• 4' W EFFECTIVE DATE 0%

• X*

MON-OT CATEGORY 1.0 9FprEN n ay:

T4I9 PROCEDURE C~,NTAINS 3

PTGE9

s SC-701. 1 SC-701 INITIAL NOTIFICATION STATUS RE? ORT

1.0 PURPOSE

1.1 provide a list of imoortant information to be orovided to offsite agencies during an emergency situation.

1.

2 Provide information in a standardized format similar to that of the receiving oarty.

2.0 MBFERENCES

2.1 SC-1 Radiation Emergency Plan.

2.2 NYS Radiol.ogical Emergency Preparedness Plan.

3.0 INSTRUCTIONS

3.1 The initial notification of an accident is to be reported to the USNRC, within one hour.

1.2 The form Attachment I should be filled out with the assistance of the Shift Suoervisor.

1.2.1 Obtain weather information, sten 11 of form, using control Room weather indication or the comouter.

1.2.2 For steo 10 Shift Supervisor may usa, SC-240 Protective Action Recommandations.

1.3 Recort the information on the comoleted Initial Notification Fact Sheet to USNRC, New York State, Wayne and Monroe County usinn SC-601, or SC-602, or SC-603, or SC-60 4.

1.3.1 Reoort the information by reading the statement including the desinnation letter.

i.e.

IAl 1.1.2 Tha statun will be renortad when the event is classified and any time the classification is increased, using a new Attachment I.

1.1.1 If any station missed information, it will be verified by State ~tiarnina Point.

1.4 After comoletinq the form, ask th9 Shift Supervisor if you should oroceed to carforming 90-7n2 plant Status Report.

s SC-701:2 ATTACHMENT I NOTIFICATION FACT SHEET Roll Call Response - New York State Warning Point l[l Monroe County l]l Wayne County l]l 1.

Date and Time of Message Transmittal.

2.

Nuclear Fa'cility providing this report is l{l Ginna Station.

3.

Reoorted ny Title (name)

4..This l[] is an exercise.

This15) is not an exercise.

5.

Emergency Classificatiop:

(See SC-100) l[I Unusual Event l$l Alert l{l Site Emergency lyl General Emergency l{l Transportation Accident 6.

The Event occurred at Date Time 7.

Event Description / Initiating Condition 9

There l has not been a release of radioactivity There 131 has been a release of radioactivity to the atmosohere l{l has been a release of radioactivity to Lake Ontario l}} has been a Ground 3o111 of radioactivity 4 Tne release l[l is continuing 131 has tarminated l{l intermittent 191 not aoolicable

7-SC-701:3 10. Protective Actions (see SC-240) 131 None needed outside the site boundary l{l Protective Actions are under consideration l][l Protective Action Recommended is: Shelter within miles downwind /or 3RPA's A Evacuate within miles downwind /or ERPA's #- 11. Weather l[l Wind speed miles per hour l31 Direction (from) degrees ljll Stability class - Unstable,'Teutral, Stable lyl General Weather Conditions 33 ' Temo 0F Messane Received Bv: _.m-.-,

. :v 5 ;= g al=.t :.r.==. r '.~;;;:..... =. a...... -.._. :. i... _=_2: :. ~..... _ __t .w GINNA STATION UNIT #1 l 3 COM PLETED i ROCHESTER GAS AND ELECTRIC CORPONAURt{. GINNA STATION Q TIME :- s CONTROLLEDCOPYNUMBER____[ PROCEDURE NO. _ _ _ _ S_ C_ _ 6_ 0_ 5 _ _ _ _ _ _ REV. NO. __1__ _ _ _ _ _ _ _ _ _ S _I T_ E_ _C_ O_ N T_ _I N_ G E_ N_ C_ Y _ C_ A_ L_ L_ _ L_ I.S T_ _ _ _ _ _ _ __ _ _ _ _ _ _ _ .T.E_CH__N.I. CAL _R.E.V_IEW.. _ _ _ PORC REVIEW DATE _., Q,,,8.- h _, s

4. % _

C REVIEW PLANT SUPER NTENDENT l DEC 141982 -- ErrECfivE 5 ATE--- l 1 l G A _1__, NON-GA _____,_,, CATEGORY 1.0 REVIEWED BY: I THIS FROCEDURE CONTAINS __2__ PAGES l l l

a s - u...' ' :-.:.: =..:: :.ws = -a :. 2 6 1.a. u.. .w.;.. :. a.o. ~ ;..

+.-.,

SC-605:1 EE~s9E HIIE_ggNIINQENgI_ GAL (_(l@I 1.0 EUBEgggi 1.1 PROVIDE A NOTIFICATION LIST TO ACTIVATE THE EMER0ENCY RESPONSE ORGANIZATION.

2.0 BEEg8ENCES

2.1 SC-200 2.2 SC-302 2.3 SC-312 2.4 SC-322 30 IN!IBUgIlgNg8 3.1 NOTIFY THE BELOW INDIVIDUALS " REPORT TO GINNA STATION FOR A SC RESPONSE." 3.1.1 IF INDIVIDUAL IS NOT AT HOME LEAVE THE MESSA0E. 3.1.2 IF ASSISTANCE IS NEEDED CONTACT LINE OPERATORS AND COORDINATE THEIR ASSISTANCE. (LINE OPERATOR PHONE ). 3.2 INDIVIDUALS FOR EMERGENCY ORGANIZATION: 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.8

n 2 .x..s.2 :: x u-. w u ;.c ' t ....v 1 ges -au. \\ .y { SC-605:2 3.2.9 3.2.10 3.2.11 3.2.12 3.2.13 3.2.14 1 3.2.15 i 3.2.16 3.2.17 3.2.18 3.2.19 3.2.20 3'.2.21 3.2.22 3.2.23 3 5 3.2.24 3.2.25 3.2.26 J 3.2.27 3.2.28 3.2.29 i 3.3 AF'TER COMPLETING THE ABOVE LIST OR WHEN CONTACTED BY TECHNICAL I SUPPORT CENTER, REPORT THOSE PEOPLE NOT CONTACTED. (GINNA PHONE ). I f + c l .. ~..

_ _._ n _ - i c._._c:._ur w a A : GINNA $TATION 1 UNIT #1 COMPLETED _ ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATIO!4 TIME :- l CONTROLLED COPY NUNDER PROCEDURE I40. _____SC-go____,,__ REV. NO. _,,1__ ESTIM_A.T_ING_ O_FF__S.I.T_E DOSES _ / y .T. _E _C H..N. _I.C..A..L. .R. E..V..I. E W PORC REVIEW DATE ,,,, h,,$-8 A ___ / } ~~~~ t imVIEN ~~ ~~~ EC 4T~SOF5RIOTEODE07 3 DEC 141982 '~~~crieCiicc~D57C~~~ UA_ I _ NON-GA _______ CATEGORY 1.0 REVIEWED BY: i 1HIS PROCEDURE CONTAINS ___2__6_ PAGES M*.'W~ ~ -~~,,,..%f~ , - ~ .,-.-R~[ ' " ~ ~ ^ ~ -, ~M~ ~ ~ ~, ^ ^ ' ' ' ' ^ ^ '~ ~

aw1 w. ~ SC-42021 EG:429 E@Ilt!$1]Ng,,gFEnglIE,,DggEg 1.0 PURPggE,:, 1.1 THE PURPOSE OF THIS PROCEDURE IS TO PROVIDE ESTIHATES OF THE POGT ACCIDENT DOSE IN THE AREAS AROUND THE PLANT AND GUIDANCE FOR THE SELECTION OF SAMPLING LOCATIONS. INFORMATION IS NEEDED EARLY TO DECIDE WHAT ACTION DE TAKEN TO LIMIT THE EXPOSURE OF THE GENERAL PUBLIC. STEPS MUST DE TAKEN TO DEFINE THE AFFECTED AREASi ASSESS THE EXTENT AND SIGNIFICANCE OF THE RELEASE AND PROVIDE DATA DN WHICH APPROPRIATE PROTECTIVE ACTIONS CAN DE BASED.

2.0 RgFERENGES

2.1 RADIATION EMERGENCY PLAN, SC-1 2.2 N.f.S. RADIOLOGICAL ENERGENCY PREPAREDNESS PLAN 2.3 SC-100r SC-442r SC-450 2.4 PC-23.3r PC-23.4i PC-23.5 AND S-14.2 2.5 EPA-520, MQUU AL,,_QF,,_PRQTEQTI,VE,,AgTIQN,QUIDEg,,QND_PRgTEgTIVE 6EI190E_E98 gggLEQU_lyglgEgly (FED. 1980). 2.6 REGULATORY GUIDE 1.109 30 INDIBugI]ggg: 3.1 THE FOLLOWING EQUIPNENT IS AVAILADLE FOR USE IN ESTIMATING DOSES. 3.1.1 XU/O ISOPLETHSs AND XU/O TADULATED VALUES (TABLE 1). 3.1.2 MAP OF SURROUNDING

AREA, U.S.

GEOLOGICAL SURVEY (1 INCH: 24000 INCH SCALE). 3.1.3 CONTROL ROOM WIND AND TEMPERATURE INDICATORS. 3.1.4 CONTROL ROON RADIATION NONITOR SYSTEM. 3.1.5 DACK-UP WIND SPEED AND DIRECTION INDICATORS AT STATION 13As AND NATIONAL WEATHER SERVICE. ~. - - - _ _ _ - - - -

e s x-s 4.. /i.. mad. '.s s; a" ,,n _-j. _ q, SC-420:2 3.2 PEEbidl86BI_86 Dig 60GIC6L_ESIld61ES_6dp_EVEUI_C66@gl[lC611gy 3.2.1 FOR INITIAL NOTIFICATION

PURPOSES, A

FIRST-CUT ESTIMATE OF POTENTIAL OFFSITE DOSES AND RELEASES MAY BE OBTAINEis BY THE CONTROL ROOM USING SC-240, ATTACHMENT II. LEVELS ARE PROVIDED FOR VARIOUS ACCIDENTS EVALUATED IN THE GINNA FSAR AND IN PREVIOUS AEC SAFETY EVALUATIONS FOR GINNA PLANT SITING AND DESIGN. 3.2.2 IT IS PREFERABLE TO BASE OFFSITE ESTIMATES UPON MEASURED RELEASE VALUES. VENT ACTIVITY CONCENTRATIONS AND RELEASE RATES CAN DE DETERMINED FROM CURVES IN PROCEDURE S-14.2, AND FROM PROCEDURE PC-23.5. SHOULD VENT MONITORS BE INOPERABLEi PROCEDURES PC-23.3 AND PC-23.4 SHOULD BE USED ESTIMATING PLANT AND STEAM VENT RELEASES, RESPECTIVELY. 3.2.3 AN ESTIMATE OF THE 0-2 HR SITE BOUNDARY WHOLE BODY DOSE FROM PLANT VENT NOBLE GAS CONCENTRATIONi OBTAINED FROM S-14.2 (LOW RANGE MONITOR), PC-23.5 (HI RANGE MONITOR) OR PC-23.34 (DACK-UP MONITOR) r MAY BE ODTAINED USING THE FOLLOWING EQUATION: PLANT VENT (UCI/CC) X 15 REM = 0-2 HR WHOLE BODY DOSE REM 051/C5~ AT SITE BOUNDARY NgTE: THE FOLLOWING ASSUMPTIONS WERE MADE FOR THESE CALCULA-TIONS: X/G = 5.3 X 10 E-4 SEC/M E 3 (DEFAULT VALUE IN LIEU OF ACTUAL HETEOROLOGY DATA; ASSUMING DOWNWIND HIXING CONDITIONS 100 TIMES MORE CONSERVA-TIVE THAN ANNUAL AVERAGE CONDIT*.ONS.) PLANT VENT FLOW = 65i000 CFM (3.1 X 10 E 7 CC/SEC) EPA-520 WHOLE BODY DOSE CURVE (T = OHR) 3.2.4 DETERMINE THE CLASSIFICATION OF THE ENERGENCY WITH RESPECT TO PLANT RELEASES AND SITE BOUNDARY DOSES FROM THE FOLLOWING CRITERIA (FROM SC-1.1A): 869196991C66_EgIld61E CL6pgl[lC611gN RADIOLOGICAL EFFLUENT TECHNICAL UNUSUAL EVENT SPECIFICATION LIMITS EXCEEDED (T.S.3.9) RADIOLOGICAL EFFLUENT GREATER THAN ALERT 10 TIMES TECHNICAL SPECIFICATION LIMITS. MM US M ' ww=u ___-_j -g .gb f'N Y*% g

_ %.g. ~ u.g., _ 3 .N ~ _~ . i:. o o SC-42023 EFFLUENT MONITORS INDICATE LEVELS SITE EMERGENCY CORRESPONDING TO GREATER THAN SG MREM /HR WHOLE BODY OR 0-2 HR. THYROID DOSE GREATER THAN 500 MREM AT THE SITE DOUNDARY. OR THESE DOSES PROJECTED DASED UPON PLANT PARAMETERS, OR ACTUAL OFFSITE MEASUREMENTS. EFFLUENT MdNITORS SHOW LEVELS CORRESPOND-GENERAL EMERGENCY ING TO 500 MREM /ilR Ntl0LE BODY OR A 0-2 liR. THYROID DOSE GREATER THAN 1 REM. OR THESE DOSES INDICATED DY OFFSITE MEASUREMENTS. 3.2.5 ANY PRELIMINARY DOSE ESTIMATES USED AS A DASIS FOR EMERGENCY CLASSIFICATION OR PROTECTIVE ACTION RECOMMENDATIONS SHOULD DE REFINED AS FOLLOWS USING RELEASE MEASUREHENTS AND ACTUAL METEOROLOGICAL AND FIELD SAMPLING DATA AS THEY DECOME AVAILABLE. 3.3 USE O F _ M ET E O_R_O_L_O_G_ _I C_ A_L_ _ _ A_ N_D__ _R_E_L_E_ A_S_ E_ _ D A T_ A__ W I T_H 3.3.1 ODTAIN THE TEMPERATURE AT 33' AND 250' FROM THE " STATUS REPORT FORM"i CONTROL ROOMr TSC OR COMPUTER TERMINAL. FROM THE 33' TEMPERATURES SUDTn'ACT THE 250' TEMPERATURE. IF READINGS FROM THE MAIN WEATHER TOWER ARE UNAVAILADLEi PROCEED TO STEP 3.3.2.1. T33'__________ -T250'__________ T__________ 3.3.1.1 THE MINI-COMPUTER IN THE MET. TRAILOR CAN DE QUIZZED USING THE TI-SILENT ELECTRONIC DATA 700 TERMINAL TO ODTAIN THE LAST 15 MIN. AVEPAGES DY DIALING 524-5711. WHEN CARRIER LIGHT COMES ON, TYPE AV77 ERETURNJ. THE 15 MIN. AVERAGE WILL THEN DE PRINTED. 3.3.2 IF DELTA T IS 2.0 OR GREATER CONDITION IS UNSTABLE (LAPSE). IF DELTA T IS LETWEEN 0.5 AND 2r CONDITION IS NEUTRAL. IF DELTA T IS LESS THAN.5 OR IS NEGATIVE (T250' T33')r CONDITION IS STADLE (INVERSION). CONDITION IS 3.3.2.1 IN THE EVENT THAT METEOROLOGICAL DATA ARE UNA'!AILABLE FROM THE MAIN HEATHER

TOWER, THE EMERGENCY COORDINATOR SHOULD DIRECT AN INDIVIDUAL TO PROCEED TO THE BACK-UP WEATHER INSTRUMENT RECORDER INSIDE Tile STATTON 13A CONTROL DUILDING.

THE RECORDER IS LOCATED NEXT TO THE COMMUNICATIONS DESK ON THE NORTH WALL.

+___

a f

_ _ _ _ = _:- :~- a - a-w o SC-420:4 3.3.2.2 IF THE PRIMARY TOWER TEMPERATURE SENSORS ARE NOT AVAILADLE TO DETERt"NE STADILITYi THE INDIVIDUAL TAKING THE READINGS SHOULD NOTei WIND SPEED (MPH) WIND DIRECTION (DEGREES) AND APPROXIMATE FLUCTUATION IN WIND DIRECTION (DEGREES) AVERAGED OVER THE LAST HOUR. THE WIl4D DIRECTION FLUCTUAr.,N IS DETERMINED BY EYEDALLING OR DY DRAWING 2 AVERAGE LINES THROUGH THE, LAST HOUR'S WIND DIRECTION EXTREMESi AND SUDTRACTING THE DIFFERENCE. 3.3.2.3 STATION 13A WIND SPEEDS WIND DIRECTION AND WIND DIRECTION FLUCTUATION READINGS ARE REPORTED TO THE TECHNICAL SUPPORT CENTER DY PHONE (EXT. 500 THROUGH 507) OR DY THE PLANT P.A. THE INDIVIDUAL AT STATION 13A SHOULD REQUEST FOR FURTHER INSTRUCTIONS FROM THE EMERGENCY COORDINATOR. 3.3.2.4 TO DETERMINE ATMOSPHERIC STAPILITY FROM WIND FLUCTUATION, USE THE FOLLDWING TABLE: SIND_FLUCIU611gy @I6pILIII ( 45 DEGREES ANYTIME STABLE (INVERSION) > 45 DEGREES NIGHT TIME NEUTRAL 45 DEGREES - 75 DEGREES DAYTIME NEUTRAL > 75 DEGREES DAYTIME UNSTADLE (LAPSE) 3.3.3 SELECT THE XU/G PLASTIC OVERLAY MATCHING THE CONDITION DETERMINED IN 3.3.2 AND ATTACH TO THE AREA MAP. (ALSO TADULATED XU/0 VALUES ARE GIVEN IN THE ATTACHED TABLE 1). 3.3.4 ODTAIN WIND SPEED AND DIRECTION DATA FROM THE " STATUS REPORT FORM"i THE CGNTROL ROOMS TSC, COMPUTER TERMINAL OR ALTERNATIVELY FROM STATION 13A. THE DIRECTION GIVEN WILL DE THAT FRgM HulGU_IME_BlyD_lg_pLQBlyG. WIND SPEED _______________(MPH) WIND DIRECTION _______________(DEGREES) NOTI: SUPPLEMENTAL WEATHER INFORMATION IS ALSO AVAILADLE j FROM THE NATIONAL WEATHER SERVICE OFFICES IN ROCHESTER (716-328-7633) OR DUFFALO (716-632-2223)i IF NECESSARY. 3.3.S ALIGN THE CENTERLINE OF THE OVERLAY IN THE DOWNWIND DIRECTION. THE MARK ON THE CENTERLINE AT THE BOTTOM OF THE OVERLAY SHOULD DE ALIGNED ON A COMPASS POINT ON THE MAP 180 DEGREES FROM THE DEGREES GIVFN IN 3.3.4. TO DETERMINE THIS

POINT, DO GNE OF THE FOLLOWING:

IF THE DEGREES GIVEN IN STEP 3.3.4 IS BETWEEN 180 AND 360, SUDTRACT 180. -em--

l' ~ '_T 2U' l I' r w :,?ll; N,-_. _, __ _ _ ::5 a w, SC-420tS IF THE DEGREES GIVEN IN STEP 3.3.4 IS BETWEEN O AND 180s SUDTRACT 100. DEGREES WIND IS DLOWING FROM__________ DEGREES + OR ___180____ DEGREES ALIGN NARK ON CENTERLINE OF DVERLAY (AT DOTTOH) AT __________ DEGREES 3.3.6 THE XU/0 PLASTIC OVERLAYS AND TABLE 1 VALUES HAVES FOR CONVEN-IENCE DEEN CALCULATED DASED UPON A WIND SPEED OF 1 MPH. THUS, IN ORDER TO DETERMINE X/0 SEC, IT IS NECESSARY TO ME3 ~ DIVIDE THE ISOPLETH VALUE BY THE ACTUAL WIND SPEED, IN HPH. 3.3.7 TO CALCULATE THE DOWNWIND CONCENTRATION OF NOBLE GASS PARTIC-ULATES OR RADIDIODINE, MULTIPLY THE RELEASE RATE OF RADIDAC-TIVITY (CI/SEC) FROM THE PLANT TIMES THE X/0 (SEC/M E 3) DISPERSION COEF'F'ICIENT DETERMINED IN STEP 3.3.6. THE RESULTANT CONCENTRAATION WILL BE IN CI/M E 3 OR UCI/CC. PERFORM THESE CALCULATIONS ON ATTACHMENT __1__. 3.3.8 ODTAIN AN INITIAL ESTIMATE OF RELEASE DURATION FROM THE EMERGENCY COORDINATOR OR RECOVERY MANAGER. .IF THIS ESTIMATE IS UNAVAILADLE, USE AN INITIAL RELEASE DURATION ESTIMATE OF 2 HOURS FOR DOSE PROJECTION PURP0SES.

3. 3. '?

WHOLE DODY GAMMA DOSE IS THEN ESTIMATED USING FIGURES 1 THROUGH 7, ACCORDING TO THE APPROXIMATE TIME AFTER SHUTDOWN. TO ESTIMATE GAMMA DOSE RATE FOR A GIVEN NOBLE GAS DOWNNIND CONCENTRATION (RIGHT VEEi3 CAL SCALE) FIND THE CORRESPbr1 DING WHOLE BODY DOSE RATE (MREM /HR) ALONG THE LEFT VERTICAL SCALE. 3.3.10 TO ESTIMATE WHOLE DODY GAMMA DOSER FIND THE POINT ON THE GRAPH WHERE THE NODLE GAS CON 5EETRATION LINE INTERSECTS THE PROJECTED EXPOSURE TIME. THE INTEGRATED WHOLE BOLY DOSE IS THEN FOUND ALONG THE DIAGONAL LINES ON THE GRAPH. 3.3.11 TO ESTIMATE CHILD AND ADULT THYROID DOSEi FIND THE POINT ON THE FIGURE 8 GRAPH WHERE THE DOWNWIND RADI0 IODINE CONCENTRA-ATIDH LINE INTERSECTS THE PROJECTED EXPOSURE TIME. THE INTEGRATED THYROID DOSES FOR THE ADULT AND CHILD ARE INDICATED ALONG THE DIAGONAL LINES (THE CHILD DOSE BEING TWICE THE ADULT'S). 3.3.12 CORRECT THYROID DOSE ESTIMATES FOR TIME AFTER SHUTDOWN, BY HULTIPLYING DY THE APPROPRIATE FACTOR INDICATED IN FIGURE 9. + N - -_. "g

-a.. a_. a.a -c w 4 u_y_2 m aa.

3 w g

SC-42026 34 SUBVEI_IE6M_D616 3.4.1 NOTE THE SAMPLE LOCATIONS ON THE MAP THAT ARE COVERED BY THE XU/O OVERLAY. THE INITIAL SAMPLE TAKEN SHOULD BE IN A HIGH CONCENTRATION AREA AND ON A FIRST STAGE SURVEY ROUTE. USING THE ATTACHED LIST OF SAMPLE LOCATIONS AND TEAMSi NOTIFY PROPER TEAMS WHERE TO TAKE SAMPLES. WHEN RESULTS ARE RECEIVED, MAhK RESULTS ON APPROPRIATE MAP AND STATUS BOARD. 3.4.2 WHEN THE INITIAL FIELD SAMPLING RESULTS ARE RECEIVED, ASSIGN A XU/O VALUE TO THE SAMPLE RESULTS USING THE XU/O VALUE FOR THE LINE CLOSEST TO THE SAMPLE LOCATION. FOR THE PLASTIC OVERLAYSi ALL POINTS ALONG A GIVEN LINE ARE ASSUMED TO HAVE THE SAME CONCENTRATION AS THE INITIAL SAMPLE. THE CONCENTRATION AT ANY OTHER POINT OF INTEREST CAN DE ESTIMATED BY MULTIPLYING THE SAMPLE CONCENTRATION BY THE RATIO OF THE RESPECTIVE XU/O VALUES. EXAMPLE: A SAMPLE TAKEN ON A XU/O LINE OF 5 X 10 E-6 INDICATED ~~~~~~~ AN IODINE CONCENTRATION OF S X 10 E-7 UCI/CC AND DOSE RATE OF 100 MREM /HR. DETERMINE THE CONCENTRATION AND DOSE RATE EXPECTED AT A XU/G VALUE OF 2 X 10 E-7? EQLyllg!!: IODINE AT 2 X 10 E-7 = 2 X 10 E-7 X 5 X 10 E-7 UCI = 2 X 10 E-8 UCI 5~X I6~526 ~EU ~55 ~ DOSE R ATE AT 2_X_10_E--Z X 100 (MREM /HR) = 4(MREH/HR) 5 X 10 E-6 3.4.3 COMPARE MEASURED DOSE RATES AND AIR CONCENTRATIONS TO PREDICTED VALUES, AND ADJUST DOSE PROJECTIONS ACCORDINGLY. 3.4.4 NOTIFY THE SURVEY TEAM TO CONTINUE SURVEYING THE AFFECTED AREA LOOKING FOR HIGH CONCENTRATION AREAS AND HOT SPOTS. 3.4.5 IF THE HIND DIRECTION CHANGES, REALIGN OVERLAY USING 3.3.5. SAMPLE NEW LOCATIONS INDICATED BY THE OVERLAY. 3.4.6 IF THE WIND SPEED CHANGESi RECALIBRATE THE OVERLAY BY DIVIDING THE ORIGINAL SPEED BY THE NEW WIND SPEED AND MULTIPLY DY THE CONCENTRATION OR DOSE. RESAMPLE TO CHECK NEW OVERLAY CALIBRATION. 3.4.7 FOR PUFF TYPE RELEASES MULTIPLY NIND SPEED BY ELAPSED TIME TO FIND DISTANCE RADI0 ACTIVE CLOUD HAS TRAVELED. 3.4.8 ENVIRONMENTAL TLD'Si (SC-442) AND POST ACCIDENT ENVIRONMENTAL SAMPLES, (SC-450) MAY BE USED TO GIVE DETTER VALUES FOR OFF-SITE DOSES. --wa w wy-, -

.m. .y.. ;.u ,.a; ..s, -.., 1 4..;_ m ;,,, ~SC-420t7 3.5 PROIECII'fE_ACIl0!LGUIDEi! 3.5.1 RECOMMEND THE APPROPRIATE MEASURES TO DE FOLLOWED WITH RESPECT TO THE GENERAL PUBLIC. TABLE 2 s 3 AND 4 GIVE THE PROJECTED WHOLE BODY AND THYR 0lD~EUSE~LEUELS AfflCH WARRANT ~ GIVEN PROTECTIVE ACTIONS (E.G. SHELTERING, EVACUATION) INDICATED. 3.S.2 WEATHER FORECAST INFORMATION SHOULD BE CONSIDERED WHEN PLANNING PROTECTIVE ACTIONS. e .,g 5 l '"{. 'p

2.

- ; ' 4

^U '_iuas

a=5.khthst%a, l.ww k:.c u..

~ h ~ SC-420,88 ) +N s 1 s y, - s TABLE'I i ~ q \\ GINNA SITE VALUES OF G AS A FUNCTION OF STABILIib ANL' DISTANCE (COMPUTED BY PICKARDi 10HE & GARRICK 1/G2) ) m s DOWNWIND DISTANCE , [ HETERS FEET MILES UHSTANLE' ' ' -NEUTRAL' STABLE g h 200 660 0.1 2.<42 4 1.17 E-3 2.06 E-3 x 400 1,310 's 0.2 1,06,E-4\\ 4.33 E-4 1.42 E-3 600 1,970 0.4 5.Dit E-U g 4302 E-4' 1.10 E-3 800 2,620 0.5 3.71 E-5 i 2.86 E-4 8.78 E-4 1,000 3s280 0.6 2.34.E-5 2.13 LL4 7.17 E-4 1,200 3rV40 0.7 1."62 E-5 1.68 E-4 '. 5.97 E-4 1,400 4,590 0.9 1.19 E-5 1.36 E-4 5.05 E-4 1,600 5,250 1.0 9.'13 E-6 1.12 E-4 4.42 E-4 1,000 5,710 1.1 7.18 E-6 9.45 E-Eg 3.91 E-4 2,000 6,560 1.2 5.20 E-6 .W.22'E-b\\ 3.48 E-4 ,. i.D2 E-5' '2.70 E,4 2,500 0,200 1.6 2.03 E-6 3,000 9,840 1.9

1. 9.9. E-6 4.67 E-5 2.23,E-4 3,500 11,500 2.2 1.69 E-6 3.76'E-5 1.08 LY4 4,000 13,100 2.5 1.46 E-6 3.10 E-5 1.41 E-4 4,500 14,600 2.8 1.527 E-6 2.60 E-5 L.39 E-4 5,000 16,400 3.1 1.12'lE-6 2.21 E-5 1.'23qE-4 i 5,500 18,000 3.4 9.991Ch7 1.91 E-5 1.08 E-4 6,000 19,700 3.7 9.11 1h7 1.68 E-5 9.78 E-5 j 6s500 21,300 4.0 8. 5 3 L'-7 1.52 E-5

- 8.09 E-5 2 7,000 23,000 4.3 8.03 E 7 1.38 E-5 8.12'E-5 7,500 24,600 4.7 /~.58 E-7 1.25 E-5 7.45 E-5 8,000 26,200 5.0 7.18 E-7 1.15 E-5 6.86 E-5 s 8,500 27i900 5.3 6.82 E-7 1.05 E-5 6.34 E-5 9,000 29,500 5.6 6.49 E-7' 9.72 E-6 5.88 E-5 9,500 31,200 5.9 6.19 E-7 8.99 E-6 5?49 E-5 10,000 32sB00 6.2 5.94 E-7 '8.40 E-6 5.'24 E-5 11,000 36i100 6.8 5.53 E-7 ' 7.50 E-6 4.'79 E-5 12,000 39,400 7.5 5.18 E *,6.74 E-6 4.40 E-5 13,000 42,700 8.1 4.86 E-7 24.09 E-6 4.tf6 E-5 14,000 45,900 8.7 4.59 E \\ 5.54 E-6 '3.76'E-3 s A 15,000 49,200 9.3 ' 4.34 E 7 S.50 E 3.49 E-5 16,000 52,500 10.0 4.12 E-7s.ss 4'. 6 3 E - F ' 3.26 E-5 s\\. 1 NOTE: VALUES ARE BASED ON 1 HPH WINDS 5 i %s. t \\ g w 's 4 1 ( s s I \\ N \\ ~ s s s e,C"?" P

~*

y '- ; '. '-. g 4

+

i Yjf ~ ~ ___ z

1. J r - ~. t.

_2_ _ .u& ;; _ -f. c 2. s s A SC-420 9 IABLE_II PROTECTIVE ACTION GUIDES FOR HHOLE BODY EXPOSURE TO AIRBORNE RADI0 ACTIVE MATERIALS POPULATION AT RISK PROJECTED WHOLE BODY GAMMA DOSE (REM) s GENERAL POPULATION 1 TO 5(A) ENERGENCY WORKERS 25 LIFESAVING ACTIVITIES 75 --~~~----------------------------------------------------------------- (A)WHEN RANGES ARE SHONN, THE LONEST VALUE SHOULD DE USED IF THERE ARE H0 MAJOR. LOCAL CONSTRAINTS IN PROVIDING PROTECTION AT THAT LEVEL, ESPECIALLY TO SENSITIVE POPULATIONS. LOCAL CONSTRAINTS MAY s MAKE ' LOWER VALUES IMPRACTICAL TO USE, BUT IN NO CASE SHOULD THE-HIGHER VALUE BE EXCEEDED IN DETERMINING THE NEED FOR PROTECTIVE ACTION. s k >A e Eo ', l _L ~ ~ i [ ml's l,.', 2. t y. ** -l l[ k GL f ss y % ~ > -' J e w

,,g. a. .s s L. .= s 1 xr-. 1 r-SC-420:10 IML!i III PROTECTIVE ACTION GUIDES FOR THYROID DOSE DUE TO INHALATION FROM A PASSING PLUME a - POPULATION AT RISK PROJECTED THYROID DOSE REN GENERAL POPULATION 5 - 25 EMERGEHCY WORKERS 125 LIFESAVING ACTIVITIES (A) (A)NO SPECIFIC UPPER LIMIT IS GIVEN FOR THYROID EXPOSURE SINCE IN THE EXTREME CASE COMPLETE THYROID LOSS HIGHT BE AN ACCEPTABLE PENALTY FOR A LIFE SAVED. HOWEVER, THIS SHOULD NOT BE NECESSARY IF RESPIRATORS AND/OR THYROID PROTECTION FOR RESCUE PERSONNEL ARE AVAILABLE AS THE RESULT OF ADEQUATE PLANNING. ~. - - -, - +. _,=; y- ,,,,.- y - ,--g g.g;; -j

SC-420:11 TABLE JV i l l I l l PROJECTED DOSE (REM) TO l RECOMMENDED ACTIONS (a) l COMMENTS I l THE POPULATION l l l l l I I l I i l lWhole Body <1 lNo planned protective actions (b) lPreviously recommended l l l State may issue an advisory to seek shelter lprotective actions may l j, l Thyroid <5 l and await further instructions. Ibe reconsidered or l / l l Monitor environmental radiation levels. l terminated. l I I I l lWhole Body 1 to < 5 l Seek shelter as a minimum. IIf constraints exist, I l l Consider evacuation. Evacuate unless con-lspecial consideration l l Thyroid 5 to < 25 l straints make it impractical. Ishould be given for I l l Monitor environmental radiation levels. levacuation of children l l l Control access. land pregnant women. I l l l l / lWhole body 5 and above l Conduct mandatory evacuation. l Seeking shelter would l 4 a l l Monitor environmental radiation levels and lbe an alternative if I ,6 IThyroid 25 and above I and adjust area for mandatory evacuation levacuation were not l l l based on these levels. limmediately possible. l 7d l l Control access. l l J/ l I I l C l Projected Dose (Rem) to l l 1 l Emergency Team Workers l l l 1 l l 1 l r" l I l l l lWhole Body 25 l Control exposure of emergency team members IAlthough respirators I ) l l to these levels except for lifesaving land stable iodine l l Thyroid 125 l missions. (Appropriate controls for emer-lshould be used where l l l l gency workers, include time limitations, leffective to control l { l l respirators, and stable iodine.) l dose to emergency team l E l l l workers, thyroid dose I f 7 lWhole body 75 lControl exposure of emergency team members Imay not be a limiting I l .) l l performing lifesaving missions to this Ifactor for lifesaving l fy l l 1evel. (Control of time of exposure will imissions. l

5.,

l l be most effective.) l l (a)These actions are recommended for planning purposes. Protective action decisions at the time N .( of the incident must take existing conditions into consideration. D p. (b)At the time of the incident, of ficials may implement low-imp'act protective actions in keeping ti with the principle of maintaining radiation exposures as low as reasonably achievable.

)

5 a

2 ca w.,L;e _ _:2.;me;,.,,A,;_,..C,,au ,a _ g _..qi . a _.s _ SC-420:12 BIIeCHMENI_I RELEASE VENTt___________ TIME /DATE POST-SHUTDOWN TIME t _______fHR) EFFLUENT HONITOR READINGS _______________ UCI/CC GAS (HUNITOR NO._____) _______________ UCI/CC PARTICULATE (HONITOR NO._____) UCI/CC RADIDIODINE (HONITOR NO._____) CFM VENT FLOW (1) TO CONVERT CFM TO CC/SEC _____________CFH X 2.83 X 10 E 4 CC/CFH X 1 HIN/60 SEC = ________CC/SEC NODLE GAS: (2) TO CALCULATE RELEASE RATE IN CI/SEC FROM HONITORS ________UCI/CC X ________CC/SEC X 10 E -6CI/UCI = ________CI/SEC (3) TO PREDICT DOWNWIND CONCENTRATION ________ SEC;MEU X ________CI/SEC X 1/ ( )HPH = UCI/CC AT __________ (XU/0) HE3 (WINDSPEED) (DISTANCE) PARTICULATE: (4) TO CALCULATE RELEASE RATE IN CI/SEC FROM MONITORS ________UCI/CC X ________CC/SEC X 10 E -6CI/UCI = _____ __CI/SEC (5) TO PREDICT DOWNWIND CONCENTRATION SEC-MPH X CI/SEC X 1/( )HPH = UCI/CC AT TIU7dI-~ ~~R~E 3 (HINDSPEED) IDi575AEET ~~~~~~~~ RADI0 IODINE: (6) TO CALCULATE RELEASE RATE IN CI/SEC FROM HONITORS ________UCI/CC X ________CC/SEC X 10 E-6CI/UCI = ________CI/SEC (7) TO PREDICT DOWNWIND CONCENTRATION SEC-HPH X CI/SEC X 1/( )HPH = UCI/CC AT T207UI ~~B E 3 (WINDSPEED) ~ID1575AEC). ~ ~~~~~~~~ ~~~~~~ ,3;- - p y; .,g g, g g. a,.,, y yg.,,,,,.,

s us < _.w _. _. m. SC-420:13 EME.RG.E.NC_Y_O._FF...S..I._TE. S..A..M..P.LE P_O..I.NTS. ___________7______________________________ g_ ___ ___ _ _ ___ ___ _ _ !G ! R ! ! G! R ! ! G ! R ! ! R ! 4 ! !R !A ! ! R ! A ! ! R ! E ! N ! R ! E! N ! R ! E! N ! ! E! E! G ! E i E.! G !E ! E! G ! ! D ! H ! E!D ! H ! E ! D ! N !E! i SA!!PLE POINT i HUNDER LOCATION i TEA!! FIRST CECOND ! _ _ _ __ _1_ _ _ _ _ _! L_ A K E_ _ & _ K_ f_4_I C _K E R B O C K E.R_ _ _ _ 2 !DRICK CHURCH & KNICKERDOCKER ! X ! ! X ! 3 !DRICK CHURCH & ONTARIO CENTER ! ! X ! ! X ! 4. _!.D..R..I.C K. C.H U. R.C H_ _.&. _ S L.O. C U.H. _! _ X. _! _ _ _! 7. .X..!. 5 ! LAKE & SLOCUM ! X! X ! X ! X ! X ! ! X ! X ! 6. _!.D..E.AR.C..R.EENH.A.R..D.O..R._ _! X _! X. _!____!.. ! X ! ! X ! ! __ ___7__ _ ___! P_ U T!i A N_ &_ FU RN_A C E __ ____ _______ ______!____!_X___!____!____!__X__!____!____!___! 0 !TRINDLE & FURNACE ! X ! ! X ! .r ! _ _ _ _ _9___ _ _ _! K N_I C KE_R B _O C KE_R__&_ KEN _f 0_N___ _ ___ _ 1 10_ _ _ .!..O._N.T. A._R.I.O.C.E.N_ _T E.R R _D_. &. K.EN_YO N. .X._.!. X..!. _ 7. _.X. ! _ X..!._ _ _! _.1._1 _!S.L_O.C.U.H._&._K_E.N..Y.O.N _!_X.__!_ _!_X_ _! _12 .!.R.T...1._0 4._&_.O._N.T. A R..I._O_ C..E.N_T E.R _! X. .X..!. X._ _! _ X..!. 13 !RT-104 & KNICKERBOCKER ! X ! ! X ! i.. .l. a. _ _! R _T._ _1_0 4. _& L. A N..E. _S.I..D. E. _ _ _ _ _ _ _ _ _ _.:. _ _.!. _ X. .!._ _ _ _! _ _ _ _! X_ _! _ ! _ _ _ _i _S _ _ _ _ _ _! _D _E _R G _ & _ L _A _K E S _I D_ E _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _! _ _ _ _! _ _X _ _! _ _ _ _! _ _ _ _! _ X !, _ _ _ _16_ _ _ _ _ +' D O S I Q U _ a _ L 6 E E D I D E _ _ _ _ _ _ _ _ _ _ _ _ _7. _ _ _ y _ _X _ y! _ _ _ _! _ _ _ _ I 17 l L A K E & L, A K_ E_ S _I D E _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ i, _ _ _ i, _ X _ i, _ _ _ i, _ _ _i, _ X i, _ _ _i, _ _ _ 1 8. . _! _O N_ _T A.R I O...O. N..._T H.E._.L. A.K. E. _! _.X. ! ! _ _ _ __19__ __ _ _ _! S_ H_ E _P H E R_ D _ &_ _ F_I S H_ E_ R_ _ _ __ _ _ _

2. _0_ _

_ _! Y R..I. _H _11 L. _E .&. F..I. S _H _E R_ _ _ _ .!. _ _! _.X. _ _ _! _ _ _ _! _ _X_ _! _ _! _ .X. _ ! ! _ _ _ _2_1_ _ _ _ _ _! _R _T _ _i O _4_ & _ F _I S H_ E R_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _! _ _ _ _! _ _ _ _! _ X _ _! _ _ _.!._ _ _ _! _ _ _ _ 2.2._ __.!._TR.U.H._H.O.ND.S.&._AR.D.OR _ .!.___.!._X .!._X en v y --wr. y ,,y

.-_y ,j . w: c 41;.* ~ +. >. e.a -n :,, a - s.. u v. - u; - ,c ->.u >. u .,, ~ u

.. ~ - e " MJ e.A.A.s=_%$ ^ - * ' ' * - %ree t ma.eE .W.= .w' e.4 s ,'.AC ?- ^

__h w. 4 dbs.A.e.m ukse'- -'"'ns-..., ' '. aC-420814 EM.E.R.G.E.N.C.Y__OF_F_S.I.TE _S A.M.P_LE_PO_I NTS Cl 0 O ! ! G ! R l ! G! R l ! G! R ! l ! R ! A ! ! R ! A ! ! R! A ! ! R ! El N i R ! E N ! R ! E! N ! ! E! E! G! E : E! G! E ! E G! I D ! H ! E ! D! N !E: D ! N ! E! eAHf LLr POINT s l l flUMBER LOCATION TEAM FIRST SECOND i _ STAG.E... ! STAGE

2. 3.

.!..T.R. U..M. N. O N..D..S. _ _& _ W A L. H. O. _R T._H _ _u.N. _T A R.I._O _ _.!. .X..!. _ _.!. _! X _ ! .i

24. _

_.!.R..T..350_.&_ PA.DDY_LA.NE._ X_.l. .!. X..!._ .i I '2. S. _ _ _.!. R T.. 3. 5. _0_.&. _.2 8 6. _ _. _.!. _.X._ _! .X. _ _! 26_ ..__.!.WA.L.W.O.RT.H._ _! X_.!._ _.!.___.l.__ .!.____!_X 2 7 _ _ _.:. S.T.O N. Y _ L_ O.N E S.O.M_.E. & _ L_ A.K..E. _ X..!. _! _ X_ _! 2.0. .!.P..U_L.TN.EYV.I.L.L..E _ _ X_ ! X l l X ! X ! !.. _ 2. 9. .!.S. A.L..H..O.N _.C..R..E. E K _.&. _ E A. _T.O. N X _.!._ X._ ! 30__ _.I.SA.L.HO.N. CR.EE.K &. R..T. _104 X. _l__ X : .. _3.1. .:..R. _T. 21..&. _ R..T.. _1_0 4. .X. _ _! _ _ _! _ _.!. _ _ _! _ _ _.!. _ .! _ X _! _ ! 3 2. _ _! M A R _I O.N..(.RG & E..).S.U_.B._- S..T..A.T _I O N _ __ ! _ _! X. _l .!.__X _! ___ l l 3 3. .:..P.L. A_ N.K. R O A._D & _ L. _I N C.O L. N._ _ .!._ _X _! _! _ _X _.!._ _ _.!._ 3 4. _.:.C O.U N.T.Y_ _L.I.N E &. _ L A_ K.E_ _ _ _ _ _ _ _ _ _! _ _.!._ X _ _! X _.!._ X_ _! _X . 3..S. .!. C O. U.N..T._Y _L.I.N.E. &. D O..S..T.O.N. _! X _.!._ _.!. _ _ _! _ _ _! _X _ ! _.3 6. _! C O.U..N._T.Y. L..I..N._E_&. _B.E.R G. _ _: _ _ _! X _ _l _! _ X. _ ! 37 ! COUNTY LINE & RT. 0 ! X ! X ._14. ____~ _i 3_3 _ .!.R..T..250._&. S.T_A._TE. .!. X_.!. .:._X__! 39 ! SALT & PLANK ! X ! ! X ! ! ~~~~~~~~~~~I5A5Y55U~8 UE05~55EUl55~C5UI55~I~~~I~~~I~~~i'~~I~~~I-~~I~~~I~~~I~~~! !.. _ 40__ _.l.P.L.A.N.K__R.O..A..D.__ X..!._ .X._! _41._ .:.P_EN_F.I.E.L..D.___ .X...!. _! X..!.__ l. 42 _.:.SA.LT_&._S.CHL_E.G.EL. X. _! __!_X_ __l __! 43

SALT & WOODWARD

! X ! ! X ! 3 i _ _ _ -.4. 4. .!. K.L_ E. M._ &. W. H..I..T..I. N G. .X. - _! _ _ _! _ _ -.!. _! _ X_ _ _!. _ !. % M -188'.8.M _ N M M M M -- P414 .,,o ._y ,h y . ~. - 3

m..

..i_ _,. _ _ _]._ 3 f e.p .~

r-.. . s s m. m rs s _s ? g_. SC-420:1S EMERGENCY OFF-SITE SAMPLE POINTS --__-_-_-__7--____-_-_-__--_----_____-____ __.3_-- l ! G R ! ! G! R I i G i R I I 1 R I A 1 l R i A l ! R! A l 1 I i R I E: N!R i Ei N!R ! E! N l ! EI E! GIE EI G IE! E G l

D l' N !E! D Ni EID iN ! E!

SAMPLE .!. __l POINT 1 I i NUNi>ER LOCATION 1 TEAM i FIRST I SECOND I I _1 _.I._ ST.AG.E _I ST.A.G.E. _I i 1 i i i I i _. _. _ i i i 46. _.!.L.A.KE R_OA.D. &_RO.U_TE._250 _1 _1 X .I. X. _! I 0 i 1 0 1 I 9. 1.. 46. .!.C.O.U.N_T.Y. L..I.NE. &. P.L_ANK. ~ X..!. .l.__ _! _X .l. 0 l .I I I 0 I 47 _.I.R T_.21. &. F_ AR_ N.S.W_ O.R_ T_i_l _.!..X_ _l _ _t .I. X _.l. 1 I I I I 0 0 4._0 _ .:.R_T 21. .&._.P._OUN..D._ _l .X..l. .!.__X.l. l 1 I I i - 4 9. .l.F UR N..A.C.E &. K.E_l4 Y.O H. __ _ .._X _t X._.l. _I I l . I O 8 I 0 0 O .S..O. _!R.T..3._SO. _& P.LAN.K .!__X .l .X..!._ 1 l I 1 0 0 0 _ i _ _ _ 5_ _1_ _ _ - _ _1 P_ L A_ ll T & _ F I V E _ M_ _I L E L_ I N_ E_ _ _ _ _ _ _ _ _ _:I X i l l X X l 1 - ---_ ---- g----___1 i 0 0 0 0 0 0 0_.._., I I l I 1 0

0. _

1. - 0 -_I _I I 0 i__-. I O I 0 I i 0 0 0 e 0 0 0 0 0 0 0 9 l s me m .e. e. .e. 6. e 8. 0. .fs. 8. .s$ 8 u

8 4 6 0 ( 4 6 0 8 4 l 0 0 s 0 0 0 4 0 0 f 4 0 e a I { 0 9 f f 9 .e._ .$..e..e.fe. .e. .a. .e. .e. .a. 6 t t 0 0 0 9 0 t l 0 l 9 0 8 0 0 8 0 e s a e e t t t B 0 0 0 0 8 9 0 0 0 .e. 9. 0. 0 .e. .a. 8. 8. 8. 6. 0 I j j i e 4 e s l 4 4 9 e e e t 0 0 0 0 s 4 4 4 4 0 0 8 0 0 9 9 I 0 t 8. .s. .e. .). .e. .e. e. e. .e. .(. 0 a s t t t 6 4 4 6 0 5 6 9 9 5 0 6 0 0 8 0 8 0 9 6 8 8. .e. .e. .e. 4. .e. a..,s.4. 6. .e. l 8 0 8 8 0 8 9 9 0 I f s 6 4 4 0 9 4 j 8 8 0 0 4 0 0 a 4 0 9 s 9 0 0 0 0 0 0 0 4 0 0 9 0 0 4 .e. e..e. .e. .I. .e. .e. .a .e. .e. .I. e 0 0 4 i e e e 1 0 e e 0 9 8 8 9 0 0 0 0 4 0 0 6 4 0 4 i f l 8 0 0 0 0 e.. e. .e.e. .e. e. e. .e. .e. .e. .e. .e. e 4 4 9 e s 0 6 4 8 6 6 l 5 0 8 4 8 0 0 0 0 t '9 e 8. 4. 0. 4.__4. .e. .e. .l. 8. 8. 6 f 8 e f 8 0 0 9 0 f i s t 6 ) 0 8 0 0 ) 6 4 l 4 I e 0 e 0 0 s 0 4 6 6 4 8 9 0 0 0 0 0 9 0 0 0 0. 0._0. 9. 0. 0. 0. 0. .e. t I e 0 0 l 4 1 6 0 4 8 8 4 8 s e s I e e s e e 0 8 8 9 6 4 0 t e t 8 f B 6 .e.

m..r m

.e. .e. .a. .e. .e. .e. .e. .t. 6 4 4 0 t e 0 0 4 ) e 4 8 6 3 0 0 8 0 0 t s t 4 6 5 0 0 0 0 0 0 8 9 9 0 4 6 0... 0. 0. 0._8. 8. 8.m._0..0. t e t 0 0 0 4 4 8 0 8 9 4 8 8 8 9 0 0 8 0 0 8 0 [ t i 8 8 8 0 0 9 0 0 t u .e. 8. 8. 0. 0. 8.- 0. 0. .e. a t 4 4 4 6 0 4 8 9 6 I J 8 8 0 8 8 9 0 0 4 4 0 0 8 8 8 0 4 6 8 8 0 8 8 9 5 6. 8. .e. .B. 5. e .s. .e. .e. .e..e o g g r w,

u a. w 2:~.

.a.i n ua.:a w.=.: a.

-- = - - SC2420:16 I o'y.ouas aTIR savTDc56 ) 5

" ~1 8

\\ N 1 I IIIll1 l ~ TohstT?lIsexAFM ~ .y N I \\ N Flas the petac represencias gamma 2 I N N radiation espesure rata (aA/hr) and N Ptsjested duraties of espesure (hr.). -4 .N A i Zatimata the projected whole body dose A A 105 from the ewnes aben and belev the -2 l ~ s Peins. . 1. - I x .s s. -s , sn s, s. x, .,t, .x w s $N e..w,,w 4.\\ '\\ l\\ IN Iii b\\ l >.i = =10-1 \\ \\N l \\ l M N"e. -7 w w \\ \\ \\ \\ s 3 3. 2. \\ \\ ~4 '4 s 4 A 10 -. i s,. x x I y::. x x, i -2 s, 7 x v, u x vu x, x, s,. ,x i v i s .y w a ,,x, s s,, s. s. , i i i-s se ...m s y ,x ,x x A \\ \\l l\\} }Ill D l\\ l\\ \\ l ll \\ \\ III g_ -to-2 O 1 x sim o x < s w im \\ x,l 3 t i u

-7 3

N N'lAN N )\\M D 2 A Al 2 3 s '~9 G s s s -4 a \\ s g, IM-x ,1 N A 1N \\. l s si s m -2 1 1 s e ~, w ) I" x .=s x. 1 .y x m v I s x x. i ~ v ,...w. 3 x s .x s x. ,.x-N e N e v e Ni e \\ u i -' \\j t 4 iI( M \\1 $ \\I s S = 4-N N1 i l i i N.t N I Psi tist\\ 8% l\\ N lit '10h .N N '\\} l O l\\ i fk[ G N M lli t \\% 4 V ill NI 1 N NI l 7 { r l s s s s s k g 1g us,- x h~. A h, N s 2 .s, m e m s N1 e_\\* 6 .N i e e I \\ .s 4 e... sv. t., e N. A. i e s \\ 8 t

• M 9

.,.' w - , 9 i.., x, .x, .. i et x, .se e * *ie I ) i p i i I i 10-4 A 1 %i l ) II \\ l\\ l AI iil l l l l NJ l N '1) \\ l l M.I Nl !C~# 'N 2-s N N \\ s 4*10~8 i N N N 6 ~~ N \\s i \\ 10,- .\\ I \\s 4 0.1 .2 .4 .7 1 2 4 7 to 2.0 40 70 100 pre 3setad espesure duration (hours) s c2x 1 Projected whole body gasma dose as a function of gassia exposure rate ans projectas duration of exoosure i 8 l t. ~, .. ) v

• W *** M

-y,,, ' ' ',. '~ _.~! = * ' ' "

m SC-420:17 ~ 1.5 HOURS AnER SHUTDOW 4. = -1.0 i \\ \\ .-.i TO USE T!!!! CRAFM - "I N s g \\ \\ Plot the point representing samme \\ cadiscion esposure rate (aA/ht) and N N projasted duratame of exposure (hrs). _.4 \\ \\ Eatimese the prwjested whole body dose ~ \\ \\ g from the eurves above and below the ~ Peist. s s -==2 7 1 s s 3 _x x . s v_ i. i 3 % c_ w \\ -10*I 4- ^ E \\ \\ \\ \\ 'T %

• 7 3

3 \\ \\ \\ k3 3 - \\ 4 ~ ) 3 a 3 ' t N \\ -4 \\ i 1,., N _sN y N .s %, a s s, s_ m .m 7-s s. sy s s e s v s s t s ,s i ~ y s s v s. x x. u h N \\' I \\i '\\ '\\ Ni I -10 2 % \\\\ 1 ^( N X l \\ \\ \\ ~ e N \\ \\ I -7 s s \\ s s s m ' s \\ 2 \\ ^ \\ \\ \\ \\ \\x a \\ s N N -4 I N N s' a y s y s s 5 s s s .e {10- \\ \\ \\ A \\ \\ A 3 .,..'s . ~.,. "* 2 7-s x, y, s. s s s s s s 1 s s s x v x x w N N x X 3, N v N N i N N N-N- t .*10~3

• 4

~ .) N \\ \\% \\ \\ l \\ \\ t\\ N l' l _ ~I k s -s s 2- \\ k ^s s s s s 3 \\ \\ \\ \\ \\ s s v s s

• 4 s

s N \\ N s N 2 10 - A -2 s, .s .m s .s 7-v. s. ,~c u, s ,s s.. s., s s, .x, x ex N x. xe e ik 3'0-4 4 \\ l \\ l Hi N \\ \\ 'i 3 \\! \\ \\ \\ 'N l ? N 's N 's 2- \\' \\ A A 4x10 5 N s \\ \\ \\ 10, s .t 0.1 .2 .4 .7 1 _2 4 7 10

2. 0 40 70 100 projectsd esposure duration (M) t UNI Projected whole body gamma dose as a function of gassne esposure rate and projected duration of esposure G

• m'} m a

sr ,- : -wgm r.

3.,m. ~

n, ~-- ; ~,w , ; n s w p %.7 6 ;, ...,~, -q v ,,..;,,3._,' y c g [' ~ * . e F - - - - '-"4+- * -

^ L La 'e i- - L.- < - a.:.~

.-a au -

a-wp A.- 2 SC-420:18 \\ 2.5 E015t$ AFTZ1l sauwwwN ) 4 \\ NI i i i tI ,g re err m r c w n N N i Plot the point re -7 Z '*d'***** """ presenting ga m

• **** # h*I **d N

\\ \\ N ~ N projected durastas of espesure ' bra). - ~4 .\\ ' \\ N Esetaste the projasted wteele body dose \\ 5 from the curves shove and bolsw the x s s .t . - petta. -2 7 x x s s. m l' x x i1, x. N. s' 6 AeW s \\ \\ \\ \\ 4- \\ \\ \\ l M 3 To 2 "I r \\ \\ h ts\\ % 7 s 3. e N N w 5 4* \\ N>. N <l s 1p-x s t l %/. ,\\ .\\, ,\\Fw s x i s. v. ,o x 7 g 7, x x. Nc .x xv s .x w ,4 I s s ,x, s.x, m n. y g = a N sX e 6A e N N .N L \\ \\ kl \\ l ll ,b, D \\ \\ (\\ ll \\ \\ l I 4_ 1 \\i 1 1.l \\ \\ N Nl \\ \\ l l

• 1C*
• w w

s s s .s w 7 \\ \\ \\ \\ \\Ik \\ A_ A l g g w s s s s s -4 x x x s s {1 s s s s s s s m s I_ 2 x x. .y x. x x s .x m.' s s. s, s 3 x s s # s e s I, u .. u x x .. s N w x ..x N v 'ii v N N i i x ix ix N i ,- 1c-2 N Nil \\% %i N IL I Nl 1 \\ INI r 7 g 3 j 2-N d.s N N s 3 N ,A \\ N \\ \\ 3 s s \\ _4 \\ \\ \\ \\ \\ tag _ .x A x A N .s 7 m s .s 2 x, s. ,..~N. s s. ,.s.. xv. i N

• i it t

x. .x. , 1 's ev _!ill A N t i N N N t =,- 10-4 i l l\\ \\ \\ \\ \\ l ,7 N N N A t N \\ N ~ N N N 4:10*3 s K N m, 10 I ( A I i 0.1 .2 .4 '7 1 2 4 7 10 2.0 40 70 100 pre 3ected exposure duration (hours) tic ntz 3 Projected wiiole body gamma dose as a function of ganna ,,,,s,, ras,,,, p,,3,es.,e r,sto,of,,,,,,,, ,s

r..

,r., , - w y t_ r,' . g "_' ~ j '7' 'e _~ _ ___ __' f-f {= - -- j A.f,. 2

• M,,

.y. c .~

> =6 ~ s- -; =.;.a.. L.la-a w_ SC-420:19 i \\ l 4! 4 2.s was um s=c= \\ \\ _v w - li 1 l l \\ t tovsr m scurs _,g** N N \\ \\ \\ Fles the point representing games C7 ~ g N radiaties espesure race (aA/hr) and N N projested durattaa of aspesure (hrs). ) . N i\\ \\ \\ i \\ l\\ Estimate the projasted whole body dose ~~ ig5 __ from the curves above and below the =' s s s . s - peins. 7, x n s . x. s s ? - -g .s y _ 1 x s % e vs i \\ \\ \\ \\ L\\ 4~ N N N y T D, 3 1 s s \\ \\ N tsN Ne s 7 g. N N (,.y Q _4 4 N N A A A 10. x s .m. s. m 7 x x ,,,.c_ e s. x, s .x .y s s ..s s.s. x...s. y =g .D y s ,s 3 s s .m ...s s \\ Ai Ni s ati w A I N) N iii N N u t i sii ~ s 1 \\l 1 iM ,1 N NN I NI \\ Nl I lll 5 .~1"*.h l 1 N 1 N \\ \\ N s s s s s. -s ,s s -7 g I N N N 3 s 'p\\ \\ \\ s k g 3 s s \\ g s ~4 ~ g, s N N N N. x .s s 1,3. ' .N 's 's. (1 3. s s s-r 7, x s. ,.s x. -z I s s s .s x. s, s ..s. s. s. .s. s .s .s . ~. w \\. \\ l41 A s.1s,' \\! ).h N N '\\ 0 'l ll .s ~,,, v s ,,, s ,s,\\ ~ 'l N Mill \\% 4l \\ Ill NI % N l's t 5:~1F, 2 s , bl. s s s x k 'k -7 1 s ,s cs s s x i s s s s s. s. s i N g N N N N -4 i,t 1,z _ s x x is .. x. .s s. s 7 v. , s .s . ~s.. s .s. ..s.. - -2 w. s. s. s ....s, s, .s .x s .x, ,...s I I 'lI \\ l \\' i1 \\ \\ l \\l i Iil 11 i lN N i l \\ 4-N 11 5 1#' ~ ~ N 's N N 7 s g. N ( A A ( N N s s 4:1a-3 J t N w to. i y s 3_ 0.1 .2 .4 .7 1 2 4 7 10 2.0 40 70 100 . i projected azoosure duration (hours) UE 4 Projected whole body gasme dose as a function of gasuna .~ azoosure rata' and projected duration of esonsure L - ~

~ a:.._. - ua :.- - a-Ku - .. o. .SC-420:20 o ) 4.3 HOURS AFTZ1 Sh'tTrDOWN 4 \\ \\l l l l'k 9 7SE TNT! C1 TAM

1. 0 N

l Flec the peLas representing gamma \\ l\\ i 2 radiatise exposura saca (sR/hr) and ~7 s g prajestad duration of exposure (hrs). \\ \\ N 1\\ Estimate the projested whole body dose N l\\ from the cusvos aheve and below the 4 1j - i ,ei... s s s s .s. .s.. s-7- s s s u x. _z x x 3 . uw x x v x x, \\ i i '-. x x x % N w, 1,.1 s s s N s a

t. 3s 4 1 s

s - s

7 N 'N,%y N s

4lE 1,,, N x x s m. m s ,. = g X, e t. e sJ N .s a .N I 7-g s s .m s .s. s. . ~. ~ 3 -s y ,x ,,s y w .x ..x x v l\\ l \\ lll YA \\ lM ! \\\\ I i s xui x NN rs i N N i il _to.2 - s s s s lM. N s 'N ' s s s I = s s s s.s

-7 e

2-s s s s s s \\ \\ \\ dx \\ 5 s a 3 s N N 4 s s 3 i

n. 10 -

x .'s 3 s s s. ~ 7-s s, m s s s s. ~ 5 s. x s s.. ..s.. s .s ~ . ~. i -2 s, ,s .. u s .s ... ~ ~ s ~. .1 ts A ie v N I N I 6 :e N A \\ N 11 lV N{, l l \\% 4' 5{ l l l \\ l \\ NJ IN I gg.3, l \\ k _'N s \\ \\ \\ 7 2-s ,s s s s s s s N \\ N s g N A T 2 N N A )N -4 l'2 _ !A ' ......s4 'N.. 's .'s. l 7-m .s. .s s s. s ....x. i .g x. .y ....x N-ex ,,,w e ei uis A N i' 6 \\ \\ t sie in 4 l l !I Il l lN \\ \\l M-K l . to-4 \\ s N \\ 's \\ A \\ \\ 2- -7 = I N N N ~ N q N - 4x10~3 j' i\\ 3-10 g w i e e --. 0.1 .2 .4 .7 1 2 4 7 10 2.0 40 70 100-projected essesure duration (hours) e Projected uncle body gasma dosa as a function of gasuna FIGURE 5 exposure rate ans prosec:=4 duration of exoosure ) C - - = g'-- --=v y.- gg --Tv-5

m. w Q a-. ::

-l -=-~="~:--- \\ .1_... .- a .a.: a. SC-420:21 d 4 6.5 HCURS As u.J. S'aUTDOW \\ \\l 11II I ro ene ms curn N 4 \\ \\ l\\ Plot the point repressattag gassa g radiation espesure rate (zR/ht) and . = - 1. 0 N N pesjestad duracian of espesure (hrs). \\ \\ \\ A N Eastasta the projected whole body dose Ig i ~N from the curves above and below the point. s, x t ,,1 [ -4 7 x n ,x 1, x, x s u x_ 1 N s 'A e. W \\ - \\ \\' V L\\ 4, t \\ k b N Ndr i -I s s s s 3 3 \\ \\ \\ \\ 2-= = - 10*I s s N N W s %s s -7 ge g, ik I N /. \\ ,\\. t v. u 1 ,m 7 -4 N N* 's. x> s ix., y l \\ \\ s l,* s se x6 x , w e 63 x. y v . s y s ,s, ,.s x \\ l\\ l N li 'N N1 NI I N N i iiu sii 1' Nii m 4 4- -2 N N N ns l N N ' liti E j' 1 \\ 2 N N lN 'Q \\ \\\\ -la-r $ s s s\\s s \\ \\ \\ 1 \\ N -7 g i lo - N N N \\.A s \\ s = x x 'd. ' Q, ' N, 7 x' N-

• 4

[ x , x ~ x x .x .m. s, I Xt x e x e y s \\' N ( is - N x = ew g, 3 .g, ,,,g = a u ,c =4 N \\- 1 l Xr \\ \\i' 'l'\\ \\' N N 111 -2 N I N \\ l!' \\% N 1 \\{ l \\l- \\ NINI 5 \\ b k k f gg.3, 2 \\ \\ s s s s 2 sd N \\ N -7 e s 8 2 j%A A 1.s s 10 - A lN l s- .x -4 .m _x ,1 7- .,~y. v-x. x x, w-x x, 1 N' 'N" e e n x, is,,,,,i, 4 J i 84 A i \\1 i 16 % N, Algie i -2 I l I _N V N l l \\ N. l 9ll 1 N 's N N N 2- \\ \\ \\ A I ,- 10-4 N N Ni 7 s s \\ N 10 A i a c.'1 .2 .'s ,7 1 2 4' 7 l'c 2.'o 4d 7'o igc[ ~ 48 Projec*.ad exposure duration (hours) ITGUIE 6. Projectad whole tody gasme dose as a function of gassa esposure rate and prosec:ad duration of exposure O .J

~ '

^ ---.l L-----'-

~ -2 .w w w._w : w w..... a = ; w. - :a SC-420:22' 4 12.5 HOURS A u.x snuwCWN. } \\ Ni l i llIi to usz m r c w n N Floc che point representing gacma N N radiacios exposiste rats (sE/hr) and 2 N \\ j\\ k N N ~ projestad duracion of exposure (hrs). 0 105 i\\ l\\ N Escamata the projestad whole body dose from the curves aheve and b=1sw the = -1. 0 . 's peins. m t t. 1, 7, __ s s , s 1. ty 7 x x. t, s ,v. y x y ,i o s.,w e 4 s s LN is u' ei Ls. p l l il -4 \\ \\ \\ \\ M N"o,j l 4 ! !l l l s s s. x ) \\ N N ts <*y \\

=

-2 s s s' \\ \\ s \\ 4 l\\ 1 v, ,\\ \\ h. 10 - .= - 10*1 s s s sm m s ,,m 7-s s. t. ,, s .s a. 7 x x, ..w,. x x. x...w. v ~ x x. ... ~ - s w .y ...x x i k \\ N \\ l !Il W 'N l\\l IN l i l N \\1 l I t ill ~'

1. ~

1 \\ \\ M I N N NINI N \\ l 111ll: ~ s 1 )N s s N \\ \\ DN \\\\l l N h g, -2 s \\, s s s s \\ s N s N N s s 2 u s N

5. 3p,

\\ A N x s s = - 10~. - l x x '.s.. x 7-x s s. s s. _7 ,.s s. .,s s .s s s, s....,. s s... s .s ,~. a .I w evi ,iii., N e xi e i <w N w '..x s1 ~ ,,, ~ si ~ l i s ,s is ~,,, NlN ll \\% %I \\ l' ll \\l % N NI i 3 l N 1K.N \\ N NWR -2 s s s s s s . s s 2 ns s s N s .ns -la-2. x Fs 10 - s =. .s .a 7 m. s. 7 ..,~N,, 3 ... s ,s. xv, s x. t....*. si . x,,.. cu s...x 4 I io itgi A t rg i s e ( \\ \\ At l l ll l i ll l N I N ill \\ Ml ~N ill ] N 1% N N Ni 2-I 2 \\ \\ N N N \\ \\ \\. g, ,s 10 4 l v .s 4 a.1 .2 .4 .7 1 2 4 7 to 2.0 40 70 10a _7 projected esposure duration (hours) - 4x10-5 R@Z I. Projected whole body garma dose as a function of gassa exposure rate and projected duration of exposure a J ~ -~ m m w.e m.=wo~- y. -

s 3._

-;y r z-r y,q.. ..s s 5 -t.

. -420:23 SC v w to' - -"7 x \\

==- 6 7-3_x x i i. e i e i siiii \\x , s '~ \\ IN i I .4.t: 1 i i l ll11 1 -2 g s w carte ( s \\ \\ l ' esa l d

• 3

\\ N 'N - lo g = -7 s 3 ( s s I s lo - s x m..~. s, 7-s x s. s. s x s s -u wiv x x s. N w x u T \\ v 4 \\ N' T l child =2 = ( ,\\ A h n\\ \\ D '.Y ~ s s.s', 2- - to N s s N = N N s 2 s s s ii. \\ N. A l 2 N "7 to - s x a s x s. s 1 s. s. v 7-s .s, s .,sm s , s s,. u .s = x .x, & n...v .s. .x., .. x., 3 s N int %) 1 1 '\\ l iV h s N-N I I 1 1 NO \\ i \\\\1 N lIN.N 1 l\\ "2 1 = g N \\ \\ !!N\\ \\ l \\ '\\ a m 2 x x N gN N N,X =- to-' i j,,2_ \\ 's W syn 's M. \\ 3 -7 3 s s 1 s s . m x. .x .m -6 ~ ..,.. m s. s. s, . x-s w s .x .<.y.

v., s

,x.s y .-.,v y x.,x x s u,a i x.i\\ i w i x % 4 -2 .II kr. NN %l%.5 2-3 xx N NN - - Io*

s. N. \\ E to -

N N' -7 s s 7- ' 4. '1, .' s -a wi...v xe x 1 I I t il e i, i N 114 %1 6-1 g;* gl N to USE "J23 GIAFE" .e sthe==posure l % l\\ riss the pesas r=prese.sta .ad estfaste the pesjestad thyve14 dose \\ "" - l o., - m. 2-W insespete,ctas. K = 6 s to-.a g,.1, e e i e. i s 7 1.0 2 1 to 20 30- "'***= """"' bJ. o.3, .2 4 FIGU2r 8 Projected-thyroid dose as a function of either gamme exposare ruta, or radiciodine concentration in air and the projected exposure time. l i i l O

>u# 6,.- w:;.ed L LC-420:24 ( s l l ' '*"4,4,,.,. g

• g): ' ema.. p g
  • "Pt h

^ a][3] ;

,;^;.

6h [ g z .%MgM"f.L p :P l g+W,< = h4L.wia , dj 'h j

a.ti g I

+i: 1J 85.%C . u I i p[~ Mh g. > +, *M i l 6+ l .[ tt f"- +-- m g l l 0, 3

1.,

e m, 7 ~ ^ l u l g G.S = a 8 ' tre f.4e* b ^ gg = m G.7 ' i-1 2 3 4 8 8 7 8 9 10 11 12 TIMG (MRI AMER 3HUTDOWN FIGURE 9 CORRECTTON FACTORS FOR THYH0!D IMHALATIUM 003E AS A FUNCTION OF TTME AFTER REACTUR SHUTUSWN THAT HAD10100tNE CDXL"sitTRATION 13 MEASURED. l h (_, a a

. a..,_aaG ua mm _.n _- % _ a c_ _ - _:2 h _,,ma n SC-420:25 4 KEI_E8CILIllEg_LgCGIEg_gggUI_glyyG_gIIE E90CSUI_6HP_tBgpugI pIgI69gE_[ggg_gIIg p;gECIIgy_Eggg_p;IE DUf TY--fl0 TT CO., INC. WILLIAl1 SON 0-1/2 HILES SOUTHEAST DADY FOODS 1HE WA TERilAN FOOD PRODUCTS CD. 3-4 HILES SOUTH FOOD PROCESSING uNTARIO KRAUT CORP. 3-4 HILES SOUTH SW / RAILROAD AVE. FOOD PROCESSING VICTOR PRESERVIt4G CD. 3-4 HILES SOUTH FOOD PROCESSIl4G UNTARIO COLD STORAGE 3-4 HILES SOUTH SW FOOD PROCESSING WATERilAN FRUIT PRODUCTS CD. 3-4 HILES SOUTH SH i00D PROCESSING ~ uMTARI'i FOOD PRODUCTS 3-4 HILES SOUTH SH FOOD PROCESSIr4G t.iNDAN PRODUCTS CO. 3-4 HILES SOUTH SH FOOD PROCESSING uNTARIO WATER DISTRICT 1.1 HILE EAST WILLIAtiSON WATER DISTRICT 5 1/4 HILES EAST ONTARIO FIRE DEPARTHENT 4 HILES SOUTHEAST Oh'lARIO CEl4TER FIRE DEPARTHENT 3.5 MILES SOUTH GNION HILL FIRE DEPARTHENT 5 HILES SOUTHWEST UNTARIO TOWN HALL 4 HILES SOUTH -.~c.---- ,-.,__.7

a. A-SC-420:26 c !!9!!@Eg_I!L8!!D,6DgUI.,gI!!!!$_gIIE tiOUSE Oli LANE ROAD DIRECTLY 50UTil 0F l'LANT BEEDEE 1,500 FT. SOUTH riGUSE Ori S.W. CORiiER OF LAKE ROAD AND ONTARIO CTR. RD. LOOMIS 2,000 FT. SOUTH SE HOUSE Oli fiGRTH SIDE OF LANE RD. 'd. E. OF GCIENCE CENTER ACCESS ROAD TAILLEE 2,500 FT. SOUTHEAST iiOudE OH f'RIVATE ROAD NORTH OF >< DOVE HOUSE 2,000 FT. SOUTHWEST 9 -

• em e==* e= e * - e *. m 4.

ee >= g w g4%c c,. -s g, opps m,*,s= ew.y - %.- m s-..g+ = e gma sp am sem ew mesep=m,t*,n y 7%e my Qy,esig e9qrg; y i}}