Forwards Application for Mod of NPDES Permit CT0003263 for Plant for Addition of New Discharges W/Discharge Serial Numbers DSN-001A-2(a) & DSN-001B-2(b).Fee Paid

ML20247Q562
Person / Time
Site:	Millstone
Issue date:	03/14/1989
From:	Reckert R NORTHEAST UTILITIES, NORTHEAST UTILITIES SERVICE CO.
To:	Kaliszewski R CONNECTICUT, STATE OF
References
D02542, D2542, NUDOCS 8906060463
Download: ML20247Q562 (53)
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NOftTHEAST UTILITIES o.n.r.i Ome.. s mn sir i. senin. Conn.cucut

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a ART OR ONNECTICUT o6141-C270 -

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March 14, 1989

. D02542 Mr. Robert E. Kaliszewski .

Water Compliance Unit-Department of Environmental Protection -

122 Washington Street .

Hartford, CT 06106 .

References:

1. NPDES Permit (C00800), NPDES Permit CT0003263 (EPA ID No.

CTD000345198), Millstone Nuclear Power Station, Northeast Nuclear Energy Company, issued June 5, 1985.

2. Letter (F0358A), R. A. Reckert to Richard Barlow, dated November 15, 1984.

Dear Mr. Kaliszewski:

Millstone Nuclear Power Station Recuest for Modification of NPDES Permit Northeast Utilities Service Company (NUSCO), on behalf of Northeast Nuclear Energy Company (NNECO), pursuant to the Clean Water Act ' and Connecticut General Statutes (C.G.S.) Section 22a-430, as amended by Connecticut Public Act 84-219, hereby submits to the Connecticut Department of Environmental Protection (DEP) an application for addition of two new discharges to NPDES Permit No. CT0003263, Reference 1, for the Millstone Nuclear Power Station.

Discharge Ser,ial No. (DSN) 001A-2(a) comprises a plant process discharge arising from the cleaning of protective clothing during plant outages. A small amount (about 100 gallons per year per unit) of freon-contaminated aqueous waste cont,aining low level radioactive waste will be treated to remove the freon to a concentration of less than one mg/l (ppm) as described in the enclosed report. The level of radioactivity is substantially the same as waste normally processed through USN 001A-2 (Floor Drain Sample Tank) which is the proposed point of discharge. This discharge will be initiated as soon as the treatment apparatus is available and a sufficient quality of wastewater  :

has been accumulated.

DSN 001A-2(b) is a similar waste arising from earlier outages. Misdirection of the freon to a decontamination solution tank, produced 6500 gallons of freon-contaminated radwaste. It is proposed that this wastewater be treated in the NPDES treatment facility requested above and be discharged to DSN 001A-2 in the manner described in the report. This process will begin as soon as the treatment apparatus is available. l 8906060463 890314 ~

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. . 1 Mr. Kaliszewksi D02542/Page 2 March 14, 1989 -

DSN 001A-2 was analyzed prior to the 1984 application for permit renewal, reference 2, and small amounts of ethylbenzene, tetrachloroethane, and 1,1,1-trichloromethane were reported.

In accordance with 'C.G.S. Section 22a-430-6, fees for water pollution control permits, a check in the amount of $700 is enclosed. ,

- Should you have any questions please call Dr. James M. Day, NUSCO Environ-

' mental Programs Department, at (203) 665-4617.

Very truly yours, NORTHEAST UTILITIES SERVICE COMPANY As Agent for Northeast Nuclear Energy Company R. A. Reckert Vice President cc: W. T. Russell, Region I Administrator M. L. Boyle, NRC Project Manager, Millstone Unit No. 1 G. S. Vissing, NRC Project Manager, Millstone Unit No. 2 D. H. Jaffe, NRC Project Manager, Millstone Unit No. 3 W. J. Raymond, Senior Resident Inspector, Millstone Unit Nos. 1, 2, and 3 U.S. Nuclear Regulatory Commission Attention Document Control Desk Washington, DC 20555

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NORTHtAST NUCLEAR ENERGY COMPANY _

DATE VOUCHER NO. AMOUNT MAR 3, 1989 12088-030389 a

$**700.00*

PAY 7

L jTo,HQ STATE OF CONNECTICUT d

DEPARTMENT OF ENVIRONMENTAL PROTECTION -

WATER COMPLIANCh UNIT rui$ MCK uAS A PW@CKGROUND 1 122 WASHINGTON STREET voc Anra s uouruS HARTFORD, CT 06106 II I l?

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.c - ' STATE OF CONNECTICUT. WATER COMPLIANCE UNIT .

l APPLICATION PACKAGE FORM 1 - FACTLITY INFORMATION a

(Agency Use Only) Rev. 2 880526.  :'l Application No.'

DEP/WPC No. -

State Permit No. l 1

SPDES No. l l

RETURN 1 ORIGINAL AND 2 COPIES OF APPLICATION ONLY  ?

NOTE: ONLY ONE COPY OF PLANS AND SPECIFICAT10NS, AND ENGINEERING REPORT 1

ARE REQUIRED UNLESS OTHERWISE INSTRUCTED.

For reissuance or modification of- permits for existing facilities p ease provide the following information- ..

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R DEP/WPC No. 152-003 NPDES No. CT000 326 3 Applicant Name NORTHEAST NUCLEAR ENERGY COMPANY heieby applies for a PERMIT under Section 22a-430 of the Connecticut General Statutes to discharge wastewaters as described herein to (CHOOSE ONE ONLY). .

- . A) the groundwater in the watershed of the in the Town / City of (surface water name), or B) to the sanitary sewer in the Town / City of e or Cftothe tone Is1ana sound (surface water name)in the .

Town / City of Unterford .

The undersigned,in completing this application, makes the following certification:

• ! certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed sd assure that spellfied 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 is,so 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".

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STATE OF CONNECTICUT. WATER COM *

. Please fill in:

Authorized Signatun f [ ,

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. R,A. Reekert, -

Print or Type Name Vice President Title Northeast Utilities Service Co.

mi Representing .

Date of Application

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J[/ [1 Name and Address of Consulting Engineer,if Appropriate Please fill in:

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Name Street _

Town / City State, CT.

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Note: i (1)

Piior to issuance of a tentative determination and permit Regulations of permit fees as described in Sections 22a 43M and 22a of Connecticut State Agencies is required. i (2)

If an applicant or permittee becomes aware i f mationof was a chang submitted as part of an application for a permit,or l i he that or she any suc erroneous, or that any relevant facts were omittedthirty ithin from the ap shat! submit the correct information to the tommisioner in writ days. li t to (3)

L*pon review of this application, the Commissioner 43M (cX24) and of ma submit additional information in accordanc discharge on these forms.

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.- ' $ TATE OF CONNECTICUT WATER COMPLIANCE UNIT ,

APPLICAT10N PACKAGE FORM 1 - FAC1LITY INFORMATION

2. Names. Addresses. Telephone Numbers (Section 224-430 4(cX1)]

LOCNDON ADDRESS NAME' MAT 1ING ADDRESS APPLICANT .

Selden Street Northeast Utilities P.O. Box 270 Service Company Hartford 'CT 06141- Berlin, Connecticut 0270 Attn: R.A. Reckert Vice President Telephone Number 20 3' 66 5-5000 P.O. Box 270 Rope Ferry Road Millstone Nuclear Hartford, CT 06141- Waterfor4 Connecticut Power Station 0270 FACILITY (if different from above)

Telephone Number P.O. Box 270 .

Hartford, CT 06141- Selden Street Northeast' Nuclear 0270 Berlin, Connecticut Energy Company .

Attn: R.A. Reckert Vice President FACILITY OWNER (if different from above) _

Telephone Number P.O. Box 270 Selden Street Northeast Nuclear Energy Hartford, CT 06141- Berlin, Connecticut Company 0270 ,

• Attn: R.A. Reckert Vice President FACILITY OPERATOR Tele;M=e Number S

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• 1f a corporation, the fuO exact name as agistered with 'the Connecticut Secntary of tate.

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,, . f . ,T Page 4 STATE OF CONNECT 3 CUT, WATER COMPLIANCE UNIT * '

APPLICATION PACKAGE FOILM 1 -TACHJTY INFOILMATION .

Operator's status: ,

00 Private ( )Public ( )Other please explain below

( Federal ( ) State Explanation:

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3. Nature of Business or Activity (22a-430-4(cX3)

Provide a brief, general description of the nature of the business or activity and of each existing or proposed activity or process generating a discharge (attach additional pages if necessary).

Generate electricity by steam produced by nuclear fission.

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4. Coastal Area Management and Indian Lands (22a-430-4(cX13) J ls the facility located:

Within the coastal boundary as defined by Section 224-94 of the General Statutes (as delineated on maps contained in the appropriate Town Clerk's Office).  !

• Ya No On Indian 1. ands? (Only in the towns of Colchester. Kent. Ledyard North Stonington and Trumbull, as shown on map in the Town Clerk's office) .

Yes X No i

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STATE OF CONNECTICUT, WATER COMPLIANCE UNIT i APPLICATION PACKAGE FORM 1 u ,

5. Raw Materials, Products Produced, Services Provided (22a-430-4(cK4XA)) -

Required only for NPDES discharges and proces wa'stewater discharges. L*pon review of .

this application,the Commissioner may require this information for other discharges.

Principal raw materials utilized, products produced or services provided must be listed:

a. Principal raw materials:

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b. Products produced:

Electric Power a ,

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c. Services provided: ,

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N/ A 4

d. SIC Codes (224-430-4(cX4XB))

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. a. Texic or Hazardous Substances (22a-430-4(cX4XC))

All toxic substances and hazardous substances anticipated to be us raw matenal or intermediate or final product or by product must be Substances which are toxic or hazardous are found in Appendix

. of Section 22a-430-4 of the Regulations of Connecticut State Agen

, 261 Appendix VIII and 40 CFR Part 116.4(The two CFR lists are j convenience)(Attach additional pages if necessary).

See.BMP for Millstone Nuclear Power Station submitted __

to the DEP on July 30, 1986 (D01240) e 9

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STATE OF CONNECTICUT, WATER COMPLIANCE UNIT Page 8

. APPL.! CATION PACKAGE FORM 1 .

6. Site Plan and Topographic Map (22a-430-4(cX5))

A site jilan arid topographic map (with scale shown including a north meridian arrow) must be included as Attachment el to this application.

The site plan must clearly show.

Please check to verify

' presence on site plan: if not required, write *N/A.*

All buildings x Actual and potential sources of discharge x t

Allintake and discharge locations including all wells where fluids from the facility are or will be injected underground. x For NPDES discharges and process wastewater discharges only, all X fixed treatment, storage or disposal facilitics for toxic or hazardous substancais above or below ground. (See Appendix B and D of Section 22a-430-4 of the Permit Regulations and 40CFR Part 261 Appendiz VIII and 40 CFR Part 116.4) (Upon review of this application.the Commissioner may require that treatment, storage

_,or disposal facilities for additional substances be included on the

' site plan).

Latitude and longitude of each discharge to the nearest 15 seconds N/ A (Only for NPDES permits for discharges from manufacturing,

- commerical, mining and silvicultural operations.

The names of all roads and surface waters.

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APPLICATION PACKAGE FORM 1 The topographic map must: ,

presence on topograpW snap l

Extend at least one mile beyond the property boundaries of the x facility.

Clearly show the location of the facility in nlation to all roads, surface waterssprings and wells. ._

x Include the names of all roads and surface waters.

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-.- .- STATE OF CONNECTICUT. WATER COMPLIANCE UNIT

- APPLICATION PACKAGE FORM,1 ,

7. - On-Site Storage laventory (22a-43N(cX9)) '

For applications for proccus wastewater five dischar as designated on the site plan required by No. 6 of this Form.For conta gallons, esumate the maximum total gallons stored for each of acids, bases, cyanides, organic chemicals and I discharges after reviewing this application.

Maximum Quantity Substance or Category . (including appropriate units)

See BMP for Millstone Nucleir 1over Station submitted to the DEP on July 30, 1986 (D01240) u e

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' STATE OF CONNEC11 CUT. WATER COMPLEANCE UNIT

. APPUCATION PACKAGE FORM 1 Y'

8. Spill Control P..i 8 2a-43McX10)):

,d For applications for proces wastewater discharges,a plan must be included

• 2 to this application which describes all provisions to prevent and aastml spills, leak; other unplanned misanas of all substances included in the investory subunitted ;u

' above. The Commissioner may also seguin such a plan for other sategories of discharge

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upon nyiew of the application.

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9. Wastewaters Not Included in this Application (22a-43McX12))

The type. quantity and method of disposal of all process wastewares which an not included in the ' discharges which are the subject of the application m,ust be listed be including but not limited to screenings, sludges, oils, solvents and other chemicals.

hiethod of Disposal Quantity (Incineration, waste .

(quantity per time period) hauler, recycled, etc.) -

Type '-

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STATE OF CONNEC'!1 CUT. WATER COMPLIANCE UNIT

APPLICATION PACKAGE FORM ' ' ~ ., 1_

10. -

Line Drawing (22a 430-#cX15)) - for discharges from manufactu mining or silvicultural facilities only: i 15clude as Attachment *3 so this appucation a line drawing of t i nscontributing the facility with a water halance showing all separate production howoperat o wastewater to the effluent and treatment units. d between The water b i h this approximate average and maximum flows at inta

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application form for your referenos.

11. Traatmint Facilities (22a-44-4cX16)) d include as Attachment *4 to this appucationl a complete if plans and descripti treatment facilities proposed or provided, including drawings to lsca e or, specifications have already been approved by the C==*ioner, a See Engineering Report, enclosed

12. . Operation and Maintenance (22a-430 #cX171)

Include as Attachment *$ to this appUcation a general descriptio t proposed methods for operation and mainten i d by a manual if deemed appropriate. Documentation must also be included.

• See Engineering Report, enclosed 4

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STATE OF CONNECTICUT, WATER COMPUANCE UNIT Page 13 APPUCA'nON PACKAGE FORM 1 . .

13. Other Approvals and Permits (NPDES PERMITS ONLY)(22a-430-4(cKl8)) >

Provide a list of all permits or construction approvals received or applied for unde of the following programs (check boxes as appropriate and include reference or identification numbers where available):

Construction Permits Approvals Hazardous Waste Management Program CTD000845148 Underground injection Control Program National Pollutant Discharge Elimination system N** CT000 326 3

, Prevention of Signifi@nt Deterioration (PSD) Program under the Cean Air Act.

Nonattamment Pisgram under the Cean Air Act National Emissions Standards for Hazardous Pollutants (NESHAPS) preconstruction approval under the Cean Air Act Ocean Dumping permits under the Manne Protection Research and Sanctuaries Act 2

Dredge or fill permits under section 404 of the dean Water Act State discharge perraits issued under section 22a-430 of ,

the Connecticut General Sututes Other relevant environmental permits, including state permits (explain on next page)

Explanation:

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2 TATE OF CONNECDCUT. WATER COMPIJANCE UNIT PAGE 14 AFF1JCATION PACXAGE FORM 1 i

14. Outstanding Requirements or Compliance Schedules (NPDES On!'y)(22a -4304cX19))

If the applicant is subjset to any requirements or compliance schedules from a Federal, State or local authority for construction, upgrading or operation of wastewater treatment facilities which may affset ,

the discharges described in the application, provide the followag: Not applicable Identification of 2.Brief Description 3fina.1 Compliance Date Requirement af Project A Required B. Projected Not avelicab3e 2

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r STA'!T OF CDNN1lCDCUT. WAT12 COMFMANCE UNIT AFFUCATION PACKAGE FORM 1 PAGE IS

. Addidonal Forms or Information Other fenns and/or information may be required, depending ao the type and/or location of your discharge.

Please nier to Section 22a-43Mc) of the Pennit Regulations for all required information for your facility especially the following types of dwhnges: damestic newage through land tnatment systems (inclutng arptic systems), agricultural activities, lear. hate from a solid waste dupmaj facility, concentnted animal feede.t op-erstions, and concentrated aquatic anunal production facilities. Also, in accordance with 22a-4AMcX22) and 22a-43MeX2), the Cemwoner may requin the submission of other information in addition to that spects: ally required in the regulations. -

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ETATE OF CONNECTICUT. WATER COMPLIANCE UNIT Pase 1

' APPLICATION PACKAGE FORM 2 DISCHARGE INFORMATION -

(Agency Use Only) Rev. 2 880526 m Application No.

s DEP!WPC No.

State Permit No. B NPDES No.

APpucant .%me NORTHEAST NUCLEAR ENERGY COMPANY TownTWp;of Discharge: Waterford The following section is to be completed for each separate discharge. I these forms may be reproduced.

- (Assign numbers consecutively 1.

Discharge Serial No. 00W2(a) for each discharge from 001.002, etc.)

l 220 _ gallons per4dsyJ (event)(22a-4304cX6))

2 Average Daily Flow 0 - gallons per(dsg0 (event)(22a-430-4(cX6))

3 Maximum Daily Flow _

10 _ g,33,,, ,,, gg,yy,g,,,,) .

4. Design Flow '

= July, 1989 -_ (22a-430 4cX2))

5 Daw Discharge Began or Will Begin 0.5

6. Average number of hours per day that dis:harge occurs (32a-4304cX7))

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7. Maximum number of hours per day that discharge occurs (22a 43McX7))

Except for stormwater. leais or spills, if the discharge is batch, in 8

describe the nature of the discharge including duration and frequ

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{Jastewater containing freon is treated by distillation to r freon.

The wastewater is discharged to the Unit 1 Floor Drain Collector _

No more than one or two batches is anticipated _ ,

Tank on a batch basis. h

• during each unit maintenance shutdown, which can be expected no once per year for each unit.

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,M STATE OF CONNECTICUT. WATER COMPLIANCE UNIT Page'2 ii . ' APPLICATION PACKAGE PORM 2 DISCHARGE INFORMATION - GENERAL

9. Description of Activity or Process Producing this Discharge (include SIC Codes). If different types of procanoes contribute to one discharge, each individual proces type shall-be no described. An identification of all types of wastes generated by each type of proces shall be included. For privately owned tutment works (see definitions), this information .

~ shall include the name and location address of all users of the system.

(22a-430 4(cX4) and (6)) ' ./

Wastewater containing freon and other solvents is produced during cleaning.

- of protective clothing during maintenance outages.

A distillation unit .

" sill be used to reclaim and recycle the freon. The aqueous residue will be' tested and discharged to the Unit i Floor Drain Collector tank.

10.

Effluent Guidelines Categories: Production Information (22a-430-4(cX4).(14)

Does an effluent limitation adopted in Section 22a-430-4(1) of the Regulations of

' Connecticut State Agencies by reference to the Clean Water Act apply to this discharge at your facility?

No (Go to 11) x

, Yes (Complete 10.b. and c) _

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STATE OF CONNECTICUT, WATER COMPLIANCE UNIT Page 3 APPLICATION PACKAGE FORM 2 DISCHARGE INFORMA710N - GENERAL .

5. Provide the names of the categories of discharge and evidence and reasons ~why such categories are applicable (22a-430-4(c)(14)).

Category Reasons Category is Applicable

- (Include appropriate citation to Federal and/or .

State Regulations)

c. Are the limitations in the applicable effluent guidelines expressed in terms of production?

Yes (Complete 104.) No (Go to 11) e 4

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STATE OF CONNECTICUT. WATER COMPLIANCE UNIT

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A PPI.1 CAT 10N PACKAGE FORM 2 DISCHARGE INFORMA110N - GENERAL

d. If you answered "Yes" to' Item - 10.c. list the quantity which represents an actual e

measurement of your maximum level of production for existing discharges, and the projected production for new discharges. Express the production in the terms and units used in the applicable effluent limitation. (22a-4304(cX4XA)) -

Applicable Effluent Quandty per Units of Operation, Product, Guideline Category Day Measure Matedal, Etc.

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- C APPLICATION PACKAGE FORM .

2 DISCHARGE INFORMATION - GENERA 1.

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11. For process wastewater discharges only, describe completely the types of resource conservation practices for this discharge, including the provisions for complying with Section 22a-4M 3(o) of the Regulations of Connocucut State Agencies

((22a-4M 4(cX11)). .

i All f reon recovered from the distillation unit will be reusable in the cleaning process.

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STATE OF CONNECTICUT. WATER COMPLIANCE UNIT Page 1'

' APPLICATION PACKAGE FORM 2 DISCHARGE INFORMATION . GENERAL (Agency Use Only) Rev. 2 880526 Applicatan No.

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- DEP!WPC No. '

I State Permit No.

NPDES No.

APPlicant Name: NORTHEAST NUCLEAR ENERGY COMPANY Town'h of Discharge' Waterford

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The following section is to be completed for sach separate discharge. If more fonns are needed these forms may be reproduced.

001A-2(b) .- (Amign numbers consecutively

1. Discharge Serial No.

for each discharge from 001.002, etc.)

Average Daily Flow 6500 gallons per(deMy4 (event) (22a-430-4(cX6))

2.

Maximum Daily Flow 7,000 gallons p";^ ' c)(22a-430-4(cX6))

3.

4. Design Flow 150 ga!!ons per lessXstinute)

July 1, 1989 (22a-430-4cX2)) -

5. Date Discharge Began or Will Begin

6. Average number of boun per day that disch'arge occus (22a-43McX7))

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7. Maaimum number of hours per day that discharge occun (22a 430-(cX7))

8. Escept for stormwater, Isaks or spdis, if the discharge is batch, intermittent, or seasonal describe the nature of the discharge including duration and frequencyI22a-430-4(cX8)).

' 6500 gallons of water will be treated in the NPDES distillation unit and ar. cumulated in the Unit 1 Floor Drain Collector Tank for testing prior to a one-time batch discharge which will take less than one hour. No other floor-drain vaste will be added to this liquid.

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.i APPLICATION PACKAGE FORM 2 DISCHARGE DEFORMATION GENERAL

9. Description of Activity or Process Producing this Discharge (laclude SIC Codes). If different types of processes contribute to one discharge, each individual process type shall be so described. An identification of all types of wastes generated by each type of proces stall be included. For privately owned treatment works (see definitions), this information .

shall include the name and location address of all users of the system.

(22a-4.Da(cX4) and (6))

'i'he enclosed Engineering Report describes the origin .nf this vastewater as arising from cleaning of contaminated clothinn during a maintenance ht' age. Similar vastes will be treated and discharned via Discharge Serial No. 001A-2(a) as thev are generated.

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10. Effluent Guidelines Categories: Production Inforznation (22a 430-4(cX4)/14)

a. Does an effluent limitation adopted in Section 22a-430-4(1) of the Regulations of Connecticut State Agencies by reference to the Clean Water Act apply to this discharge at your facility?

Yes (Complete 10.b. and c) No (Go to !!) .

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STATE OF CONNECTICUT. WATER COMPLIANCE UNIT Page 3 APPLICATION PACKAGE FORM 2 DISCHARGE INFORMATION - GENERAL

b. Provide the names of the categories of discharge and evidence and reasons why such categories are applicable (22a-430-4(c)(14)).

Category Reasons Category is Applicable (include appropriate citation to Federal and/or State Regulations)

c. Are the limitations in the applicable effluent guidelines expressed in terms of production?

No (Go to 11)

Yes (Complete 104.)

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APPLICATION PACKAGE FORM 2 DISCHARGE INFORMATION - GENERAL

d. If you answered "Yes" to Item - 10.c. list the quantity which represents an actual l measurement of your maximum level of production for existing discharges, and the f l

projected production for new discharges. Express the production in the terms and units used in the applicable effluent limitation. (22a-430-4(cX4XA))

Applicable Effluent Quantity per Units of Operation, Product, l Material. Etc.

Guideline Category Day Measure

= 0 m_

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STATE OF CONNECT 1 CUT. WATER COMPLIANCE UNIT APPLICATION PACKAGE FORM 2 DISCHARGE INFORMATION - GENERAL Pase 5 -

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11. For process wastewater discharges caly, describe completely the types of resource -

conservation practices for this discharge, including the provisions for complying with Section 22a-4D3(o) of the Regulations of Connecticut ' State Agencies j j

((22a-430 4(cX11)). '

J This will be a one-time discharge. All freon recovered from the distillation unit will be reused.

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_______________-___.m____._m. _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . - . _ . _

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Enclosure:

. Engineering Report (Letter No. D02542)

FRIDI GBfmMINNFED MMmBETER AT MILLSTGE

'As requested by Mr. George Dews of the Hazardous Waste Unit and Mr. Bob Kaliszewski of the Water compliance Unit, this report addresses the-o contamination of an NPDES permitted tank by Freon from an on-site laundry facility. . Included in the report is how the tank became contaminated -

with Freon; what action has been taken to prevent reoccurrence; and the proposed system for treating the contaminated tank water and any aqueous Freon waste generated in the future.

Introduction As Millstone is a nuclear power station, it is necessary, at times, for employees and contractors to work in areas of the plant that are contami-nated by radioactive particles. As part of Millstone's Radiation Worker Protection Program, personnel working in such areas are required to wear protective clothing (PCs). We function of the PC is to prevent radi-onctive contamination of the worker. Generally, PCs consist of a heavy cottbn jump suit, hood, gloves and rubber boots. -

During times of high work activities, such as during a refueling outage, Mi11 stone's supply of clean PCs is quickly depleted. Werefore, Millstone will increase its laundering capacity by temporarily contracting an on-site dry cleaning facility. A dry cleaning operation is preferred because there is little waste generated (the vast majority of the Freon is rec & aimed) and the dry cleaning process is much faster than -

conventional aqueous detergent washing.

Cine drawback to using a dry cleaning operation is the chance that the Freon used in the system will, quite by accident, find a way into a plant system. W e Nuclear Industry, as a whole, is very conscious of the hazards created by permitting a halogenated solvent to come on-site.

Accordingly, many stations, including Millstone, have created solvent control procedures.

Contamination of Decon Solution Tank he addition of the Freon solution to one of Millstone's NPDES permitted tanks (Unit One Decon Solution Tank) was done by a technician without supervisory approval. An explanation of why the technician thought he could add the Freon to the tank follows:

rigure one is a line diagram of the dry cleaning process. Se source of the Freon that contaminated the decon solution tank was the " water" from the Freon-water separator. %e Freon-water separator is to, by design, separate reclaimed Freon from condensed water. However, the dry cleaning Page 1

w~ ;. -

facility operator has verified to station personnel that the'particular system used during the contamination period would sometimes~ malfunction and would not completely separate the Freon from the water. Se system mal-function also caused a carryover of some oil into the Freon water separa-tor. Subsequently, what was thought to be only water from the Freon dry-cleaning facility was actually Freon, water, and some oil. Se end result of this mistaken identity was that approximately six 55 gallon drums containing a mixture of Freon and oily _ water were added to the decon solution tank. It is realized that even if the drums contained only water, they should not have been added to a NPDES permitted system. .

Sometime after the addition of the Freon, the tank was sampled for routine discharge. W e chemistry technician that took the sample noticed an ab-normal sample appearance (the re-circulation of the tank prior to sampling had. caused a Freon emulsion to form) and detected the odor of Freon. .

Chemistry supervision, after being informed of the technician's discovery, ordere'd the tank secured from discharge. We tank solution was then pumped into portable tanks. It was necessary to repeat this process as some Freon remained in the tank after the first transfer. A total of about 6500 gallons of Freon contaminated wastewater was pumped into five portable ,

tanks.

Actions Taken to Prevent Recurrence Immediately following the discovery of the Freon contaminated tank, all radwaste technicians were verbally instructed not to add any material to discharge tanks. Presently, Millstone's radwaste group is writing an intra-departmental memorandum, with a document acknowledgment sheet, that will provide written instruction for the disposition of water from the dry .

cleaning system.

Also, the Freon laundering system used during the contamination period has been replaced by a newer system that provides a much better separation between Freon and water. Finally, Northeast Utilities has developed a .

process that will be used to further treat the water to recover any residual Freon. Ultimately, we hope to purify the water from the dry cleaning process to the point where it will be suitable for environmental discharge.

Wastewater Description .

Two categories of Freon contaminated wastewater (hereinafter referred to as

" wastewater") are to be treated in the proposed processing system:

1. Wastewater produced by the Millstone laundry facility during refueling outages (about 100 gallons / year). No visible oil exists in this wastewater.

Page 2

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2. Wastewater produced by the introduction of Freon into the decon solution tank as described above (one time event involving about 6500 gallons). An analysis of wastewater from each of the five tanks ,

is presented in Table 1. hese tanks contain small anounts of oil.

From a treatment perspective, these categories are essentially the same: ,

water containing (at most) the solubility limited concentration (200 ppm) I of Freon. 1,1,1, trichloromethane and tetrachloroethane are present in dry-cleaning grade Freon. A description of the treatment method may be .

found in the next section.

Since small quantities of Freon contaminated wastewater will be produced  ;

at each maintenance outage, permission is requested to treat and dispose I of this normal plant waste stream in the manner described below. Reduc-tion of Freon concentration below 1 ppm and simultaneous reduction of concentrations of 1,1,1-trichloromethane and tetrachloroethane are anticipated.

h e 6500 gallon batch of wastewater has a total quantity of about 4.3 Kg of oil and grease. h e oil is predominantly contained in tanks 3, 4, and

5. The contents of these tanks will be processed through oil adsorbant polypropylene filters in order to-remove- free oil from the wastewater.

his is expected to significantly reduce the concentration of oil in the processed wastewater. No free oil will be present in futu n processed wastewater.

Treatment Process he preposed treatment (shown schematically in rigure 2)' uses decanta- -

tion, filtration and distillation to decrease the wastewater Freon

• concentrations to less than 1 ppm. Less than 0.02 kg of Freon 113 will be released to the environment as a result of the one-time processing of the 6500 gallon batch of wastewater currently stored at Millstone.

Wastewater from outage-related laundry activities (category 1) will be stored in a portable tank until a sufficient volume exists to begin processing. he following process description pertains specifically to the 6500 gallon batch of wastewater currently on-site (category 2).

However, the treatment methodology may be applied similarly to category 1 wastewater.

o Recantation Because the Freon has a very low solubility in water (< 200 ppm) and a density greater than water (1.6 g/cc), a layer of relatively pure Freon has settled on the bottom of each tank. his Freon layer also contains some oil and grease, which has been pulled out of the bulk 1 liquid solution by the Freon.

Page 3

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L he bulk liquid, predominantly water, may be pumped out of the j tanks without disturbing the bottom Freon layer. his can be accomplished by first taking a core sagle of each tank in order to -

identify the height of the bottom Freon layer. When pumping down the tanks for processing, the pug suction will be taken a few inches'above the water-Freon interface.

Recantation of the five tanks will not be a one-step procedure which .,

is completed prior to distillation. Rather, it will be performed periodically during the entire time of processing. his is because the proposed batch distillation unit will have a limited capacity.

We decantant will, therefore, be removed from one tank and process-ed in batches until the liquid drops to the predefined level. Once -

the tank has been emptied, the procedure may be. repeated on the next tank.

It is estimated that approximately 200-400 gallons of bottoms will remain after decanting all five tanks. Se bottoms from all five tanks will be transferred to one tank where further phase separation will occur. Se recantation process may b'e repeated in order to further reduce the volume of bottoms. Once concentrated, the Freon may be reused in the laundry facility.

o Filtration he wastewater will be pumped out of the tanks through.~ flexible tubing at a rate of about 10 gpm. A cartridge filter will be placed upstream of the pump. mis will prevent an undesirable solids ,

buildup on the heat transfer surfaces of the distillation unit.and minimize the suspended solids content of the wastewater to be dis-charged. Wastewater from tanks 3, 4, and 5 will also be processed through oil adsorbent polypropylene bag filters to reduce the free oil concentration. ,

All spent filters will be sampled for Freon contamination. If clean, they will be sent to the Barnwell low level waste disposal site for burial. Otherwise, they will be indefinitely stored as mixed waste.

Since Freon is not present in the bulk liquid of Tank 1, it will be .

filtered and pumped directly to a test tank for sampling and dis-charge. Wastewater in the four remaining tanks will be distilled prior to discharge.

Page 4

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o' Distillation .

Se wastewater will be treated.in a batch Freon recovery still..

h is batch still.will be electrically heated and the temperature of ,

the still contents will be monitored. Vapor leaving the still will be condensed in an attached condenser cooled by a closed l refrigeration unit. '

Se wastewater in the still will be maintained near 140'F. 21s temperature has been selected because Freon boils at 120'F, and sample of wastewater heated to 140'r in the Millstone Chemistry.

laboratory showed a rapid decrease in Freon concentration from 200 ppm to 0.2 ppm.

Se heating time necessary to achieve the desired effluent quality will be determined in the field during processing of the first batch of wastewater. A sample of the distillation unit liquid contents will be taken once the liquid reaches 140'F. Additional samples will be taken after 10, 20, 40, and 80 minutes of heating. Rese

-samples will be sent out for analysis, the results of which may be used to construct a graph similar to that of Figure 3. For example, in the hypothetical case shown in Figure 3, the desired Freon con-centration of 1 ppa is attained after 20 to 40 minutes of heating.

One could reasonably expect that if all of the remaining batches of wastewater were heated at 140*F for 40 minutes, a treated wastewater Freon concentration of 1 ppn would not be exceeded. mis test could be repeated or modified if, for any reason, it were necessary.

At 140'F, water vapor will also evolve from the heated wastewater

• inside the still. It will be condensed along with the Freon. ,

We water vapor generation rate is expected to be small. Since this treatment is intended to separate the Freon and water, the amount of water evaporated in the still should be kept at a miniana. Because the total quantity of evaporated water depends upon the heating time, the heating time should be no longer than that necessary to reach the desired process end-point.

We condensed distillate (Freon and water) will be collected in 55-gallon drums. It is estimated that only one or two drums will be necessary to store the condensed distillate from all five tanks. '

We condensed distillate will contain a total of less than about 1 gallon of Freon considering the wastewater initially only contains about 1 gallon of Freon. If several drums of condensed distillate are produced, they may also be decanted and distilled to help fur-ther concentrate the Freon. Once concentrated, the Freon may be reused in the Millstone laundry facility.

Page 5 l

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se Each batch.of treated wastewater will be pumped from the distilla-tion unit to a portable holding tank with a 1500 gallon11on capacity. Mill-Once full, the portable tank will be pumped to a 9000 dedicated to stone 1 Floor Drain Collector Tank which will will be be solel ,

storing this liquid (no other plant inputs to this tAfter all of the was permitted).

transferred to the Floor Drain Collector Tank, it will be sampled to assure compliance with the modified NPDES permit, pumped to the Millstone 1 Floor Drain Sample Tank and finally discharged to the Unit 1 circulating water. 'If the wastewater fails to meet the permit requirements, it can be transferred back to the distillation ,

I unit (via portable holding tank) for reprocessing.

summary ,

he proposed treatment is versatile enough so that all process endNo liquid w products can be sampled and reprocessed, if necessary. Bis released without sampling and no gaseous emissions will occur.

treatment process is believed to be a practical and effective means of coping with an extremely troublesome type of wastewater.

, RAD 4:51 .

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Page 6

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, -i Table 1 .

Oil &

1,1,1 Trichloromethane Tetrachloroethane Grease -

Tank # rreon 113 0.250 N.D. 6.2 1 N.D. \

19.0 4.0 30.0 24.0 2

7.0 Trace 250.0 3 12.0 .

7.0 Trace 160.0 4 17.0 4.0 7.0 666.0 5 60.0 . ..

Results for organics are in ppe, results for oil and grease are in ag/L (approximate ppn) g 9

e RAD 4:51 ,

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l Page 7

Propcsed NPDES-Pcrmittod Wastewatzr Trcatment Systom ,

UNER Water with D

< 200 PPM Froon j

% /

1. RECANTATION Froon

• • "*** > Reuse or Storage i f Spent Filters

2. FILTRATION FILTER & SolidRadwaste Disposal ,,

Freon Vapor II with some water r ,

BATCH 1'

DISTILLATION

3. DISTILLATION UNIT CONDENSER L J Liquid Froon Water with and Water

• < 1 PPM Freon V .

Reuse orStorage 1 P oR Repeat Steps 13 MP1

- again as scessay FLOOR DRAIN .

COliKOTONTANK 1 f-MP1 FLOOR DRAIN SAMPLETANK

4. DISCHARGE Discharge under modified NPDESpermit Figure 2

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ACP 6.09A Page 1 cf 14' l T R;v. 1. Attachment'8.1 ,

SPILL PREVENTION CONTROL & COUNTERMEASURE PLAN (SPCC) -

Millstone Nuclear Power Station

~

Rope Ferry Road

. Waterford, Connecticut

• This plan describes the procedure adopt'ed to prevent the discharge of oil into thi navigable water of the United States, as required by 40 CFR

• Part 112, Environmental Protection Agency, Oil Pollution Prevention, Non transportation related onshore and offshore facilities.

Originally prepared: January 1974 ,

Latest review: August 1988 l 1

L.

1~

ACP 6.09A Page 2 of 14 l".

Rev. 1. Attachment 8.1

• p -

GENERAL The Millstone Nuclear Power Station contains three operating units. ' Unit 1 is a General Electric Boiling Water Reactor of 682 MWe capacity. Unit 2 is a Combustion Engineering Pressurized Water Reactor of 850 MWe capacity. Unit 3 is a Westinghouse Pressurized Water Reactor of 1150 MWe-capacity.

The Station, situated on approximately 500 acres of land, was first' placed in operation in late 1970. The site is located in the town of

- Waterford, Connecticut, on the north shore of Long Island Sound and on the east side of Niantic Bay. A site plan is attached.

Outside. oil tank storage is predominately underground. Underground storage tanks are listed on Table 1. Additional oil is contained .

outside in tanks and equipment. Outside above ground oil Storage tanks are listed in Table 2.'

This plih was originally prepared by: Mr. Ralph Brisco The latest revision was made by: J. Richard Robertson,

• Station Environmental Coordinator The person responsible for oil spill prevention and control is: .

Station Superintendent - Millstone

s. ,

7,. . . . .

ACP 6.09A .Page 3 of 14l

, , Rev. 1- Attachment 8.1: -

L . A. - Previous Spill Events I This facility has not experienced an oil spill into navigable water I

in the twelve month period prior to the effective'date of-the .

regulations. .The last spill event into navigable water occurred on

! 9/30/87, when approximately 0.5 gallon of lubricating oil was released to a' discharge sump. Corrective action was taken to prevent reoccurrence of similar spills'and information has been submitted to the regional Environmental Protection Agency (EPA) -

Administrator on this and previous spill events. The oil spills to -

the environment that have occurred have involved relatively small t amounts and all were effectively cleaned up by company and outside

~

vendor personnel. .

B. Potential for Equipment Failure Experience at this facility does not indicate a reasonable potential for equipment failure that could result in quantities;of oil released to navigable water that could not be easily controlled and- ,

contained.'

s .

C. Spill Prevention and Containment

1. Transformers are located on concrete retention barriers large enough to' hold the entire oil contents plus ten percent of the transformers.

2. Underground tanks and transformer oil tanks are filled by truck. Liquid levels in these tanks are always measured before .

filling.

3. Sorbent materials are kept onsite in sufficient quantity.to control any spillage.

4. Any spills that scy be experienced would be responded to by implementing Northeast Nuclear Energy Company's Emergency Spill )

Response procedures.

l'

ACP 6.09A Page 4 of 14 Rev. 1 Attachment 8.1-e'

.c

5. Oil spill kit locations are shown on Attachment 8.1.

The standard oil spill kit contai'ns diking materials and j sorbent materials, for use in containing and soaking up spills.

6. An oil containment boom has been permanently installed at the discharge of the primary station yard drain. The boom would be removed only for its own maintenance or prior to extreme storm

[ conditions.

7. Station Environmental Laboratory (NUEL) resources are available in the event of oil spills to navigable water. This includes ,

use of boats, deployment booms, and oil absorbent materials for  !

~

rapid containment and cleanup of spills. i

8. Outside vendors are also available for assistance during major.

spill cleanups. .

D. Conformance with Applicable Guidelines

1. Facility Drainage SitePian(Attached) 1.1 Inplant Drainage Plant floor drain systems in areas where there are

potential sources of oil leakage are collected in oil ,

separating sumps. Samples of the sump contents are monitored and visually inspected to determine the presence of oil.

1.2 Yard Drainage Yard drainage is collected in catch basins. In order for oil to reach these yard drain basins, there would have .

been equipment failure, (transformer /switchgear) which in '

most cases would have alarmed in the control room or otherwise be under surveillance of an attendent. Yard drainage gradients are shown on Figure 1.

. x ..

ACP 6.09A P:ge 5 cf 14 Rev. 1 Attachment 8.1 *

2. Oil Storace .

2.1 Underground oil storage _ tanks are listed in Table 1.  !

2.1.1 Each tank is precision tested on a schedule that at a minimum is in' compliance with Connecticut regulatory requirements.' In addition the tanks are visually inspected, when possible, from inside the tanks whenever-tank cleaning.is necessary.

2.1.2 Tank level' indications *

(a) Unit 1, 2 and 3 tank level readings are taken daily by the operating shift

- personnel and recorded for surveillance purposes. - .

(b) Level devices are checked on a scheduled frequency.

2. 2 Outside above ground oil storage tanks (> 500 gallons) are listed in Table 2.

2.2.1- Oil Drum Storage locations are provided in -

areas where durm rupture or leakage would not result in spills to navigable waters.

2.2.2 The fuel oil truck storage location is provided in an area where truck leakage would not produce an oil release to the environment.

2.3 Oil Storage tanks (> 500 gallons) inside plant buildings j are listed in Table 3.  !

'l 2.3.1 Smaller quantities of oil are located in plant

~

systems and equipment at various inside {

building locations. Drainage in these j, locations would past through an oil separator.

r -

r

. J. . . . . c ACP 6.09A Page 6 cf 14 Q.

R v.1 Attachment 8.1 ,

, :*[. .

_ f.

2.4 Underground oil / water separators.

.I l . 2. 4. I' Where floor drains are located in non-radiological

oil storage areas, oil separators are provided in the discharge pathway to the environment.

2.4.2 011 levels in separators are checked on scheduled planned maintenance intervals.

2.5 Floor drains in radiological areas are processed through the radioactive waste system. Minimum processing is filtration into a sample tank from which a laboratory sample is taken for analysis prior to a discharge permit a being prepared. Any oil present in the samples-is readily detectable. 'The presence of oil in a sample requires that the liquid be reprocessed.

• l

2. 6 Visible oil leaks from joints, valves, etc., are promptly

. repaired.,

3. Facility Transfer Operations 3.1 Buried piping has a Bituminou's coating.

Cathodic protection is utilized where practical. Buried pipe will be inspected whenever a section of the pipe is ex' posed. Examinations and repair will be initiated as

required. ~

3.2 Pipelines removed from service will be drained and isolated using blank flanges.

3.3 All above ground valves and pipelines are inspected periodically for preventive maintenance and observed daily  :

by the operators during rounds.  !

3.4 Vehicular traffic is limited on site for security reasons l i

Signs are provided to warn on site drivers of the location i of sensitive above ground piping. l-i 9

___m_____.-___.-_.__m___- _____ _-

ACP 6.09A P ge'7 of 14 R;v. 1 - -Attachment 8.1 .

+%

^

4. Facility for Tank' Truck Unloading 4.1 ' unloading procedures require that plant personnel be present to ensure that the oil is delivered to the correct tank and that there is sufficient space.in the tank'to ,

receive the shipment. Plant personnel monitor the unloading and have absorbent m,aterials availaole to them in the event of a small spill. Communications are maintsined verbally and through use of local telephone.

4.2 Procedures require that the fill pipe be locked The immediately after hose disconnect from the truck.

truck anloading station is located within an electrically operated gate and the truck cannot leave without

" permission from the security officer on duty. .

E. Insnection and Records Written procedures are provided where required. Results of.all inspect.ons will be recorded on appropriate data sheets and filed for reference. .

F. Sicurity

1. The facility is located witnin a fenced and monitored site.

Gates are locked shut and under the control of the security force.

2. The starter control of all oil pumps is under the control of the operating personnel.

Control

! 3. The loading connections are secured when not in use. "

of these connections is with the operating personnel.

4. Adequate li,ghting is provided for seerity and operating reasons.

4.1 Operating personnel observe the vacility at least once por shift.

' The entire facility is monitored continuously by security 4.2 patrol.

L-j' - - - - - - - - -

ACP 6.09A Page 8 of 14

[. Rev. 1 Attachment 8.1 ,

G. Spill Prevention Procedures and Personnel Training '

1. 011 Spill Response Procedures are part of the overall -

Millstone Emergency Plan. Emergency Plan Implementation ,

Procedure (EPIP) 4503, Hazardo,'s Waste, Toxic Substances,

!! and Oil Spill Incident Contingency Plan specifies the

~

response procedure. EPIP 4112, Incident communciations, l

k describes notification requirements for oil spills.

2. Personnel Training is provided via written procedure review, DJT Training and General Employee Training.

Training records are retained in the Nuclear Training Department.

e .

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1 -

'". - 'ACP.6.09A Page 9 of 14-Rev. 1 Attachment 8.1 . .

l*

l Oil Spill Clean-Up Service - List of Contractors 1

East Coast Environmental Services, Inc. - (203) 469~2376 454 Quinnipiac Avenue New Maven, CT 06503 ,

m Hitchcock Oil Pollution Systems (203) 334-4812 40 California Street .

' Bridgeport, CT

. New England Pollution Control, Inc. (203) 777-0339 7 Edgewater Place .

East Norwalk, CT 06855 Sealand Environmental Services, Inc.

(203) 735-1817 326_ Derby Avenue Derby,lII06418 ,

9 4

4 I'

.a t77:

.;. ' ACP 6.09A Page 10 of 14 Rev. l' Attachment 8.1 ,

j [r

-r TABLE 1 .

. UNDERGROUND OIL STORAGE TANKS CATHODIC BITUMASTIC TANK PROTECTION COATING .NA CAPACITY /EACH UNIT.1 House Heating 011 Tanks [X] [X] 4 25,000 gal.

Jet Fuel Tank [X] [X] 2 25,000 gal. "

Emergency Diesel Tank [X] [X] 1 25,000 gal.

UNIT 2 Diesel Fuel Tank [X] [X] 1 25,000 gal.

Maint. House Heating Oil Tank [] [X] 1 1,000 gal. ,

UNIT 3 House Heating 011 Tank [X] [X] 2 25,000 gal.

Diesel Oil Tanks (Vaulted) [] [] 2 37,500 gal.

~

SERVICfTANKS House Heating 011 [] [X] 1 8,000 gal.

House Heating 011 Bldg. 512 [] [] 1 1,000 gal.

House Heating (Simulator) [] [] 1 4,000 gal. , l Waste Oil Tank [] [] 1 3,000 gal.

Gasoline [] [] 1 4,000 gal.

House Heating 011 Bldg. 511 {] [] 1 500 gal.

EOF Ofesel Tank [] [X] 1 1,000 gal.

_ - _ _ , . _ _ _ - _ _ . _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ _ _ . . _ _ _ - ___.__._.-_-_._m _ . , _ . _ _ . . . _ _ _ _ - . _ _ ._ . _ _ _ . . _ _ _ . . - . _ _ . _ _ _ . _ _ _ . _ _ _ . _ _ _ . _ _ _ _ _ . _ . _ . _ _ _ _ _ _ _

1

~ .

g .. ae . .

! . c. ACP 6.09A Pag) 11 of 14 l

Rev. 1 Attachment 8.1 -

l ..

1.

TABLE 2

.ABOVE GROUNO OUTSIDE OIL STORAGE TANKS > 500 GAL SECONDARY

. TANK CONTAINMENT g CAPACITY /EACH UNIT 1 Main Electrical Transformer Underground 1 22,500 gal.

Dike Norm Sta. Serv. Transformer Underground 1 .

4,425 gal.

Dike Aux. Transformer Underground 1 11,000 gal.

. Dike Emerg. Sta. Serv. Transformer Underground 1 1,540 gal.

Dike UNIT 2 Main Electrical Transformer Underground 1 17,470 gal.

Dike Norm,Sta Serv Transformer Underground 1 16,172 gal.

Dike' Reserve Sta Serv Transformer Underground 1 4,800 gal.

Dike

. UNIT 3 Main Electrical Transformer Underground 2 6,500 gal. each Dike Norm Sta Serv. Transformer Underground 2 3,353 gal. each Dike Reserve Sta Serv. Transformer Underground 2 3,290 gal. each Dike MISC. .

Diesel Fuel Oil Supply Truck Crushed Stone 1 2,000 gal.

Spare Main Elec Transformer

• Crushed Stone 1 15,120 gal.

Spare Reserve Sta Serv Trans. Crushed Stone 1 14,000 gal.

. "Temporily stored in Unit 1 Switchyard in preparation for change out.

~

h________.____

.C ,

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ACP 6.09A Page 12 of 14 ,

Rev. 1- Attachment 8.1 ,

i e

TABLE-3 OIL STORAGE TANKS (> 500 GALLONS) LOCATED INSIDE PLANT BUILDINGS ,

NAME NO. CAPACITY (GAL.)

~

UNIT 1 Gas Turbine Lube 011- 1 730 Main Turb Lube Oil Reservoir 1' 7,100 Dirty tube Oil Tank ~1 7,200 Clean Lube Oil Tank 1 7,200' .

Bowser Filter Operating Level 1- 953 Unit 1 Diesel Day Tank 1 1,610

. UNIT 2 ,

Main Turb Lube Oil Reservoir 1 20,000 Main Turb Lube Oil Reservoir 1 6,400-Clean Lube Oil Tank 1 7,000-Dirty Lube Oil Tank 1 :7,000 S/G PMP Lube Oil Tank 2 1,020 Diesel Fuel Oil Day Tank 2 13,600 .

EHC System Reservoir 1 800  !

UNIT 3 Turb Lube Oil Reservoir 1 7,000 Turb 011 Conditioner Tank 1 1,000 Turb Waste Oil Sump 1 1,000 Turb Clean Oil Tank 1 12,000 -

Turb Dirty 011 Tank 1 12,000

• EHC System Resevoir 1 800 ,

)

. '- e.

, {

ACP 6.09A Page 13 of 14 Rev. 1 Attachment 8.1 ' l i

• )

1 FIGURE 1 j i

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MILLSTONE SITE PLAN Drainage Gradient 1/12/88 a 011 Spill Kits O l 1

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.. ACP 6.09A Page 14 cf 14

• 1. Rev. 1 Attachment 8.1 ,

p.

.('

CERTIFICATION L- .

c I Re: Millstone Nuclear Power Station {

I hereby certify that in accordance with 40 CFR Section 112.3(d), I have examined the facility named above, that I am familiar with the provisions of 40 CFR Part 112, and that this plan has been prepared in accordance

. with good engineering practices.

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