (1) (1)(1) (�f available) REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b- MASS CONCENTRATION (2) MASS NALYSES GC/MS FRACTION —VOLATILE COMPOUNDS (continued) 22V Methylene X < 5 1 ug/L Chlonde(75-09-2) 23V,1,1,2,2- ` ' Tetrachloroethane X < 5 1 ug/L 9-345 24V Tetrachloro- &4) < 5 1 ug/L ethylene (127-1 25V ,Toluene < 5 1 ug/L (108-88-3) 26V 1,2 -Trans DichS lloorooethylene X < 5 1 ug/L 27V 1,11-Tnchloro ethane (71-556) X < 10 1 ug/L 28V 1,12-Tnchloro X < 5 1 ug/L ethane (79-00-5) 29V Tnchloro- X < 5 1 ug/L ethylene (79-01-6) 30V Tnchloro- fluoromethane < 5 1 ug/L 59-4 i 31V VinybChlonde < -5 1 ug/L (7501-4) GC/MS FRACTION — ACID COMPOUNDS IA. 27Chlorophenol X < 10 1 ug/L (95-57-8) 2A_ 2,4Dichloro-X phenol (120433-2) < 10 1 ug/L 3A. 2,4-D methyl - X < 10 1 ug/L phenol (105-67-9) 4A. 4,6-Dindro-0- X < 50 1 ug/L Cresol(534-52-1) Dmdro- X < SO 1 ug/L phenol phenol (51-28-5) 6A.�2-Nrtrophenolv X < 10 1 ug''/L (88-75.5) 7A 4-Ndrophenol' x< 10 1 ug/L (100-02-7) 8A P-ChloT,4 Cresol(59-50-7) X < 10 1 ug/L 9A_Pentachloro-X phenol (87-86-5) < 30 1 ug/L 10A. Phenol (108-95-2) X < 10 1 ug/L 11A.2,4,6-Tnchloro- phenol (88-05.2) X , < 10 1 ug/L EPA,Form'3510-2C (8-90) PAGE V-5 CONTINUE ON REVERSE CONTINUED FROM THE FRONT EPA Porm,3510-2C (8-90) PAGE V-6 CONTINUE ON PAGE V-7 2 MARK "X" '3 EFFLUENT_ 4 UNITS 5 INTAKE (optional) 1 POLLUTANT b MAXIMUM 30 DAY VALUE c LONG TERM AVRG a LONG TERM AND a b c a MAXIMUM DAILY VALUE (rfava,lable) I VALUE'(rfaia,lable) AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED d NO OF a CONCEN- b NO OF (1) (1)(1) (1) (ifavarlable) REQUIRED PRESENT, ABSENTi CONCENTRATION (2) MASS CONCENTRATION' (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b MASS CONCENTRATION (2) MASS ANALYSES GC/MS FRACTION — BASE/NEUTRAL COMPOUNDS 1B Acenaphthene X (83-32-9) 2B Acenaphtylene - (208-96=8) X 3B Anthracene (120-12-7) _ X _ l 4B Benzidine (92-87-5) x 5B Benzo (a) Anthracene X (56.553) 6B'Benzo (a) X Pyrene (5032-8) J 7B 3,4-Benzo- fluoranthene X (20599-2) 8B Benzo (gh,) Perylene (191-2.4-2) %< 9B Benzo (k)' Fluoranthene (207'08-9) 10B Bis (2-Chlorn- - ethoxy) Methane X (111-91-1) 11 B Bis (2-Chforr ethyl) Ether X (111-44-4) 12B Bis (2- - Chlorocsopropvl) �/ x Ether (102-80-1) 13B Bis (2-Ethil- hexyl) Phthalate x(117-81-7) 14B 4-Bromophenyl Phenyl Ether �/ x (10155-3) 15B Butyl Benzyl �/ x Phthalate,(85-68-7) 16B 2 -Chloro - naphthalene �/ x (91-58-7) 17B 4 -Chloro - phenyl PhenyliEther �/ x (700572-3) 18B Chrysene x(218-01-9) 19B Dibenzo (ah) - Anthracene (5370-3) X 20B 1,2 -Dichloro- benzene (9550-1) X - 216 1,3-Dp chloro- �/ benzene'(541-751) /� EPA Porm,3510-2C (8-90) PAGE V-6 CONTINUE ON PAGE V-7 CONTINUED FROM PAGE V3 EPA Form 3510-2C (8-90) PAGE V-7 CONTINUE ON REVERSE 2 MARK "X" 3 EFFLUENT 4 UNITS 5 INTAKE'(opnonon 1 POLLUTANT b MAXIMUM 30 DAY VALUE' C LONG TERM AVRG' a LONGTERM AND a b c a MAXIMUM DAILY VALUE W—da6le) VALUE(rjavurlutile) AVERAGE,VALUE CAS NUMBER TESTING IBELIEVED BELIEVED d NO ,OF a CONCEN-, 6 NO OF (1) (1) �(1) (1) (ijavailable) REQUIRED„PRESENT ABSENT CONCENTRATION �(2) MASS CONCENTRATION' (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b MASS CONCENTRATION (2),MASS ANALYSES GC/MS FRACTION = BASE/NE_UT_RAL COMPOUNDS (continued) 22B 1,4Dichloro- �/ benzene (i0646.7) - 23B 3,3•Dichloro- benzidrne (91-94:1) - - 24B Diethyl Phthalate (8466_-2_) _ 25B Dimethyl Phthalate (131-11-3) 26B DrN-Butyl v Phthalate (84742) - 27B 2 4-Dmdio- toluene (121-142) x 28B 2,6-DmiVo- - toluene (606.20-2) 29B Di-N-Octyl - Phthalate (117-8440) 30B 1,2-Diphenyl- hydrazme'(as Azo- benzene)(122-66-7) 31 B Fluoranthene \� (20641-0) x 32B Fluorene v (86-73.7) 336 Hexachloro- beniene (118-741) 348 Hexachloro- v butadiene (87-68-3) 35B ,Hexachl6ro- cydopentadiene (77-47-4) �\ _ 36B Hexachloro- ethane (67-72-1) 37B Indeno (1,2,3cd) Pyrene (19339-5) 38B Isophorone (/&59-1) 396 Naphthalene \/ (91-20-3) �\ 408 -Nitrobenzene (98-95-3) X 41B N-NrtD- sodimethylamme (62-75-9) - 42B N-Nrtrosodr- N-Propylamine v (621.647) EPA Form 3510-2C (8-90) PAGE V-7 CONTINUE ON REVERSE CONTINUED FROM THE FRONT trA r-orrn,salu-Z". (u au) PAGE V-8 CONTINUE ON PAGE V-9 2 MARK "X' 3 EFFLUENT 4 UNITS 5 INTAKE"(opfronan 1 POLLUTANT b MAXIMUM 30 DAY VALUE c LONG TERM AVRG a LONGTERM AND a b c •a MAXIMUM DAILY VALUE (rfavarlable) _ VALUE (rfavadable) AVERAGE VALU��b CAS NUMBER TESTING_ BELIEVED BELIEVED d NO OF a CONCEN- NO OF' (1) (1) (1) 1 (rfavar/able) REQUIRED PRESENT ABSENT CONCENTRATION' (2)MASS CONCENTRATION (2) MASS "CONCENTRATION (2) MASS ANALYSES TRATION b MASS CONCENTRATION' (2)NALYSES GC/MS'FRACTION - BASE NEUTRAL COMPOUNDS (cony w0.) 43B 'N-Nitro- sodiphenylamme v (8630.6) 448 Phenanthrene v x - 45B Pyrene `� - - (129-00-0)n 46B `1,2,4-Tn- chlorobenzene \/ (120-82-1) ___ x GC/MS FRACTION - PESTICIDES 1P Aldnn (309-002) 2P a -BHC (319.846) X 3P 5 -(t -BHC (319-85-7) 4P y -BHC (5889-9)_ SP 5 -BHC \� (31946-8) /\ I 6P, Chlordane - (57-749) 7P 4,4' -DDT v - (5029-3) - 8P 4,4' -DDE (72 -555-9)_ �\ 9P 4,4' -DDD v (72548) 100 Dieldrin (60.57-i) - 11 P a-Enosulfan (115=29-7) 12P P-Endosuifan \ (115-29-7) n 13P ,Endosulfam - Sulfate (1031-07-8) 14P Endrin ' (72-20-8) 15P Endrin Aldehyde (7421-93-4) 16P Heptachlor v (76-448) trA r-orrn,salu-Z". (u au) PAGE V-8 CONTINUE ON PAGE V-9 EPA I_D NUMBER (copvfrom hem ! of Form l) OUTFALL NUMBER CONTINUED FROM PAGE V-8 I NCD000830919 007 r-FA,rorrn (ts-yU) *Pollutant may be present in coal ash. PAGE V-9 2 MARK'"X' 3 EFFLUENT 4 UNITS 5 INTAKE (opttonao 1 POLLUTANT 6 MAXIMUM 30 DAY VALUE c LONGTERM AVRG a LONGTERM AND CAS NUMBER a b c I a MAXIMUM DAILY VALUE(rfavarlable) VALUE,(rfavarlable) AVERAGE VALUE TESTING BELIEVED BELIEVED d NO OF a CONCEN- b NO OF (ifavarlable) REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION b MASS CONCENTRATION (2) MASS NALYSES GC/MS FRACTION — PESTICIDES (continued) 17P Heptachlor Eponde ` X (1024-57-3) 18P PCB -1242 \/ (53469-21-9) x - 19P PCB -1254 v (11097-69-1) 20P PCB -1221 (11104-28-2) 21P PCB -1232 (11141-16-5) - - 22P PCB -1248 (12672-29-6) X 23P' PCB -1260 (11096-8215) 24P PCB -1016 (12674-11-2) X 25P Toxaphene (8001-35-2) X r-FA,rorrn (ts-yU) *Pollutant may be present in coal ash. PAGE V-9 EPA ID Number (copy from Item 1 of Form 1) Form Approved. OMB No. 2040-0086 Please print or type in the unshaded areas only. NCD00083091 9 Approval expires 5-31-92 FORM 2F NPDES U.S. Environmental Protection Agency Washington, DC 20460 \�/EPA Application for Permit to Discharge Storm Water Discharges Associated with Industrial Activity Paperwork Reduction Act Notice Public reporting burden for this application is estimated to average 28.6 hours per application, including time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. Send comments regarding the burden estimate, any other aspect of this collection of information, or suggestions for improving this form, including suggestions which may increase or reduce this burden to: Chief, Information Policy Branch, PM -223, U.S. Environmental Protection Agency, 1200 Pennsylvania Avenue, NW, Washington, DC 20460, or Director, Office of Information and Regulatory Affairs, Office of Management and Budget, Washington, DC 20503. I. Outfall Location For each outfall, list the latitude and longitude of its location to the nearest 15 seconds and the name of the receiving water. A. Outfall Number D. Receiving Water (list) B. Latitude C. Longitude (name) S14-001 35 35 50 79 2 55 Shaddox Creek SW -002 35 35 .41 79 2 48 Shaddox Creek SW -003 35 35 35 79 2 40 Tributary to Shaddox Creek SW -008 35 34 58 79 3 0 -Cape Fear River II. Improvements A Are you now required by any Federal, State, or local authority to meet any implementation schedule for the construction, upgrading or operation of wastewater treatment equipment or practices or any other environmental programs which may affect the discharges described in this application? This includes, but is not limited to, permit conditions, administrative or enforcement orders, enforcement compliance schedule letters, stipulations, court orders, and grant or loan conditions. 2. Affected Outfalls 4 Final 1. Identification of Conditions, Compliance Date Agreements, Etc. number source of discharge 3. Brief Description of Project a. req. b. prof None B: You may attach additional sheets describing any additional water pollution (or other environmental projects which may affect your discharges) you now have under way or which you plan. Indicate whether each program is now underway or planned, and indicate your actual or planned schedules for construction. III. Site Drainage Map Attach a site map showing topography (or indicating the outline of drainage areas served by the outfalls(s) covered in the application if a topographic map is unavailable) depicting the facility including: each of its intake and discharge structures; the drainage area of each storm water outfall; paved areas and buildings within the drainage area of each storm water outfall, each known past or present areas used for outdoor storage of disposal of significant materials, each existing structural control measure to reduce pollutants in storm water runoff, materials loading and access areas, areas where pesticides, herbicides, soil conditioners and fertilizers are applied; each of its hazardous waste treatment, storage or disposal units (including each area not required to have a RCRA permit which is used for accumulating hazardous waste under 40 CFR 262.34), each well where fluids from the facility are injected underground; springs, and other surface water bodies which received storm water discharges from the facility. EPA Form 3510-2F (1-92) Page 1 of 3 Continue on Page 2 r]nntinurd from thp. Frnnt IV. Narrative Description of Pollutant Sources A For each outfall, provide an estimate of the area (include units) of imperious surfaces (including paved areas and building roofs) drained to the outfall, and an estimate of the total surface area drained by the outfall. Outfall Area of Impervious Surface Total Area Drained Outfall Area of Impervious Surface Total Area Drained Number (provide units) (provide units) Number (provide units) (provide units) SW -001 o acre 10 acres SW -002 1 acre 9 acres SW -003 0 acre 2 acres SW -008 0 acre 56 acres B. Provide a narrative description of significant materials that are currently or in the past three years have been treated, stored or disposed in a manner to allow exposure to storm water; method of treatment, storage, or disposal; past and present materials management practices employed to minimize contact by these materials with storm water runoff; materials loading and access areas, and the location, manner, and frequency in which pesticides, herbicides, soil conditioners, and fertilizers are applied. Outfalls SW -001 and SW -008 would discharge storm water from abandoned ash ponds that have not been used for more than 35 years. These areas are now covered with vegetation. Previously, NCDENR concurred that it would take greater than a 25 -year storm event to have storm water discharge from the existing stand pipes in these inactive ash ponds. Outfall SW -002 discharges storm water from along the east side of a railroad spur that receives coal shipments to the plant. Two pipes direct flow from this less than one acre area into a field. A collection point within the field discharges into Shaddox Creek. Approximately one acre of impervious surface, including a roadway and a gravelled employee parking lot, also drain to this collection point. No herbicides nor fertilizers are applied to the field. Outfall SW -003 discharges storm water from along the south side of the entrance road. This small, grass -lined area is not located near any industrial processes at the plant site nor is it located near any portion of the site where coal or other chemical are unloaded. No herbicides nor fertilizers are applied in this area. C. For each outfall, provide the location and a description of existing structural and nonstructural control measures to reduce pollutants in storm water runoff, and a description of the treatment the storm water receives, including the schedule and type of maintenance for control and treatment measures and the ultimate disposal of any solid or fluid wastes other than by discharge. Ouffall List Codes from Number Treatment Table 2F-1 SW -001 None. 1-U SW -002 Rock filter dam at outfall pipe. 4-A SW -003 None. 4-A SW -008 None. 1-U V. Nonstormwater Discharges A, I certify under penalty of law hat the outfall(s) covered by this application have been tested or evaluated for the presence of nonstormwater discharges, and that all nonstormwater discharged from these outfall(s) are identified in either an accompanying Form 2C or From 2E application for the outfall. Name and Official Title (type or print) Signet Date Signed /7110 Danny Hedgepeth, Environmental Spec.`- B Provide a description of the method used, the date of any testing, and the onsite drainage points that were directly observed during a test. on an annual basis, the Cape Fear Plant ORC conducts a visual inspection of all storm water outfalls during an extended period of dry weather. This visual inspection serves to ensure that there are no nonstorm water discharges from the permitted storm water outfalls. Certification statements are signed, dated, and maintained onsite in the SWPPP. VI. Significant Leaks or Spills Provide existing information regarding the history of significant leaks or spills of toxic or hazardous pollutants at the facility in the last three years, including the approximate dale and location of the spill or leak, and the type and amount of material released. There have been no leaks or spills of toxic or hazardous pollutants at the facilty in the last three years. EPA Form 3510-2F (1-92) Page 2 of 3 Continue on Page 3 Continued from Pane 2 NCDoo ea 9 9umber(copy from Item 1 ofForm 1) EPA Form 3510-2F (19ry2) 11 Page 3 of 3 VII. Discharge Information A,.B, C. & D See instructions before proceeding Complete'one set of tables for each outfall Annotate the outfall number in the space provided Table VII -A, VII -B, VII -C are included on,separate sheetwnumbers VII -1 and VII -2 E Potential discharges ,not covered by analysis — is any toxic pollutant' listedl;in table 2F-2, 2F-3, or 2F-4, a substance ora component of a substance which you currently use or manufacture as an intermediate or fmal,product or byproduct? ✓Q Yes (list all such pollutants below) ❑ No (go to 'Section IX) Elements that may be present in coal at the plant_ Antimony Arsenic Beryklium Cadmium, Chromium Lead Mercury Nickel Selenium Silver Thallium Zinc VIII. Biological Toxicity -Testing Data Do you have any knowledge orlreason,to,beheve that any biological test,for acute or, chronic toxicity has'beemmade on any of yourdischarges or on a receiving water in relation to your discharge within the last'3 years? ❑ Yes (list all such pollutants below) ❑✓ No (go to Section UQ IX. Contract Analysis Information Were any of the, analyses, reported_ inbitem VII performed1by a contract laboratory or cons'ulbng firm? Q Yes (list the name, address, and telephone, number of„and pollutants JE]No, (go to Section X) analyzed by, each such laboratory or firm below) A Name B Address C Area Code & Phone No D Pollutants Analyzed Tritest, Inc 6701 Conference Drive 919-834-4984 All except pH, FAC, and TRC Raleigh, NC 27607 X. Certification 1 certify.under penalty of law that this documenhan&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 rnformahon submitted Based on my inquiry of the person or persons who manage the,system or those persons directly responsible for gathering the information, the rnfohrmhon submitted is, to the best of my knowledge and belief, true, accurate, and "complete I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations A Name & Official Title (Type OF Print) B Area Code and Phone No Randy Cox, Plant Manager 919.774.5200 'C Signature D Date Signed , Z. &Z ,I-- I -10��0 EPA Form 3510-2F (19ry2) 11 Page 3 of 3 EPA ID Number (copy from item 1 of Form 1)I Form Approved. OMB No. 2040-0086 9CD000830919 Outfall SW -002 Approval expires 5-31-92 VII. Discharge information (Continued from page 3 of Form 2F) Part A — You must provide the results of at least one analysis for every pollutant in this table. Complete one table for each outfall. See instructions for additional details. Pollutant and CAS Number (ifavailable) Maximum Values (include units) Average Values (include units) Number of Storm Events Sampled Sources of Pollutants Grab Sample Taken During First 20 Minutes Flow -Weighted Composite Grab Sample Taken During First 20 Minutes Flow -Weighted Composite Oil and Grease 5.5 mg/L N/A 1 Biological Oxygen Demand (BODS) 3.6 mg/L 1 Chemical Oxygen Demand (COD) q8.6 mg/L 1 Total Suspended Solids (TSS) y s mg/L 1 Total Nitrogen 1.62 mg/L + 1 Total Phosphorus 0.17 mg/L 1 PH Minimum 6.3 Maximum 6,3 Minimum Maximum 1 Part B — List each pollutant that is limited in an effluent guideline which the facility is subject to or any pollutant listed in the facility's NPDES permit for its process wastewater (if the facility is operating under an existing NPDES permit). Complete one table for each outfall. See the instructions for additional details and requirements. Pollutant and CAS Number (if available) Maximum Values Average Values (include units) (include units) Grab Sample Grab Sample Taken During Taken During First 20 Flow -Weighted First 20 Flow -Weighted Minutes Composite Minutes Composite Number of Storm Events Sampled Sources of Pollutants PH 6.3 SU N/A 1 Natural environmental processes TSS 4.8 mg/L 1 Erosion, settled dust/debris Oil & Grease 5.5 mg/L N/A 1 May be present in coal along rail Temperature 22 degrees C N/A 1 Ambient TRC 0.05 mg/L N/A 1 Chlorination process at plant Copper, Total 0.007 mg/L i May be present in coal along rail Iron, Total 0.382 mg/L 1 May be present in coal along rail Arsenic, Total . 3 ug/L 1 May be present in coal along rail Mercury 2.41 ng/L 1 May be present in coal along rail Selenium, Total � 2 ug/L 1 May be present in coal along rail Chromium, Total < 5 ug/L 1 May be present in coal along rail Nickel, Total < 5 ug/L 1 May be present in coal along rail Phosphorus, Tot 0.17 mg/L 1 Natural environmental processes Ammonia -N < 0.02 mg/L N • 1 Natural environmental processes Nitrate -Nitrite 0.38 mg/L N 1 Natural environmental processes Kjeldahl -N 1.24 mg/L 1 Natural environmental processes Nitrogen, Total 1.62 mg/L 1 Natural environmental processes Fecal coliform 4950 CFU/100ml 1 Natural environmental processes *Composite samples not taken, by permission of NCDWQ. EPA Form 3510-2F (1.92) Page VII -1 Continue on Reverse Continued'from the Front Part C- List each pollutant shown In Table 217-2, 2F-3, and'2F-4 that you'know or have reasomto believe is;present See the instructions for additional details and requirements Complete,one table for each outfall Maximum Values Average Values (include units) (mclude,unds) Number Pollutant Grab Sample Grab Sample - of and Taken Dunng Taken During Storm CAS Number First 20 Flow -Weighted First 20 Flow -Weighted Events (d available) Minutes Composite Minutes Composite Sampled 'Sources of Pollutants Aluminum May be y present in coal along rail Antimony May be present in coal along rail Beryllium --- May be present in coal along rail Boron --- May be present in coal along rail Bromide --- May be present in coal along rail Cadmium - May be present in coal along rail Lead --- May be present in coal along rail Magnesium --- May be present in coal along rail Manganese --- May be present in coal along rail Molybdenum --- May be present in coal along rail Silver _ May be present in coaly along rail Thallium May be present in coal along rail Tin - - _ May be y present in coal along rail Zinc May be present, in coal ,along rail Part D - Provide data for the storm event(s) which resulted in the maximum values for the flow weighted composite sample 1 Date of Storm Event 2 Duration of Storm Event (in minutes) 3 Total rainfall' during storm,event (in inches) 4 Number, of hours between beginning of storm measured and end of previous measurable raimevent 5 Maximum flow rate during rairevent , (gallons/mmute or specify units) B Total flow from rain event (gallons or specify units) 09/26/,2010 thru 09/28/2010 2,160 minutes 3 0 inches 1 768 hours 2 gallons/minute 1,440 gallons 7 Provide a description of the method;of flow measurement or estimate Storm water flow was timed `with a stopwatch as it filled a bucket to a known volume to measure flow from outfall EPA Form 3510-2F`(1-92) Page VII -2 EPA ID Number (copy from Item 1 ofFoim 1) Form Approved. OMB No. 2040-0086 4CD000630919 Outfall SW -0031 Approval expires 5-31-92 VII. Discharge information (Continued from page 3 of Form 2F) Part A - You must provide the results of at least one analysis for every pollutant in this table. Complete one table for each outfall. See instructions for additional details. Pollutant and CAS Number (ifavailable) Maximum Values (include units) Average Values (include units) Number of Storm Events Sampled Sources of Pollutants Grab Sample Taken During First 20 Minutes Flow -Weighted Composite Grab Sample Taken During First 20 Minutes Flow -Weighted Composite Oil and Grease < 5 mg/L N/A 1 Biological Oxygen Demand (BODS) 9 3 mg/L 1 Chemical Oxygen Demand (COD) 67 mg/L 1 Total Suspended Solids (TSS) 35.2 mg/L 1 Total Nitrogen 1.99 mg/L 1 Total Phosphorus 0.69 mg/L 1 PH Minimum 5.81 Maximum 5.8 Minimum Maximum 1 Part B — List each pollutant that is limited in an effluent guideline which the facility is subject to or any pollutant listed in the facility's NPDES permit for its process wastewater (if the facility is operating under an existing NPDES permit). Complete one table for each outfall. See the instructions for additional details and requirements. Pollutant and CAS Number (ifavailable) Maximum Values Average Values (include units) (include units) Grab Sample Grab Sample Taken During Taken During First 20 Flow -Weighted First 20 Flow -Weighted Minutes Composite Minutes Composite Number of Storm Events Sampled Sources of Pollutants PH 5.8 SU N/A Natural environmental processes TSS 35.2 mg/L Erosion, settled dust/debris Oil 6 Grease 5 mg/L N/A May be present in coal along rail Temperature 22 degrees C N/A Ambient TRC 0.05 mg/L N/A Chlorination process at plant Copper, Total 0.006 mg/L May be present in coal along rail Iron, Total 0.955 mg/L May be present in coal along rail Arsenic, Total < 3 ug/L May be present in coal along rail Mercury 5.53 ng/L May be present in coal along rail Selenium, Total 2.52 ug/L May be present in coal along rail Chromium, Total < 5 ug/L May be present in coal along rail Nickel, Total < 5 ug/L May be present in coal along rail Phosphorus, Tot 0.69 mg/L Natural environmental processes Ammonia -N 0.26 mg/L N Natural environmental processes Nitrate -Nitrite < 0.02 mg/L N Natural environmental processes Kjeldahl -N 1.99 mg/L Natural environmental processes Nitrogen, Total 1.99 mg/L Natural environmental processes Fecal coliform 1710 CFU/100mL Natural environmental processes *Composite samples not taken, by permission of NCDWQ. EPA Form 3510-21F (1-92) Page VII -1 Continue on Reverse Continued from the Front Part C - List each pollutant shown in Table 2F-2, 2F-3, and 2F4 that you know or have reason to believe is present See the"instructions for additional details and requirements Complete one table for each outfall Maximum Values Average Values (include units) include units) Number Pollutant Grab,Sample Grab,Sample of and Taken Dunng Taken During Storm CAS Number First 26 Flow -Weighted First 20 Flow -Weighted Events (if available) Minutes Composite Minutes Composite Sampled Sources of Pollutants Aluminum --- May be present in coal along rail Antimony - May be present in coal along rail Beryllium May be preaent in coal along rail Boron May be present in coal along rail Bromide May be present in coal along, rail Cadmium May be present in coal along rail Lead -- May be present in coal along rail Magnesium _- May be present in coal along rail Manganese May be present in coal along rail Molybdenumi --- Maybe present in coal along rail Silver May be present in coal along rail Thallium May be present in coal along rail tin, May be present in coal along rail Zinc --- May tie present in coal along rail Part,D —_ Provide.data, for4he, storm event(s) which resulted in the maximum values for the flow.weighted composite sample 1 Date of Storm Event 2 Duration of Storm Event (in ininutesj 3 Total)ramfall during storm event (in inches) 4 Number of hours between beginning of,storm measured and end of previous measurable rain event 5 Maximum flow,rate during rain event (gallons/minute or specify units) 6 Total flow from rain event (gallons,orspecr/y units) 09/26/2010 'thru 09/28/2010 2,160 minutes 3,0 inches 768 hours 1 gallons/minute 720 gallons 7 ,Provide a,descnption,of,the method of flow measurement or estimate `Storm water flow was timed with a stopwatch as it filled,a bucket to a known volume to measure flow from outfall EPA Form 3510-2F (1-92) Page VII -2 Progress Energy Carolinas, Inc. NPDES Permit NC0003433 Cape Fear Steam Electric Plant Permit Renewal Application 2011 Attachment 1 Form 1 - Item XI Topographic Map '193 N - — Y�Ar� Water It A JL I -A L *% tits 9 Fe4Fe i" pq Intake Structuv," tit < substielta A 9 A. J C' jk *rth Carolin' ee Al -1 Progress Energy Carolinas, Inc. NPDES Permit NC0003433 Cape Fear Steam Electric Plant Permit Renewal Application 2011 Attachment 2 Form 2C - Item II -A Line Drawing Flows Flows Estimated Average Flow Comments A 0.58 MGD Outfall 001 — West ash pond effluent to effluent channel B 0.66 MGD Outfall 005 — East ash pond effluent to effluent channel C 182.8 MGD (w/o towers) Outfall 003 — Once through cooling water to effluent channel 269.0 MGD (w/ towers) D 183.4 MGD (w/o towers) Outfall 007 — Discharge to tributary of the Cape Fear River 269.7 MGD (w/ towers) E 183.4 MGD (w/o towers) Cape Fear River intake 278.4 MGD (w/towers) F 0 MGD (w/o towers) Water to cooling tower 277.8 MGD (w/towers) G 0 MGD (w/o towers) Cooling water from cooling tower 269.0 MGD (w/towers) H 0 MGD (w/o towers) Evaporation 8.657 MGD (w/towers) 1 0.001 MGD Evaporation J 0.140 MGD Boiler water makeup supply K 0.51 MGD Ash transport system L 4,000,000 gallons/event Air preheater washing M 50,000 gallons/event Electrostatic precipitator washing N 0.002 MGD Sanitary waste O 0.052 MGD Storm water, average rainfall — 50% runoff P 0.004 MGD Coal pile runoff, average rainfall — 50% runoff Q 0.001 MGD Equipment cooling tower evaporation A2-1 � ----------- � LL 02 LIJk � M § of { 0 o • §§ ca } i _ cLn §u� u , I | u , k , | | E | # E0 \_ kE » �\ > (c }m | _� \ƒ 2\ 0 U- ® EE . 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F— ' . ; . ------- -----------� E: cr (Co _ \\ }) Le 9 u) q{ E \ \ \ j\ { \ Cl E I C a_ q{ E z \\ EZ _ j6 j{ E E _ _ § LU z o = 0 0 0 0 0 0 0 )f k �e .m 2� 0 \) ?° E #e 3 \. / #� S f= o G £ ( y I �! ; A0 * ©f 7/ a S% m» ;# 6■ ti >ƒ I �f &) ¥� S fz ,a - 5 B */ me ], F� �_ e $ t LL} )m )) = / - 2 « I aE )� �® \£®F G ) e �` �2 G T- \t %, C4 _ k °f 7) y� �< z \\ EZ _ Progress Energy Carolinas,,Inc NPDES Permit'NC0003433 Cape Fear Steam Electric Plant Permit Renewal_ Application 2011 Attachment 3 Form 2C - Item II -B Description of Operations Contributing Wastewater The Cape Fear Steam Electric Plant is a coal-fired steam cycle electric generating plant with two units. Two heat recovery boilers and four Internal Combustion (IC) Turbines are also located on the plant site Water is withdrawn from the,Cape Fear River�as required Chemical constituents contained in the discharges from this plant will, in part, be representative of the naturally -occurring chemical quality of the intake water and will also have chemical constituents of such quality and quantity associated with similar,discharges for fossil generating facilities.of this size, type, and in the geographical location Either all' or part of the elements listed on the'Penodic Table, either singularly or in any combination, may from time to time be contained in the discharge All wastewater discharges loin the effluent channel, prior to the combined outfall (Outfall 007). Components of the discharges are described below Also, four storm water outfalls have been identified at the plant site and are described below Outfall 007 Combined Wastewater Discharge This outfall contains all waste stream flows including West Ash Pond discharge, once -,through cooling water„ and East Ash, Pond discharge: ,Outfall 007 ,is located`in `the effluent channel approximately 250 feet downstream ofthe last internal outfall The effluent channel becomes an unnamed tributary which flows to the Cape Fear River West Ash Pond (197& Pond) Discharge - Internal Outfall 001 The West Ash Pond currently receives coal pile runoff, settling basin drains, No 2 fuel oil tank runoff, sand bed filter backwash, parking lot drains, equipment cooling tower blowdown and drain, boiler blowdown, oil unloading area drains, demineralizer regenerate, various yard and floor drains, ash trench drain, and miscellaneous low'volume wastes This, pond may also receive bottom and fly ash either by ash transport system waters, or by truck The ash pond provides treatment by sedimentation, oxidation, neutralization, equalization, and adsorption Descriptions of the individual waste streams are below. Coal P►le Runoff ` Storm water runoff from the coal pile is collected in drainage ditches that surround the coal pile The drainage ditches are routed to the West Ash Pond for treatment During maintenance activities, sludges removed'from'catch basins, sumps, etc may be transported to the West,Ash Pond for disposal Low Volume Wastes The low volume wastes retention basin receives various plant process wastes streams Comingled waste from this basin flows to the West Ash Pond Surface water is withdrawn from the Cape Fear River is treated with.a-Reverse Osmosis (RO) unit and an electrodeionization unit for use in some plant processes including boiler water make up On rare occasions, vendor supplied equipment may, be used for this purpose -RO refect water and the cleaning, solutions -wastes from this system are'routed to the low volume wastes retention basin Filter backwash from this system flows directly to the West Ash Pond Boiler,blowdown°and drainage (Units 5 & 6) and wastes from the equipment cooling tower and its associated heat exchangers may,contain minute quantities of'treatment chemicals The small quantities of these low volume wastes are sent to the low volume wastes retention basin Boiler- blowdown and drainage, from the heat recovery boilers flow directly to the West Ash Pond. M1.1 Progress,Energy Carolinas, Inc NPDES Permit NC0003433 Cape Fear Steam Electric Plant Permit,Renewal,Application 2011 Dry Ash Stacking/Reclamation From time to time fly ash and bottom ash will be excavated and stacked within dry areas of the diked boundary of the West Ash Pond 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 Best management practices are established for these activities and are included in the Storm Water Pollution Prevention Plan During ash removal projects, trucks are filled within the confines of the ash pond boundary The trucks travel along a graveled on-site roadway before exiting the site,via the plant access road Coal Ash from East Ash Pond From time to time -fly ash and bottom ash may be sluiced or transported, from the East Ash Pond to the West Ash Pond Coal Mill Rejects Coal mill rejects are dense material made of coal, limestone, and pyrite found in coal that cannot be ground by the mills to,the desired size forburning in boilers The rejects are typically retained within the coal pile area They may also be,segregated into an isolated area of the West Ash Pond above the water line and buried under a thick layer of ash No change in the nature of the discharge to the effluent channel is anticipated Miscellaneous Wastes Plant area floor and -yard drains are routed to ,the West Ash Pond and include equipment drainage, Wash down water, and rainfall runoff Drains from areas likelyt,to contain oil -filled, equipment or storage are routed to the low volume wastes retention basin which contains°an oil/water separator Waste oil is, disposed of according to the appropriate regulations Internal combustion turbine facility false start drain tanks=may, be discharged into the low volume wastes retention basin Cooling tower basin sludge, residuals from the low volume wastes retention basin and the coal pile ditch, ash trench materials,, circulating, water tunnel, sediment; boiler, electrostatic precipitator, and associated appurtenances vacuuming sediments, sludge from catch basins, sumps, etc., and other miscellaneous low volume wastes from plant process may also be transported to the West Ash Pond Once -through Coolinq Water — Internal Outfall 003 Once -through condenser cooling water for the coal fired units and heat recovery units is withdrawn from the Cape Fear River„ passed„through the,condenser, and discharged directly Into the effluent channel Some cooling is accomplished, in the effluent channel When the temperature at Outfall 007 approaches 32°C, cooling towers are placed in service in once -through mode to keep the channel water at or, below 32°C If 32°C ,or less cannot be maintained by once -through cooling mode, operation is either shifted to closed cycle cooling tower mode or the plant.operation is modified such that the temperature remains below 32°C Normally the cooling towers are placed in service in once -through mode during the months of June through September East Ash Pond (1985 Pond) — Internal Odtfall 005” The East Ash Pond receives ash transport waters (bottom and fly ash), runoff'from' yard drains, air preheater washes, electrostatic precipitator washes, spent sandblast material, sewage treatment plant effluent, and miscellaneous low vol'ume,wastes Coal mill rejects maybe buried in the East Ash Pond The ash pond provides treatment by sedimentation, oxidation, neutralization, equalization, and adsorption Descriptions of the individual waste streams are below Ash Sluice Water Fly ash and bottom ash from both,units are hydraulically conveyed by an ash sluice pipeline to the ash pond As needed, alum is added to the ash sluice influent to aid settling A3-2 Progress Energy Carolinas,,lnc. NPDES Permlt'NC0003433 Cape FearrtSieam Electiic Plant Permit Renewal Application 2011 A Rotamie system is used to Infect urea Into Units 5 and 6 In the boiler, the ammonia/urea will react with NOk to form water vapor,and nitrogen The system is designed to minimize any, ammonia formation and ammonia slip Any unreacted ammonia adsorbed on ,the fly ash from this system will be carried to the ash pond via'ash sluice water Dry Ash Stacking/Reclamation From time to time=fly ash and bottom ash will be excavated and stacked `"within dry areas of the'diked boundary of the East Ash'Pond. In the event a ppacticable 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 Best management practices are established for these activities and are Included In the Storm Water Pollution Prevention Plan. During ash removal projects, trucks are filled within ,the confines of the ash pond boundary The trucks travel along a graveled on-site roadway before exiting the site via the plant access road Coal Ash °from West Ash Pond From time to time -fly ash and bottom ash may be sluiced or transported from the West Ash Pond to the East Ash Pond Sanitary-, Waste Treatment Effluent Sanitary wastes -are, treated at an extended aeration package plant prior to discharge to the East Ash Pond which provides secondary treatment for the effluent Flow from the plant is dependent upon fluctuating demand due to variations m the number of personnel onsite The effluent from'the plant,is disinfected prior to discharge,Into the ash pond When needed; residuals are'disposed of off-site by a licensed contract disposal firm Air Pre -heater Washes The air pre -heaters are washed approximately once every five, years An e9timated'4,000,000 gallons of wastewater is produced for each wash and Is discharged to the East Ash Pond via the ash sluice pipelines Electrostatic Precipitators, The electrostatic precipitators aie washed approximately once every five years Approximately 50,000 gallons of wastewater`Is produced and is discharged to the East Ash Pond -via the ash sluice pipelines Spent Sandblast Material The'interior of the boiler Is sandblasted approximately once every'five years Approximately 2,000 pounds of spent sandblast material is produced This material is discharged to the East Ash Pond via the ash sluice pipelines Coal Mill Refects Coal mill refects are dense material made of coal, limestone, and pyrite found, in coal that cannot be ground by the mills to the desired size for'burning in boilers The refects are typically retained�within the coal pile area The rejects may also be segregated Into an isolated area of the East Ash Pond above the water line and buried undet,a thick layer of ash No change in the nature of the discharge to the effluent channel is anticipated Miscellaneous Wastes Cooling tower basin sludge, residuals from the low volume wastes retention basin and coal pile retention basin; ash trench materials, circulating water tunnel sediment, boiler, electrostatic. precipitator, and associated appurtenances vacuuming sediments; sludge from catch basins, sumps, etc, and other miscellaneous low volume wastes from plant process may also be transported to the East Ash Pond A3-3 Progress Energy Carolinas, Inc NPDES Permit NC0003433 Cape Fear Steam Electric Plant Permit Renewal Appilcation,2011 Outfal_Is SWA, SW -2, SW -3, and SW -8 — Storm Water Outfall'SM1 and Outfall SW -8 discharge storm water from inactive ash ponds Discharges of storm water from these outfalls are rare Outfall SW=1 discharges directly into the Cape Fear River -and Outfall SW -8 discharges into Shaddox Creek which flows into the Haw River dust above the confluence with the Deep River which forms the Cape Fear River Storm water collected along the railroad track,between the plant entrance road and'the'plant site combines with the drainage of -an open field which is directed via Outfall SW -2 into Shaddox Creek that flows Into'the Haw River just, above the confluence with the Deep River During periods of heavy rainfall, Shaddox Creek backs up into the field. Storm water collected along the roadside swell beside the plant entrance road is directed via Outfall SW -3 towards drainages that go `to Shaddox Creek - Other Wastes Chemical Metal Cleaning Wastes The boilers, or other heat exchanger surfaces, are chemically cleaned every eight to ten years The cleaning solution and Its rinses are stored on-site for disposal by evaporation in ah operating unit's boiler Typical cleanings would result In a waste•of approximately 700,000 gallons Should evaporation not be used, the wastewater can be treated by neutralization and precipitation prior -to being conveyed to the WestAsh Pond,or to the East Ash Pond, or other means of disposal Internal Combustion Turbine Condensate Operation of the internal combustion turbine generation facility may produce various condensate waters and water from equipment and tank drains These wastewaters are discharged directly to the effluent channel Herbicide Usage in the Treatment System Ponds Herbicides may be used as needed to control nuisance aquatic vegetation These herbicides are applied by licensed applicators, or persons underthe immediate supervision, of a licensed applicator, in accordance with the manufacturer's instructions A3-4 Progress,Energy Carolinas, Inc. NPDES Permit NC0003433 Cape Fear,Steam Electric Plant Permit'Renewal'Appiication 2011 Attachment 4 Form 2C - Item VI Potential Discharges Not Covered by Analysis A4-1 Estimated Quantity Chemical'(per earFrequencyPur ose Aluminum,sulfate 11,200 gals Continuous Water treatment flocculent Aluminum chlorohydrate 3,300 gals As required Water treatment coa ulant GEBetz Spectrus OX103 (1-bromo-3-chloro-5,5- dimeth lh dantoin) 5,400•lbs- Continuous Biofouling control Biofouling control in sewage Calcium hypochlonte 300 lbs._ Continuous _ treatment Sanuril 11'5 (calcium hypochlonte and 1-bromo-3- Biofouling control in sewage chloro-5,5-dimeth Ili dantoin) 100lbs Continuous treatment AB Cutrine Plus (copper carbonate, triethanolamine, monoethanolamine) 4 gals As required Algae control in ash ponds Cygent Plus (alkyl hydroxypoly oxyethylene, d'limonene) 2 qals As required Algae control in Ash Ponds VITEC 3000 (proprietary) 55 gals As required Antiscalant - Oxygen scavenger, passivating Steamate PAS3040 (proprietary) 350 gals, As required agent GEBetz Steamate PAS3040, Oxygen scavenger, passivating (hydroquinone) 35.0 gals As required agent GEBetz Steamate NA0240 (morpholine) 11,0, Is, Continuous pH control in condensate, Sodium hydroxide 35,500 lbs Continuous pH control Caustic'soda anh Brous ' 150 gals As required H confrol GEBetz Optisperse HP9410 Solids dispersant in boiler, pH monosodium phosphate) 80 lbs As required control Solids dispersant in boiler, pH Disodium phosphate 105 lbs As required control Solids dispersant in boiler„ pH Trisodium phosphate 500lbs Continuous icontrol Solids, dispersant in boder, pH Sodium polyphosphate 100 lbs As required control Dianodic,DN2126 (phosphoric acid, potassium hydroxide, 1-H-benzottlazole, meth I tol (triazole 560 gals Continuous Corrosion inhibitor - 300,000 NOx control during ozone Aqueous urea 50%gals Continuous months 8,500 gals/ Every Citric acid 50% event 8-10 years Boiler cleaning 2,500' lbs/ Every Sodium nitrite event 8-10 years Boder cleaning A4-1 Progress Energy Carolinas, Inc. NPDES Permit,NC0003433 Cape Fear Steam Electric Plant Permit Renewal Application 201'1 - Chemical Estimated Quantity er ear Frequency Purpose Ammonium bicarbonate 650lbs/ event Every 8-10 years Boder cleaning Soda ash Varies/event Every 8-10 years Boiler cleaning, if needed Ammonium persulfate Varies/event Every 8-10 years Boiler cleaning, if needed Ammonium bifluoride- Varies/event Every 8-10; years Boiler cleanin , if needed Sodium bromate Varies/event Every 8-10 ears Boiler cleanin , if needed Hydrochloric acid Varies/event Every _ 8-10 years Boiler cleaning, if, needed Eth lenediaminetetraacetic.acid EDTA 88,500 lbs Every 8-10 years Boiler cleaning,if, needed ChelClean 675 (proprietary) Varies/event . Every 8-10 ears Boiler cleaning, if needed Renewz sodium hydroxide, potassium silicate 6 gals As required Condenser coil cleaning TC -X10 Plus sodium hydroxide) 55' gals As required Steam cleaning RoClean L403 (proprietary) 200 gals As required RO membrane cleaning RoClean P111 (proprietary) 200 gals As required RO membrane cleaning RoClean" P303A (proprietary) 200 gals As required RO membrane-cleaning-- embranecleanln __20 20Degree Baume Muriatic Acid h drochloric acid 5 gals As required RO membrane cleaning, Morton softener salt 20 000 lbs As required RO softener regeneration ' Car dl salt 500 lbs As required EDI cleaning, Cl 38B (Alum) aluminum chloroh ,drate 3,300 gals As required TSS control in ash pond Laundry detergent e g , Tide 100 boxes As required Laundry cleaner Bleach 12 gals As required Laundry cleaner Weed herbicide (e.g., Roundup) 5 gals As required Weed killer treatment _Ant pesticide e g , h drameth Inon inerts 5 lbs As required rr Ant,killer treatment Alkyl alcohol Variable As required Freeze conditioning agent Propylene glycol Variable As required Freeze conditioning agent Calcium chloride Variable As required Freeze conditioning agent Dieth lene glycol Variable As required Freeze conditioning agent Glycerin Variable As required Freeze conditioning agent A4-2 I Standpipe �•� <—Outfall SW -001 71 r - j - • r • -Outfall SW- " SW- . " Al finpervidus,<— Outfall �rrface� } i Standpipe Outfal SW -008 t Ir v