ML20081G360
| ML20081G360 | |
| Person / Time | |
|---|---|
| Site: | Susquehanna  |
| Issue date: | 10/14/1983 |
| From: | Hagan D, Keiser H, Shank K PENNSYLVANIA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML17139B944 | List: |
| References | |
| PROC-831014-01, NUDOCS 8311070012 | |
| Download: ML20081G360 (121) | |
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3 U11!r( 1 3 Efeective Date a0/44/83 Page 1 of 3
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TABLE OF CONTENTS EMERGENCY PLAN IMPLEliENTATION PROCEDURE ;1ANUAL EFFECTIVE ISEd_UUbSEE
__________IIILE_________________________
SEVI2IQU DoIE IF 001 E.ne r g e nc y Classi fica t ion i
6/23/02 EP-IP-002 Emergent;y Management Not i f icat ion 2
?/15/03 EP-IP-003 Emergency Management Responsibilities 0
6/16/32 EF-IP-006 Search / Rescue /First Aid 0
6/16/32 EP-IP-007 ParsonneL Assembly and Accountability 2
7/17/33 EP-IP-008 Na t ura L Occurrences 0
6/16/32 EP-IP-009 Emergency Of f-Si te Dose Ca lcula t i ons 2
10/14/83 ER-IP-010 In-Plant Emergency Monitoring 0
6/16/82 EP-IP-011 Security Contingency 0
6/i4/82 EP-IP-012 On-site Emergency Monitoring 1
i/4/83 EP-IP-013 Off-sito Emergency Monitoring Teams 2
9/0J/83 EP -IP-Oi 4 Personnel and Vehicle Containment i
2/22/83 Surveys EP-IP-015 Emergency Access 0*
6/16/32 EP-IP-Oi6 Damage Control 0
6/16/32 EP-IP-Oi?
Toxic Material 0
6/16/82 EF-IP-OiG Emergency Call-in and Communications 1
8/31/83 EF -IP-019 Management of Off-site Emergency i
9/08/33 Moniforing i
EP-IP-021 Sito Emergency Evacuation 2
3/18/33 EP-IP-027 Activation of Restoration Organization G
6/16/82 8311070012 831031 h
PDR ADOCK 05000387 F
Revision 23 Ef fect ive Ds te iG/i4/83 Page 2 c7 3-
-EF~ECTIVE
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EP-IP-028 Downg r,ade a nd Terminarion
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o/16/92 EP-IP-029 Ac t i va t ion a f TSC 0
6/16/8?
EP-IP-030 Activation and Functional Operation 2
?/05/83 of Eraergency Facility and Transfer of Control F r ota the Technical Support Center EP-IP-03i F ui) L i c fnformation E.aerg ncy 0
o/ i 6 /'32 Procedures EP-IP-032 Genera l O f fice - Ac t iva t ion 0
6/16/82 EP-IP-033 Dose Assesstaent and Protective Actions 0
a/23/G2 EP-IP-034 Reactor DuiLding Sampte Station i
3/i0/83
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Emergency Sariip L i ng EP-IP-035 Emergency Vent Monitor Saraptiog i
6/23/G3 EP-IP-038 Reconstruction and Accident Close out 0
6/16/82 E
IP-041 Fire Eraergencies i
2/28/83 EP-IP-042 Cherai stry Lab Eraergency Preparation 1
3/10/G3 EP-IP-043 Pass Sma l L Vo L urae L i tu i d Saiap te 2
9/05/93 EP-IP-044 Emergency Environmentai Sampting 2
4/i3/53 EP-IP-045 Pass 10-ML Gas Sampte 2
6/14/33 EP-IP-046 Pass Iodine /Particuaite Sample 2
6/14/83 EP-IP-047 Pass Large Lituid/ Dissolved 2
6/14/33 Gas Sample EP-IP-040 Estimation of Core Damage During an O
7/17/82 Emergency EP-IP-101 Inventory, Inspection, Operational Testing i
10/i4/83 and Calibration of Emergency Etuipment and Supplies EP-IP-iO2 SurveiILance Testing of Ernergency 1
10/14/G3 Communications Etuipment
Aevision 2"5 Date 10/i4/33 E f r e c +,
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EP-IP-103 Review, Update, Controt, and 0
4/03/33 Distribution of the SJEJ Eiaergency Planed and Einp leraen t i ng Procedures
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levision iG 9 y E f i 9C ;i 'lQ D.! ! 9 i U[l O/ S I
. l77 q g. t, Q,',[U Paw i cf 3 FORh2 INDEX EMERGENCY PLAN inPLEiiENTATION PF OCEDUPE MANUAL Effect.
Enoceduce do.
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EP-IP-002-1 Incident Far ra 1
1/20/03 EP-IP-002--2 Rad i o log i c a l Assessment Form 2
?/13/G3 EP-IP-007-1 Data Sheet 2 I V: 4 "33 Worksheet for Dose Calculation Recording EP-IP-009-2 Overlay Calculation Worksheet i
10/14/33 EP-IP-009-3 Popula t ion Dose Worksheet 0
10/14/G3
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EP-IP-004-4 Back Calculation Warksheet 0
10/14/33 EP-IP-Oi2-i On-site Monitoring T e a r,i' Data Sheet i
1/4/33 EP-IP-013-1 Off-site Monitoring Teara Data Sheets 2
DELETED EP-IP-013-2 Ernergency Kit Inventory Kit 0
DELETED dP-IP-013-3 Air Sampte Dat'a sheet 0
9/08/83 EP-IP-013-4 Radiation Survey and SRD Data 0
9/08/33 EP-IP-013-5 Rad i a t i on Einergency Offsite 0
7/08/G3 Monitaring Equipment Kit EP-IP-017-i O f f-s i te Eraergency Teams 0
6/16/02 EP-IP-019-2 Off-site Teams - Dose Readings 0
6/16/02 EP-IP-034-1 Reactor Du i ld i ng Sample Station 0
6/16/G2 Emergency Sampling Data Sheet EP-IP-035-1 Vent Monitor
a rnp le s D a t a Sheet 0
6/16/82 l
l EP-IP-035-2 Vent Monitor Sampies Data Sheet 0
6/i6/S2 EP-IP-043-1 Pass Sma L L Volume Liquid Samp le 1
5/iG/83 Data Sheet EP-IP-044-1 Data Sheet O
6/16/32 l
EP-IP-044-3 Personnel Exposure of Environmental 0
1/21/83 l
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_La r2 EP-IP-045-1 Pass 10ML ' Gas Sample 0
6/io/92 Data Sheet EP-IP-046-1 Pass Iod i ne/ Par t i c u la t e 0
6/16/32 Sampte Data Sheet EP-IP-017-i Dissotved G'as Sampte Data Sheet di4/33 EP-EP-101-1 Ernergency Operations Facility Eq u i p icien t 0 7,.6/32 (excLudiog HP etuipmen()
EP-IP-101-2 Radiation Emergency Environmental i
10/14/83 Saupte Kit EP-IP-101-3 General 0ffice Nuclear Emergency 0
7/i6/32 Support Center Emergencx Equipment and Suppi
.s i
EP-IP-101-4 General Office Engineering Support 0
7/is/82 Center Eraergency Equipment and Supp lies
~F-IP-101-5 Berwick Hospital Radiation Emergency v
</16/32 Equipment and Supp lies EP-IP-101-6 Geisinger Med ica l Center Rad ia t ion 0
7/16/82 Einer g e nc y Equipment snd Supplies EP-IP-101-7 Health Physics Van Radiation 0
7/16/32 Emergency MonitaringIEquipaent EP-IP-101-8 Radiation Emergency Off-Site 1
10/14/33 Monitorins Etuip<nent Kii EP-IP-iO1-9 Amb u lance Ernergency Equipment Kit G
7/16/82 EP-IP-101-10 Control Rooto Equipment 0
7/16/82 EP-IP-101-1i Station Decontamination Area Equipment 0
7/16/32 EP-IP-101-12 Emergency operation Facility i
10/14/83 Decontamination Area and Hea L th Physics Supplies EP-IP-101-13 Technical Support Center Equipment 0
7/16/32 EP-IP-101-14 Emergency On-Site Search and 0
7/16/32 Rescue First Aid Equipment
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EP-IP-101-15 Damage Control Etuipment Storage Box G
~16/32 EP-IP-102-1 Emergency Operations Faciiity HotLines 0
i/20/33 to State and Local Agen<.ies EP-IP-102-2 Esnergency. Operations Facitity HotLines O
/20/83 to Regulatory Cown i ss i on EP -I P-1 ')2-3 Emergency Oper.3 t i ons F a c i t ; i t ',, o F L i.w c 0
.9/23 to PP&L Emergency Facilities EP-IP-iO2-4 Control Room and Technical Support 0
1/20/93 Center HotLines to State and Local Agencies EP-IP-102-5 Control Room and Tec h n i t.;a L Suppor1 0
DELETED Center Hotlines to the Nuclear Regulatory Commission EP-IP-102-6 Operations Support Center, Control 0
i/20/83 Rooin and Technical Support Center HotLines ta PP&L Emergency FaciLit;es EP-IP-iO2-7 Emergency Radios 0
1/20/33 EP-IP-102-8 Offsite Agency Emergency Contact List 0
1/20/33 EP-IP-103-1 EP-IP Change Retuest 0
4/29/83 1
PROCEDURE COVER SHEET PENNSYLVANIA POWER & LIGHT C0.
SUSQUEHANNA STEAM ELECTRIC STATION EP-IP-009 EMERGENCY OFF-SITE DOSE CALCULATIONS Revision 2 Pcge 1 of 64 Effective Date r _tu_73 Expi rati on. Date ( Mas-Revised Expiration Date 1
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Prepared by M /A/n>
Date 3 12 83
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Reviewed.cy Date9/3/73
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PORC, Review Requpr d A'e No ( )
Approved by
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Data 9 IL Esb fJ157r-tre'ad Q
PORC. Meeting'Humber P 3 - tl/
Date 7
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/cyc-D Superintendent of Pla~nt l
FORM AD-QA-101-1, Rev. 1 Page 1 of 1
EP-IP-009 Revision 2 Page 2 of 64 TABLE OF CONTENTS SECTION PAGE 1.0 PURPOSE 4
2.0 SCOPE 4
3.0 REFERENCES
4 4.0 DEFINITIONS 4
5.0 RESPONSIBILITIES 6
6.0 INSTRUCTIONS 7
ATTACHMENTS ATTACHMENT PAGE A
Computer / Keyboard Terminology for DOSE and RADDOSE Programs 8
8 Instructions for DOSE Program 11 C
Instructions for RADDOSE Program 21 Table C-1 Distance to EPB and OSCAR 34 Monitoring Locations Table C-2 UTM Coordinate Points of Interest 35 for RADDOSE Calculations 0
Instructions for Overlays 38 Table 0-1 Stability Class Determination 43 Table 0-2 Overlay Selection 44 i
Table D-3 Wind Speed Correction Factors 45 Table D-4 Whole Body Dose Correction Factor 46 Table 0-5 Thyroid Dose Correction Factor 47 E
Ovarlay Calculation Worksheet 48
EP-IP-009 Revision 2 Page 3 of 64
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ATTACHMENT PAGE F
Instructions for Manual Calculations 49 G
Instructions for Determination of Total 52 Population Dose Figure G-1 Distribution of'EPZ Population-54 H
Population Dose Worksheet 55 I
I Instructions for Obtaining Meteorological Data 56 Figure I-1 MET DATA (E-PLAN DISPLAY) 58 J
Instructions for Obtaining Gaseous Effluent 59 Release Rates K
Offsite Dose Calculation Worksheet (Data Sheet 2) 61 L
Backcalculation Worksheet 62 M
Release Rate Trending Graph 63
EP-IP-009 Revision 2 Page 4 of 64 EMERGENCY OFF-SITE DOSE CALCULATIONS f
1.0 PURPOSE This procedure provides the instructions for calculating whole body and thyroid radiation doses to the public during an emergency and for determining the noble gas and iodine releases using off-site monitoring measurements.
2.0 SCOPE Instructions are provided for the DOSE Program, RAD 00SE Program and the overlay-based manual calc 91ations.
3.0 REFERENCES
3.1 NUREG 0654, Planning Standards and Evaluation Criteria for Emergency Preparedness, Nuclear Regulatory Commission 3.2 SSES Emergency Plan 1
3.3 Emergency Off-site Dose Calculation User's Manual, Dames and Moore 3.4 RADDOSE Technical Specifications 3.5 HMM Population Update for SSES Emergency Planning Zone 4.0 DEFINITIONS I
4.1 CAM - Constant Air Monitor - used to denote SPING vent monitors in RADDOSE (see SPING).
4.2 Centerline - An imaginary line parallel to the wind direction bisecting the plume. At a given distance, the centerline dose is the maximum dose.
4.3 CRT - The Cathode Ray Tube serving as the DOSE and RADDOSE display screens.
4.4 Cursor - A small blinking white box on the CRT screen defining the location where the next character will be entered.
4.5 EOF - Emergency Operations Facility 4.6 EPB - Emergency Planning Boundary - corresponds to PP&L legal site boundary with,the exception of sectors bordering on Route 11.
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EP-IP-009 Revision 2 Page 5 of 64 4.7 EPZ - Emergency Planning Zone 4.8 Execute - The point at which the RADDOSE program will interpret what has been entered.
4.9 Field - The location on the CRT screen where data inputs are accapted.
4.10 Integrated Dose - The total' dose (mrem). delivered, from the inception.
of the release to the present time.
4.11 Metering Point - The UTM coordinate location where the field measurements were performed.
4.12 Met Tower Scan Source - Indicates the tower and scan height of the meterological input data.
4.13 Point Distance - A specific location for a dose calculation designated by its UTM coordinates.
4.14 Population Dose - The total dose (man-rem) which a population would receive if exposed to a specified dose rate for a specified period of time. It is calculated by multiplying the integrated dose (rem) for a specific location by the number of individuals (man) residing at that location.
4.15 Projected Dose - The total dose (mrem) which is expected to be delivered from the time the release started to some future time.
4.16 Sigma Theta (IO) - The standard deviation of the horizontal wind direction used to determine atmospheric stability.
4.17 Site Boundary Monitoring Team Location predesignated location in each sector where plant health physics personnel will perform boundary monitoring.
4.18 Source Term - The release of radioactive substances from SSES and identified in terms of noble gases, iodines and particulates.
4.19 SPING - Particulate, Iodine and Noble Gas monitor on the Susquehanna release vents which monitors releases of radioactive material.
4.20 Stability Class - Often referred to as Pasquill stability class, it is l
a measure of the dispersive characteristics of the atmosphere and l
denoted as (from least stable to most stable) A, B, C, D, E, F and G l
for SSES meterology.
(Limited to C, D, E and G for overlays.)
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1 EP-IP-009 Revision 2 Page 6 of 64 4.21 Starting Point - The sector centerline distance (miles) which'is input by the operator along with an " increment" and " endpoint" in order to effect dose calculations at multiple distances without specifically entering all distances.
4.22 Temperature Differential (AT) - The difference in Celcius temperature
( C) between 60m and 10m elevations on the prima.ry meterological tower.
4.23 TSC - Technical Support Center
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4.24 UTM Coordinate - Universal Transverse Mercator - One of a set of numbers used in specifying the location of a specific point obtained from USGS 10 mile EPZ map.
5.0 RESP 0NSIBILITIES 5.1 The EMERGENCY DIRECTOR has the responsibility to estimate doses to the population using the methods in this procedure and the monitoring data obtained from the actions specified in EP-IP-013, OFF-SITE EMERGENCY MONITORING TEAMS.
5.2 Thei RADIATION PROTECTION COORDINATOR shall assume the responsibility to estimate doses to the population from the EMERGENCY DIRECTOR when the Technical Support Center (TSC) assumes control of the emergency.
5.3 The EOF SUPPORT MANAGER shall assume responsibility for estimating does to the public from the RAOIAT70N PROTECTION C00RDINATOR untti relieved by the' RADIATION SUPPORT MANAGER when the EOF assumes control of offsite radiological functions.
5.4 The RADIATION SUPPORT MANA3ER shall assume the responsibility for estimating doses to the public from the RADIATION PROTECTION COORDINATOR or the EOF SUPPORT MANAGER as appropriate.
5.5 The DOSE CALCULATORS are responsible for performing dose calculations <
at the direction of their responsible manager or coordinator in accordance with guidance given in this procedure.
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EP-IP-009 Revision 2 Page 7 of 64 6.0 INSTRUCTIONS
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6.1 All persons performing 0FF-SITE EMERGENCY 00SE CALCULATIONS should select the specific method according to the following table:
Priority Method
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1 DOSE 2
RADDOSE
'(
3 Overlays
,, 6.2 The overlay method should not be used to calculate doses at distances less than 1.5 miles from SSES, nor greater than 10 miles.
6.3 RA000SE will only perform calculation for distances between 0.34 and 10 miles.
6.4 All persons performing dose calculations shall document the calculations on OFFSI.TE DOSE CALCULATION WORKSHEET-(Attachment K, Page
- 61) or the BACKCALCULATION WORKSHEET (Attachment L, Page 62).
6.5 All persons performing off-site dose calculations are responsible for updating'the Release Rate Trending board for Iodine and Noble Gas and listing the total curies released in the upper right-hand corner of each graph, (Attachment M, Page 63-64).
6.6 All persons performing off-site dose calculations are responsible for determining the total population dose (man-rem) as a result of the accident during the recovery phase or at the termination.
6.7 Dose calculators shall place appropriate Noble Gas overlay on SSES Emergency Planning Map to provide visualization of the plume dispersion. Place overlay with the plume isopleth origin over SSES on the intersectina of the sector dividing lines. Orient the red arrow as instructed ad the overlay.
6.8 Dose calculators shall provide the dose calculation worksheet for attachmen't to the Assessment Form (Form EP-IP-002-2) every 30 minutes.
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- 6>. 9 Integrated doses'shall be calculated on a sector by sector basis with the DOSE CALCULATOR maintaining previous affected sectors' integrated dose history. Projected doses shall only be calculated for the current affected sector.
Integrated doses for the current affected sector only shall be used to calculate projected doses.
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Attachme'nt A EP-IF-009 Revision 2 Page 8 of 64 4
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A.1.0 Computer / Keyboard Terminology for the 003E and RADDOSE Programs.
I' A.1.1 COMMON a.
All calculations responses are denoted with ". Do not type the quotes, b.
All computer displays or outputs are denoted with'.
c.
Characters enclosed in angle brackets <
>, state that the key containing these letters is to be pressed. Do not type the word contained in the brackets.
d.
Either set of number keys on the keyboard may be used to enter numerical data, e.
To correct typographical errors press the arrow keys < * > or < + > to get to the unwanted character and erase (using space bar) or write over. This only works before data has been stored (either by pressing < RETURN > or < SHIFT > and
< EXEC).
f.
Numbers in scientific notation should be entered using a Keyboard "E" in the following format "5E-6" or "5E5".
g.
Letter "0" may not be substituted for number zero on number Keypad.
A.1.2 DOSE PROGRAM a.
All input from the operator is to be terminated by pressing the < RETURN > key, b.
Invalid entries will result in the repetition of the original prompt message.
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c.
To use the printer off line to advance the paper press the SEL button (SEL light should go out).
L.F. button will advance paper line by line. and T.O.F. will advance paper to the top of the form.
Knob on right of printer will manually advance the printer.
d.
To allow inputs to be corrected after
< RETURN > has been entered without returning to the beginning, at the end of various sequence of input data, the program will ask 'IS EVERYTHING CORRECT?
Y or N' Type a "Y" (Yes) response and program will continue. After a "Y" is entered no changes to that data can be made without exiting the program and beginning again. Type a "N" (No) response and program will return to first prompt in that data input sequence. Note all data in that sequence will need to be 4
reentered.
e.
DOSE will not accept numbers greater than 1E35.
f.
DOSE program must be run with < CAPS > Key in the locked position.
A.1.3 RADDOSE PROGRAM a.
Data is input on a complete page basis by simultaneously depressing the < SHIFT > and 1
< EXEC) keys.
b.
All upper black keyboard control keys must be simultaneously pressed with the 1
< SHIFT > key for function execution, i
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c.
The calculators input will always appear in white when initially entered.
If all data entries are valid, the data will change from white.to yellow after the
< SHIFT > and < EXEC) keys.are pressed.
Allow several seconds for data to be accepted prior to attempting other inputs.
If the entries are invalid or the request cannot be completed, the data will change from white to red and an error will be displayed at the bottom of the screen.
If screen is changed prior to data changing yellow, data will not be stored.
d.
To clear all white data or repair damage to the set green screen displays use the
<RESTR> key with the < SHIFT > key.
e.
To clear screen entirely and get out of program press < SHIFT > and < CANCEL >
simultaneously.
f.
RADDOSE will not accept numbers less than IE-9.
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Attachment B EP-IP-009 Revision 2 Page 11 of 64 l
INSTRUCTIONS FOR DOSE B.1.0 PROGRAM DESCRIPTION The DOSE program provides for estimation of the whole body immersion and the iodine inhalation off-sita doses due to. release of radioactive material from Susquehanna SES. DOSE requires manual 1.nput by the calcuator of the meteorological conditions and the radioactive release rates.
The program uses a straight line Gaussian model for estimating the transport and diffusion characteristics of the plume. The program accounts for applicable terrain correction factors and wet disposition corrections due to precipitation. DOSE uses appropriate isotope mix based on type of accident with decay corrections for time since reactor shutdown, as applicable, and for plume transit time.
The DOSE pragram can provide estimated whole body and thyroid dose rates for off-centerline points and dose rates, integrated doses and projectt2d doses for predesignated population centers. DOSE will also provide a running total of releases and an estimated plume arrival time. There is no distance restrictions in DOSE for dose calculations.
DOSE calculates projected doses allowing for varying projected time interval s.
In the event that a source term is unavailable or to verify release rates, actual field measurements of whole body dose rates or iodine concentrations may be used in the DOSE program to predict or verify the release source term. Using this information, the dose rates at other locations may be calculated.
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B.2.0 DOSE SYSTEM START UP B.2.1 Insert disk in Drive 1, prior to turning the system on, with the oval cutout away from the dose calculator with label facing up.
Red light on the drive should light for approximately 30-60 seconds.
NOTE: USE DISK MARKED CONTROLLED".
B.2.2 Ensure main power cord is plugged into wall socket and switch power strip box to on.
B.2.3 PRINTER Turn rocker switch of the left side to the "on" or "1" position.
SEL and POWER green lights should be lit.
If SEL light is not on, press the SEL button.
B.2.4 KEYBOARD and DISK DRIVE - Turn key all the way in the clockwise direction.
B.2.5 CRT - Rocker switch in the front in the "0N" position.
B.3.0 INITIALIZING PROGRAM B.3.1 Program should automatically be displayed on screen.
B.3.2 Verify heading ' DOSE Rev. O, Date 9/16/83'.
If heading differs, select another disk.
B.3.3 Initial Display will indicate type of calculation options.
a.
' FORWARD CALCULATION' - using release rates calculates dose rates, integrated and projected doses for the EPB, 2, 5, and 10 miles and population centers.
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b.
'BACK CALCULATION' - using field data measurements calculates the estimated release rates.
'0FE CENTERLINE CA'LCULATICN' - using c.
release rates calculates dose rates for off-centerline points.
d.
'END CALCULATIONS' - takes you out of the DOSE program and should only be typed when all dose calculations are complete -
not at the end of each calculation.
1.
Typing "RUN < RETURN >" will return you to the DOSE program anytime the program is exited.
Exit the program during"< inputs or 2.
calculations by typing CONTROL >
and C" simultaneously followed by
"< RETURN >".
B.4.0 Type appropriate number of option desired and "< RETURN >"
to the 'PPOCEDURE' prompt.
B.5.0 FORWARD CALCULATIONS B.5.1 To provide cumulative integrated releases, integrated doses and projected doses the system must be initialized to previous data, a.
Input total Iodine 131 and Noble Gas Micro-Curies released to this point.
Enter zeros if this is the first calculations or obtain information from previous calculation sheets, k
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Attachment B EP-IP-009 Revision 2 Page 14 of 64 Check (
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b.
Input previous integrated doses to the population centers.
Enter zeros if this is the first calculation or obtain information from previous calculation sheets.
c.
Input previous integrated doses to the pre-established distances (EPB, 2, 5 and 10 miles).
Enter zeros if this the first calculation or obtain information from the previous calculation sheets.
NOTE:
PROGRAM WILL AUTOMATICALLY DETERMINE DISTANCE TO APPLICABLE EPB BASED ON WIND DIRECTION VERIFICATION MAY BE DONE USING TABLE C-1, Page 34.
ALL ABOVE DATA MUST BE RE-ENTERED ONLY IF PROGRAM IS EXITED OTHERWISE PROGRAM WILL AUTOMATICALLY UPDATE THIS INFORMATION WITH SUBSEQUENT CALCULATIONS.
B.S.2 Type appropriate number of accident type to
'THE TYPE OF ACCIDENT IS' prompt. This will allow the program to determine correct isotopic mix of the release and subsequent decay corrections.
a.
Accident type information should be obtained from the Technical Group.
b.
If no information is available, use accident type 6 which is the default l
computer design basis accident mix.
B.5.3 Enter current meteorological cor.ditions.
Refer to Attachment I, Page 56 for instructions on obtaining met data.
NOTE:
PROGRAM WILL DETERMINE STABILITY CLASS AND IF TERRAIN CORRECTION FACTORS ARE REQUIRED.
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B.5.4 Obtain if and when the reactor shutdown from the technical group.
If the reactor is still operating, no further entry is required.
If the reactor has shutdown, enter time of shutdown.in military time.
B.5.5 Input the following current data:
a.
TIME OF DATA - time (military) data was obtained from vent monitors and met towers.
b.
TIME DOSE TO BE PROJECTED projected number of hours release is expected to continue based on inplant accident conditions.
NOTE:
IF THE EXPECTED TIME OF RELEASE TERMINATION IS UNKNCWN, USE A DEFAULT VALUE OF 6 HOURS.
c.
TIME SINCE LAST DATA - number of minutes since last data was obtained from vent monitor and met tower for integrated release and dose calculations.
NOTE:
IF THIS IS THE FIRST CALCULATION BEING PERFORMED, ENTER TIME IN MINUTES SINCE RELEASE STARTED.
NORMAL TIME SINCE LAST DATA SHOULO BE 15 MINUTES.
d.
SPING RELEASE DATA - summation of 5 vent monitors Iodine 131 and Noble Gas release rates in uCi/ min obtained from SPING vent monitor as per Attachment J, Page 59.
NOTE:
DATA MAY BE ENTERED IN REAL NUMBERS OR SCIENTIFIC NOTATION.
B.5.6 Program should commence calculations as indicated by ' CALCULATING' appearing on the screen repeatedly.
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8.5.7 Results will be displayed on the CRT screen and will automatically be output to the printer.
NOTE:
. PRINTER.MUST BE CN.LINE FOR PRCGRAM TO CONTINUE.
IF 'NOT SELECTED' APPEARS ON THE SCREEN, PRINTER IS NOT ON LINE.
PRESS <SEL> BUTTON ON THE PRINTER (GREEN LIGHT MARKED SEL SHOULD COME ON). SIMULTANEOUSLY DEPRESS "< CONTROLS >" AND "C" FOLLOWED BY "< RETURN >".
B.5.8 Press any letter to continue.
Program will question 'D0 YOU WISH ANOTHER COPY?' to allow you to obtain another copy of the printout if needed.
Then program will return you to the calculation types option screen.
B.5.9 To perform next update of a forward calculation enter a "I < RETURN >" to the
' PROCEDURE' prompt.
B.5.10 Program will question 'HAS THE ACCIDENT CHANGED 7" and 'HAS THE WEATHER CHANGED? '.
a.
If neither has changed program will return to Step B.5.4.
b.
If the accident type has changed program will return to Step B.5.2.
c.
If the weather has changed, program will return to Step B.5.3.
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B.5.11 Continue 15 minute updates of forward i
calculations as outlined above.
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B.6.0 BACK CALCULATION i
NOTE:
IF THE BACK CALCULATION PORTION OF THE PROGRAM IS ENTERED BEFORE A FORWARD CALCULATION IS PERFORMED, THEN THE ACCIDENT. TYPE INFORMATION,
' METEOROLOGICAL CONDITIONS AND THE REACTOR SHUTDOWN INFORMATION MUST BE ENTERED AS DELINEATED IN STEPS B.5.2 THROUGH B.5.4.
1 i
NOTE:
IF THE BACK CALCULATION IS PERFORMED AFTER A FORWARD CALCULATION, THE PROGRAM WILL USE THE ACCIDENT TYPE, METEOROLOGICAL AND REACTOR SHUTDOWN CONDITIONS OF THE PREVIOUS FORWARD CALCULATION.
B.6.1 Input the following current data:
a.
TIME OF DATA - time (military) reading or sample was taken by offsite monitoring team at the given location.
b.
DISTANCE TO MEASUREMENT - distance along the centerline in miles to location where reading or sample was taken by offsite monitoring team.
NOTE:
BACK CALCULATIONS MAY ONLY BE PERFORMED FOR MONITORING POINTS ALONG THE CENTERLINE OF THE PLUME.
REFER TO TABLE C-1 PAGE 34 FOR DISTANCES TO SITE BOUNDARY MONITORING TEAM LOCATIONS.
I c.
MEASURED DOSE RATE - whole body immersion l
dose rate in mrem /hr as measured by the monitoring team.
d.
MEASURED I-131 CONCENTRATION -
concentration of iodine in uCi/cc as determined by analysis of the air sample.
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Attachment B EP-IP-009 Revision 2 Page 18 of 64 Check (
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8.6.2 Program should commence calculations as indicated by ' CALCULATING' appearing on the screen repeatedly.
B.6.3 Results will be displayed on.:he screen and _
will automatically be output to the printer.
B.6.4 Back Calculation Data Usage and Comparison a.
If performing back calculations to determine unknown source release terms, predicted iodine and noble gas release rates should be entered into a forward calculation to assess doses at other locations using ', TIME PLUME LEFT STACK' for ' TIME OF DATA' input.
b.
If performing back calculations to verify known release source terms, compare predicted iodine and noble gas release rates to known releases using ' TIME PLUME LEFT STACK' as a reference.
B.6.5 Document BACKCALCULATIONS using the BACKCALCULATION WORKSHEET, Attachment L, Page 62.
J B.6.6 Press any letter to continue. This will l
return you to the calculation types option screen.
i B.7.0 0FF-CENTERLINE CALCULATION i
NOTE:
IF 0FF-CENTERLINE CALCULATION PORTION OF THE PROGRAM IS ENTERED BEFORE A FORWARD CALCULATION IS PERFORMED, THEN THE ACCIDENT TYPE INFORMATION, METEOROLOGICAL CONDITIONS AND REACTOR SHUTDOWN INFORMATION MUST BE ENTERED AS DELINEATED IN STEPS 8.5.2 THROUGH B.5.4.
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IF THE OFF-CENTERLINE CALCULATION IS PERFORMED AFTER A FORWARD CALCULATION, THE PROGRAM WILL USE THE ACCIDENT TYPE, METEOROLOGICAL AND REACTOR SHUTDOWN CONDIT. IONS OF THE PREVIOUS FORWARD CALCULATION.
B.7.1 Input the following current data:
a.
TIME OF DATA - time (military) data was obtained from the vent monitors and met-towers.
b;,..SPING RELEASE DATA - Iodine-131 and Noble Gas release rates in uCi/ min obtained.
- from SPING vent monitors.
c.
CENTERLINE DISTANCE - distance in miles from plant to peint of interest along the centerline of the plume.
d.
OFF-CENTERLINE DISTANCE perpendicular distance in miles from point of interest to centerline of the plume.
(Imaginary line drawn from point of interest perpendicular to the centerline.)
NOTE:
IF DOSE INFORMATION IS REQUIRED FOR CENTERLINE LOCATIONS OTHER THAN THOSE PREDETERMINED DISTANCES (EPB 2, 5 AND 10 MILES), ENTER CENTERLINE DISTANCE REQUIRED IN B.7.1.c AND ENTER ZERO FOR OFF-CENTERLINE DISTANCE IN B.7.1.d.
l B.7.2 Program should commence calculating as indicated by ' CALCULATING' appearing on the screen repeatedly.
B.7.3 Results will be displayed on the CRT screen l
and will automatically be output to the l
printer.
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8.7.4 Press any letter to continue. This will return you to the calculation types option screen.
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Attachment C EP-IP-009 Revision 2 Page 21 of 64 INSTRUCTIONS FOR RADDOSE C.1.0 Program Description The RADDOSE program provides for real time estimation of the whole body immersion and the iodine inhalation off-site doses due to emergency releases of radioactive material from Fusquehanna SSES..
RADDOSE has an automatic input of meteorological conditions with a manual edit ability. Radioactive release rates require manual calculator input.
The program uses a straight line Gaussian model for estimating the transport and diffusion characteristics of the plume. The program accounts for applicable terrain correction factors and wet deposition corrections due to precipitation.
RADDOSE uses the appropriate isotope mix based on the type of accidents.
Isotope decay correction factors are applied in a stepwise fashion from time release started.
Plume transit decay time is not taken into account.
The RADDOSE program can provide estimated whole body and thyroid dose rates for off-centerline points and dose rates and integrated doses for population centers.
RADDOSE provides estimated plume arrival times and the number of minutes before integrated doses will exceed the pre-established Protective Action Guides.
In RADDOSE, doses may be calculated from 0.34-10 miles only. RADDOSE does not calculate projected doses.
In the event that a source term is unavailable or to verify release rates, actual field measurements of whole body dose rates or iodine concentrations may be used in the RADDOSE program to predict or verify the release source term. Using this information the' dose rates at other locations may be calculated.
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C.2.0 Activation of RADDOSE C.2.1 To activate RADDOSE, simultaneously depress the "<RADDOSE>" and the. "< SHIFT >" keys.
NOTE:
THE RADDDSE SERVICE MENU, WHI'CH PROVIDES A TABLEAU FOR ALL FUNCTIONAL OPTIONS AVAILABLE TO THE USER, WILL NOW APPEAR ON THE SCREEN.
C.2.2 If anyone is currently using RADDOSE in the edit made on another CRT, as indicated by the bottom of the Services Menu, contact them at the given extension before proceeding.
C.3.0 Initialization of RADDOSE C.3.1 Depress the "< TAB FWD >" key so that the cursor is located at the ' FUNCTION NUMBER' field.
C.3.2 Enter "7" into the parenthesis then simultaneously depress the "< SHIFT >" and
"< EXECUTE >" keys.
NOTE:
FUNCTION NUMBER 7 WILL TERMINATE ANY CALCULATIONS PREVIOUSLY INITIATED IN RADDOSE.
C.3.3 Depress the "< TAB BACK>" and enter "1",
START OF RELEASE / CLEAR DATA, then simultaneously depress the two keys labeled "< SHIFT >" and
"< EXEC)".
NOTE:
FUNCTION NUMBER 1 IS THE ONLY ACCEPTABLE ENTRY FOLLOWING THE FUNCTION NUMBER 7.
C.4.0 Enter Calculation Time Data C.4.1 Depress the key labeled "< TAB BACK>" and enter "2",
EDIT / VERIFY DATA then simultaneously depress the two keys labeled "< SHIFT >" and
"< EXEC)".
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Attachm'ent'C EP-IP-009 Revision 2 Page 23 of 64 Check ( )
C.4.2 The screen will display page one of the input data, ' PROJECTED DOSE CALCULATION - MAIN INFORMATION'. Follow the instructions shown at the bottom of the sc.reen for entering.the information requested.
C.4.2.1 Determine from the SpING the time of day when the radioactive release started. This will be the time of th'e first elevated release for which a dose calculation is being performed.
Since RADDOSE utilizes military time, an input for 1:00 p.m. would be entered as 13 hours1.50463e-4 days <br />0.00361 hours <br />2.149471e-5 weeks <br />4.9465e-6 months <br /> O minutes.
C.4.2.2 Depress the "< TAB FWO>" key and enter this data in " Hours" and
" Minutes" in the ' TIME RELEASE STARTE0' fields.
C.4.2.3 Depress the "< TAB FWO>" key so that the cursor is located at the
' PROTECTIVE ACTION GUIDE' field.
NOTE:
THE PAG LEVELS HAVE DEFAULT VALUES OF ONE REM-WHOLE BODY AND FIVE REM-THYROID AND NEED NOT BE CHANGED UNLESS OTHER PAG LEVELS ARE DESIRED.
C.4.2.4 Depress the "< TAB FWO>" key so that the cursor is located at the ' TYPE RELEASE' field. The release type has a default value of TYPE 10, COMPOSITE DESIGN BASIS (CDB), which should not be changed unless specific information is readily available to assign one of the other one through nine release types to the incident. No user action is lj usually required.
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NOTE:
RELEASE TYPE INFORMATION MAY BE OETAINED BY CONSULTING WITH THE TECHNICAL GROUPS.
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C.4.2.5
. Depress.the "< TAB P/0>" key so that the cursor is located at the '0UTPUT DEVICE' field. The output device has a default value of 1 to the logging printer and should not be changed. No user action is usually required.
Logging printer is located in the control room.
The TSC and the EOF will use a video copier to obtain hard copy printouts of RADDOSE results.
C.4.2.6 A ' CALCULATION START TIME' field entry is only needed when periodic calculations are desired, therefore no ent.y is required in this field.
C.4.2.7 Verify that the correct information has been entered on this page then depress the <" SHIFT >" and "< EXEC)"
keys simultaneously.
C.4.2.8 To display page two of the input data ' PROJECTED DOSE - WEATHER CONDITIONS', simultaneously depress l
the "< SHIFT >" and "<PAGE FWD >" keys.
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C.5.0 Enter Meteorological Data Meteorological data is telemetered to RADDOSE from the primary and backup MET towers Operator input of. MET data is not normally required however the operator can substitute MET values at any time. Any values which an operator substitutes will be used instead of telemetered values in RADDOSE calculations.
Instructions for manually obtaining met data are given in Attachment I, Page 56.
C.5.1 If manual substitution of MET data is necessary, follow the instructions shown at the bottom of the screen and given below..If no substitution is made in a field the program will use actual value from met tower.
If manual substitution is not required press
"< SHIFT >" and "<PAGE FWD >" keys and proceed to step C.6.0.
C.5.1.1 Depress the "< TAB FWD >" key so that the cursor is located at the
' STABILITY CLASS' field. The stability class is provided by computer calculation dependent on sigma theta or delta temperature measurements made on the MET towers.
If MET tower data is not available, or additional information (e.g.
forecasting) is needed, call the National Weather Bureau at (717) 655-9331 (under severe conditions call (717) 655-8134.
NOTE:
LEAVE THIS FIELD BLANK TO ALLOW COMPUTER TO DETERMINE CORRECT STABILITY CLASS BASED ON DEL 7A T AND SIGMA THETA.
IF A STABILITY CLASS IS ENTERED IT WILL OVERRIDE DELTA T AND SIGMA THETA INPUTS.
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C.5.1.2 Depress the "< TAB FWD >" key so that the cursor is located at the ' RATE OF PRECIPITATION' field and enter.
this value in. inches per hour.
C.5.1.3 Depress the "< TAB FWD >" key so that' the cursor is located at the ' WIND SPEED' field and enter this value in miles per hour.
C.5.1.4 Depress the "< TAB FWD >" key so that the cursor is located at the ' WIND DIRECTION' field and enter the direction wind is coming from in compass degrees.
C.5.1.5 Depress the "< TAB FWD >" key so that the cursor is located at the ' SIGMA THETA' field and enter this value in compass degrees (if available - not necessary if delta T is known).
C.5.1.6 Depress the "< TAB FWD >" key so that the cursor is located at the ' DELTA TEMPERATURE' field and enter this value in degrees celsius per fifty meters.
C.S.I.7 No input is required in the ' MET TOWER SCAN SOURCE' field. The ' MET TOWER SCAN SOURCE' has a default to the 10 meter primary tower.
NOTE:
IF DATA FROM THE 10 METER PRIMARY MET TOWER ARE UNAVAILABLE OR INVALID, RADDOSE WILL ATTEMPT TO ACQUIRE THE DATA FROM THE 10 METER BACKUP TOWER, IF TiiE BACKUP TOWER IS ALSO INOPERABLE, THE DATA WILL BE OBTAINED FROM THE 60 METER PRIMARY TOWER.
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C.5.1.8 Verify that the correct information has been entered on this page then simultaneously depress the two keys labeled "< SHIFT >" and "< EXEC)".
C.5.1.9 To display page three of the input ~
data ' PROJECTED DOSE - VENT DATA' depress the two keys labeled
"< SHIFT >" and "<PAGE FWD >"
simultaneously.
C.6.0 Enter Vent Release Data C.6.1 Follow the instructions shown at the bottom of the screen for entering the data requested.
NOTE:
ACTIVITY DATA MUST BE SUPPLIED FOR ALL FIVE MONITORED VENTS EVEN IF THE RELEASE RATE IS ZERO AND MUST BE WRITTEN IN SCIENTIFIC NOTATION (i.e. 0 ENTERED AS OEO). DATA MUST BE ENTERED BY COLUMNS ON PAGE 4 AND 5 0F INPUT.
C.6.1.1 Obtain the release' rates from the SPING readings for each vent monitor.
Refer to Attachment J, Page 59 for instructions on obtaining SPING data.
C.6.1.2 Depress the "< TAB FWD >" key so that the cursor is located at the
' COLUMN' field and enter the number corresponding to the vent for which the release data is to be entered.
NOTE:
SPING RELEASE DATA IS GIVEN IN uti/ min AND IS A 10 MINUTE AVERAGED RELEASE RATE.
RADDOSE REQUIRES A C1/ min INPUT. CONVERT UNITS BY MULTIPLYING uCi/ min BY 10 8 Page 7 of 17
Attachment C EP-IP-009 Revision 2 Page 28 of 64 Check (
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C.6.1.3 Depress the " TAB FWD" key so that the cursor is at the I185 field under CAM DATA.
Enter the release rate for It't.(Curies / minute)..
.SPING onitor gives.I2'1 readings.
NOTE:
IF I2'8 DATA IS.NCT AVAILABLE, THEN LEAVE THE VALUE BLANK.
C.6.1.4 No entry is required in the 'TTL IODINE' field.
NOTE:
TOTAL IODINE RELEASE RATE INFORMATION WILL BE CALCULATED BY THE PROGRAM. BOTH RADI0 IODINE RELEASE RATE FIELDS MAY BE LEFT BLANK IN WHICH CASE A DEFAULT VALUE WILL AUTOMATICALLY BE CALCULATED BASED ON THE NOBLE GAS RELEASE RATE.
THIS VALUE WILL NOT APPEAR ON THE SCREEN.
C.6.1.5 Depress the "< TAB FWD >" key so that the cursor is located at the ' NOBLE GAS' field.
Enter the noble gas release rate (Curies / minute).
NOTE:
A RELEASE RATE ENTRY FOR NOBLE GAS MUST BE MADE.
C.6.1.6 If isotopic data is available from grab samples, depress the "< TAB FWD >" key and enter the release rate data (C1/ Min) for each isotope listed under ' ISOTOPE DATA'. This data is available from the Radiochemistry Analysis Report of a vent monitor grab sample.
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Attachmhnt'C EP-IP-009 Revision 2 Page 29 of 64 Check (
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NOTE:
THIS DATA MAY BE ENTERED UNDER ANY OF THE VENT DATA COLUMNS BUT ALL FIVE MONITORED VENT DATA COLUMNS MUST HAVE EIT.HER ISOTOPIC DATA.
ENTERED.0R CAM DATA. ENTERED.
IF ISOTOPIC DATA IS AVAILABLE THEN THE, CAM DATA COLUMN SHCULD BE LEFT BLANK FOR THAT VENT.
C.6.1.7 Verify that the correct information has been entered for the column, then simultaneously depress the two keys labeled < SHIFT >" and "< EXEC >".
C.6.1.8 Return the cursor to the ' COLUMN' field and enter data for subsequent vents per Step C.6.1.1.
C.6.1.9 Depress the keys labeled "< SHIFT >"
and "<PAGE FWD >" and repeat steps C.6.1.1 through C.6.1.8 for page four of the input vent data.
C.6.1.10 Depress the two keys iubeled
"< SHIFT >" and "<PAGE PdD>" to display page five of the input data
' PROJECTED DOSE - DISTANCE DATA'.
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Attachment C EP-IP-009 Revision 2 Page 30 of 64 Check ( )
C.7.0 Enter Distance Data NOTE:
NINE DEFAULT SECTOR DISTANCES AND FIVE DEFAULT POINT.
i DISTANCES HAVE BEEN ENTERED. DEFAULT DISTANCES MAY NOT BE DELETED.
C.7.1 Enter distance to the Emergency Planning Boundary (EPB) of the affected sector based on the wind direction from Table C-1, Page 34.
Depress "< TAB FWD >" Key until cursor is located in the ' DISTANCE' field and enter EPB distance from Table C-1.
NOTE:
DISTANCE TO EPB WILL VARY WITH WIND DIRECTION SHIFTS.
C.7.2 If additional points for dose calculation are desired, follow the instructions below.
If not, proceed to step C.8.0.
C.7.2.1 Depress the "< TAB FWD >" key until the cursor is located at the
' DISTANCE' field.
Enter in any additional distance at which a dose rate is to be calculated.
C.7.2.2 To delete sector distances entered through manual input depress the
"< TAB FWD >" key so that the cursor is located at the ' CLEAR' field and enter the starting number through the ending number of the distances to be deleted. No entry in the
'THRU' field will result in only one entry deleted.
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C.7.2.3 Depress the "< TAB FWD > ' key so that the cursor is located at the ' POINT DISTANCE' field.
The user may enter -
point distances in the same manner as sector distances. by specifying UTM coordinates.
Refer to Table C-.
2, Page 35 for a list of frequently used UTM coordinates. A maximum of two extra point coordinates are available to the user.
C.7.2.4 To delete point distances entered through manual input, depress the
"< TAB FWD >" key so that the cursor is located at the ' CLEAR' field for the point distance.
Enter the starting number and the ending number for the point distances to be deleted. No entry in the 'THRU' field will result in only one entry deleted.
C.7.3 If Back Calculations are not to be performed, proceed to step C.8.1.4.
C.8.0 Back Calculation Data NOTE:
SINCE PERFORMANCE OF A BACKCALCULATION IN THE REAL TIME FUNCTION UPDATES THE FORWARD CALCULATION ALSO, BACKCALCULATIONS SHOULD BE PERFORMED AT THE SAME TIME FORWARD CALCULATION INPUTS ARE ENTERED.
C.8.1 Depress the "< TAB FWD >" key so that the cursor is located at the ' METERING POINT' field and follow the instructions shown at the bottom of the screen for entering the data requested.
C.8.1.1 Enter the UTM coordinates corresponding to the location of the field measurements.
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C.8.1.2 Depress the "< TAB FWD >" key so that the cursor is at the 'WHOLE BODY DOSE RATE' field and enter the gamma dose rate in rads per hour, in exponential form, f, rom field measurements.
NOTE:
Field readings are normally reported in mR/hr; therefore, conversion to i'
R/hr is required (Divide by 1000).
4 C.8.1.3 Depress the "< TAB FWD >" key so that the cursor is located at the
' THYROID CONCENTRATION' field and enter the corresponding Iodine-131 i
concentration in Ci/m8 from field measurements.
NOTE:
Field air sample results are normally reported in pCi/cm' 8
which is equivalent to Ci/m.
C.8.1.4 Verify that the correct information has been entered on this page then simultaneously depress the two keys 1
labeled "< SHIFT >" and "< EXEC)" keys.
l C.8.1.5 After completing the above information, simultaneously depress the two keys labeled "<RADDOSE>" and
"< SHI FT)". The RADDOSE menu will reappear on the console, C.9.0 Edit Complete j
C.9.1 Depress the "< TAB FWD >" key so that the cursor is located at the ' FUNCTION NUMBER' field and enter "3".
Simultaneously depress the two keys labeled "< SHIFT >" and "< EXEC)". This command will save the information entered into RADDOSE.
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Attachment'C EP-IP-009 Revision 2 Page 33 of 64 Check (
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C.10.0 Run Calculations C.10.1 Return the cursor to the ' FUNCTION NUMBER' field. Enter "5" then. simultaneously depress the "< SHIFT >" 'and "< EXEC)" keys. This command will run the calculations on the data entered'.
C.10.2 Display the data on the CRT by returning cursor to the ' FUNCTION NUMBER' field and entering "8".
NOTE:
SCREEN DOES NOT UPDATE ONCE DISPLAYED THEREFORE IF RECENT CALCULATIONS ARE NOT COMPLETE (VERIFY THIS BY NOTING CALCULATION SEQUENCE NUMBER) "< SHIFT > AND "<PAGE FWD >"
MUST BE PRESSED TO UFDATE SCREEN DISPLAY.
C.10.3 Results Output:
Pages 1-12 Current Oose Rate and Integrated Doses for various distances.
Page 13 Backcalculation results and population center results.
Page 14 Plume Travel Time Pages 15-17 Calculation inputs NOTE:
RADDOSE DOES NOT CALCULATE PROJECTED DOSES.
THESE MUST BE HAND CALCULATED PER SECTION F.1.0, PAGES 49-50.
C.10.4 Sequential calculations are run by returning to the RADDOSE menu by pressing "< SHIFT >",
"<RADDOSE>" and entering "2" EDIT FUNCTION in the ' FUNCTION NUMBER' field per step C.4.0.
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Attachm'ent'C EF-IP-009 Revision 2 Page 34 of 64 TABLE C-1 DISTANCE TO EPB AND OSCAR MONITORING TEAM LOCATIONS Distance to OSCAR w
Emerg. Man Boundary Monitoring
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Wind Affected Distance (EPB)
Team Location (miles)
(miles)
Se: tor From 4
SSW (191*-214*)
kNE O.537 0.39 SW (214*-236*)
NE' O.701 0.422 s
WSW (236*-258*)
ENE 0.552 0.52 W
(258*-281*)
E 0.507 0.45 0.18 WNW (281*-303*)
ESE 0.474
~'
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J 0.20 NW (303*-326*)
SE 0.341 i.
NNW (326*-348*)
SSE 0.341
,.N 0.20 0.25 i
N (348*-11*)
S 0.341 NNE (11*-34*)
SSW 0.431 0.37 NE (34*-56*)
SW 0.4'29 0.33 ENE (57*-79*)
WSW 0.665 0.39 E
(79*-101*)
- WSW 0.665 0.39 ESE (101*-124*)
- WSW 0.665 0.39 SE (124*-146*)
- WSW 0.665 0.39 SSE (146*-168*)
NNW 0.434 0.291 S
(168*-191*)
N 0.411 0.29 s
\\
- DUE TO MET STUDIES, WIND. FRCM SE, ESE AND E (AFFECTED SECTORS NW, WNW AND W)
WILL ALWAYS BE DIRECTED TO THE WSW SECTOR.
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Attachment'C EP-IP-009 Revision 2 i
Page 35 of 64 TA8i.E C-2 UTM COORDINATE POINTS OF INTEREST FOR RA000SE CALCULATIONS
[
I.
Population Centers 1.
Berwick 4.3 miles WSW (396.40,4545.37) 2.
Nanticoke 10.0 miles NE (415.50,.4561.12) 3.' Hazleton direction 10.0 miles SE
.(415.50, 4537.31) 4.
Shickshinny 3.9 miles N (403.50,4556.00) 5.
Nescopeck 4.1 miles SW (397.41,4545.02) 6.
Beach Haven 2.3 miles WSW (401.10,4546.80) 7.
Berwick Heights 5.2 miles W (395.23,4548.30) 8.
Briggsville 3.7 miles S (403.70,4543.30) 9.
Hobbie 3.8 miles ESE (409.00,4547.00)
- 10. Mifflinville 8.6 miles WSW (390.80, 4543.30)
- 11. Mocanaqua 3.1 miles N (404.40,4554.80)
- 12. Retreat 10.3 miles NNE (409.00,4560.00)
- 13. Pond Hill 3.1 miles NE (407.20, 4553.10)
- 14. Wapwallopen 1.5 miles SSE (404.65,4547.20)
DEFAULT POINT DISTANCES II. Emergency Offsite Radiation Monitoring Locations iN Designation Coordinates Designation Coordinates N1 (403.6,4550.4)
NNE1 (404.3,4550.5)
N2 (403.4, 4551.6)
NNE2 (404.3,4551.4)
N3 (403.9,4553.4)
NNE3 (404.8,4552.4)
(403.8,4555.9)
NNE4 (405.2,4555.9)
N4 (403.8, 4556.8)
NNES (407.8,4555.8)
N5 N7 g
(402.5,4557.9)
NNE7 (408.4,4557.6)
N10A (404.1,4561.1)
NNE10A (408.6,4560.1)
N10B (402.8, 4564.8)
NNE-10B 409.9, 4562.4 l
N50 (405.2,4566.1)
NNE50 (410.6,4565.7) l NE1 (404.5,4550.2)
ENE1 (404.3,4549.7)
NE2 (405.1,4551.1)
ENE2 (405.4,4550.2)
NE3 (405.2,4551.1)
ENE3 (407.1,4550.1) l NE4 (407.5,4553.1)
ENE4 (408.8,4550.3) l NES (409.3,4553.9)
ENE7 (412.3,4553.8)
NE7 (411.3, 4554.6)
ENE10A (414.2,4552.2) 415.4,4557.9)
ENE10B (416.5,4553.6)
, ' ((415.7. 4562.8)
NE10 ENE50 (416.5,4553.3)
NE50A NE50C (425.6,4564.5)
, NE500' i (425.7,4566.7)
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Attachm'ent'C EP-IP-009 Revision 2 Page 36 of 64 Designation Coordinates Designation Coordinates c
El (404.8,4549.5)
ESE1 (404.2, 4549.0)
E2 (405.7,4549.4)
ESE2 (405.6,4547.8)
ES (410.7, 4548.5)
ESE3A (406.8, 4547.9)
E7 (413.9,4549.8)
ESE3B (407.8, 4548.3)
E10 (415.6,4549.9)
ESE4 (409.1, 4547.6)
E50 (420.7,4551.4)
ESES (410.8, 4547.1)
ESE7 (413.1, 4546.7)
ESE10 (415.7, 4542.3)
ESE50 (424.3, 4540.1)
SE1 (404.1,4548.8)
SSE1 (404.1,4548.0)
SE2A (405.5,4548.2)
SSE2 (404.7, 4547.3)
SE2B (405.2,4547.7)
SSE3 (405.1, 4545.8)
SE3 (406.8,4546.6)
SSE4 (405.6,4543.2)
SE4 (407.7,4545.1)
SSE5 (406.8, 4542.8)
SE7A (409.3,4542.3)
SSE7 (406.9, 4539.8)
SE78 (412.2,4542.2)
SSE10A (409.9, 4538.2)
SE10 (414.9,4540.3)
SSE103 (407.8, 4535.5)
SE50 (417.8,4532.9)
SSE50 (413.4,4532.6) 51 (403.5,4548.8)
SSW1 (403.4,4548.8)
S2 (403.5,4547.5)
SSW2 (402.7, 4546.7)
S3 (403.4, 4546.3)
SSW3 (401.1,4545.2)
S4 (403.7, 4543.6)
SSW4 (401.6, 4543.7) 57 (403.3,4539.5)
SSW5 (400.0, 4542.7)
S10 (402.9,4537.4)
SSW7 (398.4, 4541.7)
S50 (405.9,4527.4)
SSW10 (398.2,4537.2)
SSW50 (391.8, 4532.1)
SW1 (403.7,4548.6)
WSW1 (403.0, 4549.1)
SW2 (401.8, 4546.8)
WSW2 (401.5, 4548.5)
SW3 (401.5, 4546.6)
WSW3 (399.3, 4548.1)
SW4 (399.6,4545.7)
WSW4 (398.1, 4547.3)
SW5A (399.3,4544.1)
WSW5 (396.5,4546.9)
SW5B (397.7,4544.9)
WSW7A (396.3, 4545.5)
Sk7 (396.6, 4542.8)
WSW7B (393.4, 4545.6)
SW10 (393.9,4540.G)
WSW10A (391.5, 4543.7)
SW50 (391.2,4534.8)
WSW10B (390.8, 4593.1)
WSW50 (388.5,4543.3)
Page 16 of 17 l
Attachm'ent C EP-IP-009 Revision 2 Page 37 of 64 Designation Coordinates Designation Coordinates W1 (402.2,4549.6)
WNW1 (402.7,4549.7)
W2 (401.5,4549.5)
WNW2 (401.6,4550.5)
W3 (399.8,4548.7)
WNW3 (399.5,4551.2)
W4 (398.2,4549.7)
WNW4 (398.1,4551.0)
W5 (396.9,4548.8)
WNW7 (395.1,4551.9)
W7 (394.5,4549.6)
WNW10 (390.6,4554.4).
W10 (389.2,4548.8)
WNW50 (385.8,4554.4)
W50 (385.7,4547.7)
NW1 (401.7,4550.3)
NNW1 (403.1,4550.7)
NW2 (401.7,4551.5)
NNW2 (402.4,4551.6)
NW3 (400.8,4551.5)
NNW5 (400.3,4555.2)
NW5 (398.4,4554.0)
NNW7 (398.6,4557.6)
NW7 (398.8,4556.4)
NNW10 (396.8,4560.4)
NW10 (394.6,4559.2)
NNW50 (398.3,4560.4)
NW50 (390.3,4561.3)
Page 17 of 17
Attachment D EP-IP-009 Revision 2 Page 38 of 64 INSTRUCTIONS FOR OVERLAYS D.1.0 METHOD DESCRIPTION The Overlay method provides for an estimation of the whole body immersion and the iodine inhalation off-site doses due to releases of radioactive material from Susquehanna SES.
The Overlay method provides.
a graphic representation of the. plume dispersion using transparent dose isopleths which are overlaid on the SSES Emergency Planning Map.
The Overlay calculation method uses a straight line Gaussian model for estimating the transport and diffusion characteristics of the plume.
The special overlays account for terrain corrections based on met conditions. Overlays use LOCA isotopic mix and decay correction factor from time of reactor shutdown is applied.
Using the Overlays, dose rates for off-centerline points and populations centers can be calculated. Overlays can be used to calculate dose rates from 1.5-10 miles only.
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Page 1 of 10 m-
Attachm'ent'D EP-IP-009 Revision 2 Page 39 of 64 D.2.0 OVERLAY SELECTION D.2.1 Determine the stability class curve from Table D-1 using Delta Temperature or Sigma Theta.
D.2.2 Using the wind speed, wind direction and stability class data, determi.ne the overlays _
to be used from Table 0-2, Page 44.
The odd numbered overlays are for the whole body dose rates and the even numbered overlays are for the thyroid dose rates.
Enter the nuinber of the overlays selected on the Overlay Calculation Worksheet, Attachment E, Page 48.
D.2.3 Determine a wind speed correction factor from Table D-3, Page 45 and enter this factor on the Overlay Calculation Worksheet, Page 48.
D.3.0 Calculate a Whole Body Dose Rate i
D.3.1 Place the selected whole body overlay on the SSES Emergency Planning Map with the origin of the plume isopleth over SSES on the intersection of the sector dividing lines.
Orient the red arrow according to the directions on the overlay.
D.3.2 For each map location of interest, read off of the overlay an uncorrected dose rate in rads / min and enter on the Overlay Calculation Worksheet.
~~
NOTE:
INTERPOLATION BETWEEN DOSE ISOPLETH LINES MAY BE REQUIRED.
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Page 2 of 10
~
~,. -, _
i Attachm'ent D EP-IP-009 Revision 2 Page 40 of 64
~
(
D.3.3 The following locations should be addressed.
2 miles radial distance from SSES on plume centerline 5 miles radial distance from SSES on plume centerline 10 miles radial distance from SSES on plume centerline D.3.4
'Obtain the total Noble Gas release rate expressed in microcuries/ minute. This data should be entered on Offsite Dose Calculation Worksheet.
Refer to Attachment J, Page 59 for instructions on obtaining SPING data.
D.S.5 Obtain the time since reactor shutdown by subtracting the data time from the time of the shutdown listed on the " Big Picture" status board.
D.3.6 Using the time since reactor shutdown and Table 0-4, determine a whole body dose correction factor and entar on the Overlay Calculation Worksheet.
D.3.7 Calculate a corrected whole body dose rate in mrem /hr for each map location of interest by multiplying the uncorrected dose rate for the location by the wind speed correction factor, the total Noble Gas release rate, the whole body dose correction factor and by.06 as shown below.
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Paga 3 of 10 i
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EP-IP-009 Revision 2 Page 41 of 64 Corrected whole body dose =
(mrad /hr)
Uncorrected Noble gas Whole body Wind Speed dose rate x
release x
correction x
correction x
.06 rate factor fac. tor (uCi/ min)'
~ Enter.the corrected dose rate on Data Sheet 2',
Offsite Oose Calculation Worksheet, Attachment K, Page 61.
0.4.0 Calculate a Thyroid Dose Rate 0.4.1 Place the thyroid overlay on the SSES Emergency Planning Map with the origin of the plume isopleth over SSES on the intersection of the sector dividing lines. Orient the red arrow according to the directions on the overlay.
D.4.2 For each map location of interest, read off of the overlay an uncorrected dose rate in rads / min and enter on the Overlay Calculation Worksheet.
NOTE:
INTERPOLATION BETWEEN DOSE ISOPLETH LINES MAY BE REQUIRED.
D.4.3 The following locations should be addressed.
2 miles radial distance from SSES on plume centerline 5 miles radial distance from SSES on plume centerline 10 miles radial distance from SSES on plume centerline 0.4.4 Obtain the total Iodine-131 release rate expressed in microcuries/ minute. This data should be entered on Offsite Oose Calculation Worksheet.
Refer to Attachment J for instructions on obtaining SPING data.
Page 4 of 10
__m___._._
_--m-_-____-_-__._____d
Attachment D EP-IP-009 Revision 2 Page 42 of 64 0.4.5 Obtain the time since reactor shutdown by subtracting the data time frem the time of the shutdown listed on the " Big Picture" status board.
D.4.6 Using the time since reactor shutdown and Table 0-5,. determine a thyroid dose correction
' factor and enter on the Overlay Calculation Worksheet.
D.4.7 Calculate a corrected thyroid dose rate in mrem /hr for each map location of interest by multiplying the uncorrected thyroid dose rate for each location by the wind speed correction factor, the total Iodine-131 release rate, the thyroid dose correction factor and by.6 as shown below.
Corrected thyroid dose =
(mrem /hr)
Uncorrected Iodine-131 Wind speed Thyroid dose dose rate x
release x
correction x
correction x
.6 rate factor factor (uCi/ min)
Enter the corrected dose rate on Attachment H of this procedure.
NOTE:
INTEGRATED AND PROJECTED DOSES MUST BE HAND CALCULATED BASED ON THESE 00SE RATES AS
_ __ OUTLINED IN SECTION F.1.0, PAGES 49-50.
Page 5 of 10
s EP-IP-009 Revision 2 Page 43 of 64 t
TABLE D-1 STABILITY CLASS DETERMINATION Delta Temp Sigma Theta
( C/50m)
- (degrees)
Selected Stability Class Curve
< - 0.75 3 12.5 Unstable (C)
- 0.74 to - 0.25 12.4 to 7.5 Neutral (D)
- 0.24 to 0.75 7.4 to 3.8 Slightly Stable (E) 3 0.75
< 3.8 Very Stable (G)
STABILITY CLASS I
E G
C D
s C
-0.75
-0.' 50 -0.25 O.25 0.50 0.75 O
DELTA TEMP Page 6 of 10 cI-
=
Attachment D EP-IP-009 Revision 2 Page 44 of 64 TABLE D OVERLAY SELECTION OVERLAYS TO BE USED**
Wind Stability Stability Stability Stability From C
D E
G N (348*-11*)
1&2 3&4 5&6 7&8 NNE (11*-34*)
21 & 22 23 & 24 9 & 10 11 & 12 NE (34*-Ef*)
25 & 26 27 & 28 13 & 14 15 & 16 ENE (56*-79*)
E * (79*-101*)
ESE * (101*-124*)
SE * (124*-146 )
1.& 2 3&4 5&6 7&8 SSE (146*-168 )
Wind Speed >9 mph S, SSW, SW (168*-23E*)
Wind Speed <9 moh 29 & 30 31 & 32 17 & 18 19 & 20 WSW (236 -258 )
Wind Soeed >5 moh 1&2 3&4 5&6 7&8 WSW (236*-258*)
Wind Speed <5 moh 29 & 30 31 & 32 17 & 18 19 & 20 W (258*-281*)
WNW (251*-303*)
1&2 3&4 5&6 7&8 NW (303*-326*)
NNW (326*-348*)
l Assume ENE wind direction.- (AFFECTED SECTOR FOR THESE WIND DIRECTIONS WILL ALWAYS BE WSW)
Odd Numbers - Whole Body Even Numbers - Thyroid Page 7 of 10 i.'
1
Attachment D EP-IF-009 Revision 2 l
Page 45 of 64 TABLE D-3 WIND SPEED CORRECTION FACTORS Wind Speed Correction Wind Speed Correction (MPH)
Factor (MPH)
Factor 0
10.0 0.1 10.0 6.0 0.17 0.2 5.0 7.0 0.14 0.3 3.3 8.0 0.13 0.4 2.5 9.0 0.11 0.5 2.0 0.6 1.7 10 0.100 0.7 1.4 20 0.050 0.8 1.3 30 0.033 0.9 1.1 40 0.025 50 0.020 1.0 1.00 60 0.017 2.0 0.50 70 0.014 3.0 0.33 80 0.013 4.0 0.25 90 0.011 5.0 0.20 100 0.010 1
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Page 8 of 10 l
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Attachment D EP-IP-009 1
l-Revision 2
]
Page 46 of 64 TABLE D-4 j
WHOLE BODY 00SE CORRECTION FACTOR l
Time Since Time Since Reactor Shutdown Correction Reactor Shutdown Correction i
(hrs.)
Factor
( h rs~. )
Factor Not Shutdown 1.10 0.01 1.10 6.0 0.44 i
0.02 1.05 7.0 0.37 0.03 1.00 8.0 0.37 0.04 1.00 9.0 0.35 0.05 1.00 0.06 1.00 10 0.33 0.07 1.00 20 0.22 0.08 1.00 30 0.18 1
0.09 1.00 40 0.16 50 0.15 0.1 1.00 60 0.14 0.2 0.95 70 0.14 j
0.3 0.93 80
'0.13 0.4 0.90 90 0.13 0.5 0.90 0.6 0.88 100 0.13 j
0.7 0.85 200 0.12 l
0.8 0.84 300 0.11 0.9 0.81 400 0.11 500 0.11 i
1.0 0.80 600 0.11 2.0 0.70 700 0.11 3.0 0.60 800 0.11 4.0 0.52 900 0.11 5.0 0.48 1,000 0.11 i
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Page 9 of 10 N
EP-IP-009 Revision 2 Page 47 of 64
~
TABLE 0.5 THYROIO DOSE CORRECTION FACTOR Time Since Time Since Reactor Shutdown Correction Reactor Shutdown. Correction (hrs.)
Factor (hrs.)
Factor Not Shutdown 0.80 0.01 0.80 6.0 1.6 0.02 0.80 7.0 1.6 0.03 0.80 8.0 1.7 0.04 0.80 9.0 1.8 0.05 0.80 0.06 0.81 10 1.9 0.07 0.82 20 2.4 0.08 0.83 30 2.6 0.09 0.84 40 2.9 50 3.0 0.1 0.84 60 3.2 0.2.
0.87 70 3.4 0.3 0.89 80 3.5 0.4 0.90 90 3.6 0.5 0.91 0.6 0.93 100 3.8 0.7 0.95 200 4.0 0.8 0.98 300 4.3 0.9 1.00 400 4.4 500 4.5 1.0 1.0 600 4.6 2.0 1.2 700 4.7 3.0 1.3 800 4.7 4.0 1.4 900 4.7 5.0 1.5 1,000 4.7 Page 10 of 10
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Attachment E l
EP-IP-009 Revision 2 Page 48 of 64 l
OVERLAY CALCULATION WORKSHEET
~
Date Data Time STABILITY CLASS WHOLE BODY Overlay'No Wind Noble Whole Uncorrected Corrected Speed Gas Body Whole Body Whole Body Correction X Release X Correction X.06 X Dose Rates
- Dose Rate Factor Rate Factor (from overlay)
(mrem /hr)
(Table D-3) (uCi/ min)
(Table D-4).
(2 miles)
X X
X.06 X (2 miles)
=
(5 miles)
(5 miles)
=
(10 miles) =
(10 miles)
THYROID OVERLAY NO Wind Iodine Thyroid Uncorrected Corrected Speed Release Dose Thyroid Thyroid Dose Rate Correction X Rate X Correction X
.6 X Dose Rates
=
Factor (uCi/ min)
Factor (from overlay)
(mrem /hr)
(Table D-3)
(Table D-5)
(2 miles)
X X
X
.6 X (2 miles)
=
(5 miles)
(5 miles)
=
(10 miles) =
(10 miles)
FORM EP-IP-009-2, Rev. 1, Page 1 of 1
Attachment F EP-IP-009 Revision 2 Page 49 of 64 Check (
)
F.1.0 Instructions for Manual Calculations F.1.1 Integrated and Projected Doses The integrated dose is'the total dose (mrem) ~
'that an individual receives from an initial release time to the present time release.
The projected dose is the total dose that a person will be expected to receive for the entire duration of the release. When considering emergency off-site dose calculations, the projected dose is the sum of the integrated dose plus the dose that the person will be expected to receive from the present time to some time in the future.
F.1.1.1 Before calculating the integrated and projected doses, the dose rate (mr/hr) may be obtained for both the whole body and thyroid from any of the three available dose calculational systems.
F.1.1.2 Integrated Dose - The total integrated dose (mrem) is calculated by multiplying the current dose rate (mr/hr) times the amount of time for which the release was occurring (usually 0.25 hrs) then adding this value to the previous integrated total dose as shown below.
~
INTEGRATED CURRENT TIME PREVIOUS DOSE RATE x RELEASE
+
INTEGRATED DOSE
=
(mrem)
(mrem /hr)
OCCURRING DOSE (hrs)
(mrem)
NOTE:
NORMALLY, RELEASE RATES ARE FOR A 15 MINUTE AVERAGE. THEREFORE TIME RELEASE OCCURRING WOULD BE 0.25 hrs (15 MIN).
Page 1 of 3
Attachment F EP-IP-009 Revision 2 Page 50 of 64 F.1.1.3 Projected Dose - The projected dose (mrem) is calculated by multiplying the current dose rate (mr/hr) by the amount of time for which the release is expected to continue (hours) and adding this value to the current total integrated dose (mrem) as shown below:
PROJECTED CURRENT TIME CURRENT DOSE RATE x RELEASE
+ INTEGRATED DOSE
=
(mrem)
(mrem /hr)
EXPECTED DOSE TO CONTINUE (mrem)
(hrs)
NOTE:
UNLESS SPECIFIC INFORMATION PERTAINING TO THE TIME THE RELEASE WILL BE TERMINATED IS AVAILABLE, THEN ASSUME THAT THE RELEASE WILL CONTINUE FOR SIX HOURS AND USE THIS AS YOUR PROJECTION TIME. THIS SIX-HOUR INTERVAL REPRESENTS THE AVERAGE AMOUNT OF TIME REQUIRED TO EVACUATE THE TEN-MILE EMERGENCY PLANNING ZONE.
F.2.0 Integrated Releases F.2.1 The Integrated release (uCi) is the total release which has occurred from the onset of
- the accident to the present time. The integrated release is calculated by multiplying the current release rate (pCi/ min) by the amount of time for which the release was occurring (usually 15 min.)
and adding this to the previous total integrated release as shown below.
Since SPING data is obtained every 15 minutes then the integration period is assumed to be 15 minutes. Calculate integrated releases as shown below:
INTEGRATED RELEASE TIME PREVIOUS RATE x
RELEASE
+ INTEGRATED RELEASE
=
(pC1)
(uCi/ min)
OCCURRING RELEASE (min)
(uC1)
Page 2 of 3
Attachm'ent F EP-IP-009 Revision 2 Page 51 of 64 F.3.0 Plume Travel Time To calculate the time the current release will arrive at the required distance, take the distance in miles, civi.de by the wind sp.eed in miles per_ hour, and add this,to the time the ~
' release left the stack (DATA TIME) as shown below:
CURRENT RELEASE DISTANCE (MILES)
DATA WIND SPEED (MPH)
+
TIME WILL ARRIVE
=
AT (TIME)
~
Page 3 of 3 l
Attachm'ent G I
Revision 2 Page 52 of 64 i
Check (
)
1 G.I.0 Instructions For Determination of Total Population Dose 1
(man-rem) 1 G.1.1 Estimates'of the popula. tion dose from an unexpected. release may be cotained by
' integrating the dose rate over the area of consideration then multiplying by the number l
of people living in that area.
G.1.2 This procedure provides for determination of the total population dose (man-rem) within the l
SSES 10 mile Emergency Planning Zone.
j G.2.0 Determination of Integrated Dose G.2.1 Obtain the total integrated whole body and thyroid doses (mrem), for the first affected sector at 2 miles, from the last Offsite Dose Calculation Worksheet convert units to rem and record this on the Population Dose Worksheet, Attachment H, Page 55.
G.2.2 Determine the total population within the first affected sector between 0-3 miles from the site using the DISTRIBUTION OF EPZ POPULATION, FIGURE G-1, Page 54, and record this on the Worksheet.
G.2.3 Multiply the total integrated whole body and l
thyroid doses (rem) at 2 miles by the total j
population residing between 0 and 3 miles from the site. This will yield an estimate of the total population dose to the whole body and thyroid within the affected sector out to 3 miles from the plant.
G.2.4-Obtain the population dose for each remaining segment of the sector for both the thyroid and whole body out to the perimeter of the EPZ boundary and record this on the POPULATION DOSE WORKSHEET.
Page 1 of 3 w-*r
Attachment G EP-IP-009 Revision 2 Page 53 of 64 G.2.5 Repeat steps G.2.1 through G.2.4 for each affected sector and record on the POPULATION DOSE WORKSHEET.
G.2.6 To determine the best estimate of the total.
population doses to the. thyroid and whole body (man-rem) as a. result of the, release, sum the ~
thyroid and whole body population doses per segment for each affected sector.
NOTE:
THIS PROCEDURE IS INTENDED TO BE USED AS A GUIDELINE TO ARRIVE AT A QUICK ESTIMATE OF THE TOTAL POPULATION DOSE AS A RESULT OF AN UNEXPECTED RELEASE FROM SSES.
IT IS NOT INTENDED TO YIELD DEFINITIVE RESULTS OF TOTAL POPULATICN DOSES.
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Page 2 of 3 l
I
Attach =cnt G EP-IP-009
'dJ Revision 2 Page 54 of 64
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Attachm'ent H EP-IP-009 Revision 2 Page 55 of 64 POPULATION DOSE WORKSHEET AFFECTED SECTOR C
A B
POPULATION POPULATION DOSE INTEGRATED INTEGRATED WHOLE WITHIN THE PER SEGMENT DISTANCE THYROID DOSE BODY DOSE FOLLOWING.
THYROID WHOLE BODY (MILES)
(REM)
(REM)
DISTANCES (MAN),(MAN-REM) (MAN-REM)
(A) x (C) (B) x'(C) 2.0 (0-3 miles) 5.0 (3-7 miles) 10.0 (7-EPZ
~~'
Boundary)
AFFECTED SECTOR C
A B
POPULATION POPULATION DOSE INTEGRATED INTEGRATED WHOLE WITHIN THE PER SEGMENT DISTANCE THYROID DOSE BODY DOSE FOLLOWING THYROID WHOLE BODY (MILES)
(REM)
(REM)
DISTANCES (MAN) (MAN-REM) (MAN-REM)
(A) x (C) (B) x (C) 2.0 (0-3 miles) 5.0 (3-7 miles) 10.0 (7-EPZ Boundary)
TOTAL POPULATION DOSE TO THYROID (MAN-REM)
TOTAL POPULATION DOSE TO WHOLE BODY (MAN-REM)
FORM EP-IP-009-3, Rev. O, Page 1 of 1
Attachment'I EP-IP-009 Revision 2 Page S6 of 64 c
I.1.0 INSTRUCTIONS FOR OBTAINING METEOROLOGICAL DATA NOTE:
Meteorological data is automatically input into the RADDOSE program on page 2 of 5 ' PROJECTED DOSE-WEATHER CONDITIONS'.
I.1.1 Simultaneously press "< SHIFT >" and "<GRP/PT>" keys.
' GROUP POINT DISPLAY SERVICES' will be displayed on.CRT.
I.1.2 Press "< TAB FWD >" TO ' GROUP NUMBER' and enter "14".
Press
"< TAB FWD >" to '0PTION' and enter "1" followed by "< SHIFT >"
"< EXEC)". MET DATA (EXPLAN DISPLAY) Figure I-1 should be displayed.
I.1.3 To assemble a group point if Figure I-1 is not displayed perform the following steps:
a.
Contact Operations to determine which Group Point may be deleted to add MET DATA - (E-Plan Display) prior to making any changes.
b.
Simultaneously press "< SHIFT >" and "<GRP/PT>" Keys.
c.
Press "< TAB FWD >" to ' GROUP NUMBER' and enter number indicated by Operations.
d.
Press "< TAB FWD >" to ' OPTION' and enter "2". Display will change to alter ' GROUP POINT DISPLAY SERVICES'.
Clear group by pressing "< TAB FWD >" to ' CLEAR GROUP' and e.
entering "X".
Assemble new group as per Figure I-1 tollowing instructions given at the bottom of the screen.
f.
Display assembled Group Point and future met data updates as outlined in Step I.1.1 and I.1.2.
I.1.4 If a Group Point is unavailable, meteorological data may be accessed through the single point identifications as follows:
a.
Simultaneously press "< SHIFT >" and "< SINGLE POINT >" Keys
' SINGLE POINT DATA REPORT SELECTION' will be displayed.
s Page 1 of 3 1
Attachment -I EP-IP-009 Revision 2 Page 57 of 64 l
b.
Press "< TAB FWD >" to ' STARTING POINT ID:' and enter single point ID per Figure I-1 followed by "< SHIFT >"
"< EXEC)".
c.
Display will change to ' SINGLE POINT DATA SERVICES' for that single point ID.
'EU VALUE' in the ;op right hand corner is the required met value..
d.
Repeat Steps a through c for remaining single point ID's' until all required data is obtained.
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Page 2 of 3
Attachment I r.o-Ip-n.09 Revision 2 Page 58 of 64
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i Attachment J EP-IP-009 Revision 2 Page 59 of 64 J.1.0 INSTRUCTIONS FOR OBTAINING GASECUS EFFLUENT RELEASE RATES J.1.1 Turn "KEYBOAR0" key switch clockwise to on position "KB ENABLE" light will go on.
NOTE:
Key is normally in the terminal.
J.1.2 Turn " HISTORY FORMAT" switch:to the "R'ELEASE RATE" position._
J.1.3 Press < HIST MIN > followed by the number 0301 RB Particulate and the < ENTER >. Wait for printout. The last 23 ten-minute averages of the activity (uCi or pCi/cc) will be displayed folicwed by the current activity.
J.1.4 Press < PRINT >, < FILE > (on lower Key pad) and < ENTER >. Wait for printout.
The last 23 ten-minute averages of the release rate (uCi/ min) will be printed.
J.1.5 The next to the last number on the printout is the average particulate release rate from the Unit 1 Reactor Building SPING vent monitor averaged over the previous 10 minutes.
The release rates are presented in uCi/ minute.
J.1.6 Repeat steps J.1.3 through J.1.5 substituting the following numbers for "0301" in step J.1.3 to obtain the. release rates for the additional channels.
- 1 Rx Bldg. Particulate 0301
- 1 Rx Bldg. Iodine 0303
- 1 Rx Bldg. Noble Gas 0305,0307,0309*
- 1 Turbine Bldg. Particulate 0501
- 1 Turbine Bldg. Iodine 0503
- 1 Turbine Bldg. Noble Gas 0505,0507,0509*
SGTS Particulate 0601 SGTS Iodine 0603 SGTS Noble Gas 0605,0607,0609*
- 2 Rx Bldg. Particulate 0401
- 2 Rx. Bldg. Iodine 0403
- 2 Rx. Bldg. Noble Gas 0405,0407,0409*
- 2 Turbine Bldg. Particulate 0701
- 2 Turbine Bldg. Iodine 0703
- 2 Turbine Bldg. Noble Gas 0705,0707,0709*
- See Step J.1.7.
(
Page 1 of 2
Attachment J EP-IP-009 Revision 2 Page 60 of 64 J.1.7 When accessing NG channels compare the next to the last number in the first printout (step J.1.3) to the following table. When values are greater than or equal to the upper limit listed for that channel the next range channel must be accessed.
CHANNEL RANGE LIMIT (uCi/cc).
XX05 LOW
< 2.2E-2 XXO7 MID E 7.8E1 XXO9 HIGH 5 7.8E1 J.1.8 Turn keyboard switch counter-clockwise to disable keyboard before leaving.
J.2.0 Presently, EOF personnel must obtain the Vent Release data via telephone lines.
1.
Normal path shall be from TSC Data Link to EOF Data Link.
2.
Alternate pathway shall be directly from TSC Dose Calculator to EOF Dose Calculator.
s Page 2 of 2
Attachment K CONTROz. NO.
EP-IP-009 TIME TPx SMITTED:
Revision 2 DATE:
Pige~61 of 64 OFFSITE DOSE CALCULATION WORKSHEET DATA TIME:
DATE:
ACCIDENT DATA TYPE Rx SHUTDOWN TIME /DATE ~
/
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MET DATA WIND DIRECTION FROM PRECIPITATION RATE in./hr.
WIND SPEED mph 6 TEMPERATURE
- C/50m.
SIGMA THETA STA3ILITY CLASS VENT RELEASE DATA IODINE (uC1/ min.)
NOBLE GAS (uCi/ min.)
1R 2R IT 2T SEGT TOTAL DOSE DATA:
CAICULATION SEQUENCE #
FROy.:
DOSE OVERLAY RADDOSE BACKCALCULATION MOTE: CIRCLE Emergency Plan Boundary Dose Rate if measured by monitoring team.
EPB mi.
2 mi.
5 mi.
10 mi.
z Current Dose Rate O
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Whole Body (mrem /hr)
U Thyroid (mrea/hr)
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Integrated Dese y
n8 Whole Body (mrem)
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Projected Dose for hours a>-=
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FORM EP-IP-009-1, Rev. 2, Page 1'of 5
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s LOCATION / DISTANCE:
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ACTUAL RELEASE RATES AT s
TIME RELEASE LEFT STACK:
TIME
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PROCEDURE COVER SHEET PENNSYLVANIA POWER & LIGHT CO.
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SUSQUEHANNA STEAM ELECTRIC STATION EP-IP-101
~
INVENTORY, INSPECTION, OPERATIONAL TESTING, AND Revision 1 CALIBRATION OF EMERGENCY EQUIPMENT AND SUPPLIES Page 1 of 51-l Effective Date b-14 ~K3 Expiration Date 10-i4-75' Revised ' Expiration Date 9
"I P PD 7 'T/r A R
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Date A us, x i 2 3 Reviewed by
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//.7i 75 PORC Review Required Ye M No ( )
Date Ci 7 '\\%~o Approved by Section Head.-r PORC Meeting Number P3-M/
Date
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- WR4e, Date
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Superintendent of Plant FORM AD-QA-101-1, Rev. 1 Page 1 of 1 0
6 0
i.
EP-IP-101 Revision 1 Page 2 of 51 TABLE OF CONTENTS
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SECTION PAGE 1.0 PURPOSE 4
2.0 SCOPE 4
3.0 REFERENCES
4 4.0 RESPONSIBILITIES 5
5.0 DEFINITIONS 7
6.0 INSTRUCTIONS 8
7.0 RECORDS 21 ATTACHMENTS ATTACHMENT PAGE A
Emergency Operations Facility 22 Equipment and Supplies B
Environmental Monitoring Kits 25 C
General Office Nuclear Emergency Support Center 26 Emergency Equipment and Supplies D
General Office Engineering Support Center 27 Emergency Equipment and Supplies E
Berwick Hospital Radiation Emergency 28 Equipment and Supplies F
Geisinger Medical Center Radiation Emergency 30 Equipment and Supplies G
Health Physic Van Radiation Emergency 32 Monitoring Equipment i
H Radiation Emergency Off-Site Monitoring 35 Equipment Kits I
Ambulance Emergency Equipment Kit 37 l
J Control Room Equipment 38 l
b:
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EP-IP-101 Revision 1 Page 3 of 51 ATTACHMENTS (Cont'd)
ATTACHMENT PAGE K
Station Decontamination Area Equipment 40 L
Eme gency Operation Facility Oecontamin_ation 42 Area and Health Physics Supplies M
Technical Support Center Equipment 46 N
Emergency On-Site Search and Rescue 48 First Aid Equipment 0
Damage Control Equipment Storage Box 49
EP-IP-101 Revision 1 Page 4 of 51 1.0 PURPOSE The purpose of this procedure is to provide a means of maintaining a complete inventory of required emergency equipment at all times.
2.0 SC0pE This procedure defines the various inventories of emergency equipment, the division of responsibilities for maintaining the inventories with required record-keeping, and the method and frequency of review and confirmation of such established inventories.
3.0 REFERENCES
3.1 NUREG-0654/ FEMA REP-1 Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclea.' Power Plants 3.2 10 CFR 60 Appendix.E 3.3 SSES Emergency Plan
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3.4 EP-IP-006 Search / Rescue /First Aid 3.5 EP-IP-012 On-Site Emergency Monitoring 3.6 EP-IP-013 Off-Site Emergency Monitoring Teams 3.7 EP-IP-016 Damage Control 3.8 AD-00-760 Performance Evaluation Program and Administrative Controls for Health Physics Instrumentation 3.9 Radiation Management Corporation Emergency Medical Assistance Program (as confirmed by 1/20/82 Letter of Agreement to Bruce D. Kenyon, Vice President-Nuclear Operations) 3.10 AD-00-540 Preventative Maintenance System
'3.1100I-399 SSES Public Notification System: Test and Maintenance 3.12 SSES FSAR 3.13 EP-IP-102 Surveillance Testing of Emergency Telecommunications Equipment l
i l
l
EP-IP-101 Revision.1 Page 5 of 51 4.0 RESPONSIBILITIES 4.1 Nuclear Support, under the direction of the Manager - Nuclear Support, is responsible for:
l Overall inventory and maintenance of emergency equipment and supplies 4.2 Supervisor - Nuclea~r Emerg'ency Planning (SNEP) under the direction of.
Manager - Nuclear Support, is responsible for:
Maintaining records of inspections, inventories, operational tests of emergency equipment and supplies as per Section 6.2 of this procedure.
NOTE:
The SNEP has the authority to sign a PM waiver list for any emergency equipment.
NOTE:
The SNEP will be responsible for filling out the PMIS PM Worklist after receiving these documented test results and returning the PM Worklist to the PMIS Center.
4:3 Distribution Department is responsible for:
Testing of Public Notification System as per section 6.3 of this procedure.
4.4 Environmental Group - Nuclear under the direction of the Environmental Group Supervisor - Nuclear is responsible for:
i Inspection and inventory of the environmental monitoring kits as per section 6.4 of this procedure.
4.5 Nuclear Administration under the direction of the Manager-Nuclear Administration is responsible for:
4.5.1 Inventory of emergency equipment and supplies at the General Office Nuclear Emergency Support Center as per section 6.5.1 in this procedure.
4.5.2 Inventory of emergency equipment and supplies at General Office Engineering Support Center as per section 6.5.2 in this procedure.
I 4.6 Radiation Management Corporation (RMC) is responsible for:
The inventory review and maintenance of the radiation emergency supplies and equipment maintained at Berwick Hospital, Attachment E, and Geisinger Medical Center, Attachment F on a semi-annual basis as per the Emergency Medical Assistance Program Letter of Agreement.
EP-IP-101 Revision 1 Page 6 of 51 4.7 Instrument and Controls (I&C), under the direction of the I&C Supervisor is responsible for:
Scheduling and calibrating all portable radiation survey and air sampling instruments as per section 6.7 in this procedure.
4.8 Health physics (HP) - under the direction of the Health Physics Supervisor is responsible for:
~
Inspection, inventory and calibration of all Health Physics instruments and supplies as per section 6.8 in this procedure.
NOTE:
The HP Supervisor has the authority to sign a PM waiver list for eme.gency equipment under the responsibility of Health Physics.
4.9 Plant Staff Emergency Planning Coordinator, under the direction of the Technical Supervisor is responsible for:
Inventory review of Technical Support Center equipment as per section 6.9 of this procedure.
NOTE:
The Te'chnical Supervisor has the authority to sign a PM Waiver list for any emergency equipment under the responsibility of the Shift Technical Advisor Group.
4.10 Safety and Health Consultant is responsible for:
Inventory review of emergency on-site search and rescue first-aid equipment and supplies as per section 6.10 of this procedure.
NOTE:
The Safety and Health Consultant has the authority to sign a PM waiver list for emergency equipment under his responsibility.
4.11 Mechanical Maintenance under the direction of the Supervisor of Maintenance is responsible for:
Inventory review of emergency damage control equipment as per Section 6.11 of this procedure.
NOTE:
The Supervisor of Maintenance has the authority to sign a PM waiver list for emergency equipment under the responsibility of Mechanical Maintenance.
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b EP-IP-101 Revision 1 Page 7 of 51 5.0 DEFINITIONS 5.1 OSC - Operations Support Center 5.2 TSC - Technical Support Center 5.3 EOF - Emergency Operations Facility 5.4 SNEP - Supervisor - Nuclear Emergency Planning
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5.5 Health Physics' Instrumentation:
Instrumentation-as defined in the FSAR, section 12.5, may be categorized as follows:
5.5.1 Laboratory Counting Instrument: An instrument used to
~
provide quantitative analysis of contamination and/or airborne activity, e.g. Ludlum 2218.
5.5.2 Portable Radiation Survey Instrument: An instrument which possesses a self-contained power supply, which allows it to operate independently of an external power source, e.g.
Eberline E-520, E-140N, etc.
5.5.3 Portable Air Sampling Instrument: An instrument used with various filter media to sample air during predetermined intervals for particulate and gaseous radionuclides, e.g.
Radeco Low Vol 5.6 Self Reading Dosimeter: A portable pencil shaped ion chamber which records integrated gamma radiation exposure that can be read at any time.
5.7 TLD: A thermoluminescent dosimeter which must be heated in a special instrument to retrieve exposure information.
5.8 Public Notification System - An early alert stron system consisting of 110 sirens ranging from 107 db to 125 ob existing within the ten-mile Emergency Planning Zone (EPZ) around Susquehanna SES. Activation of the siren system is via radio control from Luzerne County Civil Defense and Columbia County Emergency Management Agency E.O.C.
5.9 Potassium Iodide (KI) tablets'- A " thyroid blocking agent" which reduces the uptake of radioactive I-131 by the thyroid and therefore reduces the dose to the thyroid significantly.
5.10 PMIS - Plant Maintenance Information System is a computer based system intended to assist in the scheduling, tracking, and historical retention of work activities performed at Susquehanna SES.
1
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EP-IP-101 Revision 1 Page 8 of 51 5.11 PM Worklist - A method of preventative maintenance activity control which is a working document listing work activities or tasks to perform that do not affect system operability. This document is generated weekly and mailed from the PMIS center to each responsible section.
5.12 PM Waiver List - A weekly generated document which lists the preventative maintenance activities which have been waived in the last week.
(unable to be performed due.to. extenuating circumstances). Thi.s list is completed by noting the reason a particular activity was waived and signed off by the responsible supervisor for that activity.
6.0 INSTRUCTIONS 6.1 Nuclear Support 6.1.1 Complete and submit all Preventative Maintenance Worklist.
Input forms, Form AD-00-540-5, necessary to support this procedure to PMIS.
6.1.2 Approve and submit all resulting Computer Approval Sheets necessary to support this procedure to PMIS.
l 6.1.3 Inventory and inspect all Emergency Operations Facility equipment and supplies every calendar quarter and after each use.
a.
Inventory all Emergency Operations Facility equipment and supplies using Attachment A, " Emergency Operations Facility Equipment and Supplies".
Visually inspect all equipment and replace any equipment l
which shows deterioration or abuse. Note any item l
replaced in required column and note why it was
- replaced, b.
Complete and file Attachment A c.
Fill out the PMIS PM Worklist for Attachment A and return it to PMIS.
6.1.4 Inventory and Inspect all ten emergency off-site monitoring kits stored at the EOF every calendar quarter and after each use.
NOTE:
An actual inventory does not have to be performed if the break way security seal is intact. An unbroken seal will serve to verify that the inventory is complete.
O P
EP-I?-101 Revision 1 Page 9 of 51 a.
Inventory all emergency off-site monitoring kits using Attachment H " Radiation Emergency Off-Site Monitoring Equipment Kit".
Complete a separate inventory sheet, Form EP-IP-101-8, for each kit and identify the kit number in the appropriate space provided on this form.
(1) Visually inspect al1 equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
(2) Verify that the expiration date on the potassium iodide tablets is not past due and also that it will not expire to the next required inventory.
If the expiration date is past due or will become past due prior to the next required inventory, replace the potassium iodide tablets with those which have not and will not expire prior to the next required o
inventory.
(3) Verify that instruments requiring calibration have been calibrated.
If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated.
Instruments to be recalibrated by the Health Physics group should be delivered to the Health Physics office, b.
Replace all non-rechargeable batteries in the portable radiation survey instruments with new batteries. Return replaced batteries to the Health Physics office, c.
Complete and forward Attachment H for each kit to the SNEP.
I d.
After sealing kits, fill out the PMIS PM Worklist for Attachment H and return it to the PMIS center.
6.1.5 Review completed inventory lists, Attachments A thru 0 and ensure identified deficiencies are corrected in a timely manner.
6.1.6 Fill out the PMIS PM Worklist for Attachments A,E,F and H and submit them to PMIS.
EP-IP-101 Revision 1 Page 10 of 51 i
6.1.7 Ensure performance of the operational testing of the Public Notification System as required by 10 CFR 50 Appendix E and 00I-399, SSES Pubite Notification System: Test and Maintenance.
6.2 Distribution Department 6.2.1 Verify operation of the.Public Notification. System's 110 sirens according to the following schedule as required by 10 CFR 50 Appendix E and 001-399 SSES Public Notification System: Test and Maintenance a.
Monthly: Perform a silent radio test, to show the siren controls were energized.
b.
Quarterly: Perform a growl test.
Start the siren up and immediately shut it down. The siren will not reach its peak sound level in this test.
c.
Annually:
Fully activate the sirens to verify that they reach peak sound production. This will enable a survey to be performed to determine the actual sound coverage throughout the 10 mile EPZ surrounding the plant.
G.2.2 Document all tests performed with results and submit these documents to the SNEP and to the Document Control Center for permanent record.
6.3 Environmental Group-Nuclear Inventory and inspect all environmental monitoring kits stored at the Biological Research Laboratory every calendar quarter and after each use.
6.3.1 Inventory all Environmental Monitoring Kits using Attachment B, " Environmental Monitoring Kits". Complete a separate inventory sheet, Form EP-IP-101-2, fcr each kit and identify the kit number in the appropriate space provided on this form.
Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
6.3.2 Complete and forward. Attachment B for each kit to the SNEP, 1
6.3.3 Fill out the PMIS PM Worklist for Attachment B and return it to PMIS.
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l EP-IP-101 Revision 1 Page 11 of 51 6.4 Nuclear Administration 6.4.1 Inventory and inspect all General Office Nuclear Emergency Support Center Emergency Equipment and Supplies every calendar quarter and after each use.
i a.
Inventory all General Office Nuclear Emergency Support Center Emergency Equipment and Supplies using Attachment C, " General Office Nuclear Emergency Support Center Emergency Equipment and Supplies" Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
b.
Complete and forward Attachment C to the SNEP.
c.
Fill out the PMIS PM Worklist for Attachment C and return it to PMIS.
6.4.2 Inventory and inspect all General Office Engineering Support Center Emergency Equipment and Supplies every calendar quarter and after each use.
a.
Inventory all General Office Engineering Support Center Emergency Equipment and Supplies using Attachment D,
" General Office Engineering Support Center Emergency Equipment and Supplies".
Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
b.
Complete and forward Attachment D to the SNEP.
c.
Fill out the PMIS PM Worklist for Attachment D and return it to PMIS.
6.5 Radiation Management Corporation 6.5.1 Inventory and inspect all Berwick Hospital radiation emergency equipment and supplies excluding survey instruments and dosimetry semi-annually and after each use.
I l
EP-IP-101 Revision 1 Page 12 of 51 a.
Inventory all Berwick Hospital radiation emergency equipment and supplies excluding survey instruments and dosimetry using Attachment E, "Berwick hospital Radiation Emergency Equipment and Suppites."
l Visually inspect all equipment excluding survey instruments and dosimetry and replace any equipmerit which shows deterioration or abuss. Note any item replaced in required column and note why it was replaced.
b.
Complete and forward Attachment E to the SNEP.
6.5.2 Inventory and inspect all Geisinger Medical Center radiation emergency equipment and supplies excluding survey instruments and dosimetry semi-annually and after each use.
a.
Inventory all Geisinger MedicaT Center radiathn emergency equipment and supplies using Attact- ' ' c, "Geisinger Medical Center Radiation Emergenc "ent and Supplies" Visually inspect all equipment excluding survey instruments and dosimetry and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
b.
Complete and forward Attachment F to the SNEP.
6.6 Instrument and Controls 6.6.1 Schedule all portable radiation survey instruments included in the inventory lists Attachments E,F,G,H,I,J,K,L for calibration on a quarterly basis.
6.6.2 Calibrate all portable radiation survey instruments included in the inventory lists Attachments E,F,G,H,I,J,K,L in accordance with A0-QA-620, " Portable Survey Equipment Calibration Program".
l 6.6.3 Document all calibrations performed by I&C with results and submit these documents to the Document Control Center to be entered into the microfilm system for permanent record.
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Revision 1 Page 13 of 51 6.7 Health Physics 6.7.1 Inventory station emergency Potasium iodide (KI) supplies stored in the Health Physics Emergency Equipment Room every calendar quarter to ensure an adequate stock is available and that expiration dates are current.
6.7.2 Inventory and' Inspect all. Health Physics Van radiation emergency monitoring equipment every calendar quarter and after each use.
a.
Inventory all Health Physics Van emergency equipment using Attachment G " Health Physics Van Radiation Emergency Monitoring Equipment" (1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
(2) Verify that the expiration date on the potassium iodide tablets is not past due and also that it will not expire prior to the next required inventory.
If the expiration date is past due or will expire prior to the next required inventory, replace the potassium iodide tablets with those which have not and will not expire prior to the next required inventory.
(3) Verify that instruments requiring calibration have been calibrated.
If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated.
Instruments to be recalibrated by the Health Physics group should be delivered to the Health Physics office.
b.
Replace all non-rechargeable batteries in the portable survey instruments with new batteries. Return replaced batteries to the Health Physics office.
c.
Complete and forward Attachment G to the SNEP.
1 d.
After inventory, fill out toe PMIS PM Worklist for Attachment G and return it to PMIS.
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EP-IP-101 Revision.1 Page 14 of 51 6.7.3 Inventory and inspect all ambulance emergency kit equipment stored at the North Gatehouse every calendar quarter and after each use.
NOTE:
An actual inventory does not have to be performed if the break away security seal is still intact.
An unbroken seal will serve.to verify that the invento'ry is complete. Survey instruments must be.
calibrated.every quarter however.
a.
Inventory all ambulance radiation emergency equipment using Attachment I, " Ambulance Emergency Equipment Kit" (1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
(2) Verify that instruments requiring calibration have been calibrated.
If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated.
Instruments to be recalibrated by the Health Physics group should'be delivered to the Health Physics office.
b.
Replace all TLD badges with new TLD badges and deliver the replaced TLD badges to the dosimetry group c.
Replace all non-rechargeable batteries in the portable survey instruments with new batteries. Return replaced batteries to the Health Physics office.
d.
After inventory, seal the ambulance kits with a break away security sell so that they cannot be opened without breaking the seal.
e.
Complete and forward Attachment I to the SNEP.
f.
After sealing the kits, fill out the PMIS PM Worklist for Attachment I and return it to PMIS.
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EP-IP-101 Revision 1 Page 15 of 51 6.7.4 Inventory and inspect all Control Room equipment located in the Operations Support Center every calendar quarter and after each use.
a.
Inventory all Control Room equipment located in the Operations Support Center using Attachment J, " Control Room Equi.pment".
~
(1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note, why l
it was replaced.
(
(2) Verify that instruments requiring calibration have been calibrated.
If calibration has. expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C
(
group, deliver it to the I&C group to be,
recalibrated.
Instruments to be recalibrated by the Health Physics group should be delivered to the Health Physics office.
(3) Verify that the expiration date on the potassium iodide tablets is not past due and also that it will not expire prior to the next required inventory.
If the expiration date is past due or will become past due prior to the next required inventory, replace the potassium iodide tablets with those which have not and will not expire prior to the next required inventory.
b.
Replace all non-rechargeable batteries in the portable survey instruments with new patteries. Return replaced batteries to the Health Physics office.
c.
Complete and forward Attachment J to the SNEP.
d.
After inventory fill out the PMIS PM Worklist for Attachment J and return it to PMIS.
1
s EP-IP-101 Revision 1 Page 16 of 51 t'
6.7.5 Inventory and inspect all station decontamination area equipment and supplies every calendar quarter and after each use.
Inventory each of the following decontamination stations; (1) Rx Bld Elevation 818', (2) Rx Bdg Elevation 719' NW Corner, (3) Rx Bld Elevstion 719' SE Corner, (4)
Control Structure Elevation 656', (5) Radwaste Bld Elevation 691',
(6) Radwaste Bld Elevation 646'. East, (7) Radwaste Bld Elevation 646'. West a.
Inventory all station decontamination area emergency equipment using Attachment K, " Station Decontamination Area Equipment". Complete a separate inventory sheet, Form EP-IP-101-11, for each station and identify the location and elevation for each station in the appropriate space provided on this form.
(1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note, why it was replaced.
(2) Verify that the expiration dates on the decontamination chemicals are not past due and also that they will not expire prior to the next required inventory.
If the expiration date is past due or will become past due prior to the next required inventory, replace the chemicals with fresh chemicals which will not expire prior to the next required inventory.
(3) Verify that instruments requiring calibration have been calibrated. If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated.
Instruments to be recalibrated by i
the Health Physics group should be delivered to the I
Health Physics office.
b.
Complete and forward Attachment K for each decontamination station to the SNEP.
c.
After inventory fill out the PMIS PM Worklist for Attachment K and return it to PMIS.
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EP-IP-101 Revision 1 Page 17 of 51 6.7.6 Inventory and inspect all Emergency Operations Facility decontamination area and Health Physics equipment and supplies every calendar quarter and after each use.
a.
Inventory all EOF radiation emergency decontamination area and Health Physics supplies using Attachment L,-
" Emergency Operations Facility Decontamination Area and Health Physics Supplies"-
(1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
[
(2) Verify that the expiration date on the potassium iodide tablets is not past due and also that it will not expire prior to the next required inventory.
If the expiration date.is past due or will become past due prior to the next required inventory, replace the potassium iodide tablets with those which have not and will not expire prior to the next required inventory.
(3) Verify that the expiration dates on the decontamination chemicals are not past due and also that they will not expire prior to the next required inventory.
If the expiration date is past due or will become past due prior to the next required inventory, replace the chemicals with fresh chemicals which will not expire prior to the next required inventory._
(4) Verify that instruments requiring calibration have been calibrated.
If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated. Instruments to be recalibrated by the Health Physics group should be delivered to the Health Physics office.
b.
Complete and forward Attachment L to the SNEP c.
After inventory fill out the PMIS PM Worklist for Attachment L and return it to PMIS.
EP-IP-101 Revision 1 Page 18 of 51 6.7.7 Inventory and inspect all Berwick Hospital radiation emergency equipment and supplies semi-annually and after each use. RMC and the Health Physics section will alternate quarterly inventory and inspection responsibilities (Health Physics instruments must be inventoried every quarter by Health Physics).
a.
Inventory.a'll Berwick Hospital radiation emergency equipment and supplies using Attachment E, "Berwick Hospital Radiation Emergercy Equipment and Supplies" (1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
(2) Verify that instruments requiring calibration have been calibrated.
If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory. If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated.
Instruments to be recalibrated by the Health Physics group should be delivered to the Health Physics office.
b.
Replace all TLD badges with new TLD badges and deliver the replaced TLD badges to the dosimetry group.
c.
Replace all non-rechargeable batteries in the portable survey instruments with new batteries.
Return replaced l
batteries to the Health Physics office.
d.
Complete and forward Attachment E to the SNEP e.
After inventory fill out the PMIS PM Worklist for l
Attachment E and return it to PMIS.
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EP-IP-101 Revision 1 Page 19 of 51 6.7.8 Inventory and inspect all Geisinger Medical Center radiation emer'gency equipment and supplies every calendar quarter and after each use.
RMC and the Health Physics group will alternate quarterly inventory and inspection responsibilities, a.
Inventory all Geisinger. Medical Center radiation emergency equipment and supplies using Attachment F, "Geisinger Medical Center Radiation Emergency Equipment and Supplies" (1) Visually inspect all equipment and replace any equipment which shows deterioration or abuse.
Note any item replaced in required column and note why it was replaced.
(2) Verify that instruments requiring calibration have been calibrated.
If calibration has expired or will expire prior to the next required inventory, replace the instrument with a calibrated instrument which will not expire prior to the next required inventory.
If the instrument with the expired calibration date is to be calibrated by the I&C group, deliver it to the I&C group to be recalibrated.
Instruments to be recalibrated by the Health Physics group should be delivered to the Health Physics office.
b.
Replace all TLD badges with new TLD badges and deliver the replaced TLD badges to the dosimetry group.
c.
Replace all non-rechargeable batteries in the portable survey instruments with new batteries.
Return replaced batteries to the Health Physics office.
d.
Complete and forward Attachment F to the SNEP e.
After inventory fill out the PMIS PM Worklist for Attachment F and return it to PMIS.
6.8 Plant Staff Emergency Planning Coordinator Inventory and inspect all Technical Support Center equipment every calendar quarter and after each use.
6.8.1 Inventory all TSC equipment using Attachment M, " Technical Support Center Equipment"
EP-IP-101 Revision 1 Page 20 of 51 l
Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
6.8.2 Complete and forward Attachment M to the SNEP 6.8.3 After inventory fill out the PMIS PM Worklist for Attachment M and return it to PMIS 6.9 Safety and Health Consultant Inventory and inspect all emergency on-site search and rescue first-aid equipment located as indicated on Attachment N every calendar quarter and after each use:
6.9.1 Inventory all radiation emergency on-site first-aid equipment using Attachment N " Emergency On-Site Search and Rescue First-Aid Equipment" Visually inspect all equipment and replace any equipment
/
which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
6.9.2 Complete and forward Attachment N to the SNEP.
6.9.3 After inventory fill out the PMIS PM Worklist for Attachment N and return it to PMIS.
6.10 Mechanical Maintenance Inventory and inspect all damage control equipment stored outside the Health Physics Emergency Equipment Room in the control structure, Elevation 656',
every calendar quarter and after each use.
NOTE:
An actual inventory does not have to be performed if the break away security seal is intact. An unbroken seal will serve to verify that the inventory is complete.
6.10.1 Inventory all damage control equipment using Attachment 0,
" Damage Control Equipment Storage Box" Visually inspect all equipment and replace any equipment which shows deterioration or abuse. Note any item replaced in required column and note why it was replaced.
l 6.10.2 Complete and forward Attachment 0 to the SNEP l
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EP-IP-101 Revision 1 Page 21 of 51 6.10.3 After inventory, seal equipment box with a break away security seal so that it cannot be opened without breaking the seal 6.10.4 After sealing equipment box, fill out the PMIS PM Worklist for Attachment 0 and return it to PMIS.
- 7.0 RECORDS 7.1 The PMIS as outlined in AD-00-540; " Preventative Maintenance System" will provide the method of controlling overall documentation of inventories, inspections and operational tests as required by this procedure.
7.1.1 The responsible supervisor of each designated group will ensure the weekly completion of any PMIS PM Worklists he is responsible for and submit them to the PMIS center (except in cases where this responsibility has been given to the SNEP).
7.1.2 Information including inspection date, completion code, and employee performing the task from the PM Worklists will be entered into the computer system by PMIS personnel. This will update the PMIS master file automatically and the computer will then schedule the next date for the required activity.
7.1.3 PMIS will submit all PM Worklists to the Document Control Center (DCC) to be entered into the microfilm system for permanent record.
7.2 Additionally, the SNEP will receive records of all inventories, inspections, and operational tests of emergency equipment and supplies from the various responsible groups. The SNEP will review these records to ensure that identified deficiencies are corrected in a timely manner.
l
Inventory Date Attachment A Initials EP-IP-101 Revision 1 Page 22 of 51 Emergency Operations Facility Equipment (excluding H.P. equipment)
Replac~ed/
Comments Equipment Quantity (X if Present)
Documents Plant Technical Snecifications 1
Operating Procedures Manual I set Emergency Operating Procedures Manual 1
Final Safety Analysis Report 1 set Emergency Plan 1
Emergency Plan Implementing Procedures 1
Current Emergency Plans for:
Commonwealth of Pennsylvania 1
Luzerne County Civil Defense 1
Columbia County Emergency Management Agency 1
Off-site Population Distribution and Evacuation Plans 1
Dose Calculation Manual 1
Emergency Phone Directory 10 Emergency Planning Map with Off-site Monitoring Locations 1
Map Overlays for Dose Projection 1 set Rad Dose Computer 1
Calculators 3
Extension Cords 3
Document Control Area 35 mm Microfilm Reader / Printer 1
16 mm Page Search Microfilm Reader / Printer 1
Microfiche Dry Reader / Printer 1
Microfiche Reader 2
Microfilm Storage Cabinet 1
Microfiche Storage Cabinet 1
Aperature Card Storage Cabinets 2
Continued...
FORM EP-IP-101-1, Rev. O, Page 1 of 3-p 5'
Inventory Date Attachment A Initials EP-IP-101 Revision 1 Dage 23 of 51 Emergency Operations Facility Equipment (excluding H.P. equipment) i Replaced /
Comments Equipment Quantity (X if Present)
Clerical Supplies FACSIMILE 2
Copy Machines 2
Typewriters 2
Whiteboard erasers 10 Ory Erase Markers Black 20 Red 20 Green 20 Clipboard 12 Pads of Paper (81/2" x 11")
40 Pencils 60 l
Pens 60 j
Magic Marker Black 30 Red 30 Highlighters Yellow 15 Fink 15 Grease Pencils Black 10 Red 10 Green 10 Eraser Cloths for Grease Pencils 10 Scissors 5
Pencil Sharpener 5
3 Hole Punch 2
Scotch Tape Dispenser with Tape 5
Ruler, 12" 10 Paper Clips 5 Boxes Butterfly Clips 5 Boxes Thumb Tacks 5 Boxes Rubber Bands 5 Boxes Stapler 5
Staples 5 Boxes Fluorescent Worklight 5
Flashlight 5
l First Aid Kit 1
Continued...
FORM EP-IP-101-1, Rev. O, Page 2 of 3
l Inventory Date AttachmentIA Initials EP-IP-101 Revision 1 Page 24 of 51 Emergency Operations Facility Equipment (excluding H.P. equipment)
Replac'ed/
Comments Equipment Quantity (X if present)
Action Step Folders:
I Recovery Manager 1
Site Support Manager 1
Technical Support Manager 1
Radiological Support Manager 1
Communications Coordinator-EOF 1
Emergency Forms:
EP-IP-013 DATA Sheets 100 Incident Form EP-IP-002-1 100 Radiological Assessment Form EP-IP-002-2 100 Reviewed by SNEP 1
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FORM EP-IP-101-1, Rev. O, Page 3 of 3 i
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Attachment B EP-IP-101 Revision 1 Page 25 of 51 Kit No.
Inventory Date Initials Radiation Emergency Environmental Sample. Kit Replaced /
Comments i
Equipment (X if present)
List of Sample Collection Locations and Map Sample Collection Data Sheets Sample Labels (10)
Disposal Gloves (4 pair)
Ziploc Bags (20 - 1 gallon size)
Large Plastic Bags (2) ions Sample Containers (2 - 2 gallon size)
Flashlight with Extra Batteries Small Notebook and Clipboard Procedures for Emergency Environmental Sampling l
Plastic Beaker (1000 ml)
Air Filter Paper (1 sheet)
Air Filter Cartridge TLD Container Pliers Light Wire SRD's 0-200 mr (Two)
SRD's 0-100 R (Two)
Rain Suits (Two)
Reviewed by Reviewed by Environmental Group Supv.-Nuc.
SNEP FORM EP-IP-101-2, Rev. 1, Page 1 of 1 l
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Inventory Date Initials Attachment C EP-IP-101 General Office Nuclear Emergency Support Revision 1 Center Emergency Equipment and Supplies Page 26 of 51 Replaced / Comments Equipment Quantity (X if Present)
Documents Emergency Plan 1
g' Emergency Plan Implementing Procedures 1
General Office Support Managers Book 1
.t INPO Emergency Resources Manual 1
Two-Way Radio Operators Manual 2
3 Shickshinny Telephone Directories.
2.
'Allentown Telephone Directories 4
INPO Directories 3
Inter-Company Directories (PP&L) 4 Emergency Telephone Listing Notebook 1
Emergency Resources Manual 1
Basic SES Systems Book 1
Tape Recordina Equipment Norelco Tape Recorder with microphone 1
Norelco Pocket Tape Recorder with microphone 2
j Tapes for Pocket Tape Recc." der 12 Extra Batteries for Pocket Tape Recorder 4
Craig Cassette Recorder and tele-Recorder 150 1
1 l
Portfolio Folders Technical Update 1
Conference Call Tape 1
CMC Release 1
Press Release 1
Unmarked 2
Magnetic Signs 8
Emergency Drill Release Forms 50 Pads of Rediforms SH555 for Log 3
Pads of Paper 4
In and Out Boxes 4
Stapler t
1 s
3 Hole Punch 1
Inventory List of Supplies 20 Ruler 1'
Pens and Pencils 10 each Scissors 1
Scotch tape dispenser with tape 1
Reviewed by Reviewed by Mgr.-Nuc. Admin SNEP FORM EP-IP-101-3, Rev. O, Page 1 of 1
m u
2-Inventory Date -
Attachment D Initials EP-IP-101 Revision 1 Page 27 of 51 General Office Engineering Support Center Emergency Equipment and Supplies Replac'ed/
Comments Equipment Quantity IXifPresent)
Documents Plant Technical Specifications 1
Final Safety Analysis Report 1 set
- System Description Manuals I set Steam Tables 1 set Misc. Equipment Bookcase 1
~
Tackboard 2
~ " '
Thumbtacks 2 Boxes
~
Whiteboard 4
~
Whiteboard erasers 5
Dry Erase Markers 10 Reviewed by Reviewed by Mgr.-Nuc. Admin.
SNEP l
FORM EP-IP-101-4, Rev. O, Page 1 of 1
_r Attachment E EP-IP-101 Revision 1 Page 28 of 51 Inventory Date Initials Berwick Hospital Radiation Emergency Equipment and Supplies Responsible Replaced /
Equipment Quantity Group Comments (X if present)
Eberline RM-14 WHP 210 probe
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HP Eberline E-520 GM instrument 1
HP Eberline R0-2A ion chamber 1
HP Self Reading Dosimeters, 0-200 mR 10 HP Thermoluminescent Dosimeters, 10 HP badge type Thermoluminescent Dosimeters, 10 HP ring type Dosimeter Charger 1
HP/RMC*
Decontanination Table Top 1
HP/RMC Lead Container, high activity 1
HP/RMC samples 1
HP/RMC Decontamination Kit Sample-Taking Kit 1
HP/RMC Hose; low pressure w/ shower head 1
HP/RMC and valve Protective Clothing Packs 12 HP/RMC Masking Tape, 2" roll 10 HP/RMC Set'of radiation signs and ribbon 1
HP/RMC Continued...
- Quarterly inventory to be performed. Responsibility for inventory to rotate every quarter between Radiation Management Corporation and the Health Physics group FORM EP-IP-101-5, Rev. O, Page 1 of 2 l
r.
E
i Attachm'ent E EP-IP-101 Revision 1 Page 29 of 51 Responsible Replaced /
Equipment Quantity Group Comments (X if present)
Batteries, for instruments as sufficient HP/RMC*
Misc. Plastic bags as sufficient HP/RMC Step-off pads as sufficient, HP/RMC
' Stanchions as sufficient HP/RMC Herculite-white, green, and as sufficient HP/RMC yellow Reviewed by Reviewed by H.P. Supv. or RMC SNEP l
l
- Quarterly inventory to be performed. Responsibility for inventory to rotate every quarter between Radiation Management Corporation and the Health Physics group i
FORM EP-IP-101-5, Rev. O, Page 2 of 2 1
- 1 Attachment F 1
EP-IP-101 Revision 1 Page 30 of 51 j
Inventory Date Initials Geisinger Medical Center Radiation Emergency Equipment and Supplies Responsible Replaced /
Equipment Quantity
~
Group Coinments (X if present)
Eberline RM-14 W/HP 210 probe 1
HP Eberline E-520 GM instrument i
HP Eberline R0-2A ion chamber 1
HP Self Reading Dosimeters, 0-200 mR 10 HP l
Thermoluminescent Dosimeters, 10 HP badge type Thermoluminescent Dosimeters, 10 HP ring type Dosimeter Charger 1
HP/RMC*
Decontamination Table Top 1
HP/RMC Lead Container, high activity 1
HP/RMC l
samples Decontamination Kit 1
HP/RMC Sample-Taking Kit 1
HP/RMC Hose; low pressure w/ shower head 1
HP/RMC l
and valve 1
12 HP/RMC l
Protective Clothing Packs Masking Tape, 2" roll 10 HP/RMC Continued...
- Quarterly inventory to be performed.
Responsibility for inventory to rotate every quarter between Radiation Management Ccrporation and the Health Physics group FORM EP-IP-101-6, Rev. O, Page 1 of 2 o
(~
y
. -. ~.
Attachment F EP-IP-101 Revision 1 Page 31 of 51 Responsible Replaced /
Equipment Quantity Group Comments (X if present)
Set of radiation signs and ribbon 1
HP/RMC*
Batteries, for instruments as, sufficient.
HP/RMC
' Misc. Plastic bags as sufficient HP/RMC Step-off pads as sufficient HP/RMC Stanchions as sufficient-HP/RMC Herculite-white, green, and as sufftetent HP/RMC yellow Reviewed by Reviewed by H.P. Supv. or RMC SNEP
- Quarterly inventory to be performed. Responsibility for inventory to rotate every quarter between Radiation Management Corporation and the Health Physics group FORM EP-IP-101-6, Rev. O, Page 2 of 2 l
l Attachment G EP-IP-101 Revision 1 Page 32 cf 51 Inventory Date Initials Health Physics Van Radiation Emergency Monitoring Equipment Replaced /
Equipment
~ Quantity Comments (X if present).
- Eberline E-520 with SK-1 speaker 1
- Portable Frisker with probe (Eberline 1
RM-14, E-140N, or Victoreen 425)
- Ion Chamber, High range (Victoreen 1
panoramic or Eberline R0-2A)
- Ludlum 2218 dual channel analyzer, 1 set detector, & power cord Radeco Low Volume Air Sampler with I
head (AC powered)
Radeco Low Volume Air Sampler with 1
DC power plug Spare Frisker Cable 1
VHF mobile base station radio 1
- VHF portable radio, charger 1
and spare battery Full face respirator mask 2
Iodine canister 2
Vial of Potassium Iodide Tablets 1
l Continued...
- Located in emergency radiation detection equipment box stored in Health Physics Emergency Equipment Room
- Located in Health Physics Office FORM EP-IP-101-7, Rev. O, Page 1 of 3 I:
l
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Attachm'ent G EP-IP-101 Revision 1 Page 33 of 51 Replaced /
Equipment Quantity Comments (X if present)
Self Reading Dosimeter, 0-5R 2
1 Dosimeter Charger
~
' Set of Anti-Contamination Clothing 2
Protective gloves, cloth and plastic 20 Copy of Emergency Plan 1
Copy of EP-IP-012 On-Site Emergency Monitoring 2
Copy of EP-IP-013 Off-Site Emergency Monitoring 2
Extra Data Sheets 50 Pen 2
Pencil 2
Magic Marker 2
Clip board 1
Calculator 1
Emergency Planning Map 1
Check source 1
Silver Zeolite cartridges 10 Particulate Filters, box 1
Tweezers 1
Stopwatch 1
Sample bottles 10 Duct Tape, roll 1
Continued...
FORM EP-IF-101-7, Rev. O, Page 2 of 3
Attachment G EP-IP-101 Revision 1 Page 34 of 51 Repikced/
Equipment Quantity Comments (X if present)
Radioactive Material Stickers, roll 1
Labels for air samples 10 Masslin Cloths 10 Whatman No. 2 filter papers, oox 1
Plastic bags, 3 sizes (4" x'6", 8" x 8",
20 each 12" x 15")
Extension cord 1
Work light, fluorescent 1
Flashlight 1
Utility knife 1
First Aid Kit 1
Spare batteries 9 volt battery 6
AA cell battery 2
D cell battery 2
Spare fuses for Air sampler 2
Step off pads 2
Rad ribbon and signs as sufficient Barrier rope with flags as sufficient Reviewed by Reviewed by H.P. Supv.
SNEP FORM EP-IP-101-7, Rev. O, Page 3 of 3 0
I
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s Attachment H EP-IP-101 Revision 1 Page 35 of 51 Kit No.
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Inventory Date Initials Radiation Emergency Off-Site Monitoring Equipment Kit Replaced /.
Equipment Quantity Comments (X if oresent)
Clipboard 1
Pad of Paper 1
Magic Marker 1
Pens 2
Pencils 2
Emergency Planning Map 1
Grid Coordinate Map 1
Copy of EP-IP-013, Off-site 1
Emergency Monitoring Off-site Monitoring Data Sheets 50 Stopwatch 1
Tweezers 1
~
Eberline R0-2 1
Low Volume Air Sampler 1
Air Sampler Head 1
Ludlum 2218 dual channel analyzer, 1 set detector, and power cord Dosimeter, 0-500 mR or 0-200 mR 2
Dosimeter, 0-5 R 2
Continued...
FORM EP-IP-101-8, Rev. g, Page 1 of 2 1
i
. i Attachm'ent H EP-IP-101 Revision 1 Page 36 of 51 Replachd/
Equipment Quantity Cc;nments (X if present)
Dosimeter Charger 1
Vial of Potassium Iodide 2
~
Check source 1
~
Radioactive Material Stickers, roll 1
Particulate Filters, box 1
Silver Zeolite Cartridges 10 Disposable Plastic Gloves 20 Plastic sample bags-approximate sizes:
4" x 6" plastic bags 20 8" x 8" plastic bags 40 12" x 15" plastic bags 10 Calculator 1
Extension cord 1
Worklight, Fluorescent 1
Flashlight 1
Spare Battery and Fuse Kit 9 volt battery 4
0 cell battery 7
Fuses for Air Sampler 2
Masking tape, roll 2
l l
Labels, air sample bags 25 Screw Driver 1
i Rain Suit:
2 l
Reviewed by Reviewed by H.P. Supv.
SNEP l
FORM EP-IP-101-8, Rev.1, Page 2 of 2 l
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.- ~.
i Attachment I EP-IP-101 Revision 1 Page 37 of 51
-l l
Inventory Date
)
Initials Ambulance Emergency Equipment Kit Replaced /
Equipment Quantity _
Comments (X if present)
Plastic sheeting, 8' x 20' 1
l Ouct tape, rolls 2
j l
Misc. Plastic bags 10 4
Set of anti-contamination clothing 6
Extra plastic gloves 20 1
3 Extra plastic shoe covers 20 Self Reading Dosimeter, 0-200 mR 6
Dosimeter charger 1
Thermoluminescent dosimeter badges 6
Portable Frisker, Eberline E140-N 1
l i
Reviewed by Reviewed by H.P. Supv.
SNEP i
'l J
FORM EP-IP-101-9, Rev. O, Page 1 of 1
Attachment J EP-IP-101 Revision 1 Page 38 of 51 Inventory Date Initials Control Room Equipment Replaced /
Equipment Quantity Comments
~
(X if present)
Portable frisker with probe 2
Low Volume Air Sampler with Head 1
High Volume Air Sampler with Head 1
Ion Chamber survey instrument (RO-2A) 1 GM Survey instrument (teletector) 1 Spare frisker cable 2
Spare frisker probe 4
Box of particulate filter paper (low vol) 1 Box of particulate filter paper (high vol) 1 Silver Zeolite Cartridges 20 Spare Batteries and fuses 9 volt ~
6 C cell 4
Fuses for Air Sampler 2
0 cell 4
Portable Worklight 2
Extension Cord 2
Dosimeter Charger 1
Self Reading Dosimeters 0-1 R 12 0-50 R 12 Continued...
FORM EP-IP-101-10, Rev. O, Page 1 of 2 l'
Attachment J EP-IP-101 Revistori i Page 39 of 51 Replaced /
Equipment Quantity Comments (X if present)
Vials of Potassium Iodide Tables 12 Anti-Contamination Clothing Coveralls 1 case Plastic gloves I box Shoe Covers I case Cotton glove liners 6 dozen Surgeon Caps 12 Full face Respirator 12 Iodine Filter Canisters 12 SCBA 6
Spare SCBA tanks 6
Emergency Plan Implementing Procedures 1 set Energency Planning Map with off-site 1
sampling locations Map Overlays for Dose Projection 1 set On-site Monitoring Locations Map 1
Rad Dose Computer 1
15 minute escape device 12 First Aid Kit 1
Keys to Health Physics Van (key locker) 1 set l
Emergency Plan keys (key locker) 2 sets l
t
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Reviewed by Reviewed by H.P. Supv.
SNEP FORM EP-IP-101-10, Rev. O, Page 2 of 2 l
i Attachment K EP-IP-101 Revision 1 Page 40 of 51 Location (Building and elevation)
Inventory Date Initials Station Decontamination Area Equipment Replaced /
Equipment Quantity Comments (X if oresent)
Copy of HP-TP-624, " Personnel Decontamination" 1 Personnel Contamination Reports Forms 20 Disposable Gloves 1 box Shoe Covers paper 24 Cotton gloves 2 doz.
Coveralls (Disposable) 12 Decontamination Soap 1 Bottle Lotion Skin Cleaner 1 Bottle Cotton tipped swabs 100 Hand Brushes 2
Decontamination chemicals Titanium Dioxide 1 container 4% Potassium permanganate 1 Bottle 4% Sodium bisulfate 1 Bottle l
Hand Cream 1 Bottle l
Disposable Razors 4
Scissors 1
l Tweezers 1
Continued...
FORM EP-IP-101-11, Rev. O, Page 1 of 2 r
Attachment K EP-IP-101 Revision 1 Page 41 of 51 Replaced /
Equipment Quantity Comments (X if present)
Paper Towels 1 Box Masking Tape 1 Roll Assorted Sponges 4
Fri sker 1
Spare Frisker probe 1
Spare Frisker cable 2
Reviewed by Reviewed by H.P. Supv.
SNEP l
l FORM EP-IP-101-11, Rev. O, Page 2 of 2
Attachment L EP-IP-101 Revisica 1 Page 42 of 51 Inventory Date Initials Emergency Operations Facility Decontamination Area and Health Physics Supplies Replaced /
Decontamination Quantity Comments Area Equiement (X if present)
Copy of HP-TP-624, " Personnel Decontamination" 1 Personnel Contamination Report Forms 20 Disposable Gloves 1 Box Shoe Covers paper 24 Cotton gloves 2 doz.
Coveralls (Disposable) 12 Decontamination Soap 1 Bottle Lotion Skin Cleaner 1 Bottle Cotton tipped swabs 100 Hand Brushes 6
Decontamination chemicals Titanium Dioxide 1 container 4% Potassium permanganate 1 Bottle 4% Sodium bisulfate 1 Bottle Hand Cream 1 Bottle Disposable Razors 4
Scissors 1
Tweezers 1
Continued...
l i
l i
FORM EP-IP-101-12, Rev. 1, Page 1 of 4 l
I:
B
Attachment L EP-IP-101 Revision 1 Page 43 of 51 Repl ac_ed/-
Decontamination Quantity Comments Area Equipment (X if present)
Paper Towels 1 Box Masslin Cloths 2 Boxes Masking Tape, 2" roll i Roll Assorted sponges 4
Other Health Pnysics Supplies Ludlum Dual Channel Analyzer with detector 2
Portable frisker with probe 5
Spare frisker probe 10 Spare frisker cable 24 Ion Chamber Survey Instrument 2
GM Survey Instrument 5
Low Volume Air Sampler 5
Portable filter papers 12 Boxes Silver Zeolite Cartridges 100 Potassium Iodide tablets 100 Vials Self Reading Dosimeters 0-200 mR 100 0-5 R 50 0-100 R 40 Continued...
FORM EP-IP-101-12, Rev. 1, Page 2 of 4 i
l l
~
Attachm'ent L EP-IP-101 Revision 1 Page 44 of 51 Replaced /
Decontamination Quantity Comments Area Equipment (X ff present)
Dosimeter Charger 5
Anti-Contamination Clothing Coveralls (Disposable) 12 cases Plastic gloves 12 Boxes Shoe covers 12 cases Cotton Glove Liners 12 cases Disposable caps 2 cases Plastic suits 2 cases Full face respirators 50 i
Respirator filters Particulate canister 100 Iodine canister 50 SCBA 2
Spare SCBA Tank 2
Smear Papers 3 Boxes Stopwatch 1
Survey forms 100 Pocket Knife 1
Spray Paint for Area Marking (Magenta) 5 cans Radiological Signs 20 Assorted Inserts for signs 20 each
(
" Radioactive Material" Stickers 3 rolls
" Radioactive Material" Tape 5 rolls Barrier Rope with Stanchions 1 roll l
Masking Tape (2" roll) 25 rolls Continued...
l l
FORM EP-IP-101-12, Rev. 1, Page 3 of 4 i
f,
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t
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Attachment L EP-IP-101 Revision 1 Page 45 of 51 Replaced /.
Decontamination Quantity Comments Area Equipment (X if present)
Duct Tape (2" roll) 5 rolls Plastic Sheeting 20' x 30' Poly Bags 25 Spare Batteries 9 volt 20 D cell 20 Spare fuses for air sampler 20
(
Reviewed by Reviewed by H.P. Supv.
SNEP FORM EP-IP-101-12, Rev.1, Page 4 of 4 D.
k
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Attachment M EP-IP-101 Revision 1 Page 46 of 51 Technical Support Center Equipment Replaced /
Comments Equipment Quantity (X if present)
Documents Plant Technical Specifications 1
Operating Procedures Manual I set Emergency Operating Procedures Manual 1
Final Safety Analysis Report 1 set Emergency Plan 1
Emergency Plan Implementing Procedures 1
Cose Calculation Manual 1
Plant as built drawings I set Emergency Phone Directory 10 Status Boards TSC Open Items 1
Big Picture (Rx parameters, Rad-Data, ECCS in/out of service) 1 Elevation Floor Plans 1 set Action Steps I set Team Tracking 1 set Release Rate Trending Graph 1
TSC Personnel on Duty 1
Emergency Planning Map with Offsite 1
Monitoring Locations On-site Monitoring Locations Map.
1 Document Control Area:
35 mm Microfilm Reader / Printer 1
16 mm Page Search Microfilm Reader / Printer 1
Microfiche Dry Reader / Printer 1
Microfilm Storage Cabinet 1
Microfiche Storage Cabinet 1
Aperature Card Storage Cabinet 2
Desk Top Copy Machine 1
FACSIMILE 1
Continued...
FORM EP-IP-101-13, Rev. O, Page 1 of 2
Attachment M EP-IP-101 Revision 1 Page 47 of 51 i
Replaced /
Comments Equipment Quantity (X if present)
Furniture:
Misc. Storage Cabinets 3
Desks 7
Desk Chairs 30 Book Cases 5
Tables 6
Action Step Folders:
Emergency Director 1
Communications Coordinator-TSC 1
Radiological Support Coordinator 1
Log Books:
t Emergency Director 1
Communications Coordinator-TSC 1
Radiological Support Coordinator 1
Radioman 1
(
Reviewed by Reviewed by Tech. Supv.
SNEP l
FORM EP-IP-101-13, Rev. O, Page 2 of 2 t
9 Attachment N EP-IP-101 Revision 1 Page 48 of 51 Inventory Date
~
Initials Emergency On-Site Search and Rescue First Aid Equipment Replaced /
Comments Equipment Quantity. (X if oresent) Locations First Aid Team Initial Response 4
North Gate House Kit with inventory sheet Control Room HP Office S&A First-Aid Rm. S&A Trauma Kit with inventory sheet 1
First-Aid Rm. S&A.
Adjustable litters 2
First-Aid Rm. S&A
(
Folding litter 1
First-Aid Rm. S&A Basket Stretcher 1
First-Aid Pm. S&A Scoop Stretcher 1
First-Aid Rm. S&A Assorted Air Splints 12 First-Aid Rm. S&A Assorted Padded Board Splints 36 First-Aid Rm. S&A Portable Oxygen-Demand Valve 1
First-Aid Rm. S&A (size O tank) with assorted air-ways, cannulas, and masks Reviewed by Reviewed by Safety and Health SNEP Consultant FORM EP-IP-101-14, Rev. O, Page 1 of 1
'~'
EP-IP-101 Revision 1 Page 49 of 51 Inventory Date Initials Damage Control Equipment Storage Box Replaced /
Comments Equipment Quantity (X if present) -
Screwdrivers, Large St.
2 Screwdrivers, Medium St.
2 Screwdrivers, Phillips, Large 2
Screwdrivers, Phillips, Medium 2
Hammer, Ball Peen, 16 Oz.
2 Bars, Pry, Rolling Lead 2
Bars, Pry, Large 2
Wrench, Adjustable, 12" 2
Wrench, Adjustable, 8" 2
Pliers, Water Pump 2
Pliers, Lineman 2
Wrenches, Hex, 24" 2
Wrench, Chain 1
Wrench, Pipe, 18" 1
Wrench, Pipe, 14" 1
Nylon Rope, 100' coils, 3/4" 2
Nylon Rope, 50' coil, 3/8" 1
I Continued...
l FORM EP-IP-101-15, Rev. O, Page 1 of 3 b
?
EP-IP-101 Revision 1 Page 50 of 51 Replaced /
Comments Equipment Quantity (X if present)
Nylon Rope, 50' coils, 3/4" 2
Nylon Rope, 25' coil, 3/8" 1
Twine, Bale 1
String, Ball 2
Plastic Sheet, 20' x 20', Fire Retardant-3 Flashlight, 5 cell 1
Clamps, C, Small 2
Clamps, C, Medium 2
2 Clamps, C, Large Bucket, 14 Qt., Plastic 1
Rubber, Roll, 1/16" Thick, 10' x 3' 1
Hammer, Sledge, 10 lb 1
Hammer, Sledge, 8 Lb 1
Plugs, Wooden Box,1",1-1/4",
1-1/2", 2",
2-1/2", 3" 4 ea.
Enerpac, Rescue Unit.
1 Black Wire, 1/4 lb Rolls, 16 Gauge 2
Wedges, Wooden 24 Continued...
FORM EP-IP-101-15, Rev. O, Page 2 of 3 l
,~
s r-EP-IP-101 Revision 1 Page 51 of 51 Replaced /
Comments Equipment Quantity (X if present)
Box, Tool, 23" 1
~
Wrench, Allen Pac 3/16", 7/32", 1/4", 5/16", 3/8" 2 Packs Wrench, Allen Pac
.050", 1/16", 5/64", 3/32", 7/64",
1/8", 9/64", 5/32", 3/16", 7/32"
'2 Packs Electricians Pouch with mi cellaneous hand tools 2
Cable Cutters 1
Multimeter 1
(
Wood Plugs 1" + 6" 2
Hex Wrench #110 2
Hex Wrench #17' 2
l l
Reviewed by Reviewed by Supv. of Maint.
SNEP
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' FORM EP-IP-101-15, Rev. O, Page 3 of 3 y
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