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EMERGENCY OPERATIONS FACILITY

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COOPER NUCLFAR STATION OPERATIONS PANUAL ATTACHMENT "C" EMEPGENCY PLAN IMPLEMENTING PROCEDURE 5.7.9 ACTIVATION OF EOF

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\\ _,I EMERGENCY DIRECTOR CllECELIST s

ACTION ITEMS TIME / INITIALS 1.

Contact the Shift Supervisor and review:

a.

The logic used to establish the classification of the event.

/

b.

Status of plant conditions.

/

c.

Status of notification to off-site agencies.

/

d.

Reconmended protective actions made to date and his knowledge of states' actions.

/

2.

Upon reporting to the EOF, assume from the Shift Supervisor the responsibilities for site response and connunication with offsite agencies.

/

3.

Notify the NPPD Division Manager of Power Operations of the declared EAL, if not already previously

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Verify that notification has been made to the emergency m

response organization, and the following key assignments have been manned:

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Emergency Title Primary Alternate Energency Director Station Assistant to Station Superintendent Superintendent Emergency Planning Energency Q.A. Specialist Coordinator Planning Coordinator Operations Day Shift Day Shift l

Advisor Supervisor Supervisor No. 1 No. 2 Radiological Chen. & HP Environmental l

Manager Supervisor Manager - G.O.

l Radiological llcalth Environmental Assessment Physicist Supervisor - G.O.

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Coordinator l

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COOPER NUCLEAR STATION OPERATIONS MANt'AL ATTACHMENT "C" EMERGENCY PLAN IMPI.EMENTING PROCEDURE 5.7.9 ACTIVATION OF EOF

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EMERCENCY DIRECTOR CHECI:1.IST Energency Title Primary Alternate Security / Admin./ Logistics Administrative Tech. Assistant to Manager Supervisor Station Superintendent Contract Support Nuc. Eng. Dept.

Nuclear Eng. Dept.

Manager Proj ect Eng. -

Mech. Engineer -

G.O.

C.O.

Public Infornation Public Info.

Public Info.

Manager Manager Coordinator Communication Communications Communications Manager Engineering Supervisor -

St >ervisor -

Yolk York ACTION ITEMS TIME /INITIAI.S 5.

Ensure that the Chem & li.P. Coordinator has contacted Nebraska Department. f IIealth, Division of Radiological

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IIcalth and the Missot ri Division of liealth and determined

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the status of impicmentation of previously recommended protective actions.

/

6.

Declare the EOF to be operational.

/

7.

Assign personnel to evaluate plant conditions based on information available from Control Room, and ensure that EOF Status Board is updated as conditions change.

/

8.

Review the personnel accountability report.

/

9.

Determine the need to evacuate nonessential personnel to offsite location (required for Site Area and/or General Emergency).

/

10.

Review the results of dose projections.

/

11.

Make protective action reconmendations as appropriate, considering existing plant conditions and potential degradation.

/

12.

Authorize dispatch of on-site survey teams as necessary.

/

13.

Authorize dispatch of off-site survey teams as necessary.

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EMERCENCY PLAN TMPLEMENTIMC PROCEDURE 5.7.9 ACTIVATION OF EOF D

i EMERGENCY DIRECTOR CilECKLIST 4

ACTION ITEMS TIME / INITIALS 14.

Authorize dispatch of rescue /re-entry' teams as necessary.

/

15.

Authorize emergency exposure dose limits as necessary.

/

16.

Determine long-term equipment and man-power needs.

/

17.

After plant is restored to a safe condition, ensure j

emergency plan is deactivated and off-site personnel and k

agencies notified.

/

i 18.

Provide verbal summary to the NPPD Division Manager of Power Operations and off-site authorities when emergency i

conditions are resolved and followup with written 1

summary within eight hours (vLthin 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for an Unusual Event).

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('OOPER NUCLEAR STATION OPEP ATIONS t'ANUAL ATTAClu:ENT "D" 1

DfERCENCY PLAN It'PLEMENTING PROCEDURE 5.7.9 ACTIVATION OF EOF ID PUIILIC INFORPATION MANAGER CHECKI.IST ACTION ITE!!S TIME / INITIAL.S 1.

Contact the COEC and determine status of past press releases.

/

2.

Inquire of Nebraska and !!issouri Information Of ficers regarding any past state press releases.

/

3.

Determine plant status from Emergency Director or Operations Advisor.

/

Imtermine if adequate staff has arrived at the MRC.

,/

5.

Prepare draft news releases for review by the Fmergency Di ector.

/

6.

Transmit approved news rele ses to HRC.

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SECURITY / ADMINISTRATION /LOGICTICS MANAGER CllECKLIST ACTION ITEMS TIME /INTTIALS 1.

Check with EOF nnd station personnel to determine special needs concerning supplies, manpower, and transportation.

/

2.

Determine if adequate logistics personnel are present to carry out duties.

/

3.

Organize logistics staff and arrange to obtain any needed equipment, clerical services, and typewriters.

/

4 Ensure that Maintenance Personnel move the EOF trailer to the proper ?ocation, and place it in aperation (i.e.

hook up electrical supply, communications, etc.).

/

3.

Receive additional equipment needed and issue to indiviouals requiring it.

/

/"'N 6.

Ensure that Security Shift Supervisor is (v) present.

/

7.

llave Security Shif t Supervisor call in off-duty security personnel as necessary for security functions.

/

8.

Itave Security Shif t Supervisor initiate personnel accountability by computer printout and checkoff of personnel in TSC, OCS's, end EOF.

Conduct personnel accountability in the EOF and report all personnel accountability results to Energency Director.

/

9.

Ensure that adequate food and lodging is available to support the emergency organization, convenient to the energency area and that transportation will be available to the emergency personnel.

/

10.

Activate the Continuous Air Monitor.

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COMMUNICATIONS MANAGER CHECELIST*

ACTION ITEMS TIME / INITIALS 1.

Set up the communications equipment in the EOF.

(See EPIP 5.7.22)

/

2.

Check out the communications equipment for readiness.

/

3.

Contact the TSC to determine any communications problems that need to be corrected or additional equipment needed.

/

4.

Issue radios (low band) to offsite monitoring teams.

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fATTACHMENT."G" ENERGENCY PLAN IMPLEMENTING PROCEDUPE 5.7.9 ACTIVATION OF EOF

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RADIOLOGICAL MANAGER CllECKLIST 1

i ACTION ITEMS TIME / INITIALS l.

Check that all materials needed to perform assessments are available:

1

a. -Computerized dose assessment equipment.

/

b.

Meteorologicalioverlays.

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c.

Procedures and forms.

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Radio for field team communications.

/

, cs 2.

Receive update and post status on the Radiological Status Board.

/

3.

Determine that the staf' on hand is adequate to j

perform the initial tasi and consists

<>f at 1 cast the following:

)

RaddologicalAssessn'ntStaff.

/

a.

b.'0{f-siteSurveyTeams1and2.

/

4. ~ Cent $ct the C & 11P Coordinator in the TSC and d termine:

i' a[ Protective Action Recommendations made to date.

/

i b.

Location of on-site and off-site monitoring teams.

/

L 5.

Contact the C & IIP Coordinator in the TSC and inform him that the assessment function is being transferred to the EOF.

/

6.

Notify the Emergency Director that the Radiological Assessment staff is ready to perform dose assessment I

and determine. protective action recommendations.

/

,i 7.

Ensure that the Continuous Air Monitor has been j

activated.

/

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, EMERGENCY PLAN TMPLEMENTING PROCEDURE 5.7.10 PERSOHNFL ASSEMPT.Y AKT) ACCOUNTABILITY 8

I.

PURPOSE A.

This procedure describes the imnediate emergency personnel assembly and accountability actions to be taken by all on-site personnel, security officers, contractors, and visitors in the event of a station emergen-cy.

B.

This procedure also provides a means to ascertain the names of missing individuals within 30 minutes and account for all on-site individuals continuously thereafter.

II.

DISCUSSION A.

In the event of an emergency situation at CNS, it is imperative that all personnel on-site are notified of the situation, their whereabouta identified for safety and security purposes, and that they respond in a coordinated effort to the emergency.

An emergency signal is provided to alert al personnel in the vicinity of the plant that an emergency exists. The tmergency alarm signal may be activated manually from the Control R oc.

The emergency alarn consists of a distinct steady-tone signal s anded through the station and security area intercom system. The alata shall be sounded for ten

(

(10) seconds followed by an emergency announcement with directions for

',,/

station personnel, visitors, and contractors. This announcenent will be nade twice. The alarm will then be reactivated for an additional two (2) minutes.

B.

Each site employee, security officer, visitor, and contractor is assigned a designated assembly area, and each area is assigned a supervisor.

The Designated Assembly Area Supervisor (DAAS) shall notify the Security / Administration / Logistics Coordinator of personnel accountability.

1.

Upon arrival and check-in, CNS visitors receive instructions explaining what they are to do and where they are to go in the event of the sounding of the Site Emergency Alarm.

III.

REFEPENCE MATERIAL A.

CNS Emergency Plan.

B.

NURFG 0654, Rev 1.

vised By/Date Reviewed By/Date Approved By/Date Rev.

Procedure Page 1

Of D. Whitman 10/13/82 J. Sayer 10/22/82 M

/02572, 2

5.7.10 7

Pages

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8IV.

PREREOUISITES A.

The Emergency Director declaren that the station is in an AI.ERT, a SITE AREA EMERGENCY, or a CENERAL EMERGENCY status as defined in Fmergency Procedure EPIP 5.7.1, Emergency Classification, or determines that personnel assembly and accountability is desirable.

V.

LIMITATIONS A.

All individuals on-site at the time of the emergency must be accounted for and the names of missing individuals ascertained within 30 minutes of the start of the emergency, and are accounted for continuously thereafter.

VI.

PRECAUTIONS A.

It is the responsibility of each supervisor to know the general lo-cation of his subordinates at any time.

VII.

EOUIPMENT A.

None.

VIII PROCEDURE A.

Immediate Actions.

S j

1.

CNS personnel not engaged in initial emergency response actions shall report to their assigned assembly areas for accountability and further instructions, in accordance with the following:

Operations Personnel - All CNS Operations personnel will report a.

to the Control Room for an accountability check. After this is accomplished, the Shif t Supervisor will determine which person-nel will remain in the Control Room; non-essential operations personnel will be dispatched to the I & C/ Electrical OSC.

b.

Maintenance Personnel - All CNS Maintenance personnel that do not have preassigned emergency response billets, will report to the Mechanical Maintenance OSC we.ich is located on the 903' elevation of the Machine Shop.

c.

Chemistry / Health Physics Personnel - All. CNS Chemistry / Health Physics personnel that do not have preassigned emergency response billets will report to the HP OSC which is located on the 918' elevation of the Office Building in the Health Physics Office area.

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I & C/ Electrical Personnel - All CNS Electricians and I & C 8

Technicians that do not have preassigned emergency response billets will reports to the I & C/ Electrical OSC which is located on the 932' 6" elevation of the Turbine Building in the Electric Shop.

2.

Station security personnel shall respond as follows:

a.

Those assigned to the Central Alarm Station, the Secondary Alarm Station, and at the Security Access Point shall remain at their posts and await further instructions.

b.

Those on routine patrol shall report to the Security Building unless the emergency is security related.

Under this condi-tion, security personnel shall follow the appropriate CNS security plan procedures.

3.

All non-essential CNS personnel shall proceed to the Security Building exit and then to the auditorium for assembly.

4.

CNS visitors, construction and contractor personnel shall evacuate to the Security Building Auditorium.

5.

CNS escorted visitors shall be escorted to the Security Building and instructed to report to the auditorium. Accountabilfty will be maintained by checking off those escorced visitors against the visitor sign-in log maintained at the security office.

Escorts themselves will then proceed to their own emergency assembly areas.

v E.

Subsequent Actions.

1.

The Security Shift Supervisor will ensure that the Security Access Point is manned.

2.

The Security Shift Supervisor will obtain copies of the computer printout and of the Visitor Access Log which will provide a listing of all personnel who should be on site.

3.

The DAAS for the Control Roon, TSC, OSCs, and EOF obtains a copy of the Area Roster Sheet which contains the names and badge numbers of all individuals who should have reported to the area.

Utilizing the information contained on the Roster Sheet, he determines if any individuals are missing; if this situation exists the DAAS fills out Attachment "A".

The DAAS.then calls the Security /Adminis-tration/ Logistics (S/A/L) Coordinator and informs him that all personnel are accounted for or that a person (s) is (are) missing.

4.

All non-essential personnel, visitors, contractors, etc., will report to the DAAS in the Security Building Auditorium. The DAAS utilizing a copy of the Visitor Access Log will determine ac-countability of the visitors present.

He will then contact the S/A/L Coordinator and inform him of all personnel assembled.

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5.

If individuals are not accounted for, the S/A/L Coordinator has the 8

individuals' names announced over the station intercom system, requesting response.

If there is no response, a rescue and re-entry operation will be performed in accordance with EPIP 5.7.15. Rescue And Re-Entry.

6.

The S/A/L Coordinator completes the Summary Of Personnel Ac-countability And Assignments Log Sheet, Attachment "B",

and for-wards the completed attachment to the Emergency Director.

7.

The S/A/L Coordinator will inform the Emergency Director of ac-countability within 30 minutes of the start of the emergency.

C.

On Going Accountability.

1.

In general, the Emergency Director will order any necessary relo-cations or evacuations of assembly areas as appropriate. The DAAS for each area may relocate personnel if deemed necessary for personnel safety (e.g., if the Area Ala rm Monitor and/or the Continuous Air Monitor alarms, and the results of the habitability survey indicate that the TSC, OSCs, or EOF should be evacuated).

2.

Additional personnel required for emergency response will be relocated, on order of the Emergency Director, to an Operational Support Center to await job assignment.

3.

Non-CNS personnel will be granted access to the station only on the

,s authorization of the Emergency Director.

J D.

Assembly Areas.

The first person listed in each group below is designated as the primary DAAS to be responsibic for the accountability of personnel at each assembly area. Using a telephone or a runner, he shall inform the Security / Administration / Logistics Coordinator (the Security Coordina-tor) of the status of his area as soon as practicable.

1.

Control Room.

a.

Shift Supervisor (Emergency Director),

b.

Assistant to Station Superintendent.

c.

Operations Supervisor, d.

Control Room Operators, e.

Station Operators.

f.

Other Operations Personnel.

m Procedure Number FPTP 5.7.10 Date ^'.N ' - )

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Resident NRC Inspector.

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Technical Support Center.

a.

Administrative Supervisor (Security / Administration / Logistics Coordinator).

)

b.

Station Superintendent (Emergency Director for ALERT).

d c.

Emergency Planning Coordinator.

l d.

Engineering Supervisor (Engineer Coordinator for ALERT. TSC Director for higher level classification),

e.

Reactor Engineer (Engineering Coordinator for SITE AREA EMERCENCY and above).

t f.

Maintenance Supervisor (Maintenance and OSC Coordinator).

g.

Administrative Assistant (Administrative Coordina'or for SITE 8

AREA EMERGENCY and above).

h.

Chemistry and Health Physics Supervicor (Chemistry snd Health Physics Coordinator for ALERT).

i. Health Physicist.

tes

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j. Plant Chemist (Chemistry / Health Physics Coordinator for SITE

'(/

AREA EMERGENCY and above).

k.

Dose Assessment Clerk.

1.

Maintenance Planner and Scheduler.

m.

Mechanical Engineer.

l n.

Electrical Engineer.

o.

I/C Engineer.

p.

Engineering Technician (Technical Data Technician).

I l

3.

I & C/ Electrical OSC.

l a.

I & C Supervisor (OSC Supervisor).

b.

Electrical Foreman.

c.

All on-site Electricians.

I l!

d.

All on-site I & C Technicians.

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Relocated Operations Personnel.

5 4.

Mechanical Maintenance OSC.

Mechanical Supervisor (OSC Supervisor).

c?

a.

l b.

Mechanical Foremen.

I c.

All on-site Mechanics.

}

d.

Mechanical Maintenance Utility Personnel.

Si 5.

HP OSC.

Lead Health Physi s Technician (OSC Superviror in ALERT).

a.

b.

All on-site Chenistry Techniciaas.

t

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c.

All on-site Health Physics Technicians.

.e 6.

Security Bui, ding Auditorium.

N Administration, Q.A., TC personnel not deafgnated above.

a.

b.

All Engineers not designated in Step 2. above.

All visitors, contractors, construction Personnel.

, 7.s c.

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All other on-site personnel not designated.

7.

Emergency Operations Facility.

Administrative Supervisor (S/A/L Manager).

a.

b.

Station Superintendent (Emergency Director),

c.

Emergency Planning Coordinator.

d.

Chemistry and Health Physics Supervisor (Radiological Manager).

2 c.

Day Shift Supervisor No. I (Operations Advisor).

l f.

Health Physicist (Radiological Ascessment Coordinator).

l g.

Public Information Manager (Public Informstion Manager).

h.

Communications Specialist (Communications Manager).

1.

General Office Project Engineer (Contract Support Manager).

.j

j. Purchasing Manager (Transportation / Food / Lodging Coordinator).

r 0

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hiscellaneous.

1.

Ifonn emergency occurs during an evening, or on a weekend or holiday, the same areas used during Working hours shall be urflized. However, personnel who are off-site at the time of the emergency and are notified to report to the site to assist in recovery operations shall be instructed as to where they should report when notified.

If no instructions are given, personnel reporting to the site shall proceed immediately to the Security Building.

IX.3 ATTACIIMENTS AttachmInt "A", Individual Accountability Sheet.

A.

.j B.

Attachment "B", Summafy of Personnel Accountability and Assignments.

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COOPER NUCLEAR STATION OPERATIONS MANUAL NfTACliMENT "A"

' EMERCENCY PLAN TLiPLEMENTING PROCEDURE 5,7.10 PERSONNEL ASSEMBLY AND ACCOUNTABILITY ATTACHMENT A INDIVIDUAL ACCOUNTABILITY SIIEET DATE AREA ACCOUNTABILITY SUPERVISOR MISSING INDIVIDUALS BADGE REMARKS NAME NO.

(LAST KNOWN WHEREABOUTS)

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w COOFFR !!UCLEAR STATION OPEPATIONS MANUAL i ATTACHMENT "B" EMFRCENCY PLAN IMPLEMENTING PROCEDURE 5.7.10 PERSONNEL ASSEMBLY AND ACCOUNTABILITY g

ATTACHMENT B

SUMMARY

OF PERSONNEL ACCOUNTABILITY AND ASSIGNMENTS s

By Date INITIAL PERSONNEL ACCOUNTABILITY Conducted by Report in at hrs.

No. of People Control Missing Room Injured Remarks

(nducted by Report in at hrs.

N. of People Technical M'ssing Support I..j u red Center Remarks Conducted by Report in at hrs.

No. of People Maintenance Missing OSC Injured Remarks Conducted by Report in at hrs.

No. of People _

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ge COOPER NUCLEAR STATT0H OPERATIONS MANUAL y ATTACHMENT "B" 1 FMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.10 PERSONNEL ASSEMBLY AND ACCOUNTABILITY

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Conducted by Report in at No. of People HP OSC Hissing Injured Remarks Conducted by Report in at No. of People Security Missing Building Injured

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, EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.16 RELEASE RATE DETERMINATION

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PURPOSE This procedure describes methodology for the manual determination of 4

airborne radioactive release rates from the Elevated Release Point (Reactor i

3 Building), the Turbine Building vents, and the Augmented Radwaste Building vents, utilizing effluent monitor readings.

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II.

DISCUSSION 1

The best method for estimating release rates is through the utilization of j

count rates (CPM) and flow rates (CFM).

Upon determination of release rates, actual or projected plume exposure doses may be calculated in accordance with EPIP 5.7.17. Dose Assessment. These doses provide a basis for relating plume exposure doses to the EPA Protective Action Guides (PAGs) in accordance with EPIP 5.7.20, Protective Action Guides.

This procedure outlines the steps for determiaing release rates from the EPP, Turbine Building, and Augmente( Radwast using effluent monitoring data. It also outlines the steps for determi'Ing release rates at the ERP-using incontainment radiation monitors. Sect on VIII., Part :., dis:usses liquid release activity calculations.

In ddition, this procedure references other sampling procedures for dete: aining release rates.

! p ) III.

,1 ( J REFERENCE MATERIAL A.

CNS Emergency Plan.

B.

NUREG 0654, Rev 1.

C.

NUREG 0747.

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IV.

PREREQUISITES

'j A.

An ALERT or higher level emergency has been declared in accordance with EPIP 5.7.3, EPIP 5.7.4, or EPIP 5.7.5.

B.

An actual or projected release of radioactive material from the ERP, ii the Turbine Building, or the Augmented Radwaste Building has occurred,

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or has the potential of occurring.

V.

LIMITATIONS l

A.

None.

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RJ, vised By/Date Reviewed By/Date Approved By/Date Rev.

Procedure Page 1

Of

1 J. Sayer 10/11/82 D. Whitman 10/27/82

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5.7.16 8

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I, O VI.

PRECAUTIONS

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A.

Determ' nation of ERP release rates using the primary containment 4

monitors (Section E.) should be used only if the calculation cannot be

.. j performed utilizing the ERP noble gas effluent monitor readings.

4 The ERP releases can be calculated by correlating the exposure rates on 4

high range radiation monitor in the drywell to those which have been

.)

calculated assuming a Design Basis Loss of Coolant Accident (LOCA).

3 The LOCA calculations are based on the NUREG-0747 assumptions that of the maximum full power equilibrium isotopic inventories, 100% of the noble gases, 25% of the halogens, and 1% of the remaining radionuclites are instantaneously released to the atmosphere of the primary containment. The leak rate from the primary containment was assumed to bc.105% volume / day.

The secondary containment purge rate was assumed to be 100% volume / day. The entire release is assumed to be through the SGT system and out the ERP.

B.

Dose projections calculated using this procedure should be evaluated utilizing field monitori g data, ERP rndiolodi te filter data, and other n

relevant d7ta as it becones available.

VII.

EQUIPMENT A.

Effluent n nitors.

f'~g P.

In contain.sent high radiation area monitors.

VIIT., PROCEDURES A.

Procedure For Determination Of Release Rate Activity From Elevated

. Release Point Using ERP Effluent Monitors.

(For ERP Release Using Containment Monitor Proceed To Section D.).

1.

Determine the count rate of the release from the ERP monitor and record this value on Attachment "A", Column 2.

I 2.

Using the Calibration Curve for the ERP, determine the release in uCi/Sec per CFM vs.

Count Rate.

Record this value on Attachment "A", Column 3.

3.

Determine the ERP flow rate in CFM and record on Attachment "A",

i Column 4.

I a.

If the ERP flow rate monitor or the SGT flow rate monitor is not operating, estimate the flow rate by obtaining individual

- j, fan flow rates.

1 lj

1) Determine the number of fans operating at 1780 CFM multiply ib the number of fans by 1780 CFM.

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2) Obtain the dilution fan flow rate (CFM) if operating.

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3) Sum the flow rates (CFM) from the dilution fans and the SGT U}

fans.

4.

Determine the time after shutdown when the release determination is being made and record on Attachment "A", Column 1.

5.

Using Attachment "E" and the amount of time since shutdown, determine decimal fraction of radioiodines to release rate of noble gases and record in Attachment "A", Column 6.

i 6.

Using Attachment "F" and the amount of time since shutdown, E

determine the decimal fraction of I-131 to total iodines released 3

and record in Attachment "A", Column 8.

7.

Using math computations on Attachment "A",

determine the release rate of noble gases, total iodines, and I-131.

I These calculations cre as foHows:

RxF= Igg R x F x C; = RRTI R x F x Cj x C2 I-131

= RR Where:

R = Release in uCi/sec per CFM.

F = ERP flow rate in CFM.

C = Decimal of noble gas release which is radiciodines as a g

function of time after shutdown.

C = Decimal of total radioiodines which is I-131 as a function of 2

time after shutdown.

RR

= Noble gas release rate (uCi/sec).

yg Rg7 = Total radioiodine release rate (uCi/sec).

RR

- I dine-131 release rate (uCi/sec).

I-131 B.

Determination Of Release Rate From Turbine Building Vent.

1.

Determine the count rate of the release from the Turbine Building vent monitor and record this value on Attachmcot "B", Column 2.

2.

Using the Calibration Curve for the Turbine Building vent monitor, determine the release in Ci/sec per CFM and record this value on Attachment "B", Column 3.

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3.

Determine the Turbine Building vent flow rate in CFM and record on Attachment "B", Column 4.

a.

If the Turbine Building vent flow monitor is not operating, estimate the flow rate by obtaining individual fan flow rates.

1) Determine the number of fans operating and multiply the number of fans by 50,710 CFM.

4.

Determine the time after shutdown when the release determination is being made and record on Attachment "B", Column 1.

i 5.

Using Attachment "E" and the amount of time since shutdown, determine the decimal fraction of radioiodines to release rate of noble gases and record on Attachment "B", Celumn 6.

6.

Using Attachment "F" and the amount of time since shutdown.

determine the decimal fraction of I-131 to total iodines released

]

and record on Attachment "B", Column 8.

7.

Using the math computations on Attachment "L",

determine the release rate of nobic gases, total iodines, and I-131.

These calculations are as follows:

R x F = RRyg RxFxC = RR g

TI RxFxC xC

= RR,g3g g

2 7

Where:

R = Release in Ci/Sec per CFM.

F = Turbine Building vent flow rate in CFM.

C = Decimal of noble gas release which is radiciodines as a 3

function of time after shutdown.

C = Decimal of total radioiodines which is I-131 as a function of 2

l time after shutdown.

Noble gas release rate (Ci/Sec).

RR n

yg RR.l = Total radioiodine release rate (Ci/Sec).

4 i

t RR _g33 = Iodine release rate (Ci/Sec).

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C.

Procedure For Determination Of Release Rate Activity From Augmented s_,/

Radwaste From Vent Monitors.

1.

Determine the count rate of the release from the Augmented Radwaste vent monitor and record this value on Attachment "C", Column 2.

2.

Using the Calibration Curve for the Augmented Radwaste vent monitor, determine the release in Ci/sec per CFM and record this value on Attachment "C", Column 3.

3.

Determine the Augmented Radwaste vent flow rate in CFM and record the value on Attachment "C", Column 4.

a.

If the Augmented Radwaste vent flow monitor is not operating, estimate the flow rate by obtaining individual fan flow rates.

1) Determine the number of fans operating and multiply the number'of fans by 16,000 CFM.

i 4.

Determine the time af ter shutdown when the release determination :s being made and record on Attachment "C", Column 1.

5.

Using At tachment "I and the amount of - tima since shutdown, determine the decimal fractiet. of radioiodines to release rate of noble gases and record on Attechment "C", Column 6.

p) 6.

Using Attachment "F" and the amount of time since shutdown,

(

determine the decimal fraction. of I-131 to total fodines released

^ ' '

and record on Attachment "C",

Column 8, 7.

Using the math computations on Attachment "C",

determine the release rate of noble gases, total iodines, and I-131.

These calculations are as follows:

R x F = RR g RxFxC = RR y

TI RxFxC xC = RR y

2 I-131 Where:

R = Release in Ci/Sec per CFM.

F = Augmented Building vent flow rate in CFM.

C = Decimal of noble gas release which is radioiodines as a g

function of time after shutdown.

C = Decimal of total radioiodines which is I-131 as a function of 2

time after shutdown.

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Pages Procedure Number EPIP 5.7.16 Date #b-h

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RR

= Noble gas release rate (Ci/Sec).

NC RR

= Total radioiodine release rate (Ci/Sec).

TI RR,g3g = Iodine release rate (Ci/Sec).

7 D.

Procedule For Determination Of Release Rate Activity From Elevated-

~

R-lease Point Using Incontainment Radiation Monitors.

NOTE: This method should be used if the release rates cannot be calculated using the ERP noble gas effluent monitor method in Section A. of this procedure.

f 1.

Detemine the exposure rates on the high range incontainment radiation monitor and record this value on Attachment "D",

Column 2, R/hr.

2.

Determine time after shutdown release determination is being made and record on Attachment "D", Column 1.

3.

Determine the DBA-LOCA exposure rat i as a function of effective age from Attachment G and recore. this value on Attachment "D", Column 3.

4.

Determine the LBA-L0r". noble gas release rate as a function of effectiv'e age from Attachment "H" and record this value on

/'

Attachment "D",

Column *..

5.

Using Attachment "E" (Relative Release Rates Of Total Radiciodines To Noble Cases vs. Time) and the amount of time since shutdown, determine decimal fraction of total iodines and record in Attachment "D", Column 6.

6.

Using Attachment "F" and the amount of time since shutdown, determine the decimal fraction of I-131 to total fodines released and record in Attachment "D", Column 8.

7.

Using the math computation on Attachment "D", determine the release rate of noble gases, total iodines, and I-131.

These calculations are as follows:

CD/DL x RRNCLOCA "

NG CD/DLxRbCLOCA* 1 TI

~

CD/DLxRbCLOCA* 1*

2 I-131

= RR Where:

CD = Drywell high range radiation monitor reading.

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DL = Drywell exposure rare at effective age (R/h) from DBA-LOCA.

RR E'* '"** * '* ' "'' *8'

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NGLoca " DBA-LOCA.

C = Decimal of noble gas release which is radiciodines as a g

function of time after core shutdown.

C = Decimal of total radioiodines which is I-131 as a function of 2

time after core shutdown.

RR

= Noble Gas release rate (Ci/Sec).

yg RR

= Total radiciodine release rate (Ci/Sec).

TI RR

= I dine release rate (Ci/Sec).

1-131 E.

Procedure For Determination Of Liquid Release Rate Activity.

1.

Use the previous inventogy concentrations, if known, or assume a concentration of 1 x 10 pCi/ml during normal operation.

6 2.

If river flow is not known, assume low river flow of 6.8 x 10 Gal / Min.

f'"%

3.

Calculate the downstream concentration by using the formula:

\\

I Gal Disch/ Length of Disch (or Disch Rate), pgf f,

p River Flow - GPM Note: Ft /See x 60 Sec/ Min x 7.48 Cal /Ft = GPM L/ Min x.264 Gal /L = GPM Dilution Factor x Discharge Concentration pCi/cc = pCi/cc Downstream Concentration.

4.

When samples have been collected, update information and relay to the Emergency Director, or if so directed to the State Radiological Health Department, i

F.

Emergency Sampling For Release Rate Activity.

1.

Noble gas, particulate, and iodine release rates may be determined by sample collections from the effluent release path and subsequent analysis of these samples in the Radiochemistry Laboratory (refer to Chemistry i

Procedure 8.4.1.2, Emergency Sampling Gaseous Release, for details of sample collection). Approval from the Radiological Manager / Coordinator must be obtained before this procedure may be implemented.

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Incontainment activities, both liquid and gaseous, may be also obtained to determine release concentration if the release - path is from i

containment (refer to Chemistry Procedure 8.4.1.1, Post Accident Sampling System Reactor Coolant And Containment Atmosphere Sampling).

Approval from the Radiological Manager / Coordinator must be obtained before this procedure may be implemented.

1 IX.

ATTACHMENTS A.

Attachment "A", Elevated Release Point Using Effluent Monitors Release Rate Determination.

B.

Attachment "B", Turbine Building Release Rate Determination.

C.

Attachment "C", Augmented Radioactive Waste Releas Rate Determination.

D.

Attachment "D", Elevated Release Period Using Primary Containment Mo.,itor Release Rate Determination.

E.

Attachment "E", Radiciodines to Noble Cases Vs. Time Relative Release Tates.

F.

Attachment "F", I-131/ Total Radioiodine Vs. Time Post

'OCA Release Rates.

G.

Attachment "G", Drywell Dose Rate Vs. Tine.

H.

Attachment "H", Noble Gas Release Rate Vs. Time.

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Lut trt.n.NULLEAK d in A 1UN t>rtKKi!UN5 P!/uGAL ATTACHMENT "A" EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.16 RELEASE RATE DETERMINATION

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ELEVATED RELEASE POINT EFFLUENT MONITOR RELEASE RATE DETERMINATION Relative Effective Release ERP Relative Rate Age Rate uCi/Sec Flow Rate RR (NC)

Total RR (TI)

Total RR (I-131)

(IIr)

(CPS)

Per CFM x (CFM)

= uCi/See x Iodine = uCi/Sec x I-131

= uCi/Sec (1)

(2)

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(4)

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'rocedure Number EPIP 5.7.16 Date / 3*N ~

Revision 2

Page 1

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COOPER NUCLEAR STATION OPERATIONS MANUAL

ATTACIIMENT "B"

.; EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.16 RELEASE RATE DETERMINATION 1

40- s TURBINE BUILDING RELEASE RATE DETERMINATION Turbine Release Effective Count Building Relative Rate Relative Age Rate Ci/Sec Vent Flow RR (NO)

Total RR (TI)

Total RR (I-131)

(llr)

(CPM)

Per CFM Rate (CFM)

Ci/See x Iodine Ci/Sec x I-131 Ci/Sec

=

=

(1)

(2)

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e LUUPtK NUCLEAR STA'110N OPERATIONS MANUAL

, ATTACHMENT "C"

. EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.16 RELEASE RATE DETERMINATION j}

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AUGMENTED RADI0 ACTIVE WASTE RELEASC RATE DETERMINATION Release Effective Count Augmented Relative Rate Relative

^

Age Rate Ci/Sec Vent Flow RR (NG)

Total RR (TI)

Total RR (I-131)

(llr)

(CPM)

Per CFM Rate (CFM)

Ci/Sec x Iodine Ci/Sec x I-131

= Ci/Sec

=

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' EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.16 RELEASE PATE DETERMINATION n

ELEVATED RELEASE POINT USING PRIMARY CONTAINMENT MONITOR RELEASE RATE DETERMINATION Actual Containment Exposure Noble Gas Release Effcctive Exposure Rate At Release Pelative Rate Relative Age Rate Effective Rate RR (NG)

Total RR (TI)

Total RR (I-131)

(Hr)

(R/llr)

Age (R/Hr)

(Ci/Sec)

(Ci/Sec)

Iodine (Cf/Sec)

% I-131 (Ci/Sec)

(1)

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(3)

(4)

(5)

(6)

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(,l ATTACHMENT "E" EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.16 RELEASE RATE DETERMINATION 10 2' RADIOIODINES TO NOBLE CASES VS. TIME RELATIVE RELEASF RATES g

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1..-

LtitWEK NULLEAK bTAllON UPtKAT1Uhb MANUAL ENERGENCY PLAN IMPI.EMENTING PROCEDURE 5.7.17 DOSE ASSESSMENT OV I. PURPOSE To provide an outline of procedures for the proper physical set up of equipment and operating instructions for the computerized NPPD Emergency Preparedness - Atmospheric Dispersion Model - Interim Version. Should this program become inoperable, a manual backup system will be utilized. Therefore, this procedure also provides instructions and calcu-lations necessary to predict off-site dose rates and integrated doses based upon actual meteorological data, release rates, and dispersion factor overlays. This procedure also provides means for on shift personnel to quickly predict off-site dose rates and integrated doses based on neteorological data, release rates, and dispersion until emergency personnel arrive to use the more accurate computerized or manual backup method of dose assessment. II. sISCUSSION 1 ts procedure is intended to: A. Ensure the proper physical set up of the appropriate computer terminals in the proper locations. B. Provide the operators with appropriate instructions in the use of the computer terminals in order to successfully run the Atmospheric Dis-persion Model - Interim Version. C. Provide a manual backup means of adequately addressing dose assessment should the computerized model be inoperabic or unavailable. D. Section VIII. of this procedure is divided into three parts: 1. Part A. describes the operation of the computerized dose assessment model. 2. Part B. describes the hand calculated dose assessment method, should the computerized model fail. i 3. Part C. describes a method that may be used by on-shif t personnel to quickly establish a conservative dose assessment. III. REFERENCE MATEPTAL A. Users Guide for EPM 2 - Emergency Treparedness Atmospheric Dispersion Model; prepared by Dames & Moore. '~' ~/ Revised By/Date Reviewed By/Date Approved By/Date Rev. Procedure Page 1 Of J. Sayer 10/11/82 D. Whitman 10/28/82 [ ,p.tg412 5.7.17 16 Pages ,r .m-- e - m ,-2

=. l e, .B. NRC Regulatory Guide 1.145, August 1979, Atmospheric Dispersion Models For Potential Accident Consequence Assessments At Nuclear Power Plants. C. NRC Regulatory Guide 1.111. July 1977, Methods For Estinating Atmos-pheric Transport And Dispersion Of Caseous Effluents In Routine Re-i leases From Light-Water-Cooled Reactors. D. NRC Regulatory Guide 1.109, March 1976, Calculation Of Annual Doses To Man From Routine Releases Of Reactor Effluents For The Purpose Of Evaluating Compliance With 10CFR50, Appendix I. f E. Health Physics Journal, November 1981, Dose Rate Conversion Factors. i F. ICRP #59, W;rking Breathing Rate. IV. ' PREREQUISITES A. A release of airborne radioactive material has occurred or has the potential of occurring. V.

i. IMITATIONS A.

Release Rate Determinations must be conducted in accordance with l EPIP 5.7.16 Release Rate Determination. 4 VI. PRECAUTIONS i A. Actual dose rates will vary as a function of: 1. The total curies released (varies with time). i 2. Release rate (varies with time). 3. The duration of the release. j 4 The isotopic mixture of the release. l S. Meteorological conditions. i B. Update and refine. dose assessments for critical receptor sites upon significant changes in one or more of the above parameters. C. Should a release occur which necessitates rapid decision making con-cerning the recommendation of protective actions, the guidance con-tained in EPIP 5.7.20 should be followed. i VII. EOUIPMENT t A. Technical Support Center (TSC). i 1. Texas Instruments - T.I. 820 Printer, Hard-Copy Terminal. i I \\ i l t s v w-J. Procedure Nunbcr EPIP 5.7.17, Date,,;s 7 _ C._ Revision 2 Page _?_ Of,,,16 Pager i

6 4 ['~'} 2. Two (2) RACAL-VADIC-VA3451P MODEMS, 300/1200 Baud. V 3. RS-232 DATA SPLITTER. 4. Two (2) standard telephones. At least one (1) must have microwave and outside commercial telephone access. 5. Appropriate wiring harnesses for the proper connection of the terminals and modems. 6. Appropriate amounts of continuous Data Forn paper for the hard-copy terminal (Printer). B. Emergency Operations Facility (EOF) 1. Texas Instruments T.I. 820 Printer, Hard-Copy Terminal. 2. One (1) RACAL-VADIC-VA3451P MODEM, 300/1200 Baud. 3. Two (2) standard telephones. At 1 cast one (1) must have microwave and outside commercial telephone access. 4. Appropriate wiring harnesses for the proper conne cion of the terminal and modem. 5. Appropriate amount o'f continuous Data Form paper fc" the hard-copy /~' terminal (Printer). C. Hand Calculations. 1. Environs Map. 2. Atmospheric Dispersion Overlays. VII

I. PROCEDURE

A. Computerized Dose Assessment. 1. Physical set up of equipment. a. Technical Support Center (TSC).

1) The necessary equipnent for the operation of the Atmospheric Dispersion Model in the TSC is given in Section VII. The T.I. 820 Printer, the two VA-3451P Modems (Marked "A" and "B"),

the continuous Data Form paper, and the appropriate wiring harnesses are located in the TSC. Upon arrival in the TSC, make sure the separate pieces of equipment are properly connected to one another in accordance with the configuration shown in Attachment "A" of this procedure. Each cable is numbered to correspond with an identically numbered receptacle (i.e., #1 to #1, #2 to #2, etc.). l t Procedure Number EPIP 5.7.17 Date If *-) > ). Revision 2 Page 3 Of 16 Pages

6 i + ) 2) It is necessary that the T.T. 820 Printer and the VA-3451P / \\,,) Modems have the proper Terminal Configuration in order to successfully operate the Atmospheric Dispersion Model. This configuration shall be set for the faster 1200 Paud Rete. The configuration of the T.I. 820 Printer has been preset and should not require adjustment. If, however, the-Printer is not properly configured, the instruction sheet for the necessary corrections is located on a pullout pad under the front lower left of the machine. For the 1200 Baud mode, the configuration number sequence should read 13, 25, 37. The method for obtaining this sequence of numbers is explained on the pullout pad mentioned above. The normal positions of the two rocker switches on the Icf t side of the keyboard panel should be forward, in the LINE and VIEW position. The on-off switch is located on the back of the machine next to the 115 AC power cord should be in the ON position. a) The switch configuration of the VA-3451P MODEMS should be as follows: Front - Th.ee (3) toggle switches located on the left ride c-the machine are labeled FA; HS; and DA, VS, MA. The FA switch is a one position switch which will always be in the FA position. The HS switch has two positions and should he in the HS ()g position for normal operation with the 1200 Baud ( Rate. The lower position, which is no? labeled, is for use with the 300 Baud Rate, which will not be used under normal circumstances. The DA, VO, MA switch on the Modems should be in the middle or VO position. 2. Back - There are two (2) horizontal switches on the bsck of each Modem. The inside switch (nearest the AC power cord) should be in the extreme oatside position (away from the AC power cord). The outside switch (nearest the outer edge of the modem) is a three-position switch and should be in the middle position for normal use. The proper configuration and explanation of these two switches is attached to the bottom of each nodem, b) The lighting configuration on the front panel of the VA-3451P Modem is indicative of which mode the VA-3451P i Modem happens to be in at the time the light is on. The key to the lighted panel is as follows: 1. TXD = Transmission of Data from the Printer to the Conputer; only lights up when a signal is sent to the computer. x_ > i

Procedure Nueber EPIP 5.7.17 Date /h-)

21 Revision 2 Page 4 Of 16 Pages

o q N r { h 2. RXD - Lit when Receiving the Data from the Computer s_ / to the Printer. 3. HS = High Speed print rate; 1200 Baud when on/ 300 Baud when off. 4. CTS = Clear To Send; meaning the Modem is ready to work. 5. DSR = Data Set Ready; meaning the Computer is ready to work. 6. DTR = Data Terminal Ready; meaning the Printer is ready to work. 7. RI = Ring Mode; the Modem is ready to make a telephone call when the light is blinking. 8. CXR = Carrier Transmit; signal from the Computer to the Printer is established when lit. This mode will take 2 to 5 seconds af ter the first high-pitched tone is received. When the CXR light comes on, the receiver may be hung up. b. Emergency Operations Facility (EOF). (

1) The necessary equipment for operation of the Atmospheric

\\,)j Dispersion Model in the EOF is given in Section VII. This equipment is stored in the CNS Security Building Admini-stration Office. Each piece of equipment nust be moved to the designated Radiological Assessment area. The equipment must then be properly connected in accordance with the configuration shown in Attachnent "A" of this procedure. Fach cable is numbered to correspond with an identically numbered receptacle (i.e., #8 to #8, #9 to #9, etc.).

2) The terminal configuration for the T.I. 820 Printer and the VA-3451P MODEMS is the same as those located in the TSC.

That configuration is noted above. 2. Operating the Emergency Preparedness Atnospheric Dispersion Model - Interim Version. Upon completion of the physical set up of the T.I. 820 Printer, a. and appropriate MODEMS in the TSC and EOF as shown in Attach-ment "A", the following steps must be completed.

1) Plug all modules into a common 115 V AC outlet and turn the (OFF, ON) switch to the ON position on the T.I. 820 Printers. The VA-3451P MODEMS will automatically activate when the T.I. 820 is turned on.

~J l Procedure Number EPIP 5.7.17 nate IE ~ Pcvision 2 Pane i Of 16 Paces

1 l / 2) In-the'TSC,'one telephone will be used to access the PRIME Computer in the Columbus General Office. The primary - method of communication with the PRIME is the NPPD flicro-wave Telephone System. The. secondary method'of communica-tion is a standard commercial telephone line. The numbers to be dialed in order to access the PRIME are as follows: a) Primary Method'(Micrcwave) from CNS is b) Secondar* w thod (Commercial Telephone Line) from CNS V i s'. - i Allow.the telephone to ring until a continuous high pitched . tone is received. The continuous high pitched tone indi-cates that access to the computer has been accomplished. At.this time, push the three-position toggle switch on the VA-3451P MODEM "A" from the normal VO position to the DA position. Wait for the CXR indicator light on the front of the Modem to come on (light up). When.the-CXR light comes . r on, the communication link from the Computer to the Priiter has been established and the telephone receiver snould the i be gently hung up. In a normal-operating condition, the ' following lights - on the VA-3451P MODEM will be on: HS, CTS, DSR, DTR, and CXF - ( If one or more of these lights are off, repeat Steps 1) anj 2). The second telephone in the TSC will be used to dial-up the Printer-in the EOF. The. dial-up number for the EOF is CNS extension. ' Extension > 'is a direct hook-up to the. VA-3451P MODEM located in the EOF. This is an Auto. Answer / Originate Modem which is connected directly to the, T.I. 820 Printer in the EOF as shown in Attachment "A". Using a second telephone and VA-3451P. MODEM "B", the operator in the TSC will dial CNS extension. - a'nd listen l for the high-pitched tone as mentioned - in the previous paragraph. Upon receiving the high-pitched tone, push the j three-position toggle switch from the V3 position to the DA l position and wait for the CXR light to come on. Again the a'ctivation of this light indicates communicatfor. between the Printer in the TSC has been established with the Printer in the EOF. I L At this time the equipment in the TSC is operational and the equipment in the EOF is slaved to the TSC equipment, f l. i sw ss . Procedure Nunher-FPIP 5.7.17 Date

• J*
• - Pcvision 2

Pace 6' Of 16 Paces 'mM ^V---? g 'Br =* g g e +r- 'F g S 9-wrt- - = = > +

=<r-y-w-ww- '-4 y w =4, +--i----a-y i's-

• b+h---===

w-t-4-w-'e --=w-e-m- a w we - wr w rP e

I If the equipment in the TSC malfunctions, the VA-3451P Hodem in the EOF will allow a direct communication link with the PRIME by pushing the switeb on the Modem to the VO position and dialing the appropriate microwave number mentioned above. When the Computer has been accessed, push the switch to the DA position as noted above. During normal votking hours, contact the Columbus General Office Computer Services Pivision to clear all other work on the PRIME Computer. Since this program is run on a time share basis, clearing all other work will speed the calcu-lations and enable the program to increase its efficiency. Contact one of the following people. r a) Dennis Smith - b) Gary Linder - c) John Riggle d) Joe Srb -- f

3) At this time the Harc'-Copy : ermtcals are cpEratiorial.

In order to test the teruinals.~the operator in the ISC shall type the word ilELLO and the f depress the return hey. If the words LOGIN PLEASE ERf ' appear on the Hard-Copy Terminal, the equipment is. functioning properly. If nothing is happening on the Printer, repeat Steps 1) through 3).

4) Upon proper completion of Steps 1) through 3), the following inputs must be entered in order to access the

,l program Model. The computer prompt will indicate the order that inputs must be entered. The Computer Prompts and

• +

Operator. Inputs are as follows: Computer Operator Prompt Input i. LOGIN PLEASE ER! LOGIN EPM 1 PROJECT CODE ( ): CNS S..) i as OK, R EPM 3 Ji Notice that the operators' inputs sometimes require spaces s between command words. For example: a space must be input between LOGIN and EPMI. Where shown, all blankss are mandatory. ~ t i e, s% Prnecdure Nunher FPTP 5.7.17 Dare .. ' Regicion ? Pace 7 Of 16 Pacee i; s ~ t .g..

a. l E 4 /~'% ( ) The program will now begin execution. \\_/ Give the program a Title - (e.g., Turbine Steamlenk).

5) The program will prompt each input that is necessary to properly execute the Model. Attachment "B" of this proce-dure contains certain site specific data asked for by the program. This data will be necessary for operator input to successfully complete the Model. With the exception of the Flow Velocity Data, all site parameters will be used as primary information for input to the program. Actual Flow Velocity Data may be obtained from the appropriate meters and charts in the Control Room and the information concerning the Flow Data Velocity in Attachment "B" will be used as secondary or backup data. This data is based on design flows and may NOT show the actual Flow Velocity.

There is a halt after cach pronpt to allow the operator to input the necessary data. During execution, should the program note that the plume passes over. any special recepte or preselected sample points, it will notify the operator who would then reftr to Attachment "C" and appropr.date maps for t'.e corresponding grid coordinates and locationr.( fs t any time during the program the telephone link a should become disconnected and the program ceases /'~'N operation, take the following action. Re-dial the (,) PRIME Computer and the Program will pick up where it left off when it.was disconnected. NOTE: In the event the terminals located in the TSC should malfunction or the TSC should be evacuated, the TSC operator should NOT Log Out of the program. When s ( ' ~ - the program reaches an appropriate stopping point s. '\\. such ::s the end of a 15-minute segment, the operator will-disconnect (hang up) the terninal from the , PRIME Computer. This can be done by pushing the three-position toggle switches on both MODEM A and MODEM 3 to the VO position. At this time the EOF should be notified of the termination of TSC opera-tien of the Dispersion Model. The operator in the s ( EOF'can then dial up the PRIME Computer as stated in Step 2) above and continue the uninterrupted 3 sequence of 15-minute segments. The EOF then s becomes the primary control center for operation of the Atmospheric Dispersion Model. N, If the operator wishes to terminate the program, a prompt i of "999" will occasionally appear. At this time, the i operator must type "999". After typing "999", and thereby terninsting the program, the following computer prompts will appear and-the appropriate operator inputs must be entered. S"O, s 8 t g hibc'edure'NiENo r EPIP 5.7.17 Date 'UU S A Revision 2 pace 8 or 16 Paces i 3) 4 s o

q I 3 -(. t _ ") g Computer O'perator Prompt Input STOP OK, LO ~

6) The program has been Logged out. The operator may either discontinue operations or initiate a new run.

If a new run is desired, repeat Step 4) above. If the operator wishes to discontinue the operation of ti,e program, push the three-position toggle switch from the DA position to the VO position. V B. Hand Calculated Dose Assessment. J 1. The Emergency Director is responsibic for the implementation of this procedure. 2. Initiate EPIP 5.7.16. Release Rate Determination and obtain the release rate in (Ci/Sec) for: a. 1)ble Cares; Record on Attachment "I", Section A., Column 3. b. I-131; Pecord on Attachment "I", Section B., Columns 2 and 3.

c. ' Recalculate Release Rates as a function of ef fective age and s

) enter in the appropriate columns. wJ l, 3. Determine the atmospheric stability category. a. Using dif ferential temperature recorder determine atmospheric stability category. Visual aid on face of recorder will determine stability. Fo11oving step explains stability classi-fication.

1) Obtain the temperature difference in C' between 97m and 10m, if not available obtain the C* between 47n and 10m, if not available obtain the temperature dif ference between 97m and 47m (read from the upper level to the lower level).

Utilizing the appropriate value, stability categories are defined as follows: Pasquill Delta Temp. Delta Temp. Delta Tenp. Category

• C (97m-10m)
• C (47m-10m)
• C (97m-47m)

A -1,6 -0.70 -0.95 B -1.6 to -1.5 -0.70 to -0.63 -0.95 to -0.85 C -1.5 to -1.3 -0.63 to -0.55 -0.85 to -0.75 D -1.3 to -0.43 -0.55 to -0.18 -0.75 to -0.25 E -0.43 to 1.3 -0.18 to 0.55 -0.25 to 0.75 F 1.3 to 3.5 0.55 to 1.48 0.75 to 2.0 G 3,5 1.48 2.0 t \\~ I i ' 9 1) \\ Procedure Nunhc-PPTP 5.7.17 Date .,-a. Revision 2 Pace 4 of 16 p.4ce r

1 I 4 irA ( b. Stability Category determines utilizing meteorological data is N-also discussed in Attachment "D". 4. Overlays. Select the proper atmospheric dispersion overlay. Overlays are a. labeled according to the atmospheric stability class. If the release is not from the ERP, utilize dispersion overlay stability Category C. b. Situate the overlay upon the base map. Utilizing the eind direction in compass headings at the 33' height as pre..ously de te rmined, rotate the overlay until the plume centerline is oriented in the direction of the compass heading (compass headings are provided for a full 360* azimuth about the site). c. Once the dispersfor. overlay is placed upon the base map, it is clear which receptor locations may be in the path of the dispersing plume. List key receptor site locations in Attach-ment "E", Column 2. Determine X/Q values for key receptor sites, "8 a. Values on the overlay are ) b. Each receptor site will have a different X10u/Q value.

1) X10u/Q values on the overlay are shown as isopleth lines printed directly upon the. overlay. Each isopleth line is labeled with a capital letter to indicate its relative strength. The nucerical value corresponding to the letter is shown in the far, lower right corner of the overlay.

Plume centerline values are marked by plus marks (+) directly along the centerline. Each plus mark corresponds to the downwind distance labeling the vertical edges of the figure. The X10u/Q associated with each centerline dis-tance is indicated in the lower right corner of the over-lay, directly to the left of the X10u/Q value associated with the isopleth lines (capital letter values). Utilizing these values, it is possible to interpolate X10u/Q values for any area bounded by the outermost isopleth of each overlay. Record the X10u/Q value for each receptor site in Attachment "E", Column 3.

2) Estimate the X10u/Q value for each of the receptor site locations.

It may be necessary to interpolate between isopleths. Enter this value in Attachment "E", Column 3. ,g, i Procca vc Pu-ker vnTP %,7.17 nnro . 55 Ss ocriefnn 9 Pace 10 Of 16 Pacer n

.. ~ - _ - _ - - -. L i .L i i i

3) Obtain the windspeed in m/s at the 97m height. Enter this value in Attachment "E" Column 4.

1 Meters /Sec (M/S) 1 Note: j-i

4) Divide Column 3 by Column 4 yielding the resultant X/Q 3

(sec/m ) value for that receptor site and record in Column 5. s In equation form the calculation may be represented as: X/Q (Sec/m ) = X 10m/s/0 windspeed (m/s) at 97m i i At this point: i Note: A separate work sheet for dose calculations at each key receptor f *.te will be utilized on Attachment "E". 4 1 i 6. Calculate the whole body gamma dose rates and integrated :oses from noble gas ERP releases as a function of effective age (A*tachment L i "I", Section A.). i i a. Enter the X/Q value for the receptor site previously deter-nined, in Sections A. and B..' Column 2, as determined from Step

5. above.

j b. Determine.the gamma decay Energy E as a function of ef fective gaeofthenoblegasatthereceptorsiteutilizingAttachment 4 ] G. Average gamma decay energy for noble gases as a function of effective age,. Enter.this value in Section A., Column 4.

1) For most cases the effective ajgt of the noble gas at the receptor site may be equal to the effective agdt at the time of the release onset.

2) If the transit time from the release point to the receptor site is-greater than I hour.the transit time component should be considered. This will result in a more realistic j dose estimate. Refer to Attachment "F" for effective age deterninations at receptor site involving consideration of transit times. c. The whole body gamma dose rate is estimated as follows (Attach-ment "I", Section A.): 1 ng(mrem /hr) = 9.5 x 10 x Ey x R x X/Q D ng J f b 4

. ~. 1 4 i i ..m Where: D = The gamma dose rate at time j at the receptor site of "E interest (mR/hr), Column 6. Ey = Average gamma decay energy (Mev/ disintegration) for the j isotopic mixture in the cloud, Column 4 X/Q = The relative concentration at the receptor site (Sec/n ), Column 2. RR = The noble gas release rate at time j (Ci/Sec) or "83 (uCi/Sec) Column 3. 5 9.5 x 10 - Conversion factor to determine dose rate from air concentration and average decay energy in units of (Column 5): mr-disintegration-ce or nr-dtsintegration-m3 MeV-4Ci-hr MeV-Ci-br i Note: I uC!/cc = ' Ci/m. d. Celculate the inte rated whole body gamma dose (Attachment "I", Section A., Coluinn 7, 8, 9, 10). s

1) Integrated doses at receptor locations may be calculated from the equation:

Dose (m/ rem) = (Dng)1 + (Dng)2 x (T2 - TI) 2 Where: (Dng)1 = dose rate (mrem /hr) at time 1. a j (Dng)2 = dose rate (mrem /hr) at time 2. T1 = time 1 (br). T2 = time 2 (hr), t l

2) To obtain the integrated dose (mren) at time, sum all l

previous integrated doses. 7. Calculate the inhalation thyroid dose rates and integrated doses for 1-131 and all radiciodines as a function of effective age for each receptor site utilizing Attachment "I", Sections B. and C. O ) o f. F\\1 s* rcuteinn 7 Pnce I? or 16 Pace-Procedorn ronhar rnin s.7.17 nnen

1 m Note: The major dose contribution to the thyroid for effective ages less than 24 hours is from all radiof odines. There-fore, during the early stages of an emergency this component should be considered. As the effective age of the mixture increases the dose contribution to the thyroid is primarily from I-131. Refer to Attachment "H", Ratio Of Dose Rates From All Radioiodines To Ratio Of Dose Rates From I-131. a. The I-131 thyroid inhalation dose rate is estimated as follows: (Attachment "I", Section B.). Note: After determining I-131 dose rate also record on Attachment "I", Section C., Column 2. D,g3g(rem /hr) = 1.86 x 10 I-131j x RR x XiQ 7 Where: RR = The I-131 release rate at time j (Ci/Sec) or I-131j (uci/Sec) Column 3. ',g3g = The I-131 thyroid inhalation dose rate at the receptor 7 site of interest (rem /hr) Column 5. 6 1.86 x 10 = Dose conversion factor for I-131 inhalation by an [' ' adult at a working breathing rate when the thyroid \\ is the organ of interest. (Rem-m /hr-Ci or Rem-cc/hr-uci) X/Q = The relative concentration at the receptor site (Sec/m ) Column 2. b. Calculate the thyroid inhalation dose rate from all radio-iodines Attachment "I", Section C. I

1) Determine the ratio of dose rates from total radiciodines/-

I-131 as a function of effective age from Figure 2 and record in Section C., Column 3.

2) The thyroid inhalation dose rate from all radiciodines is estimated as follows:

D (rem /hr) = D,g3g(rem /hr) x total radiciodine dose rate gg,y 7, 7 I-131 dose rate Where: D tal I,s(rem /hr) = The thyroid inhalation dose rate from all t radioiodines at the receptor site of interest (ren/hr). l g)s ,s _- s I Procedure Number EPIP 5.7.17 Date M -)

• - Revision

? Page 13 Of 16 Pane e

a ? k /'"'N D rem r = e I-l I t yr id inhalation dose rate. I-131 (rem /hr) " Attachment "11" Total Radiciodine Dose Rate Ratio Of Dose Rate From I-131 Dose Rate (rem /hr) c. Calculate the integrated thyroid inhalation dose from I-131 and total radioiodines in accordance with Step 6 d.1) utilizing Attachment "I", Sections B. and C. d. Calculate child dose rates and integrated doses from I-131 and total.radiciodines.

1) For young children the thyroid dose would be approximately double that of the adult for inhalation of identical atmospheres. Increased child doses are a function of:

a) Thyroid size and mass. b) Increased breathing rates for children. c) Increcsed thyroid activity in children resulting in an increased uptake.

2) To determine the child radiciodine inhalation dose rates and integrated doses from I-131 and total radioiodines.

simply double the total for adult. (-/ i 8. Update and refine dose assessments for critical receptor sites upon significant changes in releases or meteorological conditions. C. Initial Dose Assessment For On-Shift Personnel. 1. This method of dose assessment may be used by on-shift personnel to establish an initial dose assessment of off-site releases. This method may serve as an initial acsessment until the on-shift crew is augmented by emergency response personnel and further dose assessment evaluations can be accomplished. 2. EPIP 5.7.16. Release Rate Determination, must have been completed. Because releases with concentrations severe enough to affect off-site areas vould most probably be generated in the Peactor Building, travel through the STG and out the ERP; refer to EPIP 3.7.16, Attachment "A". Record the noble gas and total iodine release from EPIP 5.7.16 Release Rate Determination, Attachment "A" onto Attachment "K" (On-Shif t Initial Dose Assessment) of this procedure. l 3. . Sum the noble gas and total f odines being released and record on Attachment "K". \\x_sl i S *. 8*.\\() Revision ? Page 14 Of 16 Pages Procedure Number EPIP 5.7.17 Date ~ a--

7 .i i m 4 Cogvert the total pCi/Sec release to 01/Sec release by dividing by 10 and record on Attachment "K" (On-Shift Initial Dose Assens-ment). 5. Because the data presented in the tables of Attachment "K" are per 100 Ci/Sec release, divide the total release above by 100 to determine the multiplication factor and record on Attachment "K" (On-Shift Initial Dose Assessment). 6. Determine atmospheric stability class (see Page 9, Step B.3. of this procedure). Using differential temperature recorder determine atmospheric stability category. Visual aid on face of the recorder will determine stability. Record on Attachment "K", Item 2. (On-Shift Initial Dose Assessment). 7. Determine wind speed from the wind speed record for the top of the ERP and record the aph on Attachment "K", Item 2. (On-Shif t Initial Dose Assessment). 8. Using the atmospheric stability class as a guide, choose on-of the three tables that most closely compares with that stability class. 9. Using the wind speed, an exposure rate at an distance up t 50 miles may be approximated. 10. Normally the exposure rates to the nearest ( >wnwind residence. ('"'\\ population center, or arca will be determined. Note: The thyroid exposure is based on adult update to determine the child thyroid dose rate; double the adult dose rate. Record the exposure rates at the chosen receptor site on Attachment "K". 11. Multiply the exposure rates times the multiplication factor from Step 5. to correct the exposure rates to the actual release and record on Attachment "K". 12. By integrating the exposure rate over a period of time (anticipated or actual duraction of the telease) the total dose can be deter-mined. Record the rate and time on Attachment "K" and determine the total dose. l 13. Compare the total integrated dose to Protective Action Guides in EPIP 5.7.20, Protective Action Guides. I Note: EPIP 5.7.20, Protective Action Guides, Attachment "E", contains a similar set of tables that estimates the number of hours before a protective action guide is exceeded for this same release. l l l t i I . g w ,s Procedure Number __FPIP.5.,7.17 Date

w. Revision _ 2, _

Page 15 Of-16 Pacer ~ 1. 1

f. 1 ( .sj 'A / 14 Inform the Energency Director of the exposure rate, integrated \\s_, dose, and protective guide comparison. It is the Emergency Direc-tor's decision to recommend a protective action. 1X. ATTACHMENTS A. Attachment "A", Terminal Hook-Up Configuration At CNS Technical Support Center, Emergency Operations Facility And Columbus General Office Flow Diagram. B. Attachment "B", EPM 2 Atmospheric Dispersion Model - Interim Version Input Information. C. Attachment "C", Special Receptors And Preselected Sampling Points Identification And Location. D. Attachment "D", Stability Category Determination. E. Attachment "E", Key Receptor Site And X/Q Determination. F. Attachment "F", Transit Times And Effective Ages Of Noble Cases At Receptor Sites f f Interest Det"rmination. G. Attachment "C", iloble Cases As A Function Of Transit Time And Ef fective Ages At Release !! ate Determination. (N H. Attachment "H", Ratio Of Dose Rates From All Radioiodines To Ratio Of ,,) Dose Rates From r_131, ( I. Attachment "I", Dose Rates And Integrated Dose For Whole Body And Thyroid Calculation. t J. Attachment "J", Noble Gas Mixtures Average Gamma Decay Energy. K. Attachment "K", On-Shift Initial Dose Assessment. i I i l I \\_/ I 15 ' % 3 SN . Procedure Number EPIP 5.7.17 Date Revision 2 Page __16 Of 16 Pages

8 G" A COLUMBUS GENERAL OFFICE COOPER NUCLEAR STATION z TECHNICAL SUPPORT CENTER EMERGENCY OPERATIONS E FACILITY g DIAL-UP NETWORK PRIME TO m COMPUTER I p---- PRIME COMPUTER EXI 207 i l g g i o a 8 l P DIAL-UP VA 3451 l l ucaco l VA 3451 I200/300 BAUD I 2 l A l MODEM o I n#5 l h #8 -l O U U*l l U#9 N hl ~] 1 TEXAS I VA 3467 "l RS 232 I 2l INSTRUMENTS m w l MODEM g SPLITTER #6 PR R $1 $l h*2 wl P 5 ,-4 z El t m S l 4 O y i}g $1 A c F#3 U#7 w[ g z 2 y 1 TEXAS VA 3451 0" d !N bz O DIAL-UP l MODEM z p NETWORK ----- PRINTER "B" I O I $z n 3 l-g8 g v. m PRIME COMPUTER (**N*

Q m I-TELEPHONE NUMBER DIAL-UP NETWORK I' NPPD MICROWAVE 74-368-5285 TO stb. TELEPHONE 9 00-563-5285 0 m, 2 m CONTROLLING STATION SUPPORT STATION SLAVE PRINTER s

,_m R ^~~ v v v COOPER NL' CLEAR STATION OPERATIONS MANUAL AITAuusu "B" EMERCENCY Pt.AN IMPI.EMENTING PROCEDl'RE 5.7.17 DOSE ASSESWENT EPM 2 AINOSTHERIC DISPERSION MODEL - INTERIM VERSION INPUT INFORMATION T-G BUILDING ALOTEh'IED ELEVATE REACTOR FAN EXHA11ST RADWASTE RADWASTE RELEASE PARAMETER BUILDING BUIIDING BUIIDING BUILDINC POINT Number of Dacts 1 1 DUAL SINCLE 1 1 Duct Coordinates 75'W,492'N 100'E,396'N 267'W,583'N 230'W,58 3'N 342'W,525'N 0,0 (from ERP) Model Coordinate Input -75,492 100,396 -267,583 -230,583 -342,525 0,0 Effluent Release I Ileight (meters above grade) 49.1 10.1 16.5 16.5 13.5 99.4 Height of Tallest Adjacent Building (meters above grade) 44.5 44.5 44.5 44.5 44.5 44.5 Flow Velocity (e) (meters /second) 11.66 8.05(a) 6.45 8.16 15.67 14.42(b) 8.56(c) 22.98(d) Flow Rate (cfm) 73405 50710(a) 40570 10030 16500 3000(b) 1700(c) 4780(d) Release Vent (meter:,) 1.95 1.95(a) 1.95 0.86 0.80 0.35 { Diameter (feet) 6.38 6.38(a) 6.38 2.82 2.61 1.16 Exhaust Winter 70 70 70 70 70 00 Temp ('F) Suuner 90 90 90 90 90 90 Structure Rx Bldg 1049' TCB 1010' Bldg 952' Bldg 952' Bldg 941' 1228' Elevation (feet PSL) Ex Fan 1064' Fan Bldg 933' Ex Fan 957' Ex Fan 957' Ex Fan %1' Grade level (feet MSL) 903' 903' 903' 903' 903' 903' (a) Data given for Turbine-Cenerator exhaust fans is for one operating fan. Multiply data by total number of fans in operation. There are a total of four (4) fans. Typically three fans are in continuous operation with one stand *uy. (b) Elevated Release Point Dilution Fan Only. (c) Standby Cas Treatment Fans Only. (d) Elevated Release Point Dilution Fan and Standby Cas Treatment System F--- 7 ..e r.ormal operating situation when the Standby Cas Treatment . System.is in operation. j (e) Design basis only - These numbers are to be used as backup information only. When possible use actual meter or chart readings. Procedure Number EPIP 5.7.17 Date =) Revision 2 Page 1 of 1 ' ages

. - - - ~ _ _ +. - - - -.._ N ') i / l l COOPER NUCLEAR STATION OPERATIONS MANUAL l AITJk,tuv3A "C" i fHERCENCY PLAN IMPLEMENTING PROCEDIRE 5.7.17 DOSE ASSESSMFifT i I SPECIAL RECEPTORS AND PRESELECTED SAMPLING POINTS IDENTIFICATION AND LOCATION 1 Preselected Built-In Cartesian Sampling EPH 2 Polar Crid. Special Polar Crid Bearing Coordinants Distance Receptor Monitcring-Receptor Comparison l Identification (Degrees) Y X (Miles) Points Points Points Points j A-1 11.25 1.96 0.39 2 1 A-2 354.38 3.48 -0.34 3.5 X A-3 5.63 3.48 0.34 3.5 X A-4 11.25 3.92 0.78 4 X A-5 11.25 5.88 1.17 6 X X A-6 354.38 6.97 -0.69 7 X A-7 5.63 6.97 0.69 7 X A-8 0.00 8.00 0.00 8 X X A-9 11.25 8.83 1.76 9 X l A-10 354.38 9.95 -0.98 10 X A-11 5.63 9.95 0.98 10 X X y A-12 0.00 2.75 0.00 2.75 X X A-13 0.00 5.00 0.00 5 X X A-14 (Watson, MO) 5.63 8.21 0.81 8.25 X X A-15_(Hamburg,IA) 356.5 16.77 -1.03

4. -

X i ) l i B-1 33.75 1,66 1.11 2 X B-2 28.13 3.09 1.65 3.5 X X B-3 16.88 3.35 1.02 3.5 X 1 B-4 33.75 3.33 2.22 4 X l B-5 33.75 4.99 3.33 6 X 1 1j k 1 i i Procedure Number EPIP 5.7.17' 'Datehb ~ Revision 2 Page 1 Of 12 Pages 1

] s 3 J COOPER NUCLEAR STATION OPERATIONS MANUAL AITACH Y!(I "C" INERCENCY PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESST NT SPECIAL RECEPTORS AND PRESELECTED SAMPLINC POIrrtS IDE.VIIFICATION A.@ LOCAI1ON Preselected Built-In Cartesisn - Sampling EPM 2 Polar Crid Special Polar Crtd Bearing Coordinants Distance '?ceptor Monitoring Receptor Comparison Identification (Degrees) Y X (Miles) Points Points Points Points (Cont'd) ^ B-6 16.89 6.70 2.03 7 X B-7 28,13 6.17 3.30 7 X B-B 22.50 7.39 3.06 8 X B-9 33.75 7.48' 5.00 9 X B-10 16.88 9.57 2.90 10-X X B-11 28.13 8.82 4.71 10 X-B-12 22.50 2.31 0.96 2.5 K I B-13 20.50 6.56 2.45 7 K X' B-14 (Shenandoah, IA) 27.00 3.43 27.00 31.00 X C-1 56.25 1.11 1.66 2 X C-2 (Phelps City, MO) 39.38 2.71 2.22 3.5 X X C-3 50.63 2.22 2.71 3.5 K C-4 56.25 2.22 3.33 4 X C-5 56.25 3.33 4.99 6 X C-6 39.38 5.41 4.44 7 X, C-7 50.63 4.44 5.41 7 X X C-8 45.00 5.66 5.66 8 X C-9 56.25 5.00 7.48 9 X C-10 39.38 7.73 6.34 10 X C-11 50.63 6.34 7.73 10 X-X C-12 45.00 1.94 1.94 2.75 X X k Procedure Nurnber EPIP 5.7.17 Date/

• Revision 2

Page ? Of 12 Pages

.n.- \\ v COOPER NUCLEAR STATION 07). RATIONS MANUAL ~ ATTAumtra "C" } EMERCENCY PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESSMENT ] .SPECIAL RECEPTORS AND PRESELECTED SAMPLIi=G POINTS IDENTIFICATION AND I4 CATION I Preselected Built-In l Cartesian Sampling EPM 2 i Polar Crid Special Polar Crid Bearing Coordinants Distance Receptor . Monitoring Receptor Comparison l Identification (Degrees) Y X (Miles) Points Points Points Points D-1 78.75 0.39 1.96 2 X X D-2 61.88 1.65 3.09-3.5 X D-3 73.13 1.02 3.35 3.5 X D-4 78.75 0.78 3.92 4 X D-5 78.75 1.17 5.89 6 X i D-6 61.88 3.30 6.17 7 X X D-7 73.13 2.03 6.70 7 X X D-e 67.50 3.06 7.39 8 X D-9 78.75 1.76 8.83 9 X D-10 61.88 4.71 8.82 10 X D-11 73.13 2.90 9.57 10 X X D-12 67.50 1.82 4.39 4.75 K X D-13 (Tarkio, MO) 68.00 0.75 1.85 14.8 I r I I E-1 101.25 -0.39 1.96 2 X X E-2 84.38 0.34 3.48 3.5 X E-3 (Langdon, MO) 95.63 -0.34 3.48 3.5 I X E-4 101.25 -0.78 3.92 4 X i E-5 101.25 -1.17 5.88 6 X E-6 84.38 0.69 6.97 7 X-X ) E-7 95.63 -0.69 6.97 7 X I i i 4 t l Procedure Number EPIP 5.7.17 Datefb" N Revision 2 Page 3 Of 12 Pages i

.. ~. - - -.. ~... ~... - .. ~. -.~..~ l i COOPER NUCLEAR STATION OPERATIONS SANUAL ITTICIR'hT "C" i EMERCENCY PLAN IMPLEMENTING PROCEDL'RE 5.7.17 DOSE ASSESSMENT J t l 1 SPECIAL RECEPTORS AND PRESELECTED SAMPLING POINIS IDENTIFICATION AND IOCATION i Preselected Built-In Cartesian Sampling EPM 2 Polar Grid Special Polar Grid Bearing Coordinants Distance Receptor Monitoring Receptor Comparison Identification (Degrees) Y X (Miles) Points Points Points Potnts a (Cont'd) E-8 90.00 0.00 8.00 8 X E-9 101.25 -1.76 8.83 9 X E-10 84.38 0.98 9.95 10 X X E-11 95.63 -0.98 9.95 10 X ], E-12 (Fairfax, MO) 97.00 -1.49 12.11 12.2 I 4 i F-1 123.75 -1.11 1.66 2 X F-2 106.88 -1.02 3.35 3.5 X F-3 118.13 -1.65 3.09

3. 5 K

f -4 121.75 -2.25 3.33 4 X F-5 123.75 -3.33 4.99 6 X F-6 106.88 -2.03 6.70 7 X I F-7 118.13 -3.30 6.17 7 X F-8 112.50 -3.06 7.39 8 X F-9 123.75 -5.00 7.48 9 X t F-10 106.88 -2.90 9.57 10 X X j F-11 118.13 -4.71 8.82 10 X F-12 106.88 -0.73 2.39 2.5 X X 1 1-13 112.50 -1.91 4.62 5 X X i F-14 112.50 -2.68 6.47 X 1 r d 4 Procedure Number EPIP 5.7.17 Date /[. h b Revision 2 Page 4 Of 12 Pares

t> v v COOPER NUCLEAR STATION OPERATIONS MANUAL ATIACHMENT "C" D'ERCENCY PLAN IMPLEMEKIINC PROCEDURE 5.7.17 DOSE ASSESSMENT SPECIAL RECEPTORS AND PRESELECTED SAMPLING POINIS IDENIIFICATION AND LOCATION Preselected Built-In Cartesian Sampling EPM 2 Polar Grid Special Polar Crid Bearing Coordinants Distance Receptor Monitoring Receptor Ceeparison Identification (Degrees) Y X (Miles) Points Points Points Points C-1 146.25 -1.66 1.11 2 X C-2 129.38 -2.22 2.71 3.5 K C-3 160.63 -2.71 2.22 3.5 X G-4 146.?3 -3.33 2.22 4 X C-5 146.25 -4.99 3.33 6 X C-6 129.38 -4.44 5.41 7 X C-7 140.63 -5.41 4.44 7 X C-8 135.00 -5.66 5.66 2 X X C-9 146.25 -7.48 5.00 9 X C-10 129.38 -6.34 7.73 10 X G-11 140.63 -7.73 6.34 10 X C-12 135.00 -1.77 1.77 2.5 X X G-13 146.25 -4.81 1.36 5 X X G-14 124.00 -2.80 4.15 5 X X C-15 135.00 -6.54 6.54 9.25 X X G-16 (Corning, MO) 129.00 -8.02 9.91 12.75 X G-17 (Craig, M0) 130.50 -12.01 14.07 18.50 K I M-1 168.75 -1.96 0.39 2 X $.- 2 151.88 -3.09 1.65 3.5 X H-3 163.13 -3.35 1.02 3.5 X X H-4 168.75 -3.92 0.78 4 X Procedurc Number EPIP 5.7.17 Date [t' ' ' ) > .) Revision 2 Page 5 Of 17 _ Pages 4

n .- c - --e COOPER NUCLEAR STATION OPERATIONS MANUAL i AITACHMENI "C" EMERCENCY PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESSMENT SPECIAL RECEPTORS AND PRESELECTED SA*'P'""' '?FCIFICATION AND iDCATION Preselected Built-In Cartesian Sampling EPM 2 Polar Crid Special Polar Crid Bearing Coordinants Distance Receptor Monitoring Receptor Ceeparison Identification (Degrees) Y X (Miles) 'oints Points Points Points (Cont'd) H-5 168.75 -5.88 1.17 ( X H-6 151.88 -6.17 3.30 7 X H-7 163.13 -6.70 2.03 7 X H-8 157.50 -7.39 3.06 8 X H-9 168.75 -8.83 1.76 9 X H-10 151.88 -8.82 4.71 10 X l H-11 163.13 -9.57 2.90 10 K H-12 157.5 -5.08 2.10 5.5 X X H-13 160.0 -7.05 2.57 7.5 X X H-14 (Indian Cave, 152.0 -6.71 3.57 7.6 X Ranger Station) H-15 (Barada, NE) 161.0 -10.16 3.50 10.75 X X H-16 (Rulo, NE) 151.5 -18.72 10.16 21.3 X 1 4 l J-1 191.25 -1.96 -0.39 2 X J-2 174.38 -3.48 0.34 3.5 X J-3 185.63 -3.48 -0.34 3.5 X J-4 191.25 -3.92 -0.78 4 X J-5 191.25 -5.88 -1.17 6 X j J-6 174.38 -6.97 0.69 7 X X J-7 185.63 -6.97 -0.69 7 K X l i 4 Procedure Number EPIP 5.7.17-Date[b'c - Revision 2 Page 6 Of 12 Pages

\\j gj COOPER NUCLEAR STATION OPERATIONS MANUAL AITA3 MENT "C" -EMERCENCY PLAN IMPLEMENTINC PROCEDURE 5.7.17 DOSE ASSESSMENT 3 SPECIAL RECEPTORS AND PRESELECTED SAMPLINC POINIS IDENTIFICATION AND LOCATION 6 Preselected Butit-In Cartesian Sampling EPM 2 4 Polar Crid Special Polar Crid Bearing Coordinants Distance Receptor Monitoring Receptor Comparison i Identification fDegrees) Y X (Miles) Points Points Points Points 3 (Cont'd) J-8 180.00 -8.00 0.00 8 X J-9 Replace with K.11.a J-10 174.38 -9.95 0.98 10 K J-11 185.63 -9.95 -0.98 10 X J-12 180.00 -1.00 0.00 1 X X J-13 187.00 -4.96 -0.61 5 X X i J-14 178.00 -8.99 0.31 9 X X J-15 (Falls City, NE) 172.50 -21.12 2.78 21.3 X J-16 (Hiawatha, KS) 171.00 -35.56 5.63 36.0 X i i l i K-1 213.75 -1.66 -1.11 2 X X K-2 196.88 -3.35 -1.02 3.5 I i K-3 208.13 -3.09 -1.65 3.5 X X K-4 213.75 -3.33 -2.22 4 X K-5 213.75 -4.99 -3.33 6 X i K-6 196.88 -6.70 -2.03-7 I K-7 208.13 -6.17 -3.30 7 X K-8 202.50 -7.39 -3.06 8 X K-9 213.75 -7.48 -5.00 9 X K-10 196.88 -9.57 -2.90 10 X K-11 208.13 -8.82 -4.71 10 X i j r 1 l I 1 Procedure Number EPIP 5.7.17 Date /d-N-4.I. Revision ? Page 7 Of 12 Pages i

_. _ _ _. _ _.. _ ~. .m.___ g ) o COOPER NUCLEAR STATION OPERATIONS MANUAL ATTAurs.51 "C" EMERCENCY PLAN IMPLEMENTINC PROCEDURE 5.7.17 DOSE ASSESSME!G I SPECIAL RECEPTOkS AND PRESELECTED SAMPLING POINTS IDENTIFICATION AND LOCATION Preselected Built-In Cartesian Sampling-EPM 2 i Polar Grid Special Polar Crid Bearing Coordinants Distance Receptor Monitorir.g Receptor Comparison Identification (Degrees) Y X (Miles) Points Points Points Points (Cont'd) .K-11.a (Shubert) 194.00 -8.98 -2.24 9.25 X X K-12 196.00 -4.81 -1.38 5 X X K-13 200.00 -6.58 -2.39 7 X X K-14 (Verdon, NE) 195.5 -15.13 -4.20 15.7 X K-15 (Dawson, NE) 212.5 -16.24 -10.34 19.25 X K-16 (Salem, NE) 194.00 -20.28 -5.06 20.9 X K-17 (Sebetha, KS) 196.50 -35.76 -10.59 37.3 X i l a L-1 236.25 -1.11 -1,66 2 X L-2 219.38 -2.71 -2.22 3.5 X t L-3 230.63 -2.22 -2.71 3.5 X-L-4 236.25 -2.22 -3.33 4 X L-5 236.25 -3.33 -4.99 6 X L-6 219.38 -5.41 -4.44 7 X L-7 230.63 -4.44 -5.41 X L-8 225.00 -5.66 -5.66 8 X X L-9 236.25 -5.00 -7.48 9 X L-10 219.38 -7.73 -6.34 10 X L-11 230.63 -6.34 -7.73 10 X L-12 (Ncenha, NE) 225.00 -1.77 -1.77 2.5 X X L-13 225.00 .'.54 -3.56 5 K X 1 4 .6 Procedure Number EPIP 5.7.17 Date/ *N' Revision 2 Page 8 Of 12 Pages t-I

.m. g \\ L COOPER NUCLEAR STATION OPERATIONS MANt'AL ~ ATIACH'1Lisi "C" EMERCENCY PLAN IMPLEMENTitlC PROCEDtJRE 5.7.17 DOSE ASSESSPENT I t t i SPECTAL RECEPTORS AND PRESELECTED SAMPLING POINTS IDENTIFICATION AND LOCATION l i Preselected Built-In Cartesian Sampling EPM 2 1 Polar Crid Special Polar Crid l Bearing Coordinants Distance Receptor Monitoring Receptor Coeparison Identification (Degrees) Y X (Miles) Points Points Points Points (Cont'd) i L-14 (Stella, N2) 216.50 -9.45 -6.99 u. 7., X X L-15 (Humboldt, NE) 230.00 -13.88 -16.55 21.60 X l I ) 3 M-1 258.75 -0.39 -1.96 2 X M-2 241.88 -1.65 -3.09 3.5 X M-3 253.13 -1.02 -3.35 3.5 X X 1 M-4 258.75 -0.78 -3.92 4 X M-5 258.75 -1.17 -5.88 6 X M-6 241.88 -3.30 -6.17 7 X T. i l M-7 253.13 -2.03 -6.io 7 X j M-8 247.50 -3.06 -7.39 8 X M-9 258.75 -1.76 -8.83 9 X M-10 241.88 -4.71 -8.82 10 X M-11 253.13 -2.90 -9.57 10 X X M-12 247.50 -0.29 -0.69 0.75 K X M-13 247.50 -0.96 -2.31 2.5 X X M-14 247.50 -1.91 -4.62 5 X X 1 e. Procedure Number EPIP 5.7.17 Date l[- N .)- Revision 2 Page 9 Of 12 Pages

.-__m .~. ,...) ,n ). ) J + i COOPER NUCLEAR STATTON OPERATIONS HANUAL ATIARinLm "C" EMERCENCY PLAN IMPLEMENT 1NC PROCEDURE 5.7.17 DOSE ASSE3SIE3rr o I l SPECIAL RECEPTORS AND PRESELECIID SAMPLIIAG POINTS IDENTIFICATION MD LOCATION 1 4 i i Preselected Butit-In Cartesian Sampling EPM 2 ? Polar Crid Special Polar Grid Bearing Coordinants Distance Receptor Monitoring Receptor Cocparison Identification (Degrees) Y X (Niles) Points Points Joints Points r N-1 781.25 0.39 -1.96 2 X N-2 264.38 -0.34 -3.48 3.5 X [ N-3 275.63 0.34 -3.48 3.5 X N-4 281.25 0.78 -3.92 4 X N-5 281.25 1.17 -5.88 6 X 4 N-6 264.38 -0.69 -6.97 7 I N-7 275.63 0.69 -6.97 7 X N-3 270.00 0.00 -8.00 8 X N-9 281.25 1.76 -8.83 9 X N-10 264.38 -0.98 -9.95 10. X X N-11 275.63 0.98 -9.95 10 X X N 270.00 0.00 -1.50 1.5 X X N-13 270.00 0.00 -5.00 5 X X N-14 278.50 1.03 -6.92 7 I I-N-15 (Auburn, NE) 281.25 2.10 -10.54 10.75 X X N-16 (Johnsen, NE) 280.25 3.47 -19.19_ 19.50 X ) N-17 (Elk Creek, NE) 258.75 -5.22 -26.24 26.75 X N-18 (Tecumseh, NE) 271.00 0.52 -29.60 29.60 X i t a j i t P-1 303.75 1.11 -1.66 2 X X P-2 286.88 1.02 -3.35 3.5 X P-3 298.13 1.65 -3.09 3.5 X i i 4 i 4 Procedure Number EPIP 5.7.17 Date [ * )L Revision 2 Page 10 Of 12 Pages r

. - ~. - - - O J s } ..a i COOPER NUCLEAR STATION OPERATIONS MANUAL 4 AITACHPENT "C" EERCENCY Pl.AN IMPl.DiENTINC PROCFTWRE 5.7.17 DOSE ASSESS Elft 1 SPECIAL RECEPTORS AND PRESELECTED SAMFLING TOINTS IDENTIFICATION AND 14 CATION Preselected Butit-In-Cartesian Sampling EPM 2 Polar Crid Special Polar Crtd t Bearing Coordinacts Distance Receptor Monitoring Receptor Comparison Identification (Degrees) Y X (Miles) Points Points Points Points I (Cont'd; P-4 303.75 2.22 -3.33 4 'X X P-5 303.75 3.33 -4.99 6 X 4 P-6 286.88 2.03 -6.70 7 X X 3 j P-7 298.13 3.30 -6.17 7 X P-8 292.50 3.06 -7.39 8 I P-9 303.75 5.00 -7.48 9 X X P-10 286.88 2.90 -9.57 10 X X P-11 298.13 4.71 -8.82 X .s P-12 294.00 1.02 -2.28 2.5 X X P-13 293.00 1.95 -4.60 5 X X P-14 (Brock, NE) 296.50 8.48 -17.00 19.0 X 4 k Q-1 326.25 1.66 -1.11 2 X 1 Q-2 309.38 2.22 -2.71 1.5 X Q-3 320.63 2.71 -2.22 3.5 X i Q-4 376.25 3.33 -2.22 4 X Q-5 326.25 4.99 -3.33 6 X 5 Q-6 309.38 4.44 -5.41 7 X X Q-7 320.63 5.41 -4.44 7 X Q-8 315.00 5.66 -5.66 8 I 3 Q-9 326,25 7.48 -5.00 9 K I i Procedure Number EPIP 5.7.17 Date M,).f, O, Revision 2 Page 11 Of 12 Pages 1

m.,_ . - -.., _ ~_. -... __m._ .. - _.. - - ~....... ~. J I j-4 COOPER NUCLEAR STATION OPERATIONS MANt'AL' AITACHMENT "C" EERCE*:CY PIAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESSNNT 4 t g SPECIAL RECEPTORS AND PRESELECTED 3AMPLi>G FOIsla IDENTIFICATION AND LOCATION 1 1 Preselected Built-In Cartesian Sampling EPM 2 ' Polar Crid Special Polar Crid Bearing Coordinants. Distance N eptor Monitoring Receptor Comparison Ider.ti fication (Degrees) Y X (Miles) Points Points Points Points (Cont'd) Q-10 309.38 6.34 -7.73 10 X Q-11 320.63 7.73 -6.34 10 X Q-12 '315.00 0.53 -0.53 0.75 K X i Q-13 315.00 1,77 -1.77 ".5 I N i .i - Q-14 317.50 3.69 -3.38 5 K X j Q-15 317.50 6.64 -6.08 9 X X Q-16 (Julian, NE) 314.00 11.25 -11.65 16.2 X 4 [ 3 l 9 l i I R-1 348.75 1.96 -0.39 2 X X j R-2 331.88 3.09 -1.65 3.5 X X R-3 343.13 3.35 -1.02 3.5 X R-4 348.75 3.92 -0.78 4 X-R-5 348.75 5.88 -7.77 6 X R-6 331.88 6.17 -3.30' 7' X X R-7 343.13 6.70 -2.03 7 X I i j R-8 337.50 7.39 -3.06 8 X i R-9 348.75 8.83 -1.76 9 X j R-10 331.88 8.82 -4.71 10 X X j R-11 343.13 9.57 -2.90 10 X i j R-12 337.50 1.39 -0.57 1.5 X X R-13 (Brownville, NE) 337.50 2.31 -0.96 2.5 X X i ] R-14 (Nebraska City, NE) 334.00 22.02 -10.74 24.5 I [ I l l I e l l t . Procedure Number EPIP 5.7.17 Date

• ).k t Revision 2

Page 17 Of 12 Pages Y J w w ,r-- r

LOUPt.K h0GLt.AK b1 A11 ore Urr.ru s sutis rtaaossL -< ATTACHMENT "D" }NERCENCY PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSEMENT ' (~h i STABILITY CATEGORY DETERMINATION i (ITTTI.T7.ING DATA OBTAINF.D FROM METEOROLOGICAL TOWER) Methods Area Listed In Order of Preference 4 1. 0btain the temperature difference in C* between 100m and 10m, if not available obtain the Delta C' between 100m and 60m, if not available obtain the delta C' between 60m and 10m. Utilizing the appropriate value, stability categories are defined as follows: Delta Temp Delta Temp 'C 'C Delta Temp Past ill (100m-10m) (100m-60m) 'C Catec g

• 1
• 2 (60m-10m)

A -1.7 -0.76 -0.95 B -1.7 to -1.5 -0.76 to -0.68 -0.95 to -0.85 C -1.5 to -1.3 -0.68 to -0.60 -0.85 to -0.75 D -1.3 to -0.45 -0.60 to -0.20 -0.75 to -0.25 E -0.45 to 1.3 -0.20 to 0.52 -0.25 to 0.75 F 1.3 to 3.6 0.52 to 1.6 0.75 to 2.0 G 3.6 1.6 2.0 i l .e s. Pnac 1 M "t Pnoce P., icien Procedure Number TPTD 'i.7.17 D,re

LOO t' ".M h 0 L L r.A K hjA11tFN U t*t, tin t 1033 PLA.s un t, ATTACliMENT "D" FMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSEMENT 1 STABILITY CATECORY DETERMINATION 1 2. Obtain sigma at 100 metern for windspeeds above the threshold value. If not available obtain sigma at 10 meters. Utilizing the appropriate value, stability categories are defined as follows: 3 Stability Stnd Deviation Stnd Deviation Stnd Deviation Category At 100m At 60m At 10m A 25 B 20 C 15 D 10 E 5 F 2.5 C 1.7 i 3. If none of the above data is available from the new meterological tower, utilize data from the ERP tower. 4. If data is not available from either materological tower utilize data obtained through visual observation. ( l !O l l Procedure Number EPIP 5.7.17 Date M ~.x n Revision 2 Pne 2 Of 3 Pages i ~ ~ ~ ~ ' " - ~ ' ~ ~ ~ ~ ~ ~ ~ ~

LUUn'tn tiULLEAM blAs10N Ui'tMAlitrNS MANUA1, , ATTACHMENT "D" ' EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.11 DOSE ASSEMENT STABILITY CATEGORY DETERMINATION KEY TO STABILITY CATECORIES Surface Wind: Day: Night: Incoming Solar Radiation Thinly Overcast Speed Greater Less (At 33') Than 4/8 Than 3/8 (m/Sec) Strong Moderate Slight Cloud , Cloud 2 A /.-B B 2-3 A-B B C E F 1 3-5 B B-C C D E s 5-6 C C-D D D D 6 C D D D D i Note: The neutrel class, D, should be assumed for evercast conditions during day or night. - Sampling time of 10 minutes. - Night refers to the period from I hour before sunset to I hour after sunrise. - Class D may be assumed for overcast condition during day or night, regardless of wind speed. " Strong" incoming solar radiation; solar altitude greater than 60* with clear skies. " Slight" incoming solar radiation; solar altitude from 15* to 35' with clear skies. h 3 'S m Procedure Number EPTP 5.7.17 Date J Reviaien 2 Pace 1 0' 3 Paeas .~. _, - -_

(A MIVtM h ut,1.EAM 51AttON orcKAt1033 9 Art u al, ATTACHMENT "E" EMFRGENCY PIAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESSMENT 1, y /\\ KEY RECEPTOR SITE AND X/Q DETERMINATION Effective Windspeed Age Receptor X10u/Q At 97m X/Q (llr) Site (m/s) m/s (Sec/m3) 4 4 4 4 4 = 4 = 4 4 = 4 = 4 = 4 4 = 4 4 = T E T f V T e 4 T 4 4 = 4 = 4 4 = 4 = 4 4 = 4 = r 4 T 4 = 4 4 = 4 4 = 4 = O-(_) i p .13 '.s. Revision 2 Pace 1 of 1 Paces Procedtire Number EPTP 5.7.17 Date

LUU t't.H fWLLEAM 5 t A'11US-Ut'th4i 10N5 MANUAL ATTACHMENT "F" EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESSMENT 1 ,s ( ^ ) - TRANSIT TIMES AND EFFECTIVE AGES OF NOBLE CASES AT RECEPTOR SITES OF INTEREST DETERMINATION A. "Ef fective Age" is defined as time' elapsed (Hr) since the core power gen-eration was halted; k'orksheet " Appendix F" is provided for effective age de-t e rmina tion. For off-site locations, the "ef fective age" of the isotopic mixture may be obtained through summarizing the f6110 wing components: 1. The " effective age" at the time of release onect. s-2. The transit time from the release point to the receptor site (refer to Section B.). B. Calculation of Transit Time from the release point.to the receptor location., 1. Estinate the downwind distance (meters) to the receptor location. If necessary, utilize a conversion factor of 1609 meters / mile. Divide the distance in meters by the 10 meter level wind speed (m/s), i 3. Divide this value by 3600 Sec/Hr yielding transit time (Hr) t' rom the re-lease point to the receptor site. f 'g In equation form, the calculation may be represented as: s Distance From Release Point To Receptor Site (Mile) x 1609, 4 Transis (Meters / Mile) [ = Time (Hr) Wind Speed At 10m (m/Sec) x 3600 (Sec/Hr) 4. In equation form: h " Effective Age" Of Isotopic = " Effective Age" Of + Transit Time From t Mixture At Receptor Mixture At Time Of Release Point To Location (Hr) Of Release Onset Receptor Location (Hr) (Hr) f 1 / s .,\\, t r"w \\ _f g 4 Precedure Nunher -EPTP 5.7.17 nato Pcvicion ? Doco 1 0' 1 Pacce m e,,..-

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u: 6 L W c: w c-U = + m w c :: mo RATIO OF INTEGRATED TilYROID DOSE FROM ALL IODINES A TO INTEGRATED THYROlD DOSE FROM l-131 vs EFFECT!VE AGE OF MIXTURE ~ 1.6 - C _1 2 m o 3 m u-1.5 7 W g w O r. O w a m w 3 a m m x s. r. x 1.4 - a 1 m o N / g E tv [ ~ a a g

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1. .1 o

n O S Y< i u z 4 oa 2 N x e o 12 4 o m k 5 U W m U C O g p. o g O C w H 1 .1 D 3 &g c c W W H E 1.0 .o =Q Eo [ o. P .iis i i i.. ii i i i i.... i..... o Z> 0.1 1.0 10 100 1000 6* fN TIME AFTER REACTOR SHUTDOWN ( EFFECTIVE AGE") (HR.) 5 .w c; UO U <E O PW E.

v. q A_. ( . h-4 COOPER NUC1. EAR STATION OPN"fy$ MANtfAL ATTACH W I "I" ENERCENCY PLAN IMPLEMENTINC PROCENJRE -5.7.17 DOSE ASSESSMENT 4 DOSE RATES AND INTEGRATED DOSE FOR WHOLE BODY AND THYROID CALCULATION Receptor Site beation: 3 i ..ame s 3 Section A:

1. hole Body Dose Rates and Integrated Doses from Noble Cases as a Function of Effective Age l

Effective X/Q Release Rate E Cony Far. Dose Rate Integrated Dose (arem) Age RR mR-d is -m 3 .Dng Dng1 Dng2 Time 2 Tinel Dose (br) (sec/m3) (Ci/Md) (MeV/ dis) MeV-Ci-hr (arem/hr) (arem/hr) (arem/hr) (br) (hr) (arem) (1) (2) (3) (O (5) (6) (7) (8) (9) (10) (11) x x x 9.5E5 ~ + = x x x 9.5E5 = +

2 x (

)= x x x 9.5E5 = +

2x(

)= x x x 9.5E5 .= + T2x( )= x x x 9.5E5 = +

2x(

)= x x x 9.5E5 = + T2 x ( )= i Section B: Ihyroid Inhalation Dose Rates and Integrated Doses from I-131 as a Function of Effective Age E f fec t !';e X/Q . Release Rate Cony Fac ' Dose Rate Integrated Dose (mrem) -Age RR (Rem-n3) I-131 DI-131(1) DI-131(2) Time 2 Tinel Dose (hr) (sec/m3) (CINNl hr-Ci (rem /hr) (res/hr) (rem /hr) (hr) It.r) (rea) (1) (2) (3) (4) (5) (6) (7) W W 70) x x 1.86E6 = x 1.86E6 = + t2 x ( ) x - x 1.86E6 = x = +

2 x (

) = x x 1.85E6 = + t2x( ) = x x 1.86t,6 = + t2 x ( ) = x x 1.86E6 = +

2x(

) = x x 1.86E6 = +

2x(

) = Procedure Number EPIP 5.7.17 Date Revision 2 Page Of 2 Pages

_ _, ~.. ..~ - - ~ COOPER NUCLEAR STATION OP:ERATIONS MANUAL ATIACHMENT "I" EMERGENCY PLAN IMPIDTENTING PROCEDURE 5.7.17 DOSE ASSESSMENT t e DOSE RATES AND INTEGRAIED DOSE FOR MiOLE BOD'l A::L artYROID CALCULATION i 1 4 .Section C: Thyroid Inhalation Dose Rates and Integrated Doses From All Radiotodines as a Function of Effective Age. l Integrated Dose (mrem) Effective I-131 Dose Rate From all Todines Dose Rate from i Age Dose Rate Dose Rate From I-131 all Radiofodines DI(1) DI(2) Time 2 Time 1 Dose j (hr) (rem /hr) (rem /hr) (rem /hr) (rem /hr) . br) (hr) (rem) ( (1) (2) (3) (4) (5) (6) (7) (8) (9) x = x = +

2 x (

)= x = +

2 x (

)= j x = +

2x(

). i x = + t2 x ( )= x = + x = + ~

2x(

)-- j

2 x (

}= t L k 4 i i' i l Procedure Number EPIP 5.7.17 Date /[ - Revision ? Page 2 Of, 2 Pages I 1 i,

'N w COOPER NUCLEAR STATION OPERATIONS MANUAL ATTACHMENT "J" EPIP 5.7.17 N 0 U c s N

1. 0.

E u. a o 8 z R g k E e 2 Q Ylr U Ilv m w 0 2 0.1 0 E 5 lw* ~ E ~4 C m" m l 0.01 1 I I I I I 'l l I 1 l l l lll l l l tllit l l [ l irgi 0.01 01 1 10 100 1000 Tif4E SINCE HEACTOR SilUTDOWN (EFFECTIVE AGE)DIR) Procedure Number 5.7.17 Date N '\\ Revision 2 Page 1 of 1 Pages asin

s.uorrn n t.s,.r ni, anniaun urr.nnitsm3 cusn oni, . ATTACHMENT "K" EMERGENC% PLAN IMPLEMENTING PROCEDURE 5.7.17 DOSE ASSESSMENT ON-SHIFT INITIAL DOSE ASSESSMENT 1. Release Rates (Frem EPIP 5.7.16, Release Rate Determination, Attachment "A"): Column 5, Release Rate Noble Cases: uCi/Sec Column 7, Release Rate Total Iodines: uCi/Sec Total Release (Sum Of Noble Cases And Total Iodines): uCi/Sec 6 Total uCi/Sec:

• 1 x 10 Ci/uci =

Ci/Sec 100 / c " Multiplication Factor ?. Meteorological Data: Stability Factor: Wind Speed MPH: 3. Using the above sta.aility factor choose one of the three following tables that most closely represents that stability factor. Exposure Rate mrem /hr From 100 Ci/Sec Release Rate STABILITY CLASS B WIND DISTANCE DOWN WIND VELOCITY EXPOSURE OF CNS MILES MPH MODE 1.5 2.5 3.5 5 10 20 35 50 22.5 Thyroid 53 22 16 12 7 4 2 External 5 2 2 1 10 Thyroid 122 49 38 27 15 3 External 12 5 4 2.5 1 5 Thyroid 250 100 75 55 20 7 External 22 9 7 5 2 Procedure Number EPIP 5.7.17 Date -$ ~ Revision 2 Page 1 Of 2 Pages

s.vur r.n nt.u.t.an s aa t ton or r na t tuas nant at,

I ATTACHMENT "K" "S - OtERCENC1 PLAN IMPLEMENTIUG PROCEDURE 5.7.17 DOSE ASSESSMENT t4 ON-SHIFT INITIAL DOSE ASSESSMENT N_./

STABILITY CLASS D WIND DISTANCE DOWN WIND VELOCITY EXPOSURE OF CNS MILES MPH MODE 1.5 2.5 3.5 5 10 20 35 50 22.5 Thyroid 278 227 160 120 50 21 10 External 27 22 16 11 5 2 1 10 Thyroid 625 556 385 263 111 12 External 63 50 37 23 9 1 5 Thyroid 1250 1000 833 556 227 32 External 125 91 67 43 15 2 STABILITY CLASS F WIND DISTANCE DOWN WIND VELOCITY CXI'OSURE OF CNS MII.ES MPH MODE 1.5 2.5 3.5 10 20 35 50 22.5 Thyroid 20 47 79 94 70 47 [-) External 2 5 8 9 6 4 10 Thyroid 46 110 185 217 28 External 4 10 16 17 2 5 Thyroid 6 93 227 357 417 69 External 8 19 29 29 3 4. Using wind speed and distance, determine exposure rates: Distance: Miles Exposure Rate x Multiplication Factor = Integrated Dose (From Step 1.) Thyroid: x = 5. Integrate the exposure rate from the above, over the anticipated or actual time of the release to determine integrated dose: Exposure Rate x Time Integrated Dose = mrem /hr Thyroid x Hours = mrem Thyroid mrem /hr External x Hours = mrem External Note: Derived thyroid dose from above is for an adult. Child thyroid dose V is double that of the adult. N- \\ Procedure Number EPIP 5.7.17 Date Revision 2 Page 2 Of ? Pages

usur r.n at,t.o.r.an s ou mo ort,xat turb f4Af4UAt. EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.18 0FF-SITE AND SITE BOUNDARY MONITORING i d I. PURPOSE This procedure describes the emergency off-site and site boundary radiolog-ical monitoring and field surveys to be undertaken in the event of an airborne release of radioactive gases from CNS. Instructions for the implementation of the program, locating sampling points, collecting sam-ples, and performing field surveys are provided. II. DISCUSSION In the event of an accidental radiological release, data obtained from off-site survey will be used to assess the magnitude of the release sad to determine which off-site areas have been affected by the release. Data obtained through the off-site sur ey shall be utilized to determine actual release rates, deposition rates, and actual doses. Dose assessments provide a basis for decision making concerning recommendation of appropri-ate protective actions in accordance with EPIP 5.7.20; Protective Action Guides. Off-site survey data will be used in conjunction with on-site release rate determination and dose assessment capabilities to accurately determine off-site consequences of an accident condition. III. REFERENCE MATERIAL (,/ A. CNS Emergency Plan. B. NUREG 0651, Rev. 1. IV., PREREQUISITES A. A release o airborne gaseous radioactive material has, or potentially, may occur. B. A dispatch center (appropriate emergency response facility) where survey activities will be coordinated, has been activated. V. LIMITATIONS A. None. VI. PRECAUTIONS A. Clearly label contaminated material. B. Check the batteries and perform source check test on the survey instru-ments to be used. + D Revised By/Date Reviewed By/Date Approved By/Date Rev. Procedurc Page 1 Of, J. Sayer 10/12/82 D. Whitman 10/28/82 / t - 28 42 -2 5.7.18 9 Pages _ _J

E ~ Methods of communication between field survey teams and onsite coordi-C. nators consist of hand-held radios, and/or radio equipped vehicles. D. Check with the Radiological Assessment Coordinator if thyroid blocking tablets are appropriate. E. Check gas level in vehicles to be used. VII. EQUIPMENT A. Environs map. B. As a minimum, the following equipment, available from the emergency lockers,-is required. 1. Survey instrument. 2. Appropriate self-reading dosimeter, i 3. TLD. 4. Radio communicc ions equipment - hand-held or vehicle mounted. 5. Air Sample; (cartridges and filters). PI stic bags and envelopes for air samples and tape. a. C. Use of the following equipment, available from the emergenc: lockers, should be considered: 1. Protective clothing and/or respirators: a. Coveralls, hoods, gloves, and shoe covers, b. Respiratory equipment (self-contained or filter mask). c. Thyroid blocking tablets. 2. Plastic sheeting. VII

I. PROCEDURE

A. Off-Site And Site Boundary Monitoring. 1. The off-site radiological monitoring team (s) are under the direc-tion of the Radiological Assessment Coordinator who will determine 2 the appropriate location for collecting environmental samples (air, etc.) and performing field surveys, a Procedure Number EPIP 5.7.18 'Date Id-N-N. Revision 2 Page 2 Of 9-Pages

o e fT 2. Survey members will be selected from those assembled at the OSCs, \\'-/ EOF, or AEOF. Each team should be comprised of two members. One member should be designated team leader. Each team will: a. Receive initial briefing and initial assignments from the Radiological Assessment Coordinator or his designee. b. Obtain appropriate equipment from the emergency lockers and perform the following task:

1) If necessary, don protective clothing and respiratory equipment.

2) Record the pocket dosimeter readings on Attachment "A".

3) Check the batteries and perform source check test on the survey instruments to be used.

4) Obtain the background readings; record these readings on Attachment "A".

5) Assemble appropriate air sampling equipment (sampler, cartridge, and filter) using ths-proper cartridge (s),

a) Identify the flow direction on the filter cartridge before installation. \\') b) If both radiofodines and noble gases are to be analyzed use CHARCOAL cartridges. c) If only radioiodines are to be evaluated use SILVER ZEOLITE cartridges. Note: Noble gas concentrations may be determined by subtracting the silver zeolite results from the charcoal results. d) Install a particulate filter and a radioiodine car-tridge on the air sampler. e) Turn on the air sampler to determine if it is function-ing and check for proper flow rate. 3. The Radiological Assessment Coordinator will ensure that the survey teams are in a state of readiness and dispatch them from the EOF. The survey teams will: a. Conduct a radio check when leaving the EOF and then maintain radio communications with the EOF. b. While in transit leave the survey meter on. ) n.s Procedure Number EPIP 3.1.18 Date-/d-))f-) is Revision, 2 Page 3 of 9 Pages

e i 1 i ('~')N As directed by the Radiological Assessment Coordinator, proceed c. ( to the designated sampling area. The Coordinator will be reviewing meteorological and dose assessment information to estimate plume location. Observe the survey meter while in transit and notify the Radiological Assessment Coordinator of any readings or deviations in the upward direction that would indicate presence of radioactive material. d. At the designated sampling area, which will normally be adja-cent to the plume, prepare to conduct a radiation survey. Note: Information will normally be available to the Radiolog-ical Assessment Coordinator for predication concerning the use of thyroid blocking tabelts, protective clothing, respirators, or other radiological protective equipment. The Radiological Assessment Coordinator should advise team members as to the type of equipment needed and should discuss anticipated requirements with team members before leaving the EOF.

1) Perform 8-y dose rate measurements with the GM probe at 3' and 3" above the ground with the window open and window j

closed. Record the results on Attachment "A".

2) Proceed to transverse the plume (right angle to the wind direction) stopping periodically to perform a survey.

(N ' ransversing the plume may be performed with the vehicle if (,) n a roadway or on foot if in a remote area. 3) -adiation readings should increase as the surveyor ap-oroaches the centerline, be at the maximum at the enterline, and decrease toward the other outer edge of the .jlume.

4) Notify the Radiological Assessment Coordinator by radio of the location of the highest survey results. This should be the plume centerline. Also inform the Radiological Assess-l ment Coordinator of the comparison of 8-y readings on Attachment "A".

If the majority of the 3' radiation levels in contributed by gamma only, then the plume is overhead. If much of the radiation present is due to beta, then the plume is at ground level. The 3" readings, if significant increases of beta are present, indicated deposition has occurred.

5) Also inform the Radiological Assessment Coordinator of l

approximate locations of the edges of the plume and the l approximate plume and centerline widths. This information will aid in the plotting of the plune on the assessment maps. r-J ~ s \\__ I Procedure Number EPIP 5.7.18 Date ((h- ) - ! h. Revision 2 Page 4 Of 9 Pages

e. Ih

6) If directed by the Radiological Assessment Coordinator, ksl /

prepare to take air samples. If a stationary environmental air sampling station is within the-plume area the team may be requested to change the filter and cartridge, if so proceed with Step f. below. If field air sampling is to be accomplished, proceed with Steps g., h., and i. below. Notify the Radiological Assessment Coordinator of the air sampling results.

7) If directed by the Radiological Assessment Coordinator to collect soil or vegetation, proceed to Steps j. and k.

below.

8) If directed to perform a boundary survey, proceed to Step

e. below for the location directions. If general radiation levels are to be determined, ' proceed along the boundary taking such levels; but if plume characteristics, air, or other semples are to be obtained, follow the above appro-priate steps.

9) Contact the Radiological Assessment Coordinator by primary or secondary radio whenever problems or uncertainties arise.

e. Site boundary survey (see Attachment B").

1) South boundary svevey.

Proe 'ed to the soitheast corner of the s.xclusion area (Nebraska bank of the Missouri Rive:) which is Point #) on the Site Survey Map. Start at Point #7 on a walking survey of the plant south l aundary and ending at Point #11 at the plant southwest exclusion area boundat, intersection with the north-south county road. Establish' radio communication-and relay results on completion of the survey. Unless l further instructions are received, return to the EOF for I further assignment.

2) West and north boundary survey.

Proceed to Point #11 at the plant southwest ' exclusion area boundary intersection with the. north-south county road. Start at Point #11 on a walking survey of the plant west _ exclusion area boundary in a north direction to Point #15 at the plant northwest property corner then east along the plant north exclusion area boundary line and ending at Point #16 at the Missouri River. Establish radio commu-nications and relay results on completion of the survey. Unless further instructions are received, return to the EOF for further assignment. ' Procedure Number EPIP 5.7.18 Date/[-)hb-lk)1-Revision 2 Page 5 Of_ 9 Pages ~ - ~

p. t ii E

3) East boundary survey.

Ditring travel along the, route to the desianated survey area observe - radiation survey instrument readings for indica-tions of-increased radiation levels and on the return trip-confirm suspected off-normal conditions. Proceed northwest i to the plant west property boundary intersection with-the north-south county road. Turn north on county road and-proceed to Brownville, NE. Cross the Missouri River bridge - at Brownville on Highway.U.S. #136. Af ter crossing the i bridge proceed east - on Highway Highway U.S.

1. 136 2 1/4 miles to the intersection of U.S. #136 and Missouri Highway "U" at Phelps City, MO and turn right (south).

Proceed south 2 1/2 miles., turn west 1/2 mile, and then turn -south and proceed 1/16 mile to the Rosenbohm farmstead. Enter the access road on the west side of the road across from the Rosenbohm farmhouse. Entry will be 3 made through a closed gate. Follow the access road in a-westerly direction to the levee. (Note: This road winds around but eventually leads to the levee.) Proceed north-i on or along the levee to the northeast corner of the plant site property. At the west access road levee ramp (levec mile 14.5) turn west 1/4 mile and start this leg of the survey at Point.#1. Return to the levee road and continue l the walking from Point #2 through Point #5. At Point l'5 i turn west 1/8 mile to the Missouri River bank' and pick up Point #6. Relay the results of survey to the EOF. Unless further instructions are received, return to the EOF for l further assignment. f. Stationary environmental air sampling stations.

1) Assemble needed change out charcoal or tilver zaolite-cartridges, Illter, and plastic bags fron the emergency

) locker (this should be completed before departing the-EOF)..

2) Proceed to the sample site with the survey F.ater on.

5

3) At each location perform B-y dose rate measurements with the CM probe at 3' and 3" above the ground with the window L

open and the window closed.' Record the results'on Attach-ment "A".

4) Change out the charcoal cartridges and particul'te filters.

a Place the used cartridge and filters in plastic bags.

5) Note station identification, flow rate, and time. Record j

the data on plastic bag and Attachment "C". i

6) Return the samples to the EOF for analysis, or if directed 2

by the Radiological Assessment Coordinator, proceed to Step h.; determination of gross iodine, b Procedure Number EPIP 5.7.18 Date / - Y - N. Revision 2 Page 6 Of 9 Pages

,e ? i r (/) g. Field location environmental air sampling. u

1) Use the appropriate filter, a) Air particulates - particulate filter paper.

b) Radioiodine - may use either cartridge.

1) Charcoal - collects both radioiodine and noble gases.

2) Silver zeolite - collects only radioiodines.

2) Assemble the air sampling equipment in accordance with Step 2.b.5) (this should be completed before arriving at the sampling location).

3) Start the air sampler and record the start time on Attach-ment "C".

a) Adjust the flow rate and sampling time tothedesirej levelsoyhat the sample volume will be between I ft and 15 ft Do not exceed 3 cfm flow rate. b) Record the start time, stop time, flow rate, locatien, and sample number on Attachment "C". O,< x_ c) Seal the particulate paper and radiciodine cartridge in individual plastic bags, date, and label, d) Return the particulate filter and radioiodine cartridge l to the EOF if radioisotopic analysis is required. If l not, proceed with Scep h. below. l h. Determination of gross iodine (field technique). I

1) Place the samples in SAM-2 and determine activity in the cartridge by using Health Physics Procedure 9.6.4; Opera-tion And Calibration Of SAM-2.

2) Determine the mR/Hr reading on the cartridge at I cm with E-140 177 c probe or R0-2 with window open. Utilizing the information contained in Attachment "D",

determine the gross iodine concentration.

3) If the information precented on Attachment "D" cannot be utilized, calculate the gross iodine concentration from the survey instrument readings using the following equation:

pCi, 3.53E-5 mR/Hr cc Eff V O v b-Revision 2 Page 7 Of 9 Pages Procedure Number EPIP 5.7.18 Date [h'e j

I r% Where: mR/Hr = net mR/Hr on the cartridge with E-140 177 c probe or R0-2 Eff = probe efficiency mR/Hr per uCi of I-131 .062 V = volume of airborne sample (ft )

4) Report the concentration to the Radiological Assessment Coordinator and record in Attachment "C".

i. Determination of gross particulate (field technique).

1) The sample may be analyzed by placing the sample in SAM-2 and determining the activity in the filter by using Health Physics Procedure 9.6.4; Operation And Calibration Of SAM-2.

2) With the probe window open obtain a background count rate (E-140 with 177 c probe or R0-2).

3) Place the probe directly adjacent to the (upstream) side of the filter (as close'as possible without contaminating the probe).

Handle filters with ferceps. Obtain the count Q rate. U

4) Utilizing the information presented on Attachment "E",

determine the gross particulate concentration. 5) If the information contained in Attachment "E" can no' be utilized, calculate the gross particulate actisity frou the equation: uCi, (3.53E-5) (mR/Hr) cc (Eff) (V) Where: mR/Hr = net mR/Hr on the filter with E-140 177 e probe or R0-2 Eff = probe efficiency mR/Hr per pCi - 7.05 V = volume of airborne sample (ft )

6) Report tLe concentration to the Radiological Assessment Coordinator and record on Attachment "C".

O /d - N - b Revision Procedure Number EPIP 5.7.18 Date 2 Page 8 Of 9 Pages

s s

s

j. Soil sampling.

1) Sample area = 1 m.

i

2) Collect the top r.urface-(< 1/4") using a shovel.

3) Bag, seal, and label the. sample.

4) Return the sample to the EOF.

k. Vegetation sampling and counting. 2 l'

1) Sample area = 1 m.

2) Cut the vegetation to a height of I cm to 2 cm, being careful not.to contaminate the vegetation sample with soil.

3) Bag, seal, and label the sample.

4) Return the sample to the EOF.

i IX. ATTACHMENTS A. Attachment "A", Boundary Survey Map. B. Attachment "B", Emerger y Off-Site Monitoring - Beta And Gamma Dose Ra:e Measurements Data Sheet. \\ C. At i acheent "C", Energency Off-Site Monitoring - Particulate And Rioioiodine Samples Data Sheet. 1 D. At achment "D", Gross Iodine Concentration Data Sheet. E. Attachment "E", Gross Particulate Concentration Data Sheet. a 4 I I [h-N - k h Revision 2 Page 9 Of 9 Pages Procedure Number EPIP 5.7.18 Date

t 4 COOPER NUCLEAR STATION OPERATIONS MANUAL ATTkCHMENT"A" EPIP 5.7.18 BOUNDARY SURVEY MAP cx vs -- +-Private Road <t STA-STA-True North tim DIRECTIONTim DIRECTION o / T 1 N. 9 S. 2 N.-N.E. 10 S.-S.W. 3 N.E. 11 S.W. Missouri E F 4 E.-N.E. 12 W -S.W. 6 E.-S.E. 14 W.-N.W. -'p[ g 5 E. 13 W. D e g ,/ 7 S.E. 15 N.W. t,,, p' C 8 S.-S.E. 16 N.-N.W. I / H / 8 b\\ B / ~.h 'J n/' _~ i Lo tion i 'h 1 T l hlK R ~E B1 c t Q \\ __ _ h~ County Road MNttffNMt!!!!!'lUlll,'llHtHiHM [ i 8 C.B. and Q. R.R. Spur Line h .V Procedure Number EPIP 5.1.18 Da te O-3 ?-Ni Revisio.. 2 Page 1 of 1 Pages

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w LOOT't.R NUCLi\\R STATION UPERATIONS MANUAL ATTACHMENT "D" EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.18 0FF-SITE AND SITE BOUNDARY MONITORING ry i i C# GROSS IODINE CONCENTRATION pCi/cc i mR/Hr 1 ft3 5 ft3 10 ft3 15 ft3 1 0.05 2.93E-6 1.47r.-5 2.93E-7 1.95E-7 0.1 5.86E-6 1.172E-6 5.86E-7 3.91E-7 0.2 1.172E-5 2.344E-6 1.172E-6 7.81E-7 0.3 1.758E-5 3.516E-6 1.758E-6 1.17E-6 0.4 2.344E-5 4.688E-6 2.344E-6 1.563E-6 0.5 2.93E-5 5.86E-6 2.93E-6 1.953E-6 1.0 5.86E-5 1.172E-5 5.86E-6 3.91E-6 2.0 1.172E-4 2.344E-5 1.172E-5 7.813E-6 O ) 3.0 1.758E-4 3.516E-5

1. 758E -:

1.172E-5 4.0 2.344E-4

l. 688E-?

2.344E-1.563E-5' _.953E-5 _ 1 5.0 2.93E-4 5.86E-5 2.93E-5 6.0 3.516E-4 7.032E-5 3.516E-5 2.344E-5 7.0 4.102E-4 8.204E-5 4.102E-5 2.735E-5 8.0 4.688E-4 9.376E-5 4.688E-5 3.125E-5 9.0 5.274E-4 1.055E-4 5.274E-5 3.516E-5 10.0 5.86E-4 1.172E-4 5.86E-5 3.9066E-5 20.0 1.172E-2 2.344E-4 1.172E-4 7.813E-5 30.0 1.758E-2 3.516E-4 1.758E-4 1.172E-4 40.0 2.344E-2 4.688E-4 2.344E-4 1.563E-4 50.0 2.93E-2 5.86E-4 2.930E-4 1.953E-4 GI ?rocedure Number 5.7.18 Date[dtN-b-Revision 2 Page 1 of 1 Pages

f t.00PER NUCl.r.AR STATION UPERATIONS MANUAL j ATTACHMENT "E" EMERCENCY PLAN IMPLEMENTING PROCEDURE 5.7.18 0F7-SITE AND SITE BOUNDARY MONITORING r f i (j GROSS PARTICULATE CONCENTRATION pCi/cc mR/lir 1 ft3 5 ft3 10 ft3 15 ft3 0.05 2.5E-7 5.0E-8 2.5E-8 1.67E-8 0.1 5.0E-7 1.0E-7 5.0E-8 3.0E-8 0.2 1.0E-6 2.0E-7 1.0E-7 6.0E-8 0.3 1.5E-6 3.0E-7 1.5E-7 1.0E-7 0.4 2.0E-6 4.0E-7 2.0E-7 1.3E-7 0.5 2.5E-6 5.0E-7 2.5E-7 1.6E-7 1.0 5.0E-6 1.0E-6 5.0E-7 3.3E-7 2.0 1.0E-5 2.0E-6 1.0E-6 6.6E-7 A (J I 3.0 1.5E-5 3.0E-6 1.5E-6 1.0E-6 4.0 2.0E-5 4.0E-6 2.0E-6 1.33E-6 5.0 2.5E-5 '5.0E-6 2.5E-6 1.66E-6 1 6.0 3.0E-5 6.0E-6 3.0E-6 2.0E-6 7.0 3.5E-5 7.0E-6 3.5E-6 2.33E-6 8.0 4.0E-5 8.0E-6 4.0E-6 2.66E-6 9.0 4.5E-5 9.0E-6 4.5E-6 3.0E-6 10.0 5.0E-5 1.0E-5 5.0E-6 3.33E-6 20.0 1.0E-4 2.0E-5 1.0E-5 6.66E-6 30.0 1.5E-4 3.0E-5 1.5E-5 1.00E-5 40.0 2.0E-4 4.0E-5 2.0E-5 1.33E-5 50.0 2.5E-4 5.0E-5 2.5E-5 1.66E-5 i s Procedure Number 5.7.18 Date/b-N-D Revision 2 Page 1 of 1 Pages

• ^ ^
• un Wr.K huu.t,AR 51 AT10N UPERMlONS MANUAL EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.19 ON-SITE RAD 0 LOGICAL MONITORING I.

PURPOSE This procedure describes the emergency on-site radiological monitoring necessary to d termine exposure rates, airborne particulate, and radiciodine activity levels due to an accidental release of radionuclides. The onsite survey entails the interior space of all station buildings. II. DISCUSSION In the event of an accidental release involving radionuclides, data ob-tained from the on-site survey will be used to make initial assessments concerning the magnitude of the accident and decisions concerning evac-untion of non-essential site personnel. Principal concerns for accidental radioactive releases, particularly gaseous releases, include: limiting internal doses through appropriate respiratory protection equipment, anti-contamination clothing, limiting external exposures by identifying areas of high external radiation, and containment of the material to prevent the spreading of contamination or release to the environs. _q III. REFERENCE MATERIAL \\) A. CNS Emergency Plan. B. NUREG 0654, Rev. 1. IV. PREREQUISITES A. An unexpected in plant release of radioactive material has occurred. V. LIMITATIONS 1 A. Emergency radiation exposures in excess of 3 rem must be authorized by. the Emergency Director in accordance with EPIP 5.7.12. Under no circumstances are exposures for sampling or monitoring procedures to exceed 5 rem (whole body), 15 rem (thyroid), or 75 rem (extremities). VI. PRECAUTIONS A. Use appropriate protective equipment. B. Clearly label contaminated material and control access and egress from the area. OO ~ Prepared By/Date Reviewed By/Date Ap y /Date Rev. Procedure Page 1 Of J. Sayer 10/11/82 D. Whitman 10/20/82 /O J /- W. 1 5.7.19 5 Pages

l e ['"'/ ) C. Check the batteries and perforn source check test on the survey instru-N, ments to be used. 1. Allow warm up time for high range survey equipment. 2. While in route to the survey location, keep the survey meter on, with the meter set on the high scale a _ switch down as necessary. VII. EOUTPMENT e A. As a minimum, the following equipment, available from the emergency lockers is required. 1. High range survey instrument. 2. Appropriate self-reading dosimeter. 3. TLD. 4. Iland-held radios if deemed necessary. l 5. Protective clothing and/or respirators. a. Coveralls, hoods, shoe covers. b. Respiratory equipment (self-contained or filter mask). . () 6. i Air sampler (only if airborne sampling is required). s. Plastic bags and envelopes for air samples. VII. PROCEDURE A. The on-site radiological monitoring team (s) are under the direction of the Chenistry and Health Physics Coordinator or his designee. B. Survey members will be selected from those assembled at the HP, OSC, and/or EOF. 1. Receive initial briefing and initial assignments from the Chenistry and Health Physics Coordinator or his designee. 2. Form monitoring teams. Each team should be comprised of two members. 3. Obtain appropriate equipment from the Emergency Lockers. Perform the following tasks: a. If necessary, dot. protective clothing and respiratory equip-ment. b. Record the pocket dosimeter readings. \\m / Procedure Number EPIP 5.7.19 Date Id-dI"

• Revision 1

Page 2 Of 5 Pages

i [/} c. Check the batteries and perform source check test on the survey N_- instruments to be used.

1) Allow warm up time for high range survey equipment.

d. Obtain the background readings with the window open and window closed. Record these readings. e. If necessary, assemble appropriate air sampling equipment (sampler, cartridge, and filter) using the proper cartridge (s): 1) Identify flow direction on the filter paper before instal-lation.

2) Tf both radioiodines and noble gases are to be analyzed use CHARCOAL CARTRIDGES.

3). If only radiofodines are to be evaluated use AgXe, SILVER ZEOLITE cartridges. Note: Noble gas concentrations may be determined by subtracting the silver zeolite results from the charcoal results.

4) Install particulate filter and a radiciodine cartridge on the air sampler.

5) Turn on the air sampler, checking for proper flow rate (3 CFM).

C. On-Site Emergency Monitoring Procedures. Monitoring teams may be assigned one or more of the following tasks: gross gamma and/or beta dose rate measurements, air particulate levels and radioiodine levels. 1. Gamma-beta dose rates, a. While in route to the survey location keep the survey meter on, with the meter set on the high scale switch down as necessary. b. Upon arrival at the survey location enter the area cautiously with the meter set in the high scale and the switch down as necessary:

1) Ascertain whather any of the following conditions exist:

presence of steam or spillage, failcd piping or equipnent, or radiation levels in excess of 10 R/hr. If judged serious exit from the area. Relay this infor ation to the Chemistry and Health Physics Coordinator.

2) Perform gamma dose rate measurements.

(\\ V Procedure Number EPIP 5.7,19 Da t e /J -J / -in. Revision 1 Page 3 Of 5 Pages

l l (V) a) Use the survey instrument with the window closed. b. Make a dose rate measurement with the detector held about 3' off the ground (waist level), c. Record the data using normal station survey sheets. d. Occasionally check overhead or floor level radiation readings to make sure they are not significantly higher than the waist level measurements. e. Repeat the procedure with the window open. f. Record the data using normal station survey sheets. g. From the above infornation determine the beta exposure rate and record. 2. Collection of air particulate and radioiodine samples. a. Assemble tne air sampling equipment in accordance with Sec-tion VII.B.3. (this should be completed before arriving at the sampling location). b. St2rt the air sampler. (N

1) Adjust the flow rate to the desired level, usually 3 cfm.

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2) Allow the sampler to run at least 5 minutes.

3) Record the start time, stop time, flow rate, location and sample on normal station air sampling survey sheets.

4) Place the particulate filter and the radioiodine cartridge on separate plastic bags, date, and label, a) Seal in a plastic bag.

5) Return particulate filter and iodine cartridge to the Health Physics Counting Room or Radiochemistry Counting Room for analysis.

3. Refer to Chemistry Procedure 8.4.1.2, Emergency Scmpling - Caseous Releases, for the collection of radioiodines, particulates, and noble gas samples at the release pathway. Contact the Radiological Manager / Coordinator before implementing this procedure. 4. Post accident samples of primary coolant and containment atmosphere may be obttined to aid in release core degradation information. Refer to Chemistry Procedure 8.4.1.1, Post Accident And Atmosphere Samp?ing. Contact the Radiological Manager / Coordinator before implementing this procedure. gg tv) Procedure Ntmber EPIP 5.7.19 Date /A k h-Revision 1 Page 4 Of 5 Pages

I 'l I i IX. ATTACHMENTS A.

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. - h.'?': 1': J."' = =. ::_ _. : - .FCEN,CY _pl. AN IMPLEMENTING PROC _E_D_._URE 5.7.27 EARLY UARNING SYS'I EM F -m [ S %._,r' I. PURPOSE The purpose of this procedure is to describe the Early Warning System within the Emergency Planning Zone (EPZ) of Cooper Nuclear Station. This system was set up to meet prompt notification requirements for Cooper Nuclear Station. It was also designed for response to any disaster; fire, flood, tornado, etc., where prompt notification of the public is desirable. II. DISCUSSION The Early Warning System consists of fixed sirens covering areas of high population density and tone activated Emergency Broadcast System (FBS) radios in the low population density rural areas. The fixed siren systen is composed of ten nole mounted sirens located in or near the f ollowing towns: A. Nebraska: 1. Peru - one siren in town. 2. Brownville - one siren in town. ) 3. Nemaha - one siren in town. 4. Shubert - one siren in town. B. Missouri: 1. Watson - one siren near town. 2. Rock Port - one siren in town. 3. Phelps City - one siren in town. 4. Langdon - one '.ren near town. 5. Nishnabotna - one siren near town. 6 Intersection of US-136 and I one siren near this intersection. These fixed sirens are Federal Signal Corporation Thunderbolt sirens capable of producing 125 db of sound in any of three sound patterns. E g 3 ._ Revised By/Date Reviewed By/Date Approved By/Date Rev. Procedure Page 1 O. o., D. Whitman 10/7/82 .1. Sayer 10/25/82 Mdw-N 47' 2 5.7.27 F Pages

a B } The EBS tone activated radios are in residences located within the rural EPZ areas outside the hearing range of the fixed sirens. These radios are pretuned to the Prinary Emergency Broadcast, Stations .,Wz Omaha, within the Nebraska EPZ and. .dRz St. Joseph, within the Missouri EPZ) and are automatically activated when the EBS station sounds the EBS tones. These radios also have battery backup power. In addition to the primary means of notification, fixed sirens and tone activated radios, a backup system consisting of vehicle mounted mobile siren units is available. This Mobile Siren System is comprised of mobile units following designated routes. Mobile sirens have been provided to each volunteer fire department within these areas to cover the number of routes specified below.

A. Nebraska

1. Peru - four routes. 2. Brownville - four routes. 3. Nemaha - four routes. 4. Shubert - two routes. B. Missouri: 1. Rock Port - seven routes. 2. Watson - four routes. In addition, the Richardson and Nemaha County Sheriff's personnel also have designated notification routes. See Attachment "D" for maps of the designated routes. The mobile sirens are Whelen Engineering Company Model 370 PA speakers - coupled to a Whelen WS-295 power amplifier. These sirens are capable of producing four distinct sounds at a sound level exceeding 70 db. III. REFERENCE MATERIAL A. CNS Emergency Plan. B. NUREG 0654, Rev. 1. C. CNS Emergency Planning Information Hand Out. i Procedure Nunber EPIP 5.7.27 Date.'d-2' Y"D. Revision 2 Page 2 Of 8 Paces i

. f' r j IV. PREREQUISTTES A. Prompt notification to the public is. deemed necessary for implementa-i tion of protective action guides. This will normally be determined by state and local authorities in accordance with their respective Nucicar Power Plant Emergency Response Plans. The CNS Emergency Director will recommend protective actions to these authorities in accordance with i EPIP 5.7.20, Protective Action Guides, or in severe situations, may activate the Early Warning System in accordance with EPIP 5.7.6, Notification. V. LIMITATIONS A. The Early Warning System, in addition to its use as a means of prompt notification in the event of an incident at Cooper Nuclear Station i requiring a protective action, may be used to warn the public of attack, tornado, flood, fire, or any disaster requiring prompt noti-fication of the public. VI. PRECTITIONS A. The Early Warning System to be used only in the event of emergencies or scheduled testing. VII. EOUTPMENT A. Ten fixed sirens located in the following population centers: 1. Nebraska: a. Peru - one siren in town. b. Brownville - one siren in town. c. Nemaha - one siren in town. i d. Shubert - one siren in town, t 2. Missouri: 1 l a. Rock Port - one siren in town. b. Watson - one siren near town. c. Phelps City - one siren in town. 1 l d. Langdon - one siren near town. c. Nishnabotna - one siren near town. i f. Intersection of US-136 and I one siren near this inter-section. 4 I i $ ~.'. f; _ N Revision _ E _ Pago-1 O f _8 Pa rca Procedure Number __FPTP 5.7.27___ Date f --.,-____._m

+ e 4' e ) B. Tonc activated Emergency firoadcant System rad i os located in rural i v' residences within the Fmergency Planning 7.one. C. Backup mobile sirens are in the r211owing locations. The number of operable mobile sirens at each location shall meet or exceed the number of mobile siren routes assigned to each location. Spare mobile sirens may be maintained at each location. 1. Nebraska: I a. Peru - four routes with three mobile units mounted on fire trucks and one universal mount mobile siren unit within the Fire House. b. Brownville - four routes with three mobile units mounted on fire trucks and one universal mount mobile siren unit within 4 the Fire House, Nemaha - four routes with one mobile unit on a fire truck and t. three universal mount mobile siren units within the Fire Horse, d. Shubert - two routes with tuo mobile units within the Fire

House, e.

Indian Cave State Park - one mobile unit mount d on Park Panger vehicle. D. Q f. Nemaha County Sheriff - two routes with two mobile units mounted on Sheriff's Department vehicles. g. Richardson County Sheriff - one route with one mobile unit mounted on Sheriff's Department vehicle. 2. 111ssouri: a. Rock Port - seven routes with four universal mount mobile siren s;.its stored within the Fire House and three units installed on fire vehicles. b. Watson - four routes with one universal mount mobile siren unit within the Fire House and three units installed on fire vehi-cles. D. Communications equipment installed for the backup mobile siren system includes base and mobile two-way radio units to the respective County Sheriff Departments for the following, if equipment did not already exist before installation of the EWS: 1. Nebraska: 4 a. Peru - one base and one mobile, b \\ I i Procedure Number EPIP 5.7.27 Date M -O ' "D Revirion ? Pnce 4 of 8 Parcs 4 .., -,. ~., - - - - - - -,, -.,.-~nn,

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4 4 I e O j b. Brownville - one base and one mobile. c. Nemaha - one base and one mobile, d. Indian Cave State Park - one base and two mobile units. e. Shubert - one unlisted telephone in the Fire Fouse. 2. Missouri: a. Rock Port - Firemen have their own encoder system, b. Watson - one base and one mobile. VII

I. PROCEDURE

A. Fixed Sirens. 1. Activation. a. Activation of the fixed sirens will be accomp'ished by the County Sheriff in the county which the riren is located:

1) Nemaha ';ounty Sheriff retivates the fixed sirens in Peru, Brownvf 1.le, and Nemaha (Nemaha County Sheriff has the capabi)8.ty to also activate the Shubert fixed siren).

g

2) Richardson County Sheriff activates the fixed siren in Shubert.

3) Atchison County Sheriff activates the fixed sirens in Rock Port, Watson, Phelps City, Nishnabotna, Langdon, and US-136 and I-29 intersection.

b. The Sheriff will be requested to sound the fixed sirens in their respective area by the local and/or state emergency response authorities. These authorities will have responded to a Cooper Nuclear Station emergency in accordance with their respective state and local emergency response plans. In a severe situation, the Sheriffs may be requested to sound the sirens by the CNS Emergency Director if immediate protective action is deemed necessary. The CNS Emergency Director will then contact the appropriate EBS station and transmit the appropriate preformatted message in accordance with EPIP 5.7.6, Notification. 2. Testing by an actual activation of the fixed sirens will be accom-plished in accordance with the following schedule: a. Nemaha County - third Saturday of each month. b. Richardson County - fourth Friday of each month. L Procedure Number EPIP 5.7.27 Date "M

• ).

Revision 2 Page __5 Of 8 Pages

e ) \\,_ / c. Atchison County - first Saturday of each month. 3. Maintenance or repair. a. If repair of the fixed sirens is required, the Cooper Nuclear Station Control Room personnel 1 P will be notified and will initiate necessary repair action, logging, and notification. Note: See Attachments "A", "B", and "C" for Sheriff's proce-dure to activate the fixed sirens. B. EBS Tone Activated Radios. 1. Activation. a. Activation of the EBS radios are accomplished by the primary EBS trn eter stations; 'Hz Omaha for Nebraska EPZ, and kHz St. Joseph for Missouri EPZ. When these stations activate their emergency broadcast, a dual tone is sounded which turns on the EBS tone activa *ed radio receivers and then the energency message is broadcast. The EBS tone activated receivers stay on, continuing with the EBS station's program format until reset to automatic. ('~'/ T b. The primary Emergency Broadcast station will be requested to \\ _, broadcast an EBS message by local or state emergency response authorities. These authorities will have responded to a Cooper Nuclear Station energency in accordance with their respective state and local emergency response plans. In a severe situa-tion, the stations may be requested to broadcast an EBS message l by the CNS Energency Director if immediate protective action is deemed necessary. This action will be accomplished in accor-dance with EPIP 5.7.6, Notification. 2.

Testing, j

a. Once per week the primary EBS stations test their EBS system l which activates the tone activated radios and proceeds with the message. In the event of an actual emergency appropriate 4.nformation would be broadcast at this time. Thus, individuals with FRS tone activated radios will have their radios automat-l ically tested once per week. A test button is provided on each I radio to check the radio by bypassing the automatic activation function to verify operability. In addition, the FRS activated radios have a battery test button and indicator light to check the battery backup power source. 1 O Precedure Nurber EPTP 5.7.27 Date Perision ? r,m e 6 W 8 t',: c s l L

a e' i /^\\ 4 \\ N- ' 3. Paintenance or repair. a. Should the EBS activated radio fail any of the above tests, malfunction, or need maintenance or repair, a telephone number is posted on the radio for the individual to call to initiate corrective actions. See Attachment "N" for description of material attached to the radio. Reporting and correction of tone activated radio malfunctions shall be conducted as specified in EPIP 5.7.27.1, EBS Tone Activated Radio Malfunctions. C. Backup Mobile Sirens. 1. Activation. The backup mobile siren system may be utilized at the decision a. of local or state emergency authorities on a contingent basis to augment the fixed sirens and EBS tone activated radios. In a severe situation, this system may also be activated by the Emergency Director. b. Upon the decision to activate the backup mobi siren system, Volunteer Fireren will be called to their rc pective Fire Houses by the sounding of their local fire sir n. The County Sherif f may activate this siren by radio enco er or he may [ contact the local Fire Chief who will activa:e the siren (,,- himself. c. The Fire Chief or Senior Firemen will contact the County Sheriff by radio or telephone and request information. Tf the backup mobile siren system is to be activated, Firemen will place the mobile siren units on vehicles (if not already installed), perform an operational check, and drive the routes as outlined in Attachment "D". Each Fire House has a procedure outlining these steps. Attachments "E" through "L" contain these procedures. Upon completion of the notification routes, the Fire Chief or Senior Firemen will report back to the County Sheriff. Note: Nemaha County and Richardson County Sherif f personnel also have routes as shown in Attachment "C" and route procedure Attachments "K" and "L". i 2.

Testing, a.

Mobile sirens at the Fire Houses will normally be tested during the scheduled Fire Department meetings. Testing and operabil-4 ity of the sirens will be verified during regularly scheduled l Quality Assurance audits. 1 O i Proceduro Number EPIP 5.7.?7 Date Revision ? pace 7 Of 8 panor

1 'b 3. Maintenance or repair. a. Responsibility for maintenance and repair of mobile sirens rests with Cooper Nuclear Station. If a mobile siren is found to be inoperable or in need of repair, the Cooper Nuclear Station Control Room personnel should be notified. The Energen-cy Planning Coordinator will be informed and will initiate .necessary repair actions. IX. ATTACHMENTS A. Nemaha County Sheriff - Activation Of Early Warning System. B. Richardson County Sheriff - Activation Of Early Warning System. C. Atchison County theriff - Activation Of Early Warning System. ) D. D Peru No'.ification Routes. D Brownville Notification Routes, i D Nemaha Notification Rautes. D Shubert Notification.outes. D Nemaha County Sheriff Notification Routes. D Richardson County Sherif f Notification Routes. D Rock Port' Notification Routes. D Watson Notilication Routes. E. Peru Volunteer Fire Department - Mobile Siren Procedure. F. Brownville Volunteer Fire Department - Mobile Siren Procedure. G. Nemaha Volunteer Fire Department - Mobile Siren Procedure. H. Shubert Volunteer Fire Department - Mobile Siren Procedure. I. Rock Port Volunteer Fire Department - Mobile Siren Procedure. J. Watson Volunteer Fire Department - Mobile Siren Procedure. 1 K. Nemaha County Sheriff - Mobile Siren Procedure. 1 l L. Richardson County Sheriff - Mobile Siren Procedure. 1' M. Indian Cave State Park - Mobile Siren Procedure. N. EBS Tone Activsted Radio Operating Instructions. /'~ i s /* ' M7 N Procedure Number EPTP 5.7.27 Date (*. Revision 2 Page 8 Of 8 Pages s

~~ ~~~ cour r.n m.ta...an s t a t tus urr na t tuss tauAL, ATTACEMENT "A" EMBRCENCY PLAN IMPLEMEMTIEC PROCEDURE 5.7.27 E\\RLY WARNIHC SYSTEM NEMAHA COUNTRY SHERIFF - ACTIVATION OF EARLY WARNING SYSTEM In the event of an emergency at Cooper Nuclear Station or any civil disaster which may require immediate alerting of people from the towns of Brownville, Peru, Shubert, and Nemaha, the following procedure will be utilized: 1. Sound the alert tone for sirens in the designated areas (use code near controls to alert iadividual sirens or all sirens sounded at once). Sound the sirens for several three-minute cycles. 3 Note: The Shubert siren may also be sounded from Richardson County Sheriff's Office. 2. The sounding of these sirens alerts residents in these communities to tune to the Emergency Broadcast Station,. .KHz, for emergency informa-tion. Rural residences within the Emergency Planning Zone will be alerted with EBS tone activated radios when the EBS message is broadcast. 3. Contact the Indian Cave Park Ringer by radio or telephcne and request him to alert visitors. 4 If activation of the backup mobile siren system is deemed necessary: a. Establish communications with the local Fire Chief in the siren area by telephone or radio (Peru - radio, Brownville - radio, Nemaha - Fire Chief radio or telephone). b. The Fire Chief will dispatch the Firemen with mobile sirens on pre-designated routes. These mobile sireas have public addrecs systens and will be used to alect residents along their routes-to tune to the , Emergency Broadcast Station. c. Dispatch two Sheriff's Officers to cover the Nemaha County Sheriff's mobile siren routes, d. The Fire Chief is to report back when the routes have been completed. c. Once notified by the respective Fire Chief and Sheriff's personnel that all Early Warning routes have been completed, the Nemaha County Sheriff will relay this information to the Nenaha County Energency Operations Center. Testing: Activate the fixed sirens in Brownville, Peru, and Nemaha at 1000 on the third Saturday of each month. Activate each siren for 15 to 20 seconds and then cancel. Contact each community to verify the sirens were sounded. Log this activation and verification of sounding in the Dispatcher's Log Book. If a siren is found to be Inoperabic, contact Cooper Nucient Station durir g normal a working hours or _ during off hours or weekends) and inform the Emergency Planning Coordinator or the Shif t Supervisor of the malfunction. [.b .3 ~7*.1 Revision 2 Page 1 Of I. PaPcF 7 Procedure Number EPIP 5.7.27 Date

1 t,LHettM StUt:LP.AK STA110N Ot'hKAlLONS E UAL ATTACHMENs "B" EMERGENCY PLAN IMPLEMENTING PROCEDURE 5.7.27 EARLY WAP.NING SYSTEM 1 i' RICIIARDSON COUNTY SilERIFF - ACTIVATION OF EARLY VARNING SYSTEM in_the event of an emergency at Cooper Nuclear Station or any civil disaster which may require imucdiate alerting of people from the town of Shubert, the following procedure till be utill cd: 1. Sound the alert tone for the siren in Shubert (use code near controls to alert siren). Sound the siren for several three-minute cycles. i Note: The Shubert siren may also be sounded from the Nemaha County . Sheriff's Office. 2. The sounding of this siren alerts residents in these community to tune to the Emergency Broadcast System radio station,.. -nHz, for emergency in fo rma t ion. Rural residences within the Emergency Planning Zone will be alerted with EBS tone activated radios when the EBS message is broadcast. 3. If activation of the Backup Mobile Siren System is deemed necessary: a. Establish communications with the local Fire Chief in the siren area by telephone (unlisted Fire House telephone number is / b. The Fire Chief will dispatch the Firemen with mobile sirens on pre-designated routes. These mobile sirens have public address systems l which will be used to alert residents along their routes to tune to the Emergency Broadcast Station. c. Dispatch Of ficer to cover Richardson County Sherif f's mobile siren route.

d. ;The Fire Chief is to report back when the routes have been completed.

Once notified by the Fire Chief and sherif f's personnel that all Early e. Warning routes have been completed, the Richardson County Sheriff will relay this information to the Richardson County Emergency Operations Center. Testing: Activate the fixed sirens in Shubert at 1630 on the fourth Friday of each month. Activate the siren for 15 to 20 seconds and then cancel. Contact Shubert to verify the siren was sounded. Log this activation and verification of sounding in the Dispatcher's Log Book. If the _ siren is found to be inoperable, contact Conner Nuclear Station' . 'during normal working hours or. during of f hours or ~UHEkends) and inform the Emergency Planning Coordinator or the Shif t Supervisor of the malfunction. Procedure Number EPIP 5.7.27 Dato IO-df** d-Revi.; ion 2 PaPe Of 1 Paces

t.t *t it'r E h t t '. l.A K 51 A I I t 't. 4 8 t* t.t' A i 14 % f M t. Al. . ATTACHMENT "C" DIERCENCY PLAN ?MPLEMENTING PROCEDURE 5.7.27 EARLY WARNING SYSTE't ) ATCHISON COUNTY SHERIFF - ACTIVATION OF EARLY WARNING SYSTEM In the event of an emergency at Cooper Nuclear Station or any civil disaster which may require immediate alerting of people fren the towns of Rock Port, Watson, Phelps City, Langdon, Nishnabotna, and siren at the US-136 and T-29 intersection, the following procedure will be utilized: 1. Sound the alert tone for sirens in the designated areas (use code near controls to alert individual sirens or all sirens at once). Sound the sirens for several three-minute cycles. 2. The sounding of these sirens alerts residents in these communities to tune to the Eme ?ency Broadcast System radio station, kHz, for emer-gency information. Rural residences within the Emergency Planning Zone will be alerted with EBS tone activated radios when the EBS message is broadcast. 3. If activation of the Backup M3 bile Siren System is deemed necessaiy: a. Establish communication s'th the Rock Port and Watson Fire Departments in the siren area by teli. hone or radio. Yatson has a base radio. b. The Fire Chief will dispe.ch the Firemen with mobile sirens in pre-designated routes. Thest mobile sirens have public address systems which will be used to alert residents along their routes to tune to the Emergency Broadcast Station, c. The Fire Chief is to report back when the routes have been completed. d. Once notified by the respective Fire Chief and Sheriff's personnel that all Early Warning routes have been completed, the Atchison County Sheriff will relay this information to the Atchison County Energency Operations Center. Testing: Activate the fixed sirens in Rock Port, Watson, Phelps City, Langdon, Nishnabotna, and the siren located at US-136 and I-29 intersection at 1200 the first Saturday of each month. Activate each siren for 15-20 seconds and then' cancel. Contact each com-munity to verify the sirens were sounded. Log this activation and verification of sounding in the Dispatcher's Log Book. If a siren is found to be inoperable, con, tact Cooper Nuclear Station, during normal working hours or-ditring of f hours or week-ends) and inform the Maintenance Supervisor or the Energency Planning Coordinator of the malfunction. Procedure Number EPIP 5.7.27 Da t.- 3(.)#*' '... Pcvision ? Pace Of 1 Pare =

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