Notification of NPDES Permit Renewal Application

ML110380246
Person / Time
Site:	Harris
Issue date:	01/31/2011
From:	Caves J Progress Energy Carolinas
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
HNP-11-014
Download: ML110380246 (71)
v • d • e

Text

hj Progress Energy JAN 3 1 2011 SERIAL: HNP-1 1-014 United States Nuclear Regulatory Commission ATTENTION: Document Control Desk Washington, DC 20555 SHEARON HARRIS NUCLEAR POWER PLANT DOCKET NO. 50-400/RENEWED LICENSE NO. NPF-63 NOTIFICATION OF NPDES PERMIT RENEWAL APPLICATION Ladies and Gentlemen:

In accordance with Section 3.2 of the Environmental Protection Plan (Nonradiological) issued as Appendix B to Facility Operating License No. NPF-63 for the Harris Nuclear Plant, Carolina Power & Light Company, doing business as Progress Energy Carolinas, Inc., is providing a copy of the application for renewal of the facility's National Pollutant Discharge Elimination System (NPDES) Permit # NC0039586. The application, dated January 26, 2011, has been forwarded to the North Carolina Department of Environment and Natural Resources. The current permit expiration date is July 31, 2011.

If you have any questions regarding this submittal please contact me at (919) 362-3137.

Sincerely, J. R. Caves Supervisor, Licensing/Regulatory Programs Harris Nuclear Plant JRC/mgw Enclosure c:

Mr. J. D. Austin (NRC Senior Resident Inspector, HNP)

Mrs. B. L. Mozafari (NRC Project Manager, HNP)

Mr. V. M. McCree (NRC Regional Administrator, Region II)

Progress Energy Carolinas, Inc.

Harris Nuclear Plant P. 0. Box 165 2oo New Hill, NC 27562

Progress Energy dJAN 2 6 2011 SERIAL: HNP-11-009 Mr. Jeffrey 0. Poupart North Carolina Department of Environment and Natural Resources Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617

Subject:

Carolina Power & Light Company, doing business as Progress Energy Carolinas, Inc.

Harris Nuclear Plant NPDES Permit No. NC0039586 Re-issuance Application

Dear Mr. Poupart:

The current NPDES permit for the Harris Nuclear Plant located in Wake County expires on July 31, 2011. Progress Energy Carolinas, Inc. (PEC) hereby requests that the NPDES permit for the facility be reissued. Attached is EPA Application Form 1 - General Information, EPA Application Form 2C - Wastewater Discharge Information, and EPA Form 2F - Application for Permit to Discharge Storm Water Discharges Associated with Industrial Activity, all in triplicate.

Please note that PEC has not been able to complete the storm water sampling required by EPA Form 2F. A contactor has been retained to complete the sampling for the representative storm water ouffalls, however the sampling has not been completed. We expect the sampling will take place during the next qualifying rain event, provided the contractor can safely sample outfalls during the storm event. The analytical results will be submitted to DWQ as soon as possible.

Also note that a sludge management plan is not included with the submittal because PEC has a contractor that takes the sludge offsite and land applies it under its own land application permit (Attachment 4).

With re-issuance of the NPDES permit, PEC requests the following:

• Eliminate the chromium and zinc monitoring requirement from Outfall 001 and add them to Outfall 006. PEC believes this would be more consistent with the current required metals monitoring at Outfall 006 and would give a better indication of the actual discharge of these two metals to surface waters, if they were measured at Outfall 006.

" Eliminate the ammonia monitoring requirement for Outfall 002. The current permit requires ammonia monitoring at Outfall 006, the discharge to surface waters, and at internal Outfall 002. PEC does not see the need to continue monitoring ammonia at both the internal and external outfall locations.

Progress Energy Carolinas, Inc.

Harris Nuclear Plant P. 0. Box 165 New i,1ll, NC 27562

Division of Water Quality SERIAL: HNP-1 1-009

" Change the Total Suspended Residue monitoring requirement at Outfall 007 to a Total Suspended Solids monitoring requirement with a Daily Max limit of 100 mg/I. This would make the monitoring requirement consistent with the Total Suspended Solids monitoring requirement at Outfall 004 and Outfall 005.

• Combine the Biological Oxygen Demand monitoring requirement for Outfall 007 into one requirement with limits of 30 mg/L monthly average and 45 mg/L daily max. Currently, the requirement has different limits based on the time of year.

• Add the following condition to the renewed NPDES permit, replacing the current Biocide Condition located in Part II, 1. The purpose of this condition is to formally recognize the guidance and understanding we have received from the Division in the past, and to allow this permit to be consistent with other recently reissued permits.

"1. Biocide Condition The permittee shall not discharge any biocides that have not been previously approved in conjunction with the permit application. For biocides not previously approved by the Division of Water Quality, the permittee shall notify the Director in writing prior to use of these biocides. Completion of Biocide Worksheet Form 101 is not necessary for those outfalls with toxicity testing requirements."

With regard to Section 316(b), of the Clean Water Act, PEC has not made any changes to the existing cooling water intake structure that would change the status of compliance with current 316(b) regulations. Once a new rule is promulgated by the EPA, PEC will evaluate the rule and its effects on the status of compliance of the existing cooling water intake structure.

If there are any questions regarding this request and/or the attached 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 offines and imprisonment for knowing violations.

SincereI Kelvin Henderson Plant General Manager Harris Nuclear Plant KH/mgw Attachments

Please print or type in the unshaded areas only.

Form Approved. OMB No. 2040-0086.

FORM U.S. ENVIRONMENTAL PROTECTION AGENCY I. EPA I.D. NUMBER PA GENERAL INFORMATION 7N Consolidated Permits Program F

CNCD991278284 GEN ERAL (Read the General Instructions before starting.)

2 5

GENERAL INSTRUCTIONS LABEL ITEMS If a prepnnted label has been provided, affix it in the designated space. Review the information carefully; if any of it I, EPA ID. NUMBER is incorrect. cross through it and enter the correct data in the appropriate rilln area below. Also, if any of the preprirnted data is absent (the area to the lfet of the label space lists the

.111. FACILITY NAME PLEASE PLACE LABEL IN THIS SPACE information that should appear), please provide it in the proper fill-in sreals) below. If the label is complete and correct, you Vý FACILITY MAILING

-need rot complete items 1, Ill. V. and VI (except Vt-B which ADDRESSmust be completed regardless). Complete all items if no label 2..

has been provided. Refer to the instructions for detailed itemn VI 14CCITYLOCAIONdescriptions and for the legal authorizations under which this data is collected.

It. 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 0 of the instructions for definitions of bold-faced terms.

MarkX Mak X" YES NO FORM YES NO FORM SPECIFIC QUESTIONS ATTACHED SPECIFIC QUESTIONS 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) include a concentrated animal feeding operation or X

aquatic animal production facility which results in a 18 17 is discharge to waters of the U.S.? (FORM 2B)

,9 20 2,

C. Is this a facility which currently results in discharges to V

D. Is this a proposed facility (other than those described in A waters of the U.S. other than those described in A or B X X

or B above) which will result in a discharge to waters of above? (FORM 2C) 2 2I 2

the U.S.? (FORM 20) 2 ze 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 containing, within one quarter mile of the well bore, 25 20 3

underground sources of drinking water? (FORM 4) 3 M

3 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 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)

U 35 38 37 38 39 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

\\/

NOT one of the 28 industrial categories listed in the which will potentially emit 100 tons per year of any air instructions and which will potentially emit 250 tons per X

pollutant regulated under the Clean Air Act and may affect year of any air pollutant regulated under the Clean Air Act or be located in an attainment area? (FORM 5) 0 4

42 and may affect or be located in an attainment area?

4 0

(FORM 5)

Ill. NAME OF FACILITY ESKIP arI s Ncear P11ant Hri nryad IV. FACILITY CONTACT A. NAME & TITLE (lastfirst, & title)

B. PHONE (area code&na) no.)__._______

desknag' I I 1 1 91 A2 6IF 2-Henderson,

'Kelvini lant' enera~

1 kI ia e'r I

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9I 9 1

3

• 2 _2 b 0 b V. FACILTY MAILING ADDRESS A. STREET OR P.O. BOX I I I I I... is Il a I I I I I I I I I I I I I I I I I

' ;..,. ::..,,.-.! : " ".:::. ;.i:.;*. %. :.:!; : i';.:,;:

iS15413 Shearon Harris Road 4~

B. CITY OR TOWN C STATE D. ZIP CODE J4New Hi 2C 2512 i 18 1

43..2 4.I VI.

FACILITY LOCATION A. STREET. ROUTE NO. OR OTHER SPECIFIC IDENTIFIER 1

I I

I I

I I

I I

I I

I I

I I

I I

I I

I I

413 Shearon ~- ri~

Road

,.I I;*

.I.

C. CITY OR TOWN D. STATE E ZIP CODE F. COUNTY CODE ifnown) c6 N4WH11

ýC I245d2 i 1 I

40 41 4

17 53 3

.34 EPA. Form 3.10-1

".(.-*9")

CONTINUE"- ON', REVERSE.

EPA Form 3510-1 (8-90)

CONTINUE ON REVERSE

CONTINUED FROM THE FRONT VII. SIC CODES (-cdikit, in order of pnonty)

A. FIRST B. SECOND (specify)

I (specify) 491-1 Electric Power Service 7

Is10.

19 M.

.1 IS C. THIRD D. FOURTH 7

7 IS 16 ISM 16 VIII. OPERATOR INFORMATION A. NAME B. Is the name listed in Item C

i I

VI I

I-A also the owner?

Carolina Power and Light Company d/b/a Progress Energy Carolinas, Inc 0YES ONO C. STATUS OF OPERATOR (Enter the appropriate letter into the answer box: if "Other, "specify.)

D. PHONE (area code & no.)

FeFDRL(specif)

S= FEDERAL M = PUBLIC (other than federal or state) p i

T, I I I00 S = STATE 0 = OTHER (specify)

Public Utility 919 362 2000 P = PRIVATE 5

11.-2 E. STREET OR P.O. BOX

• • ~

• ?`

P. 0

. B o x 1 5 1:

F. CITY OR TOWN G. STATE H. ZIP CODE IX. INDIAN LAND B-- Raeg sC sthe facility located on Indian lands?

Ralig

'NC 7 '0 0 ESNO 15 6

I 5

2 X. EXISTING ENVIRONMENTAL PERMITS A. NPDES (Discharges to Surlace Water)

D. PSD (Air Emissions from Proposed Sources)...

B. UIC (Underground lnection o Fluids)

E. OTHER (specify)

C TI I

I I

I c

I I I I C

T I

I(specify)

C. RCRA (Hazardous Wastes)

E. OTHER (specify)

C T~l 1

1 1

1 I

T 1

1 1

1 1

'9 R

9 I(specify) 1 Is 17 18 M 15 1 I6 S IM 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 location of each of its existing and proposed intake and discharge structures, each of its hazardous waste treatment, storage, or disposal facilities, and each well where it injects fluids underground. Include all springs, rivers, and other surface water bodies in the map area. See instructions for precise requirements.

XII.

NATURE OF B3USINESS (provide a briefdesciption)

The Harris Nuclear Plant (HNP)consists of a 900 megawatt generating unit and associated faciities.

The Harris Energy and Environmental Center (HEEC)includes facilities that provide support services (laboratories and training) for the HNP and other Progress Energy Facilities.

XIII. CERTIFICATION (see instructions)

I certify under penalty of law that I have personally examined and am familiar with the information submitted in this application and all attachments and that, based on my inquiry of those persons immediately responsible for obtaining the information contained in the application, I believe that the information is true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment.

A. NAME & OFFICIAL TITLE (type orprint)

B C. DATE SIGNED Kelvin Henderson Plant General Manager COMMENTS FOR OFFICIAL USE ONLY EPA Form 3510-1 (8-90)

EPA I.D. NUMBER (copyfrom Item I of Form 1)

NCD991278284 Form Approved.

OMB No. 2040-0086.

Approval expires 3-31-98.

Please print or type in the unshaded areas only.

FORM U.S. ENVIRONMENTAL PROTECTION AGENCY I:: PAAPPLICATION FOR PERMIT TO DISCHARGE WASTEWATER 2CEP EXISTING MANUFACTURING, COMMERCIAL, MINING AND SILVICULTURE OPERATIONS NPDES 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) 006 35 34 47 78 58 07 Harris Reservior 007 35 38 05 78 55 05 Harris Reservior II. FLOWS, SOURCES OF POLLUTION, AND TREATMENT TECHNOLOGIES El-I 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

b. AVERAGE FLOW

b. LIST CODES FROM NO. (list)

a. OPERATION (list)

(include units)

a. DESCRIPTION TABLE 2C-1 CombinedSee Discharge to surface water 4-A Internal Outfall 001 006 Cooling Tower Slowdown See Atth Dechlorination 2-E Internal Outfall 002 Sanitary Waste. Treatment Plant see Attachemnt 3 Activated Sludge, Disinfecetion 3-A 2-F Internal Outfall 003 Metal Cleaning Waste See Attachmnt 3 Neutralization, Sedimentation Se ttcemt32-K 1-U Internal Outfall 004 Low volume Waste see Attacheent 3Nuetralization, Sedimentation Se taheat32-K 1-U Internal Outfall 005 Radwaste System Multimedia Filtration, Ion Exchange See Attachment 3 1-Q0-Harris Energy and Environmental Aerated Lagoons, Disinfection See Attachmemnt 3 3-B 2-F Center Waste Water Treatment Plant Dechlorination 2-C 007 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 intermittent or seasonal?

91 YES (complete the following table)

[]

NO (go to Section III)

3. FREQUENCY

4. FLOW

a. DAYS PER B. TOTAL VOLUME

2. OPERATION(s)

WEEK

b. MONTHS

a. FLOW RATE (in mgd)

(specify with units)

1. OUTFALL CONTRIBUTING FLOW (specafy PER YEAR

1. LONG TERM

2. MAXIMUM

1. LONG TERM

2. MAXIMUM C. DURATION NUMBER (list)

(list) average)

(slpeci*y-rage)

AVERAGE DAILY AVERAGE DAILY (in days)

Internal Radwaste System I to 2 12 0.021 0.021 0.0105 0.0105 0.5 Outfall 005 Ill. PRODUCTION A. Does an effluent guideline limitation promulgated by EPA under Section 304 of the Clean Water Act apply to your facility?

71 YES (complete Item Ill-B)

[] NO (go to Section PV)

B. Are the limitations in the applicable effluent guideline expressed in terms of production (or other measure of operation)?

0l YES (complete Item Ill-C) 7] NO (go to Section IV)

C. If you answered "yes" to Item Ill-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

b. UNITS OF MEASURE

c. OPERATION, PRODUCT, MATERIAL, ETC.

(list outfall numbers)

a. QUANTITY PER DAY b(specify)

IV. IMPROVEMENTS---"

A. Are you now required by any Federal, State or local authority to meet 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 letters, stipulations, court orders, and grant or loan conditions.

El YES (complete the following table)

Z NO (go to Item Ill-B)

1. IDENTIFICATION OF CONDITION, AGREEMENT, ETC.

2. AFFECTED OUTFALLS

3. BRIEF DESCRIPTION OF PROJECT

4. FINAL COMPLIANCE DATE

a. REQUIRED I b PROJECTED

a. NO.

b. SOURCE OF DISCHARGE B. OPTIONAL: You may attach additional sheets describing any additional water pollution control programs (or other environmental projects which may affect your 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 351Q-2C (8-90)

PAGE 2 of 4 CONTINUE ON PAGE 3 EPA Form 35`10-2C (8-90)

PAGE 2 of 4 CONTINUE ON PAGE 3

EPA I.D. NUMBER (copyfrom Item I ofForm I)

NCD991278284 CONTINUED FROM PAGE 2 V. INTAKE AND EFFLUENT CHARACTERISTICS A. B, & C: See instructions before proceeding - Complete one set of tables for each outfall - Annotate the ouffall number in the space provided.

NOTE: Tables V-A, 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, briefly describe the reasons you believe it to be present and report any analytical data in your possession.

1. POLLUTANT

2. SOURCE

1. POLLUTANT

2. SOURCE Asbestos Insulation Strintium, Uranium,

Vanadium, Trace elements occasionally Zirconium present in oil used to fuel auxillary boilers VI. POTENTIAL DISCHARGES NOT COVERED BY ANALYSIS Is any pollutant listed in Item V-C a substance or a component of a substance which you currently use or manufacture as an intermediate or final product or byproduct?

W1 YES (list all such pollutants below)

[]

NO (go to Item vl-B)

Although not added or produced, the following elements could be potentially be present in the discharge due to normal pipe erosion/corrosion.

Copper Iron Silver Nickel Zinc The following elements could be present in oil, which is used to fuel Auxillary boilers:

Antimony Arsenic Beryllium Cadmium Chromium Copper Lead Mercury Nickel Selenium Silver Thallium Zinc EPA Form 3510-2C (8-90)

PAGE 3of4 CONTINUE ON REVERSE 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 knowledge or reason to believe that any biological test for acute or chronic toxicity has been made on any of your discharges or on a receiving water in relation to your discharge within the last 3 years?

I YES (identify the test(s) and describe their purposes below)

E] NO (go to Section VIii)

Outfall 006 - Acute 24 -

hour test cycle.

Outfall 007 -

Acute 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test permit cycle.

Begining in June of radiological waste tank to Outfall using Fathead Minnows have been conducted quarterly during this permit using Fathead 2010 toxicity 007.

Minnows have been conducted quarterly during most of the samples were taken monthly when there was a discharge of the VIII. CONTRACT ANALYSIS INFORMATION Were any of the analyses reported in Item V performed by a contract laboratory or consulting firm?

W1 YES (list the name, address, and telephone number of, and pollutants analyzed by.

El NO (go to Section IX) each such laboratory or firm below)

C. TELEPHONE D. POLLUTANTS ANALYZED A. NAME B.(ADDRESS area code & no.)

(list)

Environmental Conservation 102-A Woodwinds Industrial ct (919) 497-3090 All pollutants except those Laboratories, Inc.

Cary NC 27511 listed below.

GEL Laboratories, LLC 2040 Savage Rd (843) 556-8171 Alpha, Beta, Sulfite Charleston SC 29407 Harris Plant Environmental 5313 Shearon Harris Road (919)362-2444 pH, temperature.

TSS, Laboratory New Hill NC 27562 Ammonia, Nitrogen, phosporus, iron,copper IX. CERTIFICATION-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 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 gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations.

A. NAME & OFFICIAL TITLE (type orpritm)

B. PHONE NO. (area code & no.)

Kelvin Henderson - Plant General Manager (919) 362 - 2000 D.U R

____SINE E 4!ý Fd731-C(-90)

PAGE of EP'A Fo/rm 3510-2C (8-9-0)

PAGE 4 of 4

PLEASE PRINT OR TYPE IN THE UNSHADED AREAS ONLY. You may report some or all of this informaton EPA ID. NUMBER (copvfrom Iem I of Form 1) on separate sheets (use the same fonnat) instead of completing these pages.

NC991278284 SEE INSTRUCTIONS.

I I

V. INTAKE AND EFFLUENT CHARACTERISTICS (continued from page 3 of Form 2-C)

OUTFALL NO.

)06 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.

3. UNITS

4. INTAKE

2. EFFLUENT (specify i/blank)

(opuonal)

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG. VALUE

a. LONG TERM

a. MAXIMUM DAILY VALUE (ifavailable)

(ifovailable)

AVERAGE VALUE (1)

(1)

d. NO. OF

a. CONCEN-(1)

b. NO. OF

1. POLLUTANT CONCENTRATION (2) MASS CONCENTRATION (2) MASS (1) CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES

a. Biochemical Oxygen 2.5 50.1 1

mg/i kg/day Demand (80D)

b. Chemical Oxygen 46 921.0 1

Demand (COD) mg/i kg/day

c. Total Organic Carbon (TOC) 15 300.3 1

mg/_

kg/day

d. Total Suspended Solids (TSS) 13.4 268.3 13 mg/i kg/day

e. Ammonia (asN) 0.55 111.0 13 mg/i kg/day VALUE VALUE VALUEVAU

f. Flow 10.62 8.07 5.29 365 MGD

g. Temperature VALUE VALUE VALUE VALUE

(.inter) 20.8 18.4 13.8 21

h. Temperature VALUE VALUE VALUE VALUE (summer) 34. 2 32.2 26.9 31 MINIMUMMU MINIMUM MAXIMUM

i. pH 7.0 i

U5 7.0 7.5 13 STANDARD UNITS PART B -

Mark "X" in column 2-a for each pollutant you know or have reason to believe is present Mark "X* in column 2-b for each pollutant you believe to be absent. If you mark column 2a for any pollutant which is limited either directly, or indirectly but expressly, in an effluent limitations guideline, you must provide the results of at least one analysis for that pollutant For other pollutants for which you mark column 2a, you must provide quantitative data or an explanation of their presence in your discharge. Complete one table for each outfall. See the instructions for additional details and requirements.

2. MARK"X"

3. EFFLUENT

4. UNITS

5. INTAKE (optional

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG. VALUE

a. LONG TERM AVERAGE AND

a.

b.

a. MAXIMUM DAILY VALUE (if available)

(ifavailable)

VALUE CAS NO.

BELIEVED BELIEVED (1)

(1)

(1)

d. NO. OF

a. CONCEN-(1)

b. NO. OF (ifavailahle)

PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES

a. Bromide 1

mg/i (24959-67-9)

< 0.I~1 ra/

b. Chlorine, Total

< 0.1 1

mg/i Residual

c. Color X

2 5 1

CU

d. Fecal Coliform

<1 1

CU/lO0ml

e. Fluoride 0

(16984-48-8) 0.32 6.4 1

mg/ i kg/dy

f. Nitrate-Nitrite x0.21 4

8 mg/

kg/dy (as.N) 0.2114.2 8

mg/l k2/d4 EPA Form 3510-2C (8-90)

PAGE V-1 CONTINUE ON REVERSE

ITEM V-B CONTINUED FROM FRONT

2. MARK"X"

3. EFFLUENT

4. UNITS

5. INTAKE (optional)

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG. VALUE

a. LONG TERM AND

a.

b.

a. MAXIMUM DAILY VALUE (if available)

([fmaailable)

AVERAGE VALUE CAS NO.

BELIEVED BELIEVED (1)

(1)

(1)

d. NO. OF

a. CONCEN-(1)

b. NO. OF (iavailable)

PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES

g. Nitrogen, Total Organic (as 1.22 24.4 8

mg/l kg/dy

h. Oil and

<3 2

Img/i Grease X

i. Phosphorus (as P). Total 0.70 14.0 13 mg/i kg/dy (7723-14-0)

j. Radioactivity (1) Alpha. Total X

<5.0 1

pCi/l (2) Beta, Total x

5.48 1.0oe"1i 0 1

pCi/l cu/dy (3) Radium, Total Testing and Reporting not Required (4) Radium 226, Testing and Reporting not Required Total

k. Sulfate (as SO,)

123 460 Img/l kg/dy (14808-79-8) 2

1. Sulfide x<01 1

mg/i (asS)

<0.1 1_

_g/l_-

m. Sulfite (assO,)

X

< 0.5 1

mg/1

~

(14265-45-3)

n. Surfactants X

<0.1 1

mg/1

o. Aluminum, Total X

313 6.2 1

ug/1 kg/dy (7429.-90-5)

I

p.

Barium, Total 251 (7440-39-3) 27.7 0.5 1

ug/l kg/dy

q. Boron, Total (7440-42-8) x 145 2.9 1

ug/i kg/dy

r. Cobalt, Total

<10 1

ugh (7440-48-4).

< 1 x

1 ug/1

~

SIr4-8 o-6)

X Ta 555.1 11.1 13 ug/1 kg/dy I. Magnesium, Total X

5.15 103.1 1

mg/i kg/dy (7439-95-4)

u. Molybdenum, Total

<10 1

ug/1

~

(7439-98-7)

v. Manganese, Total X515.3 103 25 ug/1 kg/dy (7439-96-5) 1

w. Tin, Total

<10 1

ug/1 (7440-31-5).

< 10 1

ug/1

~

x. Titanium, Total

<5.00 1

ug/I

~

E F440-32-6) (

PC NA EPA Form 3510-2C (8-90)

PAGE V-2 CONTINUE ON PAGE V-3

EPA I.D. NUMBER (copy from Item I of Form 1)

OUTFALL NUMBER NC991278284 1 006 CONTINUED FROM PAGE 3 OF FORM 2-C I

PART C - If you are a primary industry and this outfall contains process wastewater, refer to Table 2c-2 in the instructions to determine which of the GCIMS fractions you must test for. Mark "X" in column 2-a for all such GCIMS fractions that apply to your industry and for ALL toxic metals, cyanides, and total phenols. If you are not required to mark column 2-a (secondary industries, nonprocess wastewater outfalls, and nonrequired GC/MS 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-4, 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 (optional)

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG.

a. LONG TERM AND

a.

b.

C.

a. MAXIMUM DAILY VALUE (favailable)

VALUE (ifavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

(1)

(1)

d. NO. OF

a. CONCEN-(1)

,b. NO. OF (ifavailable)

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 IM. Antimony, Total X

<2.00 1

ugh (7440-36-0)

__X

<2.00 1

ug/l 2M. Arsenic, Total

<10.0 1

(7440-38-2)

X X

<i0.0

~

1 ug/l 3M. Beryllium, Total

<1.00 1

ugh (7440-41-7)

X X

4M. Cadmium, Total X

.00 1

ugh (7440-43-9) 001

/l 5M. Chromium, X

<10.00 1

ugh Total (7440-47-3)

X

___<0.00~_1__/1_

7M.0Copper, X

X T

5.5 0.11 13 ug/l kg/day 7M. Lead, Total

<10.0 1

ug/1 (7439-92-1)

X SM. Mercury, Total 2

1 (7439-97-6)

X X

<0 1IU/

9M. Nickel, Total

<10.0 13 ugh (7440-02-0)

X 10M. Selenium,

<10.0 1

Ug/h Total (7782-49-2)

X X

I 11M. Silver, Total

<10.0 1

Ug/i (7440-22-4)

X X

<i0.0 1

ug/l

~

12M. Thallium,

\\<10.0 1

Ugh Total (7440-28-0)

X 1_0.0_1_ug/1_-

13M. Zinc, Total (7440-66-6)

X 153 3.1 1

UgI kg/day 14M. Cyanide, Total (57-12-5)

XA

<5 1

Xug/

15M. Phenols,

<0.0-1 mg/i Total X

X<.11 m/

DIOXIN 2,3.7,8-Tetra-X DESCRIBE RESULTS chlorodibenzo-P-Dioxin (1764-01-6)

EPA Form 3510-2C (8-90)

PAGE V-3 CONTINUE ON REVERSE

CONTINUED FROM THE FRONT

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 (if aailable)

VALUE (ifavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED

d. NO. OF

a. CONCEN-(1)

b. NO. OF (ifavailable)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION] (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES GC/MS FRACTION - VOLATILE COMPOUNDS 1V. Accrolein (107-02-8)

X<0 1

ug/l 2V. Acrylonitrile 1/

(107-13-1)

X/

<10 1

ug/

~

3V. Benzene (71-43-2)

X x

<1 1

ug/

4V. Bis (Chloro-methyl) Ether Testing and Reporting not Required (542-88-1) 5V. Bromoform (75 X

X

<1 ug/1 6V. Carbon Tetrachloride

<1 1

ug/h (56-23-5) x 7V. Chlorobenzene (108-90-7)

X/

<1 1

ug/l 8V. Chlorodi-bromomethane

<X1-1 ug/1 (12448-1) 9V. Chloroethane (75-00-3)

X X

<1 ug/1 I 0V. 2-Chloro-etthyfvinyf Ether

<5 1

ug/1 (110-75-8) 1 V. Chloroform

\\/

(67-68-3)

<1 1

ug/h

~

12V. Dichloro-bromomethane X

X

<1 ug/1 (75-27-4) x 13V. Dichloro-difluoromethane

<1

~

ug/1 (75-71-8) x II 14V. 1,1-Dichloro-ethane (75-34-3)

/N

\\

<I 1

ug/

15V. 1,2-Dichloro-ethane (107-06-2)

\\

x

<1 1

ug/l 16V. 1.1-Oichloro-ethylene (75-35-4)

X x

<1

~

ug/l

~

17V. 1.2-Dichloro-1../

propane (78-87-5)

X/

<1 1

ug/

~

18V. 1.3-Dichloro-propylene 1<

1 1

ug/1

~

(542-75-6)

X x

19V. Ethylbenzene

<1 1

ugh (100-41-4)

X x

20V. Methyl

<1 1

ug/

Bromide (74-83-9)

X X<-1 u/-

21V. Methyl<

1 ug/

Chloride (74-87-3) 1 x

a I

EPAFor 350-2 (89)PG ACNIU NPG EPA Form 3510-2C (8-90)

PAGE V-4 CONTINUE ON PAGE V-5

CONTINUED FROM PAGE V-4

2. MARK"X"

3. EFFLUENT

4. UNITS

5. INTAKE (opoonaol)

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG.

a. LONG TERM AND

a.

b.

c.

a. MAXIMUM DAILY VALUE (fm,ailable)

VALUE (ifavailable) d AVERAGE VALUE CAS NUMBER

=TESITING BELIýEVIED BELIEVED (1)

()--

i (1)

I

.N

.O

.C N E -(1)b.N

.O (if available)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCEN(TRATION (2) MASS CONCENTRATION (2)MASS ANALYSES TRATION b[ MASS CONCENTRATION (2) MASS ANALYSES GC/MS FRACTION-VOLATILE COMPOUNDS (continued) 22V. Methylene 1

Chloride (75-09-2) x x

23V, 1.1,2.2-Tetrachloroethane

<1u (79-34-5) 1 ug/l~

24V. Tetrachloro-ethylene (127-18-4)

/\\

<1 1

u./

25V. Toluene (108-88-3) 1 26V. 1,2-Trans-Dichloroethylene

<1 1

ug/1 (156-60-5) x x

27V. 1,1,1-Trichloro-X/

ethane (71-55-6)

/x

<1 1

ug/

28V. 1,1,2-Tdchloro-X<1U/

ethane (79-00-5) 1 29V Trichloro-ethylene (79-01-6)

X\\

<I 1

ug/

30V. Trichloro-fluoromethane

<1 ug/h (5-69-4) x____

x____

31V. Vinyl Chloride y

(75-01-4)

X 1

u GC/MS FRACTION - ACID COMPOUNDS 1A. 2-Chlorophenol

<10 Ugh 1 (95-57-8) x

< 10 1

ug/1 2A. 2,4-Dichloro-

"1 Ug/

phenol (120-83-2)

,X

<10

-_1_U_

/1_-

3A. 2.4-Dimethyl-

<10 1

ug/

phenol (105-67-9) x 4A. 4,6-Dinitro-O-1/ X A

<10-ug/h Cresol (534-52-1) x 1

5A. 2,4-Dinitro-

<10 Ugh phenol (51-28-5)

X X_<10_-_1 ug/1_~

6A. 2-Nitrophenol

<10

-\\,.,

1 u

(88-75-5)

X 7A. 4-Nitrophenol

<10 1

(100-02-7)

X X

<10

~ug/

8A. P-Chloro-M-

<10 1

ugh Cresol (59-50-7)

X___<10 1

U__/1 9A. Pentachloro-

/

<10 1

Ug/

phenol (87-86-5)1_

<10

-_1 U_/1 1OA. Phenol

<10 1

ugh (108-95-2)

< 1 0 1

ug/1 11_A. 2,416-T0_chloro-

_1_

Ug/1 phenol (88-05-2)

X XPAEl-CNINEONRVES EPA Formn 3510-2C (8-90)

PAGE V-5 CONTINUE ON REVERSE

CONTINUED FROM THE FRONT

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 (ifa'vailable)

VALUE (!ifaailable)

AVERAGE VALUE CAS NUMBER 7TESTING BELI'EVED BELIEVED (i)()()

d. NO. OF

a. CONCEN-(1)

b. NO. OF (ifavailable)

RE'UIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENT (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES GC/MS FRACTION - BASE/NEUTRAL COMPOUNDS 18B. Acenaphthene (83-32-9)

Testing and Reporting not Required

28. Acenaphtylene (208-96-8) 3B. Anthracene (120-12-7) 4B. Benzidine (92-87-5) 5B. Benzo (a)

Anthracene (56-55-3) 6B. Benzo (a)

Pyrene (50-32-8) 7B. 3,4-Benzo-fluoranthene (205-99-2) 8B. Benzo (ghi)

Perylene (191-24-2) 9B. Benzo (k)

Fluoranthene (207-08-9) 10B. Bis (2-Chlor-ethoxy) Methane (111-91-1) 11B. Bis (2-.Chloro-ethyl) Ether (111-44-4) 12B. Bis (2-Chloroisopropyl)

Ether (102-80-1) 13B. Bis (2-Ethvl-hexyl) Phthalate (117-81-7) 14B. 4-Bromophenyl Phenyt Ether (101-55-3) 158. Butyl Benzyl Phthalate (85-68-7) 16B. 2-Chloro-naphthalene (91-58-7) 17B. 4-Chloro-phenyl Phenyl Ether (7005-72-3) 18B. Chrysene (218-01-9) 19B. Dibenzo (a.h)

Anthracene (53-70-3) 20B. 1,2-Dichloro-benzene (95-50-1) 21B. 1,3-Di-chloro-benzene (541-73-1)

EPA Form 3510-2C (8-90)

PAGE V-6 CONTINUE ON PAGE V-7

CONTINUED FROM PAGE V-6

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 (iASSailable)

VALUE (iavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

(I)

I1A

d. NO. OF

a. CONCEN-(1)

b. NO. OF S(ifavadhle)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATIONT(2) MASS ANALYSES GCIMS FRACTION - BASE/NEUTRAL COMPOUNDS (continued) 228. 1,4-Dichloro-benzene (106-46-7)

Testing and Reporting not Required 238. 3.3-Dichloro-benzidine (91-94-1) 248. Diethyl Phthalate (84-66-2) 25B. Dimethyl Phthalate (131 3) 268. Di-N-Butyl Phthalate (84-74-2) 27B. 2,4-Dinitro-toluene (121-14-2) 28B. 2.6-Dinitro-toluene (606-20-2) 29B. Di-N-Octyl Phthalate (117-84-0) 30B. 1.2-Diphenyl-hydrazine (as Azo-benzene) (122-66-7) 31B. Fluoranthene (206-44-0) 32B. Fluorene (86-73-7) 338. Hexachloro-benzene (118-74-1) 34B. Hexachloro-butadiene (87-68-3) 35B. Hexachloro-cyclopentadiene (77-47-4) 36B Hexachloro-ethane (67-72-1) 37B. Indeno (1,2,3-cd) Pyrene (193-39-5) 38B. Isophorone (78-59-1) 39B. Naphthalene (91-20-3) 40B. Nitrobenzene (98-95-3) 41B. N-Nitro-sodimethylamine (62-75-9) 42B. N-Nitrosodi-N-Propylamine (621-64-7)

EPA Form 3510-2C (8-90)

PAGE V-7 CONTINUE ON REVERSE

CONTINUED FROM THE FRONT

2. MARK "X"

3. EFFLUENT

4. UNITS S. INTAKE (optional 1.POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG.

a. LONG TERM AND

a.

b.

c.

a. MAXIMUM DAILY VALUE (if available)

VALUE (ifeavilable) j AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

(1)

OF a. CONCEN-(1)

I

b. NOA OF (i/available)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS

,NALYSES GCIMS FRACTION - BASE/NEUTRAL COMPOUNDS (continued) 43B. N-Nitro-sodiphenylamine Testing and Reporting not Required (86-3D-6) 44B. Phenanthrene (85-01-8) 45B. Pyrene (129-00-0) 468. 1.2,4-Tri-chlorobenzene (120-82-1)

GC/MS FRACTION - PESTICIDES 1P. Aldrin (309-00-2) 2P. a-BHC (319-84-6) 3P. OI-BHC (319-85-7) 4P. y-BHC (58-89-9) 5P. 8-BHC (319-86-8) 6P. Chlordane (57-74-9) 7P. 4,4'-DDT (50-29-3) 8P. 4.4'-DDE (72-55-9) 9P. 4,4'-DDD (72-54-8) 1OP. Dieldrin (60-57-1) 11P. a-Enosulfan (115-29-7) 12P, 0-Endosulfan (115-29-7) 13P. Endosulfan Sulfate (1031-07-8) 14P. Endrin (72-20-8) 15P. Endrin Aidehyde (7421-93-4) 16P. Heptachlor (7&-44-8)

EPA Form 3510-2C (8-90)

PAGE V-8 CONTINUE ON PAGE V-9

EPA I.D. NUMBER (copyfrom hem I ofForm I)

OUTFALL NUMBER NC991278284 006 CONTINUED FROM PAGE V-8

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 (ifavailable)

VALUE (if available)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

(1)

(1)

d. NO. OF

a. CONCEN-

)b NO OF (ifavailable)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES GCIMS FRACTION - PESTICIDES (continued) 17P. Heptachlor Epox5de Testing and Reporting not Required (1024-57-3) 18P. PCB-1242 (53469-21o9) 19P. PCB.-1254 (11097-69-1) 20P. PCB-1221 (11104-28-2) 21P. PCB-1232 (11141-16-5) 22P. PCB-1248 (12672-29-6) 23P. PCB-1260 (11096-82-5) 24P. PCB-1016 (12674-11-2) 25P. Toxaphene (8001-35-2)

EPA Form 3510-2C (8-90)

PAGE V-9

I=

"1 PLEASE PRINT OR TYPE IN THE UNSHADED AREAS ONLY. You may report some or ati of this information EPA I..D NUMBER (copy from Item I ofForm 1) on separate sheets (use the same format) instead of completing these pages.

NCD986182384 SEE INSTRUCTIONS.

IC981838

'FALL NO.

V. INTAKE AND EFFLUENT CHARACTERISTICS (continued from page 3 of Form 2-C)

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.

3. UNITS

4. INTAKE

2. EFFLUENT (speci i/blank)

(optional)

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG. VALUE

a. LONG TERM

a. MAXIMUM DAILY VALUE (if available)

(i.favailable)

AVERAGE VALUE (1)

(1)

d. NO. OF

a. CONCEN-

b. NO. OF

1. POLLUTANT CONCENTRATION (2) MASS CONCENTRATION (2) MASS (1) CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES

a. Biochemical Oxygen 1.23 0.042 37 mg/i kg/day Demand (BOD)

b. Chemical Oxygen 23 0.183 1

Demand (COD)

c. Total Organic Carbon 8.0 0.272 1

(TO) 80 0 27 1mg/i kg/day (TOO

d. Total Suspended Solids (TSS) 1.2 0.041 37 mg/l kg/day

e. Ammonia (as N) 0.08 0.003 37 mg/i kg/day VALUE VALUE VALUEVAU

f. Flow 0.033 0.012 0.009 190 MGD

9. Temperature VALUE VALUE VALUE VALUE (winter) 15 15 9.07 13 1

h. Temperature VALUE VALUE VALUE VALUE (summer) 29.9 27.7 23.8 24 MINIMUM MAXIMUM MINIMUM MAXIMUM

i. pH 4

8.7 6.4 8.7 37 STANDARD UNITS PART B -

Mark "X" in column 2-a for each pollutant you know or have reason to believe is present Mark "X" in column 2-b for each pollutant you believe to be absent If you mark column 2a for any pollutant which is limited either directly, or indirectly but expressly, in an effluent limitations guideline, you must provide the results of at least one analysis for that pollutant For other pollutants for which you mark column 2a, you must provide quantitative data or an explanation of their presence in your discharge. Complete one table for each outfall. See the instructions for additional details and requirements.

2. MARK "X"

3. EFFLUENT

4. UNITS

5. INTAKE (optional

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG. VALUE

a. LONG TERM AVERAGE AND

a.

b.

a. MAXIMUM DAILY VALUE (ifavoilable)

(ifavailable)

VALUE CAS NO.

BELIEVED BELIEVED

(

1)

Il)

d. NO. OF

a. CONCEN-(1) b.NO.OF (ifa,vailahle)

PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION

12) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION

12) MASS ANALYSES

a. Bromide 1

(24959-67-9)

<0*50 1

mg/i

b. Chlorine, Total 0.001 0.00 73 Residual X

Img/

kg/dy

c. Color X

5.0 1

CU

~

d. Fecal Coliform 4.2 0.143 37 cu/100ml kg/dy

e. Fluoride (16984-48-8)

X<0.2 1

mg/i 1

f. Nitrate-Nitrite 1.2 0.041 5

(asf X

mg/i kg/dy EPA Form 3510-2C (8-90)

PAGE V-1 CONTINUE ON REVERSE

ITEM V-B CONTINUED FROM FRONT

2. MARK"X"

3. EFFLUENT

4. UNITS

5. INTAKE (oprionalo

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG. VALUE

a. LONG TERM AND

a.

b.

a. MAXIMUM DAILY VALUE (ifavailable)

(ifavailable)

AVERAGE VALUE CAS NO.

BELIEVED BELIEVED (1)

(1)

(1)

d. NO. OF

a. CONCEN-(1)

b. NO. OF (ifavailable)

PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENTRATION (2) MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES

g. Nitrogen, Total Organic (as 1.3 0.044 5

rg/1 kg/dy

h. Oil and

<m Grease

<3. 0

~

1 rg/1

i. Phosphorus (asP), Total 0.38 0.013 5

mg/l kg/dy (7723-14-0) m

j. Radioactivity (1) Alpha. Total X

<5.00 1

pCi/i (2) Beta, Total x

6.93 1.38 e 10 1

pCi/l cu/dy (3) Radium, Total Testing and Reporting not Required (4) Radium 226, Testing and Reporting not Required Total

k. Sulfate (asSO 30 1022 1

mg/i kg/dy (14808-79-8) 3 I. Sulfide Mg/i (as S)

.g

m. Sulfite aSOX 1.5 0.051 1

mg/i kg/dy (14265-45-3)

n. Surfactants x

< 0.1 1

mg/1

~

o. Aluminum, Total (742_90_5)

X 340 11.582 1

ug/1 kg/dy

p. Barium, Total (7440-39-3)

./vX

<1o0 1

ug/1

~

q. Boron. Total 31 u/

kg/dy (7440-42-8) 98.2 3.345 g

r. Cobalt, Total

<10.0 1

ug/i (7440-48-4).

< i 0.0 1

ug/ i s, Iron, Total

<50 ug/i (7439-89-6)

____5__1

___/

1

~

I.

Magnesium, Total 2.27 0.078 1

mg/i kg/dy (7439-95-4)

u. Molybdenum, Total X11.0 0.375 1

ug/1 kg/dy (7439-98-7)

v. Manganese.

Total X

23.6 0.804 1

ug/l kg/dy (7439-96-5) 2

w. Tin, Total101 (744I-31-5)

'a

<10.0 1

ug/1

x. Titanium, Total

< 5.0 1

ug/1

~

(744E-32-6)

(

PAGE CO EPA Form 3510-2C (8-90)

PAGE V-2 CONTINUE ON PAGE V-3

EPA I.D. NUMBER (copyfroar Item I ofForm 1)

OUTFALL NUMBER NCD986182384 007 CONTINUED FROM PAGE 3 OF FORM 2-C PART C - If you are a primary industry and this outfall contains process wastewater, refer to Table 2c-2 in the instructions to determine which of the GCIMS fractions you must test for. Mark "X" in column 2-a 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 2-a (secondary industries, nonprocess wastewater outfalls, and nonrequired GC/MS fractions), mark "X" in column 2-b for each pollutant you know or have reason to believe is present. Mark uX" 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-4, 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 (optionat)

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG.

a. LONG TERM AND

a.

b.

c.

a. MAXIMUM DAILY VALUE (ifavailable)

VALUE (ifavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

(1) 1)d.

NO. OF

a. CONCEN-()

b. NO. OF (i/available)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS ASS CONCENTRATION (2) MASS ANALYSES TRATION b MASS ONCENTRATION MASS ANALYSES METALS, CYANIDE, AND TOTAL PHENOLS 1M. Antimony, Total X

2.0 1

ugh (7440-36-0)

< 2. 0

~

1 ug/l

~

2M. Arsenic, Total

<10.0 1

ugh (7440-38-2)

X X

3M. Beryllium, Total

<1.0 1

ugh (7440-41-7)

X X<.0~1 u/~

4M. Cadmium, Total

<1.0 1

ug/

(7440-43-9)

X X

I I.

I 5M. Chromium, X

<10.0 1

ugh Total (7440-47-3)

/ N 6M. Copper, Total

<10.0 1

ug/i (7440-50-8)

X X_<i0.0 1

ug/

7M. Lead, Total

<10.0 1

ugh (7439-92-1) 8M. Mercury, Total X

<0.2 1

u9/i (7439-97-6)

X 9M. Nickel, Total X

<10.0 1

Ug/1 (7440-02-0)

X X

10M. Selenium, X

<10.0 1

ug/1 Total (7782-49-2)

/'\\

11 M. Silver, Total

<10.0 1

ugh (7440-22-4)

X X

<o.o

~_u/

12M. Thallium, X:.

X ugh Total (7440-28-0)

X 1.0_-_1 ug/1 13M. Zinc, Total (7440-6o-6)

X X

17.8 0.606 1

ug/1 kg/day 14M. Cyanide, Total (57-12-S) 0.005 0.0 1

I g

kg/day Tota Phenols, X

1 1

mg/1 kg/day DIOXIN 2.3,7,8-Tetra-

\\

DESCRIBE RESULTS chlorodibenzo-P-Dioxin (1764-01-6)

EPA Form 3510-2C (8-90)

PAGE V-3 CONTINUE ON REVERSE

CONTINUED FROM THE FRONT

2. MARK XX"

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 (iavailable)

VALUE (ifavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED IBELIEVED

(.

)

(i)

(

.)S

d. NO. OF

a. CONCEN-1 b. NO. OF (ifavailable)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCEN TOAOTRATION (2)

MASS ANALYSES GC/MS FRACTION - VOLATILE COMPOUNDS 1V. Accrolein (107-02-8)

X<0 1_ug/l 2V. Acrylonitrile (107-13-1)

X x

<10 1

ug/h 3V. Benzene (71-43-2)

X X

<1.0 1

ug/1 4V. Bis (Chloro.

methyl) Ether Testing and Reporting not Required (542-88-1) 5V. Bromoform (75-25-2) x 1.0 ug/1 6V. Carbon Tetrachloride

<1.0 1

ug/

(56-23-5)

.01 u/

7V. Chlorobenzene (108-90-7) x X

_0 1

ug/1 8V. Chlorodi-bromomethane

<1.0 1

ug/1 (124-48-1) x x

9V. Chloroethane (7

<1.0 1

ug/1 1OV. 2-Chloro-ethylvinyl Ether

<5.0 1

ug/1 (110-75-8) x x

11V. Chloroform (67-68-3)

A..

2.7 0.00 1

ug/1 kg/day 12V. Dichloro-bromomethane

<1.0 1

Ug/

(75-27-4) x x

___0_1____

13V. Dichloro-difluoromethane X

<1.0 1

ug/1 (75-71-8) x 14V. 1,1-Dichloro-

<0 1

u ethane (75-34-3)

<1.0 ug/1 15V. 1,2-Dichloro-ethane (107-06-2)

X X

<1.0 1

ug/1 16V. 1,1-Dichloro-ethylene (75-35-4)

X X

<i.0 Ug/1 17V. 1.2-Dichloro-

'/

<0 propane (78-87-5)

\\

<1.0 ug/1 18V. 1,3-Dichloro-propylene

<1.0 1

ug/h (542-75-6) x

.I 19V. Ethylbenzene

<1.0 1

(100-41-4)

X X

20V. Methyl X

Bromide (74-83-9)

<1. 0 1

ug/1 21V. Methyl

<1.0 1

ug/1 Chloride (74-87-3)

EPA Form 3510-2C (8-90)

PAGE V-4 CONTINUE ON PAGE V-5

CONTINUED FROM PAGE V-4

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 (i/faailable)

VALUE (ifavailable)

AVERAGE VALUE CAS(NUMBER TESTIN ELIEVED ABELIEVED (C)E T 2

(1)

(1)

Cd.

NO. OF

a. CONCEN-

b.

NO. OF

(*,,

i./bl)

REQUIRED PRESENT ABSENT CONCENTRATION 1 (2) MASS CONCE.NTRATION (2) MASS CONCENTRATION 1 (2) MASS ANALYSES TRATION b, MASS CNETAIN 2

ASAAYE GC/MS FRACTION - VOLATILE COMPOUNDS (continued) 22V. Methylene

<1.0 Ugh Chloride (75-09-2) x 23V. 1,,.2,2-Tetrachloroethane

<1.0 Ug/h (79-34-5) x x

24V. Tetrachloro-

<1.0 ugh ethylene (127-18-4)/

25V. Toluene N

X

<1.0 1

Ug/1 (108-88-3) x x

26V. 1,2-Trans-Dichloroethyfene

<1.0 1

ug/'

(156-60-51 27V. 1.1,1-Trichloro-X0/

ethane (71-55-6)

/"X

<1.0

~

1 ug/

28V.1.1.2-Trichloro-

<1.0 uq/1 ethane (79-00-5) x 29V Trichloro-1 ug/

ethylene (79-01-6)

X X

< i. 0

~

1

__g

/ 1 30V. Trichloro-fluoromethane

<1. 0 1

ug/

(75-69-4) 31V. Vinyl Chloride 1

(75-01-4)

\\

x

<.0 1

ug/

GCIMS FRACTION - ACID COMPOUNDS 1A. 2-Chlorophenol

<10 1

/1 (95-57-8)

X x

<IO 1

ug/l

~

2A. 2.4-Dichloro-

<11 ug/

phenol (120-83-2)

,<___u__

,3A. 2,4-Dimethyl-

<0I U/

phenol (1 05-67-9)/

/N 1

gx 14A.,4,6-Dinitro-O-

<,./,

<10 1

ug/*.

Cresol (534-52-1) 1 1

5A. 2,4-Dinitro-

<10 1

Ug/1 phenol (51-28-5) x X

<10_~_1_"___/1_-

6A. 2-Nitrophenol

<10 1

ug/

(88-75-5) x I

x 7A. 4-Nitrophenol

<10 1

Ug/

(100-02-7)

X X

<10

~

I u_/_

8A. P-Chloro-M-

<10 1

ug/1 Cresol (59-50-7)

X

___<i0_-_1

___/___

9A. Pentachloro-

<10 u/1 phenol (87-86-5) 10A. Phenol 1

F.

A

<10

_u.

.g/1.

(108-95-2) x x

11A. 2.4,6-Tchloro-

<10 ug p

penol (88-5-2)

(

PG V EPA Form 3510-2C (8-90)

PAGE V-5 CONTINUE ON REVERSE

CONTINUED FROM THE FRONT

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 (iava*lable)

VALUE (ifavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

IA (1) jI (T )A

d. NO. OF

a. CONCEN-(1)

b. NO. OF (ifavailable)

REQUIRED PRESENT ABSENT CONCENTRATION1 (2) MASS CONCEN TRATIONJ (2)MASS CONCENRATION (2)MASS ANALYSES TRATION b.MASS CONCENTRATON 1

(2) MASS ANALYSES GC/MS FRACTION - BASE/NEUTRAL COMPOUNDS

18. Acenaphthene Testing and Reporting not Required (83-32-91)________

2B. Acenaphtylene (208-96")

3B. Anthracene (120-12-7)

48. Benzidine (92-87-5) 5B. Benzo (a)

Anthracene (56-55-3)

68. Benzo (a)

Pyrene (50-32-8)

78. 3.4-Benzo-fluoranthene (205-99-2)

88. Benzo (ghi)

Perylene (191-24-2)

98. Benzo (k)

Fluoranthene (207-08-9) lOB. Bis (2-Chloro-ethoxy) Methane (111-91-1) 118. Bis (2-Chloro-ethyl) Ether (111-44-4) 128. Bis (2-Chloroisopropyl)

Ether (102-80-1) 138. Bis (2-Eth"v-

/hexy/I Phthalate (117-81-7) 148. 4-Bromophenyl Phenyl Ether (101-55-3) 15B. Butyl Benzyl Phthalate (85-68-7) 168. 2-Chloro-naphthalene (91-58-7) 178. 4-Chloro-phenyl Phenyl Ether (7005-72-3) 188. Chrysene (218-01-9) 198. Dibenzo (a,h)

Anthracene (53-70-3) 20B. 1,2-Dichloro-benzene (95-50-1) 218.1,3-Di-chloro-benzene (541-73-1)

EPA Form 3510-2C (8-90)

PAGEV-6 CONTINUE ON PAGE V-7

CONTINUED FROM PAGE V-6

2. MARK'X"

3. EFFLUENT 4, UNITS

5. INTAKE (optionaf)

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE

c. LONG TERM AVRG.

a. LONG TERM AND

a.

b.

c.

a. MAXIMUM DAILY VALUE (ifavailable)

VALUE (ifiavailable)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED 1(1)

(1)

d. NO. OF a. CONCEN-C (1)

b. NO. OF (ifavailable)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2)MASS CONCENTRATION (21MASS ANALYSES TRATION

b. MASS CONCENTRATION (2) MASS ANALYSES GC/MS FRACTION - BASE/NEUTRAL COMPOUNDS (continued) 22B. 1,4-Dichloro-benzene (106-46-7)

Testing and Reporting not Required 23B. 3.3-Dichloro-benzidine (91-94-1) 24B. Diethyl Phthalate (84-66-2) 25B. Dimethyl Phthalate (131 3) 268. Di-N-Butyl Phthalate (84-74-2) 27B. 2,4-Dinitro-toluene (121-14-2) 28B. 2,6-Dinitro-toluene (606&20-2) 29B. Di-N-OctyI Phthalate (117-84-0) 30B. 1,2-Diphenyl-hydrazine (as Azo-benzene) (122-66-7) 318. Fluoranthene (206-44-0) 32B. Fluorene (86-73-7) 33B. Hexachloro-benzene (118-74-1) 348. Hexachloro-butadiene (87-68-3) 35B. Hexachloro-cyclopentadiene (77-47-4) 368 Hexachloro-ethane (67-72-1) 37B. Indeno (1,2,3-cd) Pyrene (193-39-5) 38B. Isophorone (78-59-1) 39B. Naphthalene (91-20-3) 40B. Nitrobenzene (9&-95-3) 418. N-Nitro-sodimethylamine 662-75-9) 42B. N-Nitrosodi-N-Propylamine L(621-64-7)

EPA Form 3510-2C (8-90)

PAGE V-7 CONTINUE ON REVERSE

CONTINUED FROM THE FRONT

2. MARK "X 3, EFFLUENT

4. UNITS S. INTAKE (optional)

1. POLLUTANT 1

b. MAXIMUM 30 DAY VALUE C. LONG TERM AVRG.

a. LONG TERM AND

a.

b.

c.

a. MAXIMUM DAILY VALUE

('i mailable)

VALUE (if available)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED (1)

(1)

d. NO. OF a. CONCEN-MASS

b. NO. OF (i.available)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION (2) MASS CONCENITRATION (2)MASS ANALYSES TRATION

b.

MASS

,NALYSES GCIMS FRACTION - BASE/NEUTRAL COMPOUNDS (continued) 43B. N-Nitro-sodiphen6amine Testing and Reporting not Required (86-30-6) 44B. Phenanthrene (85-01-8) 45B. Pyrene (129-00-0) 46B. 1,2,4-Tn-chlorobenzene (120-82-1)

GCIMS FRACTION - PESTICIDES IP. Alddn (309-00-2) 2P. a-BHC (319-84-6) 3P. j3-BHC (319-85-7) 4P. y-BHC (58-89-9) 5P. 8-BHC (319-86-8) 6P. Chlordane (57-74-9) 7P. 4,4'-DDT (50-29-3) 8P. 4,4'-DDE (72-55-9) 9P. 4,4'-DDD (72-54-8) 1OP. Dielddn (60-57-1) 11P. a-Enosulfan (115-29-7) 12P. f-Endosulfan (115-29-7) 13P. Endosulfan Suffate (1031-07-8) 14P. Endrin (72-20-8) 15P. Endrin Aldehyde (7421-93-4) 16P. Heptachlor (76-44-8)

EPA Form 3510-2C (8-90)

PAGE V-8 CONTINUE ON PAGE V-9

EPA I.D. NUMBER (copyfrom htem I of Form 1)

OUTFALL NUMBER I

NCD986182384 007 CONTINUED FROM PAGE V-8

2. MARK"X"

3. EFFLUENT

4. UNITS

5. INTAKE (optional)

1. POLLUTANT

b. MAXIMUM 30 DAY VALUE C. LONG TERM AVRG.

I

a. LONG TERM AND

a.

b.

c

a. MAXIMUM DAILY VALUE (ifavailable)

VALUE (if available)

AVERAGE VALUE CAS NUMBER TESTING BELIEVED BELIEVED 1()

(1 2

S

d. NO. OF a. CONCEN-b, NO. OF (if avoilable)

REQUIRED PRESENT ABSENT CONCENTRATION (2) MASS CONCENTRATION*

(2) MASS CONCENTRATION (2) MASS 'ANALYSES TRATION

b. MASS CONCENTR.TIO

()MS ANALYSES GC/MS FRACTION - PESTICIDES (continued) 17P. Heptachlor Epo5dde Testing and Reporting not Required (102,4-57-3) 18P. PCB-1242 (53469-21-9) 19P. PCB-1254 (11097-69-1) 20P. PCB-1221 (11104-28-2) 21P. PCB-1232 (11141-16-5) 22P. PCB-1248 (12672-29-6) 23P. PCB-1260 (1109&-82-5) 1 1

24P. PCB-1016 (12674-11-2) 25P. Toxaphene (8001-35-2)

EPA Form 3510-2C (8-90)

PAGE V-9

EPA ID Number (copy from Item 1 of Form 1)

NCD991278284 Form Approved. OMB No. 2040-0086 Approval expires 5-31-92 Please orint or tyoe in the unshaded areas only.

U.S. Environmental Protection Agency FORMA

Wahigon, DC 2040 MW Application for Permit to Discharge Storm Water NPOESDischarges Associated with Industrial Activity Paperwork Reduction Act Notice Public reporting burden for this application is estimated to average 28.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> 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.

1. 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 (fist)

B. Latitude C. Longitude (name)

See Attachment 6

11. 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. proj.

N/A 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 under way 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 3510-21' (1-92)

Page I of 3 Continue on Page 2

Continued from the Front 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)

See Attachment 8 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.

See Attachments 9 and 10 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.

Outfall List Codes from Number Treatment Table 2F-1 See Attachment 10 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)

S ign Date Signed Robert T.

Wilson, Jr. HNP Env. Coor.

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.

rhe storm water outfalls were visually monitored on November 3, 2010.

No non storm water was observed at any of the outfall locations.

Vl. 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 date and location of the spill or leak, and the type and amount of material released.

Phere have been no reportable leaks or spills of toxic or hazardous pollutants in the last 3 years.

EPA Form 3510-2F (1-92)

Page 2 of 3 Continue on Page 3

Continued from Page 2 EPA ID Number (copy from Item 1 of Form 1)

NCD991278284 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 sheets numbers VI-1 and VII-2.

E. Potential discharges not covered by analysis - is any toxic pollutant listed in table 2F-2, 2F-3, or 2F-4, a substance or a component of a substance which you currently use or manufacture as an intermediate or final product or byproduct?

LI Yes (list all such pollutants below)

Z No (go to Section IX)

VIII. Biological Toxicity Testing Data Do you have any knowledge or reason to believe that any biological test for acute or chronic toxicity has been made on any of your discharges or on a receiving water in relation to your discharge within the last 3 years?

F] Yes (list all such pollutants below)

WI No (go to Section IX)

No toxicity tests have been performed on storm water outfalls.

IX. Contract Analysis Information Were any of the analyses reported in Item VII performed by a contract laboratory or consulting firm?

[7 Yes (list the name, address, and telephone number of, and pollutants i

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 Environmental Conservation 102-A Woodwinds industrial Ct.

(919) 497-3090 All Pollutants Laboratories, Inc.

Cary NC 27511 K. Certification 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 fine and imprisonment for knowing violations.

A. Name & Official Title (Type OrPrint)

B. Area Code and Phone No.

Kelvin Henderson -

Plant General Manager (919) 362-2000 C.

Sinatur'ý',0.

Dale Signed EPA/F..

3510-21' (1-92)

Page 3 of 3

EPA ID Number (copy from Item 1 of Form 1)

JNCD991278284 Outfall 003 Form Approved. OMB No. 2040-0086 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.

Maximum Values Average Values (include units)

(include units)

Number Pollutant Grab Sample Grab Sample of and Taken During Taken During Storm CAS Number First 20 Flow-Weighted First 20 Flow-Weighted Events (if available)

Minutes Composite Minutes Composite Sampled Sources of Pollutants Oil and Grease N/A Biological Oxygen Demand (BOD5)

Chemical Oxygen Demand (COD)

Total Suspended Solids (TSS)

Total Nitrogen Total Phosphorus pH Minimum Maximum Minimum Maximum 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.

Maximum Values Average Values (include units)

(include units)

Number Pollutant Grab Sample Grab Sample of and Taken During Taken During Storm CAS Number First 20 Flow-Weighted First 20 Flow-Weighted Events (if available)

Minutes Composite Minutes Composite Sampled Sources of Pollutants Temperature Fecal Coliform Ammonia Copper (7440-02-0)

Nickel (7440-02-0)

Zinc (7440-66-6)

Total Residual Chlorine Hydrazine Chromium (7440-50-8)

Iron (7439-50-8)

Tot.SuspResidu Free Avail.Clor Manganese (7439-96-5)

EPA Form 3510-2F (1-92)

Page V1I-1 Continue on Reverse

Continued from the Front Part C - List each pollutant shown in Table 2F-2, 2F-3, and 2F-4 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 During Taken During Storm CAS Number First 20 Flow-Weighted First 20 Flow-Weighted Events (if available)

Minutes Composite Minutes Composite Sampled Sources of Pollutants Part D -

Provide data for the storm event(s) which resulted in the maximum values for the flow weighted composite sample.

4.

5.

1.

2.

3.

Number of hours between Maximum flow rate during 6.

Date of Duration Total rainfall beginning of storm measured rain event Total flow from Storm of Storm Event during storm event and end of previous (gallons/minute or rain event Event (in minutes)

(in inches) measurable rain event specify units)

(gallons or specify units)

7. Provide a description of the method of flow measurement or estimate.

EPA Form 3510-2F (1-92)

Page VII-2

IEPA ID Number (copy from Item I of Form 1)

INCD991278284 Outfall 006 Form Approved. OMB No. 2040-0086 Approval expires 5-31-92 VII. Discharge information (Continued from page 3 of Form 2F)

Part A - You must orovide the results of at least one analysis for every pollutant in this table. Complete one table for each outfall. See instructions for additional details.

Maximum Values Average Values (include units)

(include units)

Number Pollutant Grab Sample Grab Sample of and Taken During Taken During Storm CAS Number First 20 Flow-Weighted First 20 Flow-Weighted Events (if available)

Minutes Composite Minutes Composite Sampled Sources of Pollutants Oil and Grease N/A Biological Oxygen Demand (BOD5)

Chemical Oxygen Demand (COD)

Total Suspended Solids (TSS)

Total Nitrogen Total Phosphorus pH Minimum Maximum Minimum Maximum 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.

Maximum Values Average Values (include units)

(include units)

Number Pollutant Grab Sample Grab Sample of and Taken During Taken During Storm GAS Number First 20 Flow-Weighted First 20 Flow-Weighted Events (if available)

Minutes Composite Minutes Composite Sampled Sources of Pollutants Temperature Fecal Coliform Ammonia Copper (7440-02-0)

Nickel (7440-02-0)

Zinc(7440-66-6)

Total Residual Chlorine Hydrazine Chromium (7440-50-8)

Iron(7439-50-8)

Tot.Susp. Residu Free Avail.Clor Manganese (7439-96-5)

EPA Form 3510-2F (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 2F-4 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 During Taken During Storm CAS Number First 20 Flow-Weighted First 20 Flow-Weighted Events (if available)

Minutes Composite Minutes Composite Sampled Sources of Pollutants Part D -

Provide data for the storm event(s) which resulted in the maximum values for the flow weighted composite sample.

4.

5.

1.

2.

3.

Number of hours between Maximum flow rate during 6.

Date of Duration Total rainfall beginning of storm measured rain event Total flow from Storm of Storm Event during storm event and end of previous (gallons/minute or rain event Event (in minutes)

(in inches) measurable rain event specify units)

(gallons or specify units)

7. Provide a description of the method of flow measurement or estimate.

EPA Form 3510-2F (1-92)

Page VII-2

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 Attachment I Form 1 - Item X - Existing Environmental Permits

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Form 1 - Item X Existing Environmental Permits Issuing Agency.

Type of Permit ID Number Division of Health Services Main Reservoir 633 Division of Health Services Auxiliary Reservoir 633 Division of Air Quality Synthetic Minor 08455 Division of Environmental Well Construction 2497 Management (DEM)

• DEM*

Well Construction 1290 DEM*

Well Construction 1145 DEM*

Well Construction 922 DEM*

410 Certification WQC-1 198 DEM*

401 Certification WQC-214 Division of Solid Waste Industrial Landfill 92-10 Management Division of Waste Management Underground Storage Tank 0-006715 DWQ Laboratory Certification 398 DWQ Oil Terminal Facility 924020063 Division of Water Quality NPDES (HNP/HEEC)

NC0039586 DEM*

NPDES (HNP Landfill)

COC NGG 120032 DEM*

Nondischarge WQ0009475 DEM*

Nondischarge WQ0000584**

DEM*

Nondischarge WQ0000506**

DWQ Nondischarge WQ0000838**

Wake County Planning Land Use 3830 Wake County Planning Land Use 13383 Nuclear Regulatory Commission Facility Operating License NPF63 Division of Radiation Protection Radioactive Materials License 092-0218-4 USEPA Hazardous Waste NCD991278284

• Since issuance of permit agency name has changed to Division of Water Quality.

I

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586

• • Permits held by contract disposal firm 2

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 Form 1 - Item XI - Maps

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Harris Nuclear Plant Wake County Page 1 of 3

Harris Planta 0 Attachment I - Form I - Item XI - Map Progress Energy Carolinas, Inc.

Harris Nuclear Plant Wake County Page 2 of 3

Attachment I - Form I - Item XI - Map Progress Energy Carolinas, Inc.

Harris Nuclear Plant Wake County Page 3 of 3

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharae Elimination Svstem Permit Number NC0039586 National Pollutant Discharcie Elimination System Per it Number NCO039586 Form 2C - Item II - A Flows, Sources of Pollution, and Treatment Technologies

emergency service water blowdown 27 38 sludge plant & HEEC usage sludge 16 (003 Metal Cleaning 18 Waste used oil 50 42 34 I9LLG'..IIIIIV1IL %J -

I %J1I1E A.%.

Progress Energy Carolinas, Inc.

Harris Nuclear Plant-Wake County, NC Schematic of Water Flow Page 1 of 5 January 2011

Storm Drains 28 Treated water tank drains 41 Yard & roof drains 56 Water treatment steam heater drains

_575 Condenser water box drains 37 Fire protection system Detail A Secondary Waste Sample Tank Treated Hot Shower Tank Waste Monitor Tank Waste Evaporator Condensate Tank (005)

To combined outfall (CTB) line C,'

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.,4--..2--Reactor coolant system 49 Boron recycle 51 Equipment drain 23 Secondary waste 5-Floor drain 3 Laundry hot shower

-5 Laboratory 55 Filter back flush Detail B L48Boron recycle to chemical &

volume control system - Form 2C Progress Energy Carolinas, Inc.

Harris Nuclear Plant - Wake County, NC Schematic of Water Flow Page 2 of 5 January 2011

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2C - Item I-A Flows, Sources of Pollution, and Treatment Technologies Stream Flow @ Maximum Power*

Flow @ Temperature Notes Shutdown*

1 21,000 gpm 21,000 gpm Emergency/Testing/ Intermittent use 2

510 MGM 0 - 5 MGM Varies with dissolved solids 3

864 MGM 9 MGM Cooling tower make-up 4

648 MGM 4 MGM Average meteorological condition 5

0 - 14,000 gpm 0 - 14,000 gpm Cooling tower bypass line 6

500,000 gpm 0 - 284,000 gpm 7

500,000 gpm 0 -284,000 gpm 8

300 gpm 0 - 176 gpm 9

20,800 0 - 10,000 Intermittent operation 10 300 gpm 0 - 176 gpm 11 1.2 MGM 210,000 Condensate polisher regenerations and rinse (Intermittent operation) 12 24,000 gpm 0 - 16,500 gpm 13 24,000 gpm 0 - 16,500 gpm 14 315,900 gpm 0- 185,000 gpm 15 315,900 gpm 0 - 185,000 gpm 16 6 MGM 5 MGM 17 208,300 208,300 18 0

0 Very infrequent operation 19 666,600 666,600 20 500 500 Auxiliary boiler drains 21 50,000 gpm 50,000 gpm Service water system 22 1,220,800 220,000 Secondary waste (Nonradiological),

alternate route 23 0

Secondary waste (Radiological), not normally used 24 0 -1 MGM Make-up as needed 25 7,645,000 7,645,000 26 4,000,000 4,000,000 27 300 lbs/month 300 lbs/month Settling basin sludge 28 3,033 3,033 Treated water tank drains 3 of 5

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 29 11,000 11,000 Fire pump test 30 8,786,200 8,786,2000 Storm drains includes rainwater and firewater 31 1.2 MGM 1.2 MGM Potable water 32 2,445,000 2,445,000 33 39,000 39,000 Reactor coolant system 34 1,200,000 1,200,000 Demineralized water 35 500 500 Demineralized water to auxiliary boilers 36 11,000 11,000 Fire pump test 37 1,167 1,167 Hydrant and drain tests 38 693,000 693,000 Plant and HE&EC water usage 39 0.2 MGM 0.2 MGM Sanitary waste 40 Sludge removal as necessary 41 8,340,000 8,340,000 Yard and roof drains 42 10,000 10,000 43 33,300 33,300 44 Makeup as required 45 1,220,800 220,000 Makeup 9 and 1I 46 0.2 MGD 0.2 MGD Sanitary waste 47 413,000 413,000 Radwaste 48 10,000 gpm 10,000 gpm Boron recycle 49 67,000 67,000 Boron Recycle/CVS letdown 50 30 30 Used oil 51 75,000 75,000 Equipment drains 52 316,000 316,000 Floor drains 53 7,000 7,000 Decontaminated waste 54 6,000 6,000 Laboratory waste (chemistry) 55 4,100 4,100 Varies with number of filter backwashes 56 5 - 10 gpm 5 - 10 gpm Water treatment steam heater drains 57 120,000 120,000 Condenser water box (approximately two drains/year) 58 6,950,700 6,950,700 Low-volume waste Units: Gallons per month unless otherwise noted 4 of 5

TTF Lift Station Lift Station NDE Building EOF Building (0.0 14 MGD)

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Aerated Pond Stabiliza tioniond..*

Polishing Pond 1ý (Lagoon I)

(Lagoon 2)

(Lagoon 3)

(0.017 MGD)

A I

A L

-- Chorn t

ionSys t emn J

(0.017 MGD)

Progress Energy Carolinas, Inc.

Harris Energy & Environmental Center Wake County, NC Schematic of Water Flow Page 5 of 5 January 2011

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharae Elimination Svstem Permit Number NC0039586 National Pollutant Discharue Elimination Svstern Permit Number NCO039586 Form 2C - Item II - B Flows, Sources of Pollution, and Treatment Technologies

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2C - Item 11-B Flows, Sources of Pollution, and Treatment Technologies HARRIS NUCLEAR PLANT The Harris Nuclear Plant (HNP) consists of a 900 MW generating unit and associated facilities.

The HNP systems include a Westinghouse pressurized water reactor, three re-circulating steam generators, a turbine generator, a one-pass condenser, an open re-circulating (cooling tower) cooling water system, and a lake to makeup water lost by evaporation. In a pressurized water reactor design, steam is produced in the secondary system steam generators using hot water from the reactor core. The primary system does not normally come into contact with any other part of the generating system, such as the steam cycle which includes the turbine and the condenser.

Outfall 006 -Combined Outfall to Harris Lake The HNP operates on an open re-circulating cooling system using a natural draft cooling tower and 4100 acre makeup water storage reservoir. All five major wastewater discharges at the HNP are combined in a 36-inch diameter common pipe which discharges to the Harris Lake 500 feet offshore at 40 feet below the surface (Discharge Serial No. 006 in this application.)

The individual waste streams contributing to the common outfall pipe are: cooling tower blowdown, sanitary waste treatment plant effluent, metal cleaning wastes, low-volume wastes, and radwaste system. (These waste streams are enumerated in the present permit as Discharge Serial Numbers 001, 002, 003, 004, and 005, respectively.) Toxicity testing has been conducted on the combined outfall line since February 1990. Each of the waste streams, as well as miscellaneous discharge points, are described in this narrative. Also included is a list of chemicals which are expected to be in waste streams from the HNP (Attachment 5).

Outfall 001 - HNP Cooling Tower Blowdown discharge to Outfall 006 The cooling tower provides the condenser with a supply of water for removing the heat rejected byothe condensation of steam. (The circulating water temperature rise across the condenser is 25 F.) This heat is dissipated primarily by evaporation as the water falls through the tower. This evaporation is essentially pure water vapor, with the dissolved and suspended solids remaining to concentrate.

To prevent the solids from causing scale and corrosion problems, some of the concentrated cooling water is discharged from the cooling tower basin, i.e., blowdown.

During plant operation, the cooling tower basin continuously discharges for optimum performance.

Blowdown currently averages approximately 6 MGD.

Makeup water for cooling tower evaporative losses and cooling tower blowdown is provided from the main reservoir.

The cooling tower also serves as a partial source of service water, which is used for non-contact cooling of auxiliary equipment throughout the plant. The cooling tower is infrequently drained I

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 for maintenance. The normal operating procedure includes draining the residual water to the lake via Discharge Serial No. 006.

Occasionally, the condensers are drained for maintenance and repairs. When the condensers are drained, it is necessary to route the residual water (approximately 60,000 gallons per condenser per event) to area storm drains which discharge to the lake. This water is monitored prior to discharge for appropriate parameters required for cooling tower blowdown in accordance with the NPDES permit. Presently, condenser draining events are reported with relevant monitoring data to DWQ on attachments to monthly Discharge Monitoring Reports.

Outfall 002 - HNP Sewage Treatment Facility discharge to Outfall 006 A 0.025 MGD extended aeration sewage treatment facility serves the HNP. The facility consists of an equalization basin, aeration basin, sludge holding tanks, raw sewage holding tank, clarifiers, and chlorine contact tanks. Disinfected effluent is pumped to the common outfall pipe.

Currently, sludge is land applied off site by a contract disposal firm (Granville Farms, Inc.,

Permit No. WQ0000838). Because the HNP sewage treatment facility receives industrial type waste as well as domestic type waste, the land application of the mixed sludge meets the exemption conditions stipulated at 40 CFR Part 503.6.

In addition to sanitary waste, HVAC condensate is discharged to the sewage treatment facility.

Outfall 003 - HNP Metal Cleaning Wastes discharge to Outfall 006 Infrequently, cleaning of heat exchanger equipment by chemical solutions may be necessary.

Cleaning solutions would be routed to the waste neutralization basin for pH adjustment (or other chemical neutralization) prior to discharge to the settling basin where further treatment by sedimentation occurs.

To date, the only metal cleaning which has been conducted was a preoperational flush. If a new system is added in the future or if an existing system is changed out, flushing could be necessary again. Also, metal cleaning may be needed in the future for plant systems (e.g., steam generators, auxiliary boilers, piping, etc.).

Chemical solutions used may include phosphates, organic cleaners, citric acid, or oxalic acid.

Outfall 004 - HNP Low-Volume Wastes discharge to Outfall 006 In the operation of the HNP, there are many processes which result in intermittent low volumes of various waste streams. Low-volume waste is treated by neutralization (for pH adjustment),

sedimentation, and separation. These wastes may be treated in the oily waste separator and/or neutralization basin as needed prior to routing to the sedimentation basin, which ultimately discharges to the common outfall line. Annually as a maintenance practice this basin may be physically cleaned using chlorine, a bisulfate is added after cleaning to remove the chlorine 2

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 before discharge. Chemicals present in these systems may include corrosion products (such as copper and iron) corrosion inhibitors (such as nitrites, molybdates, ammonia, hydrazine, carbohydrazide, and ethanolamine), acids and bases from water treatment processes, and wastewater from ion exchange processes and ammonium bisulfite from dechlorination. Low-volume waste flow from the settling basin averages approximately 0.2 MGD. The various low-volume waste sources are described below:

a)

Water treatment system wastes from processing of demineralized water and potable water.

(The water treatment system includes coagulation, filtration, disinfection, and ion exchange. Wastes from treatment include filter backwash and demineralizer regeneration wastes.)

b)

Non-radioactive oily waste, floor drains, and chemical tank containment drains.

(Turbine building wastes which could contain oil are routed to the oily waste separator for treatment prior to routing to the neutralization basin. Used oil is collected by a contractor for reclamation.)

c)

Steam generator and auxiliary boiler draining following wet layup d)

Non-radioactive secondary waste from condensate polishers e)

Miscellaneous drains/leaks from condenser, steam generator, and secondary components f)

Auxiliary boiler system blowdown g)

Miscellaneous waste streams not otherwise identified elsewhere in this application.

Outfall 005 - HNP Radwaste Treatment System discharge to Outfall 006 The radwaste system is designed to collect, store, process, and release any radioactive or potentially radioactive liquids associated with operation of the nuclear power plant. The waste streams are collected in tanks and sampled for conventional pollutants and radioactivity. The specific batch treatment is selected based on these analytical results. This allows for selection of the proper treatment processes for each individual batch. Most radwaste streams are treated by the Modular Fluidized Transfer Demineralization System (MFTDS) that uses filtration and ion exchange in a manner that minimizes the production of solid wastes. Boric acid is recycled. The secondary waste system (SWS) is for treating radioactively-contaminated water from the secondary steam cycle system; however, since that system is not normally contaminated, those flows are routed to the normal low-volume waste treatment system after radiological monitoring.

3

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 After treatment, the radwaste flows are stored in One of four tanks: the secondary waste sample tank, the treated laundry and hot shower tank, the waste monitor tank, or the waste evaporator condensate tank. After monitoring to verify adequate treatment, the tanks are discharged to the common outfall line.

The cooling tower bypass line provides a flow of lake water for radwaste releases, as regulated by the NRC.

Other HNP Discharges I1.

Storm Drains Runoff from parking lots, outside storage areas, roof drains, and other areas on the plant site are collected in storm drains and ultimately routed to release points which discharge to Harris Lake. Flow contributed from those areas is estimated at 8.8 million gallons per month, based on average rainfall of 43 inches per year and a runoff assumption factor of 0.7.

In addition to stormwater, a few miscellaneous sources of water are also intermittently routed to the storm drains. These sources that have a minor contribution to overall storm drain flows are as follows:

a.

Upflow filter clear well drains The upflow filter clearwell stores filtered lake water which is used in the potable water treatment system. Periodically, some of the water from this tank is drained to the storm drains that discharge to Harris Lake. This water may contain low concentrations of chlorine because sodium hypochlorite is added to control biological growth in the tank prior to treatment through the upflow filter.

b.

Heat exchanger on the demineralizer feedwater It is necessary to heat the source water to the demineralized water treatment system to achieve optimum degassification. To accomplish this, steam is used to heat the feedwater. The condensed steam is discharged to the storm drains that flow to Harris Lake at approximately 5 - 10 gallons per minute. This steam could contain trace amounts of hydrazine and ammonia used for chemistry control in the auxiliary boiler steam system. Due to the low flow rate and the long retention time, the temperature of the condensed steam should be at ambient temperature upon reaching the lake.

c.

Condenser water box drains 4

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Prior to condenser maintenance or repairs it is sometimes (approximately twice/year) necessary to drain circulating water to the storm drains (approximately 60,000 gallons per condenser per event) that discharge to Harris Lake. This water is monitored for selected cooling tower blowdown parameters.

d.

Filtered water storage tank Water from the upflow filter clearwell is treated using a micro-filtration unit for turbidity control and then stored in a tank prior to subsequent filtration (nano-filtration unit) and disinfection. Occasionally, some water from this tank may be drained to the storm drains that discharge to Harris Lake. This water may contain trace amounts of chlorine.

e.

Fire protection system Approximately 5000 gallons of lake water used for annual testing of the fire protection system is routed to most of the storm drains that discharge to Harris Lake. In the event of a fire, additional water could be discharged to storm drains.

f.

Condenser hotwell During outages (approximately once per 18 months) it is necessary to drain the condenser hotwell for condenser maintenance and inspection.

Approxmiately 70,000 gallons of this water resulting from condensed steam is drained to storm drains that discharge to Harris Lake.

It may contain trace amounts of ethanolamine, 100 ppb or less of boron, and 100 ppb or less ammonia.

g.

Condensate storage tank Infrequently it is necessary to drain the condensate storage tank for maintenance.

Approximately 400,000 gallons per event is drained to storm drains that discharge to Harris Lake. It may contain 200 ppb or less boron, 1000 ppb or less ammonia, and trace hydrazine.

h.

Air conditioning system condensate The condensate from various building air conditioning systems flows to various storm drains to Harris Lake. The volume is generally low and is greatest in the humid summer months.

i.

Service water system strainers Infrequently, when service water strainers located at the makeup pumps from the cooling tower basin are backwashed to remove biofouling organisms or debris, a 5

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 small volume of service water overflows the basin and runs to the adjacent storm drain that discharge to Harris Lake.

j.

Maintenance Activities During maintenance activities at the facility it may become necessary to drain all or some portion thereof of the following plant systems; normal service water, emergency service water, circulating water, potable water, and demineralized water.

Maintenance activities at the facility may also require the hydrostatic flushing of system piping with discharge to the storm drain system. In addition, the facility may find it necessary to wash equipment with demineralized water with the discharge to storm drains

2.

Emergency Service Water System This system primarily provides non-contact cooling water for nuclear safety-related equipment systems and during emergency conditions.

The emergency service water system discharges to the auxiliary reservoir which is used as the plant?s heat sink during emergency conditions, a feature required by Nuclear Regulatory Commission regulations to provide a reliable supply of cooling water. Under normal operating conditions, the auxiliary and the main reservoirs are isolated from each other; however, the reservoirs may be connected as necessary. In addition to emergency situations, this system is used periodically for testing purposes or for containment cooling as needed. This water may contain traces of chemicals identified for the cooling tower blowdown.

6

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 HARRIS ENERGY & ENVIRONMENTAL CENTER The Harris Energy & Environmental Center (HE&EC) includes facilities that provide support services (laboratories and training classrooms) for the HNP and other CP&L operations. The sources of wastewater at the HE&EC are domestic waste, conventional laboratory waste, cooling tower blowdown, and potentially radioactive liquid waste from the radiochemistry and metallurgy laboratories. Additionally, floor drains from several shops and storage buildings are routed to the wastewater treatment facility.

All waste streams, with the exception of the radiologicat wastewater, receive treatment in the 0.020 MGD wastewater facility.

Components of the treatment facility include a bar screen, submersible pump station as an influent pump station, three treatment ponds, sand filtration, chlorination and dechlorination, as well as the various lift stations for the HE&EC's various buildings. The pond portion of the treatment facility consists of an aerated pond with a minimum retention time of 10 days followed by a stabilization pond, also with a minimum retention time of 10 days. The third pond is a polishing pond with a minimum 2-day retention time. Effluent from the treatment facility is discharged via the effluent discharge pipe into Harris Lake.

If necessary sludge from the treatment facility will be removed and land applied by a contractor (a contractor for sludge disposal will be chosen when needed). Because the treatment facility receives industrial type waste as well as domestic type waste, the land application of the mixed sludge meets the exemption conditions stipulated as 40 CFR 503.6 Domestic Waste The maximum domestic waste flow from the HE&EC sanitary facilities is approximately 0.014 MGD.

In addition to the approximately 235 permanent employees on the site, the HE&EC, serving as a company training facility and as a visitors' center for the nearby Harris Nuclear Plant, accommodates a fluctuating population (ranging from 0 to 450 additional people per day).

Laboratory Waste Laboratory waste flow, consisting primarily of rinse water from the chemical, metallurgical, and biological laboratories, is approximately 0.001 MGD. HE&EC personnel are educated in the proper disposal of laboratory wastes and are encouraged to minimize the use of laboratory drains for chemical disposal.

Most laboratory chemical wastes and virtually all oily wastes are drummed for off-site disposal. Laboratory wastes that are not drummed may go to one of two 5,000 gallon holding/neutralization tanks for visual inspection and testing before being discharged to the influent pump station.

Cooling Tower Blowdown Cooling tower blowdown from the HE&EC air conditioning system averages approximately 0.002 MGD. Chemical additives include an algicide (aqueous glutaraldehyde solution) and a 7

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 suspension agent. The treatment and extended retention time in the ponds should ensure no algicide is discharged to Harris Lake.

Radiological Wastewater The majority of the radiological wastewater results from the cleaning of laboratory glassware. In addition, small quantities of liquid radiochemistry laboratory samples, radioactive metallurgy laboratory wastewater (which is prefiltered with a paper cartridge to remove particulates before disposal), liquids generated from analyses of plant 10 CFR Part 61 samples, and reagents are disposed via the HE&EC radiochemistry laboratory drains to a holding tank. Approximately 5,000 gallons are discharged annually from the holding tank, as allowed by the radioactive materials License No. 092-0218-4, issued by the N.C. Division of Radiation Protection. The effluent from the radiological holding tank combines with the effluent from the sewage treatment plant and discharges into Harris Lake.

Radiochemical analyses are performed prior to release to calculate the total activity in the waste.

These analyses include gamma spectrum analysis using intrinsic germanium gamma spectrometry systems, as well as direct analysis for Tritium, Iron-55, Nickel-63 and Strontium-89/90. Individual radionuclides have different release limits, however, the total Tritium activity discharged per calendar year shall not exceed 20 millicures, and the total activity excluding Tritium discharge per calendar year shall not exceed 5 millicuries.

Additionally, the pH of the wastewater is determined before release. The pH must be between six and nine and is adjusted, if necessary, using 50% sodium hydroxide. The tank is agitated after addition of the sodium hydroxide, and an additional sample is analyzed to verify that the appropriate pH adjustment is achieved.

Stormwater Stormwater runoff from the HE&EC is composed of parking lot, roof, and lawn drainage. This non-industrial stormwater is not subject to the Phase I stormwater regulations of 40 CFR Part 122.

8

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2C - Item VI - Potential Discharges Not Covered by Analysis

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2C - Item VI Potential Discharges Not Covered By Analysis Chemical Quantity Frequency Purpose (used per year, estimate)

Ammonia 2000 gallons As needed pH control Ammonium Bisulfite 12,000 gallons Daily C12 removal BETZ FOAMTROL 100 gallons As needed Foam control agent 1440 BETZ Flogard MS6208 1800 gallons As needed Corrosion control BETZ Depositrol 7000 gallons As needed Corrosion control PY5200 or BL 5325 BETZ Inhibitor AZ 7000 gallons As needed Corrosion control 8104 BETZ Spectrus BD Amount varies depending As needed Corrosion control 1500 on biological activity and temperature of makeup water BETZ Flogard MS 9000 gallons As needed Corrosion control 6222 BETZ Polymer 1192 600 gallons As needed Corrosion control Boron 13,000 lbs As needed Reactivity control Detergent and Waxes 300 - 400 gallons Weekly Housekeeping Ethanolamine 7000 gallons Daily Corrosion control Hydrazine 1000 gallons Daily Corrosion control Polyelectrolytes 200 - 300 gallons As needed Water treatment Sodium Carbonate or 200 - 300 lbs As needed pH adjustment Bicarbonate Sodium hypochlorite Amount varies depending 2 to 3 times / Day Biocide (15% solution) on biological activity and temperature of makeup water Sodium hydroxide 1,106,800 lbs As needed pH control and resin (50%)

regeneration Sodium or Potassium 100 - 200 gallons As needed Corrosion control Molybdate Sodium EDTA 100 - 200 gallons As needed Corrosion control Sodium or Potassium 500 lbs As needed Corrosion control I

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Nitrite Sulfuric Acid 815,000 lbs As needed pH control and resin regeneration Potassium 200-400 gallons Daily Iron Control Permanganate 50% Citric Acid 200-400 gallons As needed System Cleaning Carbohydrazide As needed Corrosion Control GEBetz AD-20 200-400 gallons As needed System Cleaning GEBetz AK-110 200 -400 gallons As needed System Cleaning GEBetz Kleen MCT-200- 400 gallons As needed System Cleaning 511 GEBetz Kleen MCT-200-400 gallons As needed System Cleaning 103 GEBetz DCL-32 200-400 gallons Daily Chlorine Removal GEBetz Hypersperse 200-400 gallons Daily Membrane Deposit MDC-700 Control GEBetz Flogard POT 200-400 gallons Daily Corrosion Control 80L Zinc Phosphate GEBetz Spectrus 1300 1440 gallons Daily Non-oxidizing Biocide GEBetz DT 1401 2700 gallons Daily Buffering Agent Potassium Persulfate 100 gallons Daily Analyzer Reagent 0.6 M Phosphoric Acid 100 gallons Daily Analyzer Reagent 0.6M 2

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharae Elimination System Permit Number NC0039586 National Pollutant Discharne Elimination Svstern Per it Number NCO039586 Form 2F - Item I Outfall Locations

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2F - Item 1 Outfall Locations A. Outfall Number B. Latitude C. Longitude D. Receiving Water SW-A 350 38' 25" 780 57' 14" Harris Lake SW-B 350 38' 07" 780 57' 07" Harris Lake SW-001 350 38' 17" 780 57' 03" Harris Lake SW-002 350 38' 09" 780 57' 00" Harris Lake SW-003 350 38' 05" 780 56' 57" Harris Lake SW-004 350 37' 48" 780 56' 50";

Harris Lake SW-005 350 37' 47" 780 57' 11" Harris Lake SW-006 350 37' 37" 780 57' 13" Harris Lake SW-007 350 37' 45" 780 57' 31" HarrisLake SW-008 350 38' 08" 780 57' 36" Harris Lake SW-009 350 38' 08" 780 57' 32" Harris Lake

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2F - Item III Site Drainage Map

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2F - Item IV - A Narrative Description of Pollutant Sources

Progress Energy Carolinas, Inc.

Harris Nuclear Plant and Harris Energy & Environmental Center National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2F - IV.A. Narrative Description of Pollutant Sources Outfall Number Area of Impervious Total Area Drained Surface SW-A 0.27 Acres 5.07 Acres SW-B 1.00 Acres 27.94 Acres SW-001 8.74 66.05 Acres SW-002 2.06 14.08 Acres SW-003 6.58 14.74 Acres SW-004 1.54 33.27 Acres SW-005 9.77 11.53 Acres SW-006 7.45 25.84 Acres SW-007 1.81 45.15 Acres SW-008 0.48 9.55 Acres SW-009 1.24 8.72 Acres

Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 Form 2F - Item IV-B Narrative Description of Pollutant Sources Taken from Harris Nuclear Plant's Storm Water Pollution Prevention Plan

Harrs Nuclear PlantHarrig Energy & Environmnental Cntr NPDES Permit NCOOUW Storm Water Pollution Prevention Plan Materil-Hand i.na and %Ma. Practie Potential sources of pollutants to storm water discharges include material receiving, storage, and handling areas; waste handling storage, and disposal areas; and runoff from inside the Protected Area. Exposure of pollutants to storm water may be a result of material storage or handling practices, or as a result of spills or leaks. Materials identified as being of greatest significance are lubrication oils, fuel oils, transformer fluids, and chemicals. Secondary containments for oil are maintained in accordance with the Spill Prevention. Control and Countermeasure Plan (SPCC Plan).

Material Handlinm Practices The majority of materials received at the HNP are brought to the receiving warehouse and temporarily stored in the warehouse. The majority of the materials are then loaded onto a trailer and transferred to the stores issue warehouse, bulk warehouse, or chemical warehouse insidethe Protected Area. ýBulk quantities of fuel oil are brought into the plant by,:tanker trucks and unloaded in accordanco with the SPCC'Plan. Liquid hydrogen, liquidoxygen, liquid c0lorine, and polymer are brought to the site by tanker trucks and unloaded at the appropriate storage tank.

Material Storame Practices Lubrication Oils and Fuel Oil Major storage locations of fuel o and lubrication oils are monitored and controlled.

Operators perform daily roUtine checks of oil storage and handling areas inside the Protected Area in accordance with approved plant procedures. Routine transfers of oil from delivery trucks, oil leaks and/or-spills are controlled and monitored per the SPCC Plan requirements and implementing plant procedures. Outside storage of oils is contained as per the SPCC Plan.

Solid Waste Handling and S1orage Chemical waste and Used Oil produced inside of the, protected area is initially processed in the chemical processing area west of the paint shop. This area is sheltered fromthe weather and the drains in the area are routed to the Oily Waste Separator for processing.

Used Oil and waste chemical produced outside of the protected area is stored in Warehouse 6 and the Used Oil Storage area located east of the Mobil Equipment Shop. The Used Oil Storage area contains two diked tanks for Used Oil and another diked area for small tanks and drums. Storm water in the diked area is visually inspected before release to the storm water system.

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Harils Nuclear Plantl.arrls Energy & Environmental Center NPOES Permit NC0039586 Storm Wtewr Pollution Prevention Plan The Central Hazardous Waste Storage Area is located undera shelter attached to the Chemical Warehouse. All satellite hazardous waste storage areas are either under shelters or located in plant buildings. Spill containment devices are used for the material stored under shelters and any storm water which falls into the containment usual is allowed to evaporate. Spill control and response is covered by plant procedures.

Open outside storage containersfor wood and metal (steel, copper) recycling are located around the site. The containers are often moved to different work locations.

Storm water drains from the bottom of these containers as it is accumulated.

Other recycled material is collect inside of the plant buildings or in covered storage containers. Examples of recycled material include used batteries, aluminum cans, fluorescent lights and printer toner cartridges.

Two closed trash compactors are utilized for sanitary waste. Roll off containers are utilized for wood and other Industrial waste. Used of these containers is addressed in the HNP Landfill Waste Management Plan. Covers are used for the roll off containers if the material may contaminate storm water.

Landfills The plant operated a landfill until Decembeer 31, 2002. Thedlilswere W

closed and covered by December 31, 2003.

Waste material disposed of in the cells included wood, concrete, ashes, rubber, lunch scraps, plastics, paper, constructions rubble, cellulose materials, metals, oil sorbs, dried epoxy paint and paint wastes such as brushes, rollers, empty cans with less than 1 inch of dry solidified paint and dried paint peeled from empty cans if it is contained in a can, dry solidified industrial greases, waste activated charcoal, and waste ion exchange resinS.

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Progress Energy Carolinas, Inc.

Harris Nuclear Plant National Pollutant Discharge Elimination System Permit Number NC0039586 0 Form 2F - Item IV-C Narrative Description of Pollutant Sources Taken from Harris Nuclear Plant's Storm Water Pollution Prevention Plan

Harris Nuclear Plant/Harris Energy & Environmental Center NPDES Permit NC003965 Storm Water Pollution Prevention Plan Site Map - Outfalls and Drainage Areas Stormwater Outfall No.

Description SW-1 This outfall which dischar gos into the finger of thelake north of the causeway receives input starting,in the plant yard near the diesel fuel oil storage tanks.

It receives water from warehouse roof drains, paved and gravel parking lots, and grassed areas before the: outfalL SW-2 This outfall which discharges into the finger of the lake north of the causeway receives input starting in the plant yard under the plant output transmission lines. It receives input from gravel parking lots and the normal service water pump structure area before the outfall.

SW-3 This outfall which discharges into the finger of the lake north of the causeway receives input from the first few SW-2 inputs as the two are cross tied, the circulating pump intake structure area and paved parking lots before the outfall.

SW-4 This outfall discharges into the main lake. It receives input from the electrical distribution switchyard and the main road along the switchyard. It travels through some open ditches and along a gully before the ouffall.

SW-5 This outfall which discharges into the main intake canal at the emergency service water intake structure receives.input starting near the turbine building and transformer area.. It receives input from plant yard areas both paved and gravel and paved parking lots before the outfall.

SW-6 This outfall: discharges into a retention pond with an inverted siphon discharge which travels along an open ditch, crosses a road and travels along a gully before reaching the main lake. It starts at the northwest area of the plant yard and receives input from plant roof drains Units 3 & 4 pit areas, water treatment building, auxiliary boiler area, gas yard, neutralization and ýsettling basin areas, water treatment tank-area, both gravel, paved and grass plant yard areas, warehouse roof and drain area drains, and vehicle shop area drains before the outfall.

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HSItI Nuclear PlantHarris Energy & Environmental Center NPOES PermIt NCO039M Storm Water Pollution Prevention Plan SW-7 This outfall discharges into the emergency service water intake channel from the auxiliary reservoir. It.receives input from the gas yard, auxiliary boiler fuel oil storage area, settling basin area, and gravel plant yard before entering a ditch that travels to the outfaill.

SW-8&9 These outfalls discharge.into the emergency service water discharge channel to the auxiliary reservoir. Both outfall receive input from plant yard areas that are grassy, SW-A&B These outfalls receive input from nonindustrial areas that are grassy.

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FIGURE, THAT CAN BE VIEWED AT THE RECORD TITLE:

CAROLINA POWER AND LIGHT COMPANY SHEARON HARRIS NUCLEAR POWER PLANT STORM WATER OUTFALL STUDY MARCH 1997 THESE DRAWINGS CAN BE ACCESSED WITHIN THE ADAMS PACKAGE WITHIN THIS PACKAGE...

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