ML20086D651
| ML20086D651 | |
| Person / Time | |
|---|---|
| Site: | Perry  |
| Issue date: | 06/05/1995 |
| From: | Grob B TELEDYNE ISOTOPES MIDWEST LABORATORY |
| To: | |
| Shared Package | |
| ML20085H223 | List: |
| References | |
| NUDOCS 9507100290 | |
| Download: ML20086D651 (25) | |
Text
_ -.
m nynazzme mer uns s e ve 1:ssue 4 r<-= r<*
a~~~"" " e T TELEDYNE ISOTOFES MIDWESTLABORATORY D.R.A.15.EDYNE BROWN ENCmWEKNG mmaamaNm.sEnvc=
".W.asi.?Al Sink =***
m Ms.1mulesBarton LABORA10RY REPORT NO.:
74 PonyNucIsarPtrwerPlant DATE:
10 rennerRoad SAMPLE RECE!VED:
Mad Zone B 240 TYPE OF REPOR'h Peny, OH 44081 PURCHASE ORDER NO.:
Dear Ms. Barton,
i Bekyw am the resuks of the analysis for the goruna andttint 18080 Pes in one (1) Ikydd sample, dw on June 01,1995.
Description SewspWasteWater Lab e
- W-5728 Isotope Ce%n (oC1/L)
Mn 54
<3.8 Pe 89
<7.4 Co 58
<2.5 Co 60
<4.1 Zn45
<5.8 Zr45
<6.6 Nb95
<3J Co 134
<5.1 Co 137 c4.8 Ba-140
<9.0 La 140
<2.6 Ides t% 7% are based on 4.66 Qw counug ermrforthebackground sample.
g ",ir w Jy, MMl i.G y~
BC: led APPROVED BY --
A__
w
" p. Huebner, M. S.
Manager SAMPLES RETAINED THIRTY DAYS AFTER ANALYSIS 9507100290 950615 PDR ADOCK 05000440 R
PDR I
I
l '
g LAKE COUNTY, OHIO INDUSTRIAL WASTEWATER QUESTIONNIRE I.
GENERAL:
A.
Name of Company Cleveland Electric Illum. Comp.- Perry Power Plar3 B.
Mailing Address 1.
Street P.O.
Box 97, 10 Center Road 2.
City and State Perry, Ohio 3.
Zip 44081 4.
County Lake C.
Facility Location Address 1.
Street 10 Center Road 2.
City and State Perry, Ohio 3.
Zip 44081 4.
County Lake D.
Telephone 259-3737 j
E.
Contact Official Name Donna Tizzano Title Environmentalist Phone 280-5514 The information contained in this qu st onnaire is familiar to me and to the best of my knowledge and belief uc information is true, complete and cccurate, q
Data M'
signature of Official 1.
l a i
L_
II.
PLANT OPERATIONS:
A.
Brief description of manufacturing or service activities on premises in decreasing order of bIsiness volume (also please indicate the associated SIC Number):
SIC CODE PROCESS DESCRIPTION PRODUCT
% OF TOTAL PRODUCTIOb 4911 Electric Utility Electricity 100%
(Primary) i (Secon3 rVT B.
Number of Employees 1101 C.
Is this a Batch Operation?
Yes No X
Is this a Continuous Operation?
Yes X
No D.
Operating information:
1.
Hours of Operation:
Continuous Hours per day 24 Days per week 7
Weeks per year 52 2.
Is there a scheduled shutdown?
Yes When?
Once per 8
Months on ave.
3.
Is production seasonal? No If yes, explain, indicating month (s) of peak production.
4.
Length of Shift?
X 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> 10 hours Other 5.
Average number of employees per shift:
965 lst; 90 2nd; 45 3rd.
6.
shift start times:
0730 1st; 1530 2nd; 2330 3rd.
J'
I
'II.
PLANT OPERATIONS:
A.
Brief description of manufacturing or service activities on premises in decreasing order of business volume (also please indicate the associated SIC Number):
SIC CODE PROCESS DESCRIPTION PRODUCT
% OF TOTAL PRODUCTIOb 4911 Electric Utility Electricity 100%
(Primary)
(SeconBariT B.
Number of Employees 1101 C.
Is this a Sytch Operation?
Yes No X
Is this a Continuous Operation?
Yes X
No D.
Operating information:
1.
Hours of Operation:
Continuous Hours per day 24 Days per week 7
Weeks per year 52 2.
Is there a scheduled shutdown?
Yes When?
Once per 8
Months on ave.
3.
Is production seasonal? No If yes, explain, indicating month (s) of peak production.
4.
Length of Shift?
X 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> 10 hours Other 5.
Average number of employees per shift:
965 1st; 90 2nd; 45 3rd.
6.
Shift start times:
0730 1st; 1530 2nd; 2330 3rd.
.) -
..a 7.
Shift normally worked each day: All Sun Mon Tues Wed Thu Fri Sat 1st 2nd 3rd 8.
How indicative of normal production is your current operatior i (i.e., Are you at full production, half production,...)
Currently at 100% power.
Production varies.
E.
Products manufactured or Processed:
(Type and Amount)
Electricity - 1205 MW Capacity F.
Raw materials Used:
(Type and Amount) N/A i
i G.
Chemical Used (Include catalysts, intermediates, etc.): (Type and Ampunt) N/A H.
By-products Produced:
(Type and Amount) N/A i
I.
Are there any future expansions planned?
No i
J.
Is this facility in the process of being sold or being considered for sale?
Yes X
No If "yes", when?
.} -
.i<*
III.
GENERAL WATER / WASTEWATER INFORMATION:
r
.A.
Water Source:
i 1.
(Indicate gallons per month or cubic feet per month) l Source Total Usage Number of Operating Daily Ave.
Days I
City 1,452,541 GPM All 48,418 GTD Wells River I
t Lake Erie -
Other 2,302,358,000 All 76,745,2(7~
i GPM GPD GPM = Gallons Per Month GPD = Gallons Per Day f
i 2.
a.
Does water usage vary greatly during the production 'eari i
{
Yes b.
Does water usage vary during the production week?
f i
No c.
Does water usage vary during the production day?
.i No I
i 3r -If the answer is yes to any of the above three questions,
~
list details.
Note periods of maximum and minimum use.
i Maximum use occurs during refueling outages, manpower increate significantly.
4.
a.
Describe any raw water treatment process in use:
si Chlorination, Flocculation, Filtration, Demineralization.
i b.
Are any water recycling or material reclaiming processes i
utilized?
X Yes No i t If "yes", clease describe.
Filtration, demineralization B.
Estimate amounts of water used in each process below:
F t
!i
t Sanitary (Restrooms, drinking fountains, E
showers, etc.),
48,418 gallons per day Cooling Water
- 85,000,000 gallons per day Boiler Feed 0
gallons per day Process Water 0
gallons per day contained in Product 0
gallons per day Other 0
gallons per day
- = Max. Design Basis TOTAL OF ABOVE:
85,048,418 gallons per day C.
- 1. Does this facility discharge ANY wastewater to the local sanita sewer?
X Yes No t
2.
Does this facility discharge ANY wastewater to the local storn sewer?
Yes X
No D.
Does this facility have a National Pollutant Discharge Eliminaticn System (NPDES) Permit (s)?
X Yes No If "yes", please list permit numbers:
I 3IB00016*DD Exp. Date 5/10/96 Exp. Date If "yes", does the permitted facility discharge any wastewater not cov.ered under the NPDES permit (s)?
X Yes No Sanitary Sewage E.
Does the facility discharge all of its wastewater / liquid wastes to the local sanitary sewer?
j If "no",
describe other disposal methods:
Service Water discharge to Lake Erie via plant discharge.
i i
F.
Is sanitary wastewater discharged separately from process wastewater?
X Yes No G.
Are batch wastes discharged to the sewer?
Yes X
No
.v
4 4
~
44
~
1 If "yes", list. batch discharge frequency, nature of waste, and volume:
Frequency (specify units) N/A volume:N/A Gal. per discharge Nature of batch waste: N/A I
i H.
Is an analysis of the wastewater available?
X Yes No See Quarterly Self Monitering Reports
)
+ Attachment 1.
If "yes", attach a copy of most recent analysis and describe location where sample was taken.
Include date and time of sampling and type of discharge (i.e., total plant dicharge, process waste only, etc.).
Were U.S.' EPA-approved procedures used to collect and analyze the sample?
i X
Yes No Unknown
)
l I.
Is there a manhole or other access for taking a wastewater sampl.
X Yes No J.
List average volume of discharge or water losses to:
Outlet Estimated Average Discharge (Gal / Day a.
Sanitary Sewer 33,000 gallons per day b.
Storm Sewer 0
gallons per day c.
Evaporation
- 21,000,000 gallons per day d.
Open Run or Creek or Surface Water **27628.3 gallons per day e.
Waste Hauler 0
gallons per day f.
Contained in Product 0
gallons per day g.
TOTAL of a thru f 60,628.3 gallons per day
- - Design basis
- - Based on discharges during 1994 K.
Are any process, product, or sanitary wastes being heuled by a j
private waste hauler?
Yes X
No If so, state name of houler, location of dumping site, volume c f waste, and frequenc (i.e., times daily, weekly, monthly).
I'
7h 4
_,. i ' :_. e :
!-i
+
- o
~
'1
.L..
Refer to.the list'below to generally characterize your'wastewatet 1
check-the substances, contained in your wastewater.
j
.i
-acids and acidic wastes phenol-containing war:
i alkali and caustic wastes alcohols
~
i pickling wastes ethers 5
other metal cleaning and aldehydes, ketones preparation wastes i
ih plating wastes organic acids j
i
'electrocoating wastes
' soaps, surfactants_,
and detergents i
paints oils pigments fats, grease f
inks.
benzene and benzene derivativas l
dyes-latex wastes chlorinated organic compounds-resins, monomers i
brominated organic compounds waxes i
organic solvents, thinners radioactive wastes q
hot wa'stes (104 F or higher) ~
flammables X
SANITARY WASTES ONLY inorganic solids (sar.
l gravel,'etc.)
. IV.
SAMPLING i
A.
State location where wastes going to the sanitary sewer can be
{
sampled or measured.
On-site sewage lift station.
i i
t V.
SPILL PREVENTION A.
Is it possible to discharge or spill (i.e.,
floor drains) any of the following to the municipal sewerage system from a storage sit s
or' process area?
.1 :
l, n
4 yr 1.
Toxic pollutants (priority pollutants as indicated in Sectior VI).
-Yes X
No i
2.
Conventional pollutants (BOD, Oil & Grease, etc.) in unusual-i quantity or strength.
Yes X
No 3.
Flammable, explosive, corrosive, low pH, high temperature, etc. solutions and/or materials.
Yes X
No 4.
Materials that can cause obstruction of flow in sewers Yes X
No I
If yes to any of the above, please indicate pollutant.
i B.
Is there a Spill Prevention Control and Countermeasure Plan in effect for any material used in this plant?
X Yes No If yes, please submit a copy.
- See Attachment 2 VI.
PRIORITY POLLUTANT INFORMATION I
A.
In referring to the following table, please note which chemicals are or are not.present in your manufacturing or service facility.
Use-the following to note the presence of the chemicals:
Kg=SubstanceKnownAbsent UK = Unknown SO = Stored Only KP = Subtance Known Present Review the contents of trade name products to aid in determining
[
the presence of these pollutants.
If your industry has any of this substances stored in your facility, even if not used in a process,
.please indicate.
i i
i I
- 47. So bromoform 107. KA PCB-1254(Aroclor 1254)
(tribromomethane) 108. KA PCB-1221(Aroclor 1221)
- 49. So trichlorofluoromethane 110. KA PCB-1248(Aroclor 1248)
- 50. So dichlorodifluoromethane 111. KA PCB-1260(Aroclor 1260)
- 52. KA hexachlorobutadiene 113. So Toxaphene
- 54. So isophorone 115. So Arsenic (Total)
- 55. So naphthalene 116. So Asbestos (Fibrous)
- 56. So nitrobenzene 117. So Beryllium (Total)
- 58. KA 4-nitrophenol.
119. So Chromium (Total)
- 60. KA 4,6-dinitro-o-cresol 121. So Cyanide (Total)
- 61. So N-nitrosodimethylamine 122. So Lead (Total)
- 64. So pentachlorophenol 125. So Selenium (Total)
None of these materials are intro-128. So Zinc (Total) duced into the sanitary waste system.
129. KA 2,3,7,8-tetrachlorodi-l benzo-p-dioxin (TCDD) 1 B.
For the chemical compounds above which are known present, please give the following~information for each:
Item No.
Chemical Compound Annual Usage Estimated Loss to (Lbs.)
Sewer (Lbs/Yr.)
126 Silver Trace Constitutent None Note:
If the above units are not appropriate, list data in other units, but ':
specific.
Use additional paper if necessary.
VII.
PRETREATMENT:
)
i A.
Is this plant subject to an existing Federal Pretreatment Standa1;
)
NO If so, are Pretreatment Standards being met on a consister :
basis?
B.
Is the wastewater or any portion thereof being pretreated before discharge?
If so, state amount and type of pretreatment.
No i
3
r t
C.
Residuals Information 1.
Are any residuals created from the pretreatment processes?
Yes X
No If yes, describe residuals.
2.
Indicate quantity of residuals created (specfify units).
N/A 3.
Describe method of residue disposal.
N/A 4.
Is the residue considered a hazardous waste as defined by the Resource Conservation and Recovery Act (RCRA)?
Yes X
No Undetermined SECTION VIII.
SEWER CONNECTION AND DISCHARGE INFORMATION A.
List facility sewer outlets, size, and flow.
Use additional shet.
l if necessary.
Raf.
Sewer Location of Connection Source of Discharge Ave. Flc.
No.
Size (in) or Discharge Point (GPD) 1 4 Inches East of site to Madison Perry Power Plant 48,418 l
Pump Station l
2 3
B.
Provide a block flow diagram of process water and sanitary waste in your facility.
C.
Provide on an attached sheet, a drawing of the facility showing locations of sewers referred to in A.
above.
Show locations of possible sampling points for sewers, buildings, streets, alleys, and other pertinent physical strutures.
1-
- i 4500 ATTACHMENT 1 4Y REPOfn FORM
... CLEVELAND ELECTRIC ILLUM CO 3IB00016001 MAR 1995 11 OHIO NUCLEAR GROUP 63461 C/O PERRY-NUCLEAR POWER PLANT 10 CENTER ROAD ROOM'E210 001 DISCHARGE FROM REGENERATE
1 1
2 3
[
999 999 999 96 1
e CONDUI PH PH RESIDUE O&G
[
' FLOW (MAX)
(MIN)
T NFLT TOTAL MGD S.U.
S.U.
MG/L MG/L 50050 00401 00402 00530 00550 0.0185 7.1 7.0 19
'AA~
~
~
^^
AH AH
'AH AH AH AH l
0.0162 8.6 8.5 0.0155 7.2 7.1 10 AA AH AH AH AH AH AH AH AH AH 0.0151 8.8 8.7 AH AH AH AH AH AH
~
.AH...
.. AH
_ A H..
._.....__,._...___.y AH AH AH AH AH AH AH AH AH 0.0170 8.0 7.7 63 AA l
'O.0130 7.9 7.8 AH AH - -
AH AH AH AH AH AH AH
~ ~ [..
O.014G 7.9 7.9 22 A A,..
... _ ~ ~ l.
~
AH AH AH AH AH AH AH AH AH AH AH AH 0.0170 7.0 6.9 11 AA AH AH AH l
AH AH AH AH AH AH O.1263 62.5 54.6
,125 AA 0.0158 7.8 7.8 25 AA 0.0185 8.8 8.7 63 AA 0.0130 7.0 6.9 10 AA
. AA - BELOW DLTECTABLE LIMIT (5 mg/l for O&G and 2.5 mg/l for RESIDUE)
AH - SAMPLE NOT TAKEN. NO. DISCHARGE PERFORMED THIS DATE
'."(
necontra 3IB00016001
/
s I., Isc
,' U W....
.N
' M pp H pp m
7,.
,o 4500 L WHLY MI! PORT FORM J
'[ ' CLEVELAND ELECTRIC ILLUM CO 3IB00016800 MAR 1995 11 OHIO NUCLEAR GROUP 63461 L
C/O PERRY NUCLEAR POWER PLANT-10 CENTER ROAD. ROOM E210 800 INTAKE WATER AT INLET TO PLANT NORTH PERRY 44081 LAKE FROM LAKE ERIE CEI, PERRY-J.J. GRIMM 1
999 WATER TEMP F.
00011 01
.32 02 32 03
_...32 04
-. 3 2. _. _,.
os 32 06-32 07 33 os 32 i
10 32 11 32 12 32 13 33 f
14 -
321 i
._I ~ ~ ~ ~
16 34 17 33 18 34 19 35 20.
34 i
21.
35 23 36 24 36 25 37
~
26 37 27 37
!a 38 s
38 to 38 11 38
)
1057 34 38 32 NONE
~
3IB00016800
'.., m c
neoma M lIll
gj'
- WHLY REPORT FORM
,' CLEVELAND ELECTRIC ILLUM CO 3IB00016002 MAR 1995 11 OHIO
-NUCLEAR GROUP 63461 C/O PERRY NUCLEAR POWER PLANT l
10 CENTER ROAD ROOM E210 002 DISCHARGE FROM CHEMICAL CLEANING NORTH PERRY 44081 LAKE LAGOON E PLANT pggy l
CEI, PERRY J.J. GRIMM 1
1 2
3 2
2 2
999 999 96 1
96 96 96 CONDUI PH RESIDUE O&G PHOS-T COPPER IRON FLOW T NFLT TOTAL P-WET CU. TOT FE. TOT MGD S.U.
MG/L MG/L MG/L MG/L MG/L 50050 00400 00530 00550 00665 01042 01045 31 i
32 33 34 t
)5 m
19 '
i0 it
.t 2 3
5 5
.9' o
!1 5
6 7
8 1
9 0
1 4
i t
NO DISCHARGE OCCURRED DURING THE MONTH l
8*
- Tra l
3IB00016002 Y {lth AT
4g WTHLY REPORT PDnts l
CLEVELAND ELECTRIC ILLUM'CO 3IB00016004 MAR 1995 1 1 OHIO J
-NUCLEAR GROUP 63461 C/O PERRY NUCLEAR POWER PLANT 10 CENTER ROAD ROOM E210 004 POINT REP OF DISCHARGE PRIOR TO NORTH PERRY.-44081 LAKE ENTRY TO TUNNEL pgu CEI. PERRY J.J. GRIMM 1-1 3
3 999 999
'l 1
l WATER CONDUI CHLOR PH TEMP FLOW FREE-A F.
MGD MG/L S.U.
00011 50050 50064 00400 01 44 58.3 0.00
' 02 43 70.3 0.00
~
03 43 62.9 0.00 8.2 _.
04 44 77.4 0.00 os 46 70.0 0.00 06 -
47 65.5 0.00 07 51 66.1 0.00 8.3 os 45 72.4 0.00 39 43 70.0 0.00 10 45 72.4 0.00 8.3
?
11 45 80.0 0.00 12 46 72.4 0.00 13 48.
80.0 -O.00 14 i
.48 77.4 0.00_._.
8. 2._ '...
_.l..... _..-__J.-.__.......
15 47 80.0 0.00
'6 46 82.6 0.00 17 45 77.5 0.00 8.3 18 45 75.6 0.00 88 50 67.6 0.00 20 51 6-7. 6 0.00.
i 21 50 78.8 0.00 8.1 22 44 71.6' O.00
. ?3 42 72.3 0.00 t
24 43 70.0 0.00 8.1 5
42 72.0 0.00 5
42 77.9 0.00
!7 45 72.4 0.00 5
48 74.3 0.00 8.2 1
S 47 67.1 0.00 o
50 70.0 0.00 11 43 74.6 0.00 8.2 1418 2247.0 0.00 73.9 46 72.5 0.00
' 8. 2 51 82.6 0.00 8.3 42 58.3 0.00 8.1 i
NONE neonna 3IB00016004 4IaIw VM lllflll0lN!
o
ATTACEMENT 2 PAP-0806 Page:
38 Rev.:
2 Sheet 1 of 9 SPILL PREVENTION CONTROL AND COUNTERMEASURE PLAN (SPCCP) 1.0 Purpose This SPCCP describes the 'conformance of oil storage facilities at the Perry Plant with the guidelines contained in <40CFR, Part 112>.
A list of these facilities and site locations are also provided in Attachments 3, 4 and 6.
2.0 Oil spill History On December 8, 1992 it was discovered that a release of approximately 12.5 gallons per day of turbine lube oil had occurred during the period from 10/92 to 12/8/92. This oil was mixed with plant service water and discharged to Lake Erie. The Turbine Lube Oil Cooler was removed from service and repaired. This event was reported by phone on December 8, 1992 and followed up with a confirmation letter on April 2, 1993.
<L01957>
On April 8, 1993, approximately 35 gallons of oil were discharged through the plant site storm drain system to a small, unnamed stream on the east side of the site. The oil was contained behind a skimmer wall; it did not enter Lake Erie. Clean up activities were completed by April 9, 1993. This event was reported to the OEPA by phone on April 8, 1993 and followed with a confirmation letter on April 12, 1993.
3.0 Facility Drainage Storm water run-off at the Perry Plant site is controlled by final site grading and the plant storm drain system. These features are designed to prevent potential flooding of site facilities and minimize the potential for discharging spilled oil to Lake Erie. The layout of site topography and storm drainage system are provided on drawings <E-736-003 (Final Plant Site Topography)>, <E-743-013 (Plant Storm Drainage)>, <D-743-014 (Site Storm Drainage Plan-North Half)>, and <D-743-015 (Site Storm Drainage Plan-South Half)>.
Storm water run-off is collected in concrete catchment basins from graded yard areas, roof drain, oil interceptors,(except OP64A0001), and, through manually operated drain valves, from dikes surrounding the auxiliary boiler fuel oil storage tank and hazardous waste site. Run-off gravity drains from catch basins through system piping to headwalls which empty into three site streams, and ultimately to Lake Erie. The cat'ch basins and piping are organized into three groups. The east group drains to the minor stream impoundment, the west group drains to the northwest storm i
drain impoundment, and the south group drains to the major stream impoundment. The system is designed for the maximum probable 6 hour6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> precipitation rates. Sediment control dams with metal baffle cover plates at each of the three impoundments would assist in retaining oil and aid clean up efforts, should an oil spill reach these areas.
l
'IC/VAX/Page 9 of 13 i
PAP-0806
~
Page:
39 i
Rev.:
2 Sheet 2 of 9 SPILL PREVDTTION CONTROL AND COUNTERMEASURE PLAN (SPCCP) 4.0 Facility Description 4.1 Meteorological Monitoring A meteorological monitoring system is located on site which provides continuous weather data for the site. Data includes wind speed, wind direction, stability class, temperature, and precipitation. This data can.be accessed in the Control Room.
~
4.2 Facility Layout and Oil / Chemical Storage Locations 1.
A facility layout indicating oil / chemical storage locations at the plant is provided in Perry Plant Facility Layout and Oil / Chemical Storage (Attachment 3 to PAP-0806).
NOTE:
Unit 2 storage tanks are not in use, except those shown on.
Indoor radwaste and oil / chemical storage tank locations are shown in detail in < Pre-Fire Plan Instructions >.
~
A copy of these instructions has been provided to the Perry Twp. Fire Department.
2.
Descriptions of oil storage tanks (located on Attachment 3) are provided in Attachment'd, Perry Plant Oil Storage Tanks.
3.
Descriptions of hazardous / chemical storage tanks (listed in ) are provided in Attachment 5, Perry Plant Hazardous
- Chemical Storage Tanks.
4.
Descriptiona of miscellaneous oil / chemical storage facilities (listed in Attachment 3) are provided in Attachment 6 Perry Plant Miscellaneous Chemical Storage Buildings / Areas.
4.3 Communications Systems l.
In-plant communications between plant employees and the control Room, including the Control Room Shift Supervisor, are maintained by a two-way plant PA (paging) system and by radios. Channel 5 of the PA System is designated for emergency use and is continuously monitored. These systems are also augmented by a site telephone system.
2.
Communications with off-site organizations and authorities are normally conducted using the public telephone system. Descriptions and use of additional communication systems are included in the
< Emergency Plan for the Perry Nuclear Power Plant >.
PAP-0806 Page:
40 2e.: _Rev.:
2 Sheet 3 of 9 SPILL PREVENTION CONTROL AND COUlTTERMEASURE PLAN (SPCCP) 4.4 Emergency Equipment Detailed descriptions of' emergency equipment listed in this section, including inventories and plant locations, are provided in Safety / Fire Instructions, as indicated below.
1.
Fire Equipment Fire protection systems available at the Perry Plant include water, carbon dioxide, and halon suppression systems and a fire and security monitoring system. Hydrants are provided for outdoor areas at the site, and portable fire extinguishers are provided as required. A foam extinguishing system is also located at the auxiliary boiler fuel oil storage tank and loading station.
Additional fire fighting equipment is described in <SFI-0060> and
<SFI-0108>.
2.
Spill Control Equipment Oil / chemical spill kits are maintained at several areas on site, in proximity to oil / chemical storage facilities. Typical contents include dikes, drain covers, clean up equipment, chemical suits, and personnel warning / confinement materials. Refer to <SFI-0106> for more detail regarding spill kits, including location, contents and inspections. <L01957>
1._
Personnel Protective Equipment The Perry Plant maintains a full range cf personnel protective equipment for both routine and emergency chemical handling operations. This includes all types of respiratory protection equipment. Refer to <SFI-0060> and <SFI-0106> for further details.
4.
First-Aid Equipm2nt Locations of first-aid stations and equipment contents are provided l
in <SFI-0050>.
5.
Decontamination Equipment Safety shower / eyewash stations, supplied by potable water, are provided for personnel decontamination. These stations are located near all hazardous chemical storage tanks at the site.
Portable eyewash stations are provided at other chemical storage locations, j
per (SFI-0003>.
'IC/VAX/Page 10 af 13
PAP-0806 Page:
41 Rev.: 2 Sheet 4 of 9 SPILL PREVENTION CONTROL AND COUNTERMEASURE PLAN (SPCCP) 5.0 Auxiliary Boiler Fuel Oil Storage Tank This tank stores No. 2 fuel oil for two auxiliary boilers. The tank is an above ground vertical cone roof storage tank which measures 40 feet high, and has an inside diameter of 46 feet, 6 inches, and a usable volume of 477,687 gallons. The tank is constructed of. carbon steel and is equipped with a vent with flame arrestor, relief manhole and a surface foam fire protection system. The tank is also equipped with pneumatic
~
level instrumentation, a sampling connection, and a water draw off connection. All pressure piping and pipe supports are designed in accordance with < ANSI /ASME-B31.l>.
The tank is surrounded by a six foot high by 150 foot diameter concrete dike for secondary containment. The dike volume is sized to contain the complete volume of the tank plus the volume of a delivery truck, and a one foot free board. Drainage from the dike area and fuel loading area is collected in a sump, 8 feet by 4 feet deep, located in the diked area.
The sump drains through an 8 inch drain line, equipped with a manually operated motorized valve, to a storm drain catch basin. An alarm alerts an operator of high level in the sump. The operator inspects the sump to.
ensure no oil is present prior to opening the valve to drain storm water accumulation. The valve is then manually closed or will automatically close upon low sump level to prevent the valve being left inadvertently open. A status light indicating high level in the sump is provided at the fuel oil unloading stations should spillage occur during unloading operations.
The auxiliary boiler fuel oil storage tank and surrounding dike are periodically inspected for damage, deterioration, and leakage.
6.0 Diesel Generator Fuel Oil Storage Tanks Each diesel generator fuel oil storage tank is of horizontal cylindrical, ~
~
welded steel construction and is buried in the yard immediately west of the diesel generator building. Each tank is equipped with a penetration for electronic type level probe connection. Corrosion protection for the tanks and piping includes providing a corrosion allowance to the tank wall thickness, the external use of bituminous coating, and cathodic protection. The underground piping is coated with coal-tar enamel and double bonded asbestos-felt wraps. All underground fuel lines and lines which extend above grade outside the diesel generator building are <ASME Section III> Class 3, Seismic Category I, and missile protected for the first six inches above grade.
Drainage from fuel oil loading sumps is routed to an oil interceptor tank.
1
PAP-0806 Pace:
42 Rev.: 2 Sheet 5 of 9 SPILL PREVdRION CONTROL AND COUIRERMEASURE PLAN (SPCCP)
Fuel volume in each tank is monitored weekly by sounding or.a tank level gauge. The current volum'e is compared with the previous volume, fuel deliveries and diesel run times, and any discrepancies are investigated.
If any volume losses cannot be accounted for, the tank shall be tested for leaks. Tests of the tanks are also performed when.significant accumulation of water is found in the tank, and as part of a ten year test program. Tank testing includes one of the following methods:
l.
T - Tube Manometer Test 2.
The Heath Petro-Tite Tank and Line Testing System 3.
Hydrostatic Testing 4.
Buoyancy Testing Tanks failing one of these tests shall be examined, repaired, or replaced.
7.0 Diesel Generator Fuel Oil Day Tanks Each diesel generator has a fuel oil day tank mounted vertically in the respective engine room at an elevation that provides the required priming head for the engine fuel pumps. The day tanks are of cylindrical welded steel construction and are equipped with level instrumentation. Any leakage is collected in floor drain sumps and pumped to an oil interceptor tank. Water then gravity drains to a sludge holding tank and then is pumped to an industrial waste lagoon.
8.0 Turbine Lube Oil Storage Tank This tank is located in the east end of the turbine building and serves
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as a reservoir for turbine lube oil. The tank and associated equipment are surrounded by curbs and gratings to prevent any oil from leaving the immediate area. Any oil from an uncontrolled spill would be collected by the building floor drain system and sump; where it could be cleaned up.
Any spillage beyond this point would be routed to the radwaste floor drain oil separator and manually pumped out for disposal.
9.0 Station Transformers Drainage from transformer pads and yard areas is routed to oil interceptor tanks prior to discharge into storm drain catchment basins.
e PAP-0806 Page: 43
>Rev.:
2 Sheet 6 of 9 SPILL PREVEMPION CONTROL AND COUNTERMEASURE PLAN (SPCCP) 1
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10.0 Oil Interceptor Tanks Oil interceptors OP64A0001 thru OP64A0005 are buried concrete coated steel tanks designed to contain the volume of oil associated with equipment served. Oil is separated by gravity and retained, and oil free water is drained by gravity. Each interceptor is provided with a manway to provide access for inspection, cleaning, and oil removal. Oil interceptors are' inspected periodically and after oil spills from the equipment or area served by the interceptor.
11.0 Fire Pump Diesel Fuel Storage Tank The Fire Pump Diesel Fuel Storage Tank is a horizontal 300 gallon steel vessel. The tank equipment includes a fuel level gauge, a tank fill line with flame arrestor, a tank vent with vent relief and flame arrestor, a low level alarm switch, and a high level alarm switch. The tank is located in the Diesel Fire Service Pump Room in the northeast corner of the Emergency Service Water Pumphouse. The floor drain and trenches in this room are routed to a sump, equipped with an oil separator. Water drains from the sump / oil separator to the Emergency Service Water Pumphouse Forebay, while oil is retained in the separator, and is manually removed.
12.0 Fire Training Oil Storage Tank and Facility <L01957>
The fire training oil storage tank is used to supply fuel oil for fire training exercises. The tank is a 4000 gallon, above ground, I
c91indrical, horizontally mounted steel tank. The earthen dike i
surrounding the tank is 25 feet by 28 feet by 2'-6".
A cross section through the dike wall reveals a symmetrical trapezoidal section with a base of 8'-0* and a top of 2'-0* The dike walls are built to enclose an impervious clay liner l'-0* deep. The clay liner and dike walls are built in lifts of 6 to 9 inches and compacted to a minimum density of 92%. The dike and liner are protected from eroision by over toping it with a sandy, silty, clay topsiol planted with a perrenial rye grass.
The dike and liner net capacity is 6866 gallons. Drainage of precipitation is accomplished by opening a 4 inch gate valve on the end of a 4 line that runs through the northwest corner of the structure.
The remainder of the facility includes two concrete burn pads, a 5000 gallon oil separator, and associated piping. All drainage of oil / water resulting from fire training exercises is collected on the burn pads.
A system of containment curbs, steel / concrete trenches, and pad sloping, routes flow to an oil / water separator that is manually pumped out.
Buried fuel supply lines from the fuel tank to the burn pads are coated with a coal tar primer and plastic wrap.
Piping valves are contained in concrete pits.
l TC/VAX/Page 11 of 13
I PAP-0806 a
Page:
44 Rev.:
2 Sheet 7 of 9 SPILL PREVENTION CONTROL AND COURPERMEASURE PLAN (SPCCP)
Based on area grading and topography, storm run-off in the vicinity of the fuel tank would be to the major stream impoundment.
In the vicinity of the burn pads and oil separator runoff drains to the minor stream impoundment. The fuel oil storage tank and oil separator are routinely inspected for damage, deterioration, and leakage.
13.0 Portable Fuel Tanks Several small.above ground fuel storage tanks are maintained to supp.ly company and contractor vehicles. The tanks are routinely inspected far damage, deterioration, and leakage. Spills would be cleaned up manually using equipment appropriate for the size of the spill. Secondary containment is provided for these tanks. These are listed in, Perry Plant Oil Storage Tanks.
14.0 Miscellaneous Oil Storage Buildings / Areas These areas (See Attachment 6) are used to store oil products normally in 55' gallon drums or smaller. Spills in these areas would be manually cleaned up using appropriate equipment.
15.0 Facility Tank Truck Loading / Unloading All loading / unloading procedures meet the minimum rew irements and regulations of the Federal and Ohio Departments of Transportation.
Loading / unloading operations are monitored to prevent premature vehicle departure before completion of the transfer operations. Drains and outlets on tank trucks are checked for leaks prior to departure.
16.0 Inspections / Records
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Inspections and tests required by this plan are documented by written procedures and/or records. Records are maintained for at least three years.
17.0 Security Oil storage facilities at the Perry Plant are either' enclosed with a double security fence or a single security fence. Valves and starter cotitrols for pumps which permit outward flow of oil are located in areas accessible only under supervision by company employees. All oil storage and equipment areas are lighted to deter acts of vandalism and assist personnel in detecting leaks.
. l PAP-0806 Page: 45
.Rev.:
2 Sheet 8 of 9 i
s SPILL PREVElfrION CONTROL AND COUNFEIDEASURE PLAN (SPCCP) 18.0 Spill Prevention Procedures ad Training All plant systems capable of releasing significant quantities of oil are.
. operated in accordance with written system operating instructions.
Plant operators routinely perform equipment rounds, which include checks for oil leaks and spills. Formal corrective and preventive maintenance programs are established to identify and repair equipment deficiencies, and include checks of tank level instrumentation. A formal corrective action program is used to h= ant oil spill events and ensure plant personnel are trained, as_necessary, to oil spill events, the factors which led to the spill, and required corrective actions.
t 19.0 Certification i
I hereby certify that I have examined the facility, and being familiar with the applicable provisions of 40 CFR, Part 112, attest that this J
SPCCP has been prepared in accordance with good engineering practices.
<L01958>
i h s( T. W otra W i
Printed Name of Registered Professional Engineer N.
~Z-l C /W Signature of b gidhered Professional Engineer Date Registration No. M M State Ohio 1
T/VAX/Page 12 of 13
.o o
PAP-0806 Page:
46 1
Rev.: 2 Sheet 9 of 9
, SPILL PREVENTION CONTROL AND COUNTERMEASURE PLAN (SPCCP)
CERTIFICATION OF THE APPLICABILITY OF THE SUBSTANTIAL HARM CRITERIA a
Facility Name:
Perry Nuclear Power Plant Facility Address:
10 Center Road North Perry, OH 44081 1.
Does the facility transfer oil over water to or from vessels and does the facility have a total oil storage capacity greater than or. equal to 42,000 gallons?
Yes No X
2.
Does the facility have a total oil storage capacity greater than or equal to one million gallons and does the facility lack secoudary containment that is sufficiently large to contain the capacity of the largest aboveground oil storage tank plus sufficient freeboard to allow for precipitation within any aboveground oil storage tank area?
Yes No X
3.
Does the facility have a total oil storage capacity greater than or equal to one million gallons and is the facility located at a distance (as calculated using the appropriated formula in Attachment C-III to this appendix or a comparable formula *) such that a discharge from the facility could cause injury to fish and wildlife and sensitive environnants?
Yes No X
4.
Does the facility have a total oil storage capacity greater than or equal to one million gallons and is the facility located at a distance (as calculated using the appropriate formula in Attachment C-III to this appendix or a comparable formula *) such that a discharge from the faci-lity would shut down a public drinking water intake **?
Yes No X
4 5.
Does the facility have a total oil storage capacity greater than or equal to one million gallons and has the facility experienced a reportable oil spill in an amount greater than o'r equal to 10,000 gallons within the last 5 years?
Yes No X
i If a comparable formula is used, documentation of the reliability and analytical soundness of'the alt'ernative formula must be attached to this form.
For the purposes of 40 CFR Part 112, public drinking water intakes are analogous to public water systems as described at 40 CFR 143.2 (c).
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CERTIFICATION I certify under penalty of law that I have personally examined and am familiar with the information submitted in this document, and that based on my inquiry of those individuals responsible for obtaining this information, I believe that the s itted nf rmation is true, accurate, h a b w m and complete.
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- 16. GENE *RATOR*S CERTIFICATION: I hereby dedare that the contents of this scJ.,v...; are fury and accurately described above by proper stappmg name and are dassiteed, poded. marked, and labeled, and are in all respects in proper condten for transport by taghway accordng to applicable intematonal and nabonal govemmental regulatrons.
Il I am a large cNantity generator, I certify that I have a program in place to reduce the volume and bxicity of waste generated to the degree I have determmed to be economically pracacable and that I have selected the practicable method of treatment. storage, or dsposal currentty avaitat# to me wtuch marumazed the present and future threat to human health and the er.J.-.-.;. OR,it i am a smaR quantity generator,I have made a good talth effort to mmimize my waste generaten and select the best waste management method that is avaliable to me and that I can attord Printed /T Nafne
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l18. Transporter 2 Acknowledgementof Receiptof Matenals
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,n ORIGINAL-RETURN TO GENERATOR