ML20070L117
| ML20070L117 | |
| Person / Time | |
|---|---|
| Site: | Prairie Island  |
| Issue date: | 11/04/1982 |
| From: | Schuelke D NORTHERN STATES POWER CO. |
| To: | |
| Shared Package | |
| ML20070L111 | List: |
| References | |
| PROC-821104-01, NUDOCS 8212300417 | |
| Download: ML20070L117 (102) | |
Text
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1 PAGE 1 OF 2 l
l EMERGENCY PLAN IMPLEMENTING l
l PRAIRIE ISLAND NUCLEAR
' PROCEDURES l
l GENERATING PLANT l
y l NORTllERN STATES POWER COMPANY Number: TABLE OF CONTENTS Rev: 16 l
l History Copy l l
n Retention Time:
Lifetime l
{
~
t a[ h l TITLE:
l l
l Supt.' Rad Protection l
l
// //- Q l
IMPLEMENTING PROCEDURES l
l l
TABLE OF CONTENTS l
l l
l l
l l
i l
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l l
3 l
NUMBER TITLE REV #
l' l
l l
1 Onsite Emergency Organization 2
l 1
l l
l 2
Classifications of Emergencies 2
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3 Responsibilities During a Notification of l
l Unusual Event 2
l l
l 5
l 4
Responsibilities During an Alert, Site Area, l
l or General Emergency 6
l l
l O
l 5
Emergency Notifications 6
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' b l
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6 Activation and Operation of Technical l
l Support Center 2
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7 Activation and Operation of Operational l
l Support. Center 3
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8 Recommendations for Offsite Protective l
l Actions 1
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l l
9 Emergency Evacuation 1
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l l
10 Personnel Accountability 3
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l 11 Search and Rescue 1
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l 12 Emergency Exposure Control 2
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l 13 Offsite Dose Calculations 3
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14.1 Onsite Radiological Monitoring 2
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14.2 Operations Emergency Surveys 0
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15 Responsibilities of the Radiation Survey l
O" l
Teams During a Radioactive Airborne Release 5
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l l
l IBM 8212300417 821222 PDR ADOCK 05000282 F
Table of Contents Page 2 Rev. 16 NUMBER TITLE REV #
16 Responsibilities of the Radiation Survey Teams During a Radioactive Liquid Release 3
17 DELETED 18 Thyroid Iodine Blocking Agent (Potassium I
Iodide) 1 19 Persor.nel and Equipment Monitoring and Decontamination 0
20 Manual Determination of Radioactive Release Concentrations 2
21 Establishment of a Secondary Access Control Point 2
22 Prairie Island Radiation Protection Group Response to a Monticello Emergency 1
23 Emergency Sampling 4
24 Record Keeping During an Emergency 1
25 Re-Entry 2
26 DELETED 27 DELETED 28 Review and Revision of Emergency Plans 0
29 Emergency Security Procedures 1
IBM
PAGE 1 OF 45 l
l EMERGENCY PLAN IMPLEMENTING l
l PRAIRIE ISLAND NUCLEAR l PROCEDURES l
z.
)
l GENERATING PLANT l
l u-l NORTHERN STATES POWER COMPANY l Number:
F3-5 Rev: 6 l
l l
History Copy l l
[) jf g fj l
l l Retention Time:
Lifetime l
9y:/y[}/7 f //lu/C/Cb l Reviewed fj
.1 l TITLE:
l l
l Sup'
'had Prote. tion l
l l Approved By:
4
)
i EMERGENCY NOTIFICATIONS l*
6 I
L e b kh '
I I
l Plant Manager 6 l
l l
OC Date: //- 3,72 _ '
I l
l l
l l
l l
l l
l l
1.0 PURPOSE l
l l
l This instruction delineates the notification procedures to be used l
l during emergency conditions, defines the various emergency communica-l l
tions systems available at the plant, (primary and backup), and l
l provides the necessary operating instructions for their proper use.
l l
1 l
2.0 APPLICABILITY l
l l
l This instruction SilALL apply to all Radiological Emergency l
"N l
Coordinators, Shift Supervisors, Emergency Directors and Shift l
l Emergency Communicators.
l l
l l
3.0 PRECAUTIONS l
l l
l 3.1 Always speak in a clear, distinct voice.
l l
l l
3.2 Make messages as short and concise as possible.
l 1
l l
3.3 Always have the information repeated if it was not completely l
l understood.
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l l
4.0 PROCEDURE l
l l
l 4.1 Shift Emergency Commuaicator (SEC) Respcasibilities:
l l
l l
4.1.1 Report to the Control Room I
I l
l 4.1.2 Complete the " Emergency Notification Report Form",
l l
Figure 1, (PINGP #577) with assistance from the l
l l
Emergency Director or Shift Supervisor.
l l
l l
4.1.3 Upon completion of the " Emergency Notification Report l
l Form", (PINGP #577) report to the communications area l
l of the Technical Support Center.
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l t
t l
l I
l l
l IBM
F3-5 Rev. 6 PAGE 2 4.1.4 Request the telephone switchboard operator to transfer control of the switchboard to the TSC and request that individual to report to the TSC to control the switch-board until relieved by a backup communicator, or the emergency situation is terminated.
I I
l NOTE: Refer to Figure 8, NSP Emergency Operating l
l Center Phone Index for specific telephone l
l number loca tions.
l l
l 4.1.5 Initiate and complete the notifications of state, local, and NSP personnel as listed on the Emergency Notification Call Lists, as follows:
(a) For a Notification of Unusual Event, use Figure 3, PINGP #579.
(b) For an Alert, Site Area, or General Emergency, use Figure 4, PINGP #580.
l;\\
4.1.6 Request local offsite support as deemed necessary.
Coordinate these notifications with the control room.
See Figure 7, " Supplemental Call List" for local support telephone numbers.
4.1.7 If the emergency has been reclassified, (i.e.,
escalated, down graded, or terminated) complete the Emergency Classification Change, Figure 2, PINGP #578 l
and complete the notifications of offsite authorities as follows:
(a) For a termination from a Notification of Unusual Event, use Figure 3, PINGP #579.
(b) For any classification change, use Figure 4, PINGP #580.
l 4.1.8 When the EOF becomes activated, transfer control of Offsite Notifications to the EOF.
4.2 Radiological Emergency Coordinator (REC) Responsibilities:
4.2.1 Complete the Emergency Notification Followup Message Form, Figure 6, PINGP #582.
li l
l l
NOTE: This form does not need to be completed in l
l its entirety prior to transmitting data to l
l offsite authorities.
I I
I IBM t
I F3-5 Rev. 6 PAGE 3
(
4.2.2 Periodically update the Minnesota Department of Health and the Wisconsin Division of Radiation Protection with the information as recorded on Figure 6, PINGP #582 the
)
" Emergency Notification Followup Message".
l l
l l NOTE: When the Nearsite EOF is activated, updates l l
to the Minnesota Department of Health and l
l Wisconsin Division of Radiation Protection l I
l will be handled by EOF personnel.
l l
l 4.2.3 Acknowledge the HPN phcne when it rings and periodically, update the NRC with the information as recorded on Figure 6, PINGP #582 the " Emergency Notification Followup Message".
l l
1 NOTE: Be prepared to provide continuous updates l
j l
to the NRC, as requested over the HPN phone.
l 1
I I
O 4
i i
i i
IBM
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F3-5 Rev. 6 PAGE 4 PINGP #577, Rev. 1 FIGURE 1 INITIAL EMERGENCY NOTIFICATION REPORT i
Verify that the organization / person called is correct prior to relaying emergency information.
TIIIS IS
, SIIIFT EMERGENCY COMMUNICATOR AT TIE (Name)
PRAIRIE ISLAND NUCLEAR GENERATING PLANT.
WE IIAVE DECLARED A(N)
AT If0URS.
(Emergency Class)
(Time)
Pick one of the following:
19 WE IIAVE NOT IfAD A RADIOACTIVE RELEASE.
1 I WE IIAVE HAD A(N)
RADI0 ACTIVE RELEASE.
(Liquid or Airborne)
ATMOSPIERIC CONDITIONS AT TIIE PRESENT TIME ARE AS FOLLOWS:
WIND DIRECTION IS FROM TIE AT MPH.
(Direction)
(Speed)
THE AFFECTED SECTOR (S) IS(ARE)
TIE PROTECTIVE ACTION RECOMMENDED AT TIIIS TIME IS:
i i
i NONE I
I SIELTER IN SECTORS OUT TO MILES I
I EVACUATE IN SECTORS OUT TO MILES i
i ACTIVATE THE PUBLIC N0iIFICATION SYSTEM EXAMPLE ONLY Give a brief description of the emergency.
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% E) T "d T M "El 2 ilU
' 9 h
J U A.5.k.
J0.5W_69.}L1}.
J PLEASE RELAY TllIS INFORMATION TO YOUR EMERGENCY ORGANIZATION PERSONNEL.
Emergency Director Approval Name/Date Shift Emergency Communicator Name/Date IBM
4 F3-5 Rev. 6 PAGE 5 PINGP #578, Rev. 1 FIGURE 2 EMERGENCY CLASSIFICATION CHANGE i
Verify that the organization / person called is correct prior to relaying
~;
emergency information.
2 TI{IS IS Si!IFF EMERGENCY COMMUNICATOR AT TifE i
(Name)
PRAIRIE ISLAND NUCLEAR GENERATING PLANT.
WE ilAVE RE-CLASSIFIED TIIE EVENT AND I
_j Escalated 1
l]
Down graded LJ The Event May Be Terminated TO A(N):
(Pick one below if escalated or down graded is checked)
I I Notification of Unusua1 Event
' ^'"'
EXAMPLE ONLY I
1 Site Area Emergency i
I General Emergency a
AT 1(OURS
~
(Time) o Atmospheric conditions at the Present Time Are as Follows:
Wind Direction is From the at MPl!.
(Direction)
(Speed)
The Affected Sector (s) 1s(are)
(List Sector (s) by Letter Designation)
Form of Precipit.ation (if applicable)
Give a brief description of the emergency:
PLEASE RELAY TilIS INFORMATION TO YOUR EMERGENCY ORGANIZATION PERSONNEL.
Emergency Director Name/Date Shif t. Emergency Communicator Name/Date IBM
.1 F3-5 Rev. 6 PAGE 6 PINGP #579, Rev. 1 FIGURE 3 EMERGENCY NOTIFICATION CALL LIST FOR A NOTIFICATION OF UNUSUAL EVENT CENERAL INSTRUCTIONS (1) The Shift Emergency Communicator SHALL make notifications to the individuals and organizations listed on this Emergency Call List.
(2) Contact each organization or individual using the contact information listed in this Attachment.
(3) For those notifications made by telephone, make the call as follows:
I I
l NOTE: All required contacts contained in this checklist have l
l pre programed telephone numbers on the Touch-A-Matic l
l dialers. Alternate or backup telephone numbers must be l
l manually dialed.
I I
I a.
When the party answers, read the text of the Initial Notification Report Form.
b.
Note the name of the individual contacted and the time of the contact.
(4) For those notifications made by NAWAS, transmit only the information as specified in this procedure. Specific plant data, as specified on the Initial Notification Report Form, will be available to those authorities when they call back for a verification.
(5) Proceed to th next party on the call-list.
(6)
If a party cannot be contacted in two attempts, use alternate or backup communication channels.
If a party still cannot be reached, consider other means such as dispatching a courier, relay through another party or similar actions.
(7)
If the parties call back for further information, note the time and the name of the individuals.
(8) If a party not specified on the call list requests information, refer the party to the NSP Communications Department or to the local emergency services organization in his/her community, as appropriate.
EXAMPLE ONLY
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y
,a.
LAAMYLE UNLY
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F3-5 3
s NRev. 6 s
b b
b,'
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PINGP #579, Rev. I f
h EMERGENCY NOTIFICATION CALL' LIST FOR"t. * '
,5 NOTIFICATION OF UNUStiAL EVEFT
((
o NOTIFICATIONS g
is (1) Notify the Minnesota Division of Emergency Services. The' teJephone number DELETED night or day.
/Ask for the Duty Officer)
-4, t-sg s
s s.'
Contact Time' Initial Verification,
s'h 1 Person Notiffeation-SEC Initials t
SEC INITIALS
, i
\\
\\
l t'
l NOTE:
(1) This notification shall be made within 15 minutes
{
l of declaration of eme'rgency class.
I l
(2)
If NO verification is received within 30 minetes, I
l contact the state again.
l l
(3) If the telephone system rtalfunctic'ns, attempt to l
l relay emergency notificaticus to the DES iia the
(.
I NSP system dispatcher.
1 l.
I l'
9 (2) Using the NAWAS network, notify the Wisconsin authorities in accordance with the following procedure:
a.
Pick up the NAWAS set, press the talk button and say:
"THIS IS PRAIRIE ISLAND NUCLEAR PI ANT CALLING WISCONSIN WARNING CENTER ONE, WEST CENTRAL WARNING CEN'IER AND PIERCE COUNTY WARNING CENTER, ACKNOWLEDGE."
b.
When warning center 9:ic, "est central warning center and Pierce County warning centers ac.,aowledge, press the talk switch and:say:
" PRAIRIE ISLAND NUCLEAR PLANT IS EXPERIENCING A NOTIFICATION OF UNUSUAL EVENT.
RELAY THIS INFORMATION TO EMERGENCY GOVERNMLNT IMMEDIATELY."
Warning Center I Time Initial Verification Notification-SEC Initial SEC Initials West Central Warning Center Time Inital Verification Notification-SEC Initial SEC Initials
( },/
/
Pierce County Warning Center Time Initial Verification Notification-SEC Initial SEC Initials IBM
5
~~
F3-5 Rev. 6 Q
PAGE 8
[.
PINGP #579, Rev. 1 C.
FIGURE 3 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR A NOTIFICATION OF UNUSUAL EVENT l
l l NOTE:
(1) This notification SHALL be made within 15 l
l minutes of declaration of emergency class.
l s.
5 l
(2)
If area or county warning centers do not l
i, l
acknowledge, Wisconsin Warning Center I, II or l
l III will ring on the circuit and relay the l
l message to appropriate warning centers.
l l
(3) If the NAWAS System should become disabled, l
l alternate methods of notification to Wisconsin l
l authorities should be attempted, as follows:
l l
(a) Wisc. DEG -- Telephone -- DELETED I
l (b) West Central Warning Center -- Telephone -- l l
DELETED l
l (c) Pierce County -- Telephone -- DELETED l l
or l
l Radio - Channel 1 l
l l
(3) Notify the local authorities by telephone as follows:
(a) GOODHUE COUNTY SHERIFF ADELETED Contact Time Initial Verificatic I Notification-SEC Initial SEC Initials l
l l NOTES:
(1) This notification SHALL be made within l
l 15 minutes of declaration of emergency class.
l l
l l
(2) Alternate means to communicate with the Goodhue l l
County Sheriff is the Radio System - Channel 1.
l I
1 (b) DAKOTA COUNTY SHERIFF ATyELMEO Contact Time Initial Verification Notification-SEC Initial SEC Initials EXAMPLE ONLY g
31 0
F3-5 Rev. 6 PAGE 9
()
PINGP #579, Rev. I
^
FIGURE 3 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR A NOTIFICATION OF UNUf,UAL EVENT I
I l NOTES:
(1) This notification SHALL be made within 15 l
l minutes of declaration of emergency class.
l l
l l
(2) Alternate means to communicate with the Dakota l l
County Sheriff should be attempted in the l
l following order:
l l
a.
Telephone -DELETED l
l b.
Radio System - Channel 1 l
l c.
Point-to-Point relay via Goodhue Sheriff.
l l
l (4) Notify the Plant Manager (or designee) to inform him of the situation (Pager Number -DELETED i
Person Time Initial Verification Notification-SEC Initials SEC Initials (5) Notify the systems dispatcher using the normal telephone line DELETED lor DELETED'), the Hotline (Control Room), or the low-band radio link (TSC and Control Room).
/
Time
/SEC Initials (6) Notify the NRC Resident Inspector:
Clarence Feierabend - Planty El CD '
/
Time
/SEC Initials (7) Update the Radio Alers Monitor System Message Cassette as follows:
(a)
Insert a blank tape into the tape recording unit.
(b) Make sure that the remote control unit ' Mike Enable' &
' Transmit Enable' key switches are both off (Green).
(c) Set tape unit selector switch to ' Record Announcement'
- insert microphone in tape unit oike jack.
(d) Press tape unit ' Start' switch and record the i
Prepared message.
nn bA}b MN[]
EXAMPLE ONLY F3-5 o
Rev. 6 PAGE 10 B~ BEH" BN08BOTI PINGP /, 79, Rev. I a
v FIGURE 3 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR A NOTIFICATION OF UNUSUAL EVENT l
NOTE:
(1) Information to be recorded should include the l
l date, time and unit status.
l l
(2) When recording the message, speak slowly and l
'l clearly, about 3 inches from the microphone.
l l_
l (e) Set tape unit selector switch to ' Check Announcement' press ' Start' switch and listen to recording. (Adjust volume to desired level with tape unit ' Monitor Volume' Control.) If satisfactory, proceed with (f).
(f) Now, remove the message cassette from the tape unit and insert it into the telephone answering unit.
(8) Notify or verify the Control Room has established notification of the NRC Emergency Response Center via the ENS liotline.
/
Time
/SEC Initials l NOTES:
(1) Notification of NRC required to be made within l
l one hour of event declaration.
l l
l l
(2) If the ENS Network should become disabled, alternate l l
methods of NRC notification should be attempted in l
l the following order:
l 1
l l
(a) Commercial Telephone System DELETED l
l to NRC Operations Center l
l (Via Bethesda Central Office) l l
l l
(b) Commercial Telephone System CELEEU l
l to NRC Operations Center l
l (Via Silver Spring Central Office) l l
1 l
(c) Ifealth Physics Network to l
l NRC Operations Center 22 (Rotary Dial) l l
I O WTED l
(d) Commercial Telephone System l
l to NRC Operator l
l (Via Bethesda Central Office) l l
l (9)
Inform the Shift Supervisor of the completion of the notifications.
/
Time
/SEC Initials CALL LIST COMPLETE:
TIME DATE SilIFT EMERGENCY COMMUNICATOR k
IBM
F3-5 Rev. 6 PAGE 11 nf '/
t N.,g PINGP #580, Rev. 1 FIGURE +
EMERGENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY l
GENERAL INSTRUCTIONS (1) The Shift Emergency Communicator SHALL make notifications to the individuals and organizations listed on this Emergency Call List.
(2) Contact each organization or individual using the contact information listed in this Attachment.
(3) For those notifications made by telephone, make the call as follows:
I l
l NOTE: All required contacts contained in this checklist have l
l pre programed telephone numbers on the Touch-A-Matic l
l dialers. Alternate or backup telephone numbers must be l
l manually dialed.
l l
l a.
When the party answers, read the text of the Initial Notification Report Form.
(
)
'N;[
b.
Note the name of the individual contacted and the time of the contact.
(4) For those notifications made by NAWAS, transmit only the information as specified in this procedure.
Specific plant data, as specified on the Initial Notification Report Form, will be available to those authorities when they call back for a verification.
(5) Proceed to the next party on the call-list.
(6)
If a party cannot be contacted in two attempts, use alternate or backup communication channels.
If a party still cannot be reached, consider other means such as dispatching a courier, relay through another party or similar actions.
(7)
If the parties call back for further information, note the time and the name of the individuals.
(8)
If a party not specified on the call list requests information, refer the party to the NSP Communications Department or to the local emergency services organization in his/her community, as appropriate.
EXAMPLE ONLY
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Vy 31 IBM
o F3-5 Rev. 6 PAGE 12 PINGP //580, Rev. 1 FIGURE 4 (Continued)
EMEP,GENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY NOTIFICATIONS (1) Notify the Minnesota Division of Emergency Services. The telephone numberdELETED, night or day.
(Ask for the Duty Officer)
Contact Time Initial Verification-Person Notification-SEC Initials SEC INITIALS l
l l NOTE:
(1) This notification shall be made within 15 minutes l
l of declaration of emergency class.
l l
(2)
If NO verification is received within 30 minutes, l
l contact the state again.
l l
(3) If the telephone system malfunctions, attempt to l
l relay emergency notifications to the DES via the l
l NSP system dispatcher.
l l
1 (2) Using the NAWAS network, notify the Wisconsin authorities in accotdance with the following procedure:
a.
Pick up the NAWAS set, press the talk button and say:
"THIS IS PRAIRIE ISLAND NUCLEAR PLANT CALLING WISCONSIN WARNING CENTER ONE, WEST CENTRAL WARNING CENTER AND PIERCE COUNTY WARNING CENTER, ACKNOWLEDGE."
b.
When Warning Center One, West Central Warning Center and Pierce County Warning Centers acknowledge, press the talk switch and say:
" PRAIRIE ISLAND NUCLEAR PLANT IS EXPERIENCING A(N) (Pick the correct class):
ALERT, or SITE AREA EMERGENCY, or GENERAL EMERGENCY RELAY THIS INFORMATION TO EMERGENCY GOVERNMENT IMMEDIATELY."
EXAMPLE ONLY
@l p
[FFII" FW@:11 IBM i
F3-5 Rev. 6 PAGE 13 PINGP #580, Rev. 1 FIGURE 4 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY Warning Center I Time Initial Verification Notification-SEC Initial 9EC Initials West Central Warning Center Time Inital Verification Notification-SEC Initial SEC Initials
(
Pierce County Warning Center Time Initial Verification Notification-SEC Initial SEC Initials l NOTE:
(1) This notification SHALL be made within 15 l
l minutes of declaration of emergency class.
l l
(2) If area or county warning centers do not l
l acknowledge, Wisconsin Warning Center I, II or l
9 l
III will ring on the circuit and relay the l
l message to appropriate warning centers.
l l
(3)
If the NAWAS System should become disabled, l
l alternate methods of notification to Wisconsin l
l authorities should be attempted, as fgklows4 l
l (a) Wisc. DEG -- Telephone --,j;EL t' 1 F"'"
l
=
l (b) West Central Warning Center -- Telephone -- l l
DELETED l
l (c) Pierce County -- Telephone -- {ji;[,;;, _, } ll l
or l
Radio - Channel 1 l
t l
l (3) Notify the local authorities by telephone as follows:
(a) GOODHUE COUNTY SHERIFF AToELETED l
Contact Time Initial Verification Notification-SEC Initial SEC Initials l
l NOTES:
(1) This notification SHALL be made within l
l 15 minutes of declaration of emergency class.
l l
(2) Alternate means to communicate with the Goodhue l l
County Sheriff is the ri y
ha asst 3Y3 ITh7 b
[BFH" BMTl
F3-5 Rev. 6 PAGE I4 FIGURE 4 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGE!EYa tXAMPLE ONLY (b) ' DAKOTA COUNTY SHERIFF CELETED 4
L_ B B i r F R l l Contact Time Initial Verification Notification-SEC Initial SEC Initials l
I l NOTES:
(I) This notification SHALL be made within 15 l
l minutes of declaration of emergency class.
l l
l l
(2) Alternate means to communicate with the Dakota l l
County Sheriff should be attempted in the l
l following order:
l l
a.
Telephone -
ET N.
l l
b.
Radio System - hannel 1 l
l c.
Point-to-Point relay via Goodhue Sheriff.
l l
l wn+M+:.+n:nneu+:nw.+n:.wn-i.
1 I
l NOTE:
IF TIE EMERGENCY RESPONSE ORGANIZATION HAS PREVIOUSLYl l
BEEN ACTIVATED BY THIS CIECKLIST, TIE FOLLOWING STEPS l l
NEED NOT BE COMPLETED FOR FURTIER ESCALATIONS.
l l
l
-:+u+nn:m,+nn+w:n.+>>n+:.+n+nu+n-wwna (4) Notify the Plant Manager (or designee) to inform him of the situation (Pager NumberDELETEp.
Person Time Initial Verification Notification-SEC Initials SEC Initials l
(5) Notify the systems dispatcher using the normal telephone line (.
DELETED, or
), the Hotline (Control Room), or the low-band radio link (TSC and Control Room).
/
i Time
/SEC Initials (6) Notify the h7C Resident Inspector:
Clarence Feierabend - Plany,3L MEO l
Time
/SEC Initials l
IBM l
f
F3-5 Rev. 6 PAGE 15
,g k,
PINGP #580, Rev. 1 FIGURE 4 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR AN ALENT, SITE AREA, OR GENERAL EMERGENCY (7) Activate the Emergency Response Organization as follows:
(a) Normal Work Hours (1) Verify announcement to report to emergency response centers is made over public address system.
(2) ContactthePITrainingCenterbytelephonggt,fdTEP inform them of the emergency classification,jand request them to report to the EOF.
l NOTE: Alternate numbers should be attempted in the l l
following order:
l o+#gQ(
l l
l l
1 l
(3) Contact the Nucle g e,h g Services Group by telephone l, inform them of the emergency classification and request them to report to the EOF.
l NOTE: Alternate numbers should be attempted in the l o *5TED EXAM &LE ONLY l
following order:
l (b) Off-Normal Work Hours
[ H F JB M ll l
l NOTE: NSP personnel and Civil Defense personnel l
l SHALL be activated by this callout during l
l off-normal work hours.
l l
l (1) Insert the pre-recorded tape designated "ERO Callout" into the tape unit.
(2) Set the tape unit selector switch to " Answer".
(3) Turn the message transmitter control unit " Transmit Enable" key switch to the ON position. The red "XMIT" lamp should light.
IBM
F3-5 Rev. 6 PAGE 16 PINGP #580, Rev. 1 FIGURE 4 (Continued) 2MERGENCY NOTIFICATION._ CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY 8
(4) Enter Code 04 on the encoder unit and press "P".
As soon as the tones are completed, enter Code 06 and then press "P".
I i
l NOTE: Several seconds after the last tone is l l
heard, the tape will be transmitted l
l 3 times - then the unit will shut off. l l
l (5) Verify proper operation of the radio alert monitor system by acknowledging that the TSC Radio Alert donitor did activate.
If not, repeat steps (1) through (4).
(6) If the radio alert system failed to function after 2 attempts, use the Emergency Organization Call List, Figure 5 and call all Emergency Organization Members by telephone.
(7) When the transmission has ended, turn the " Transmit Enable" key switch to the OFF position.
(8) Remove the message cassette from the tape unit.
2 (8) Notify the Local Residents as follows:
(a)
Insert the pre-recorded tape designated " Local Notifications" into the tape unit.
(b) Set the tape unit selector switch to " Answer".
(c) Turn the message transmitter control unit " Transmit Enable" key switch to the ON position. The red "XMIT" lamp should light.
I (d) Enter Code 01 on the encoder unit and press "P".
I I
l NOTE: Several seconds after the last tone is l l
heard, the tape will be transmitted l
l 3 times - then the unit will shut off. l l
l EXAMPLE ONLY @
181 KH!rIggn
F3-5 Rev. 6 PAGE 17 PINGP #580, Rev. 1 FIGURE 4 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY (e) Verify proper operation of the radio alert monitor system by acknowledging that the TSC Radio Alert Monitor did activate.
If not, repeat steps (a) through (d).
(f) If the Radio Alert System failed to function after 2 attempts, attempt to notify one of the following local residents by telephone:
Ms. Rebecca Childs y g L ET 6 0
-- QEW ' gp or; Ms. Mira Childs (g) When the transmission has ended, turn the " Transmit Enable" key switch to the OFF position.
(h) Remove the message cassette from the tape unit and insert it into the telephone answering unit.
(9) During Off Normal Work Hours ONLY, NOTIFY TIE NSP RED WING SERVICE CENTER BY TELEPIIONE AT
~TE.O AND REQUEST TIE NSP ON-CALL TROUBLE SHOOTER
.. ;i IORT TO TIE NSP RED WING SERVICE CENTER TO UNLOCK 4t TIE FACILITIES FOR TIE NSP RADIATION SURVEY TEAMS.
/
Time /SEC INITIALS (10) Notify or verify the Control Room has established notification of the NRC Emergency Response Center via the ENS Hotline.
/
Time /SEC INITIALS EXAMPLE ONLY S,W.5 t
IBM 1
l
F3-5 Rev. 6 PAGE 18 FIGURE 4 (Continued)
EMERGENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY l
I l NOTES:
(1) Notification of NRC required to be made within l
l one hour of event declaration.
l l
l l
)
If the ENS Network should become disabled, alternate l methods of NRC notification should be attempted in l
g the following order:
l l
(a) Commercial Telephone System DELETED.I to NRC Operations Center l
(Via Bethesda Central Office) l l
(b) Commercial Telephone System gELETED l to NRC Operations Center l
k (Via Silver Spring Central Office) l l/
(c) Health Physics Network to l
l NRC Operations Center 22 (Rotary Dial) l k
l l
l (d) Commercial Telephone System DELETED
'l l
to NRC Operator l
l (Via Bethesda Central Office) l l
l (11) Inform one WestingI[ouse contact, using the list in the order shown, to ensure early notification to W of an emergency occurring at the plant.
Be prepared to discuss as many facts as are available at the time of the call.
I I
l NOTE: Unless indicated otherwise, all phone numbers are area code l l
412. Where an area code other than 412 is shown, it l
l applies to the office, home, and HHL numbers.
l l
l Title Name Office /Home/IDIL Operating Plant Regional Bill Johnson
-qLETED Manager 1st Alternate Chuck Rowland 2nd Alternate Dave Hollein OELM. IF' 5 Service Response Manager Bob Stokes Ot"#j$9
,, e 1st Alternate John Miller 2nd Alternate Dave Campbell I,
IBM
F3-5 Rev. 6 PAGE 19 g
())
PINGP #580, Rev. I
^
FIGURE 4 (Continued) k EMERGENCY NOTIFICATION CALL LIST FOR AN ALERT, SITE AREA, OR GENERAL EMERGENCY Emergency Response Director Tom Anderson dei _.ETED Emergency Response Deputy Ron Lehr DELETED Director Emergency News Mike Mangan DELETED Communications W Contact
/
Time /SEC Initials (12) Not C
y American Nuclear Insurers (ANI) by Telephone -
ETED (24-Ilour Number) j
/
Time /SEC Initials l
I l NOTES:
(1) During Normal Office llours (8:00 a.m.
- 4:00 p.m.),
l l
this number will be answered by a receptionist who l
will transfer the call to an appropriate individual.
l (2) During Off Normal Office flours, an answering machine l l
will intercept the call and notify a designated l
l ANI Staff Member.
Please leave your name, company, j
l and telephone number. The ANI member will return l
l the call to obtain further information.
l l
l l
(13) Inform the Emergency Director of the completion of l
the notifications.
/
Time /SEC Initials CALL LIST COMPLETE:
TIME DATE SIIIFT EMERGENCY COMMUNICATOR HAMPLE DEY l
o
.5 l
l l
IBM l
t
F3-5 Rev. 6 PAGE 20 PINGP #581, Rev. 1 b @' h]
EMERGENCY ORGANIZATION CALL LIST Q)
INSTRUCTIONS (1) This call list SHALL be used to activate the ONSITE Emergency Response Orgariization during off-normal work hours, should the Radio Alert Monitor System Fail.
(2) Use the following notification guidelines:
(a) Contact each individual in the order shown; (b) When the individual answers, request that individual to report to the plant; (c) Proceed to the next individual on the call list; (d)
If an individual cannot be contacted in two attempts, bypass that individual and proceed down the list. After the other notifications are complete, re-attempt to contact any bypassed individuals.
NOTIFICATIONS Plant Management (OC Members) f PLANT MANAGER PLT SUPT ENGR & RAD PROT I
PLT SUPT OPER & MAINT 6.
q$O SUPT RAD PROTECTION Q.
SUPT MAINT h
SUPT OPER ENGR Ob SUPT OPERATIONS SUPT QUALITY ENGR SUPT TECH ENGR SUPT NUC ENGR Radiation Protection Group RAD PROT SPEC RAD PROT SPEC RAD PROT SPEC RAD PROT COORD CHEMIST
{60 RAD PROT SPEC
$ibn Q6 RAD PROT SPEC O
RAD PROT SUPV TRAINING INSTRUCTOR RADIO-CHEMISTRY SUPV RAD PROT SPEC RAD PROT SPEC RAD PROT SPEC RAD PROT COORD RAD PROT SPEC RAD PROT SPEC RAD PROT SPEC
-l
F3-5 Rev. 6 PAGE 21 O
EXAMPLE ONLY mNee,581. R. 1
<c,,,,,,,,,
EMERGENCY ORGANIZATION CALL LIST Radiation Protection Group (Continued) l RAD PROT SPEC
- p.9 f
QUALITY SPEC RAD PROT SPEC gELETED RAD PROT SPEC RAD PROT SPEC RAD PROT SPEC l
SENIOR PROD ENGR Maintenance /E1ectricians MAINT SUPV I
y I
MAINT SUPV QN g6_v MAINT SUPV Q
MAINT SUPV CHIEF STATION ELECT STATION ELECT
~
J STATION ELECT l
l I & C Group DELETED I
I & C SUPV QEbb gn i
j I & C COOR I & C COOR Engineers ENGINEER ASSOC PROD ENGR ASSOC PROD ENGR N gTED QIis,t==*7Eg LEAD PROD ENGR Q
ASST PROD ENGR ASST PROD ENGR ASSOC PROD ENGR ASSOC PROD ENGR LEAD PROD ENGR LEAD PROD ENGR EOF Coordinator b) g.
LEAD PROD ENGR DdLb gn gTED
'~
OPERS INSTRUCTOR l
9 PROD ENGR IBM l
l
F3-5 Rev. 6 PAGE 22 PINGP #581, Rev. 1 FIGURE 5 (Continued)
EMERGENCY ORGANIZATION CALL LIST j
ENGR ASSOC I
OPERS INSTRUCTOR I
I INSTRUCTOR GENERAL Q
l SIMULATOR SUPERVISOR QD, [b n
Ogh "
SUPT NUC TECH SERVICES l
ENGR ASSOC TRAINING ENGR SUPT TRAINING l
LEAD PROD ENGR l
OPERS INSTRUCTOR l
INSTRUCTOR SUPV i
EXAMPLE ONLY
[BFir"81 e
FN @ II 9
COMPLETED:
DATE TIME SHIFT EMERGENCY COMMUNICATOR IBM
F3-5 Rev. 6 PAGE 23 I
\\
(
)
PINGP #582, Rev. 1 FIGURE 6 EMERGENCY NOTIFICATION FOLLOWUP MESSAGE
- EXAMPLE ONLY Date Sample Time AM/PM e
EBBir BND@DU' l.
Location of incident: Prairie Island 2.
Class of emergency:
3.
Type of release ( ) actual or ( ) potential:
( ) airborne
() waterborne
( ) surface spill 4.
Height of release:
() ground level Relative Noble Gases uCi/sec Quantity:
Iodines uCi/sec Particulates uCi/sec
[
Estimated quantity of radioactive material released or being released:
curies 5.
Meteorological Conditions: Wind Velocity mph Wind Direction (from):
degrees Temperature
- C Atmospheric Stability Class Form of precipitation 6.
Release is expected to continue for hours.
7.
Proj ected Whole Body Thyroid Sectors Affected dose rates: S.B.
mrem /hr mrem i
2 miles mrem /hr mrem 5 miles arem/hr mrem 10 miles mrem /hr mrem Proj ect S.B.
mcem mrem integrated 2 miles mrem mrem dose at:
5 miles mrem mrem 10 miles mrem mrem
N 1
- Complete as much of the form as information availability and time allows.
All blanks need not be completed.
F3-5 Rsv. 6 PAGE 24 PINGP #582, Rev. 1 FIGURE 6 (Continuec')
EMERGENCY NOTIFICATION FOLLOWUP MESSAGE
- 8.
Survey Results SURVEY TIME POINT READING EXAMPL_F D.NIY.
o.e).s o m 'm m v e, m,n n
- m 9.
Estimate of any surface radioactive contamination:
dpm/100 cm 10.
Chemical and physical form of released material:
11.
Emergency response actions underway:
12.
For liquid release to the river, estimate release volume, release activity and estimated time for concentration to reach public water:
13.
Recommended emergency actions, including protective actions:
14.
Request for any needed support by offsite organizations:
15.
Prognocis for worsening or termination of event based on plant information:
4 i
l l
Emergency Director IBM
r' F3-5 Rev. 6 PAGE 25 FIGURE 7 j
SUPPLEMENTAL CALL LIST HINNESOTA DEPARhfENT OF HEALTH Department of Health Office Alice Dolezal Eb3'IEO Minnesota State EOC Minn. Team Coordinator (accident assessment)
, DEL,ETED WISCONSIN DIVISION OF IEALTH Radiation Protection Section Office Lawrence J. McDonnell, Chief m-,
.. r-n Kenneth O'Brien W"'"'
Wisconsin State EOC Wisc. State Radiological Coordinator (accident assessment) ggi,gTED Radiological Dose Assessment gELETED LOCAL SUPPORT SERVICES Red Wing Police Department Red Wing Fire Department O,G#ggQ
,e St. John's Hospital, Red Wing Ambulance Service, Red Wing OTIER PERSONNEL AND AGENCIES Dept. of Energy (Radiological DAY VELE O
Assistance)
NIGHT l
IBM
F3-5 Rev. 6 PAGE 26 FIGURE 8 NSP EMERGENCY OPERATING CENTER PHONE INDEX 1.
ASSEMBLY POINTS (a) Screenhouse (1)
DZLETED (b) Construction Office Building (1)
DELETED 2.
OPERATIONAL SUPPORT CENTER (OSC)
(a) OSC Coordinator DELETED (b) I&C bdLk! 1:D (c) Mechanical Maintenance DELETED (d) Electrical Maintenance OELETED (e) Radiation Protection DELETED 3.
TECHNICAL SUPPORT CENTER (TSC)
(a) NRC Office Area (1) f3j ggg73g 2
(4) 4 (b) Westinghouse & NSP Engineers Area (1)
(2)
DELETED (3)
(c) Radiation Protection Area (Radiological Emergency Coordinator)
(1)
(2)
(3)
(4)
- pELETED
(
(5)
F3-5 Rev. 6 PAGE 27 FIGURE 8 (Continued)
NSP EMERGENCY OPERATING CENTER PHONE INDEX r
(d) Conference Table Area (1) Emergency Direct.or TED DELETED I
(2) Maintenance (Mech & Elect)
DELETED (3) Nuclear Engineering UALEIED (4) Operations Engineering DELETED (5) Technical Engineering DELETED (6) Operations gggg(Eg (e) Communications Area (5hift Emergency Communicator
' (1)
DELETED (2)
DELETED
/
(3)
(f) Status Board Area (1)
DELETEQ (Rad. Prot. Status Board) i (2) 1 (Plant Status Board) 4.
NEAR-SITE EMERGENCY OPERATING FACILITY (a) Command Center (Emergency Manager Conference Table) l (1)
DELETED (2)
(32 DELETEC l
(4 i
l (b) EOF Coordinator (at Eh Conference Table)
(1)
DELETED (2)
(3)
OdkET" C d
s)
(4)
(c) Radiation Protection Support Supervisor l
f (1) 388-1121 Ext. 503 l
IBM 1
F3-5 Rev. 6 PAGE 28 FIGURE 8 (Continued)
NSP EMERGENCY OPERATING CENTER PHONE INDEX (d) ' Radiological Meteorological Cummunicator (1) l f)
OELETED (4)
(e) Off-site Communicator (1)
I gg(ETED (2)
(3)
(4)
(f) Technical Support Communicator 0
(4)
(g) Technical Support (Engineering)
I (1) f3)
DELETED (4)
(h) Telecopier Stat e (1)
(2). c-i E T E D (3)
V"'
(1) NSP Communications Department EOF Office (1)
DELETED (2)
(Telecopier)
(j) EOF Count Room (1)
(2)
DELETED IBM
F3-5 Rev. 6
~
PAGE 29 FIGURE 8 (Continued) 1 f
NSP EMERGENCY OPERATING CENTER PHONE INDEX o
(k) EOF Emergency Manager Office fy DELETED (1) NRC EOF Office (1) DELETED (2) i (3)
(4)
DELETED 3
(m) Local Government EOF Office (1) l DELETNDr (3)
[
5.
HEADQUARTERS EMERGENCY CENTER (HQEC) k (a)
(b)
(c)
(d) pgLETED Q
IBM
F3-5 Rev. 6 PAGE 30
~
ATTACHMENT A TELEPHONE COMMUNICATIONS NETWORX I.
SITE TELEPHONE COMMUNICATIONS 1.
Dimension 2000 PBX Normal communications are provided by a Dimension 2000 PBX.
Three separate Dimension PBX attendent consoles are used in the system. All have identical functions and only one can be operational at a time. For normal business hours, all incoming calls are answered by the receptionist located on the 5th floor of the Administration Building. During backshifts and weekends, the console at the secondary alarm station is activated. The third console, located in the Technical Support Center Communications area, will be activated during emergency plan implementation.
The Dimension System controls approximately 265 main stations and 75 extensions.
It is designed with a high degree of fault detection and diagnostic capabilities. Additional reliability is provided by a backup duplicate common control unit.
If there are certain PBX failures or power failure, all stations would normally be inoperative. However, automatic operation of transfer relays in the emergency transfer panels bri.dge preassigned stations directly to the trunk lines. Assigned stations are located in control rooms, shift supervisors office, access control, administrative office, and technical support center. A key switch to manually cut over these preassigned stations is located within the telephone equipment room if the need exists.
Terminated within the Dimension System are 7 trunk lines arJ 7 tie lines.
The trunk lines are 388-1121 through 1127, of which 388-1121 is incoming only, while 1122 through 1127 have incoming and outgoing capabilities. The seven two-way tie lines connect the Dimension 2000 PBX to the general office exchange via the NSP microwave relay system.
Normal power for the system is provided by an instrument inverter which in turn is supplied by a diesel backed 480 VAC safeguards motor control center and a 125 VDC station battery. An alternate source is provided by a SKVA 480/120V transformer supplied by the 480 VAC diesel backed safeguards motor control center.
2.
Gai-Tronics Page System Gai-Tronics paging system is also available and is used to call personnel over the plant and yard speakers as well as to issue plantwide instructions from GTC stations located throughout the plant. This system is tied to the Dimension 2000 PBX, making access to the paging system possible from all telephone IBM
F3-5 ATTACHMENT A (Continued)
Rev. 6 PAGE 31
' stations on site. Any one station tying up access to tne paging l
system can be overridden with the executive override function from the operators console or the plant manager's office.
T 3.
Phillips M100 Intercom System Additional communication capability is provided by the Phillips M100 Intercom System. Stations are installed throughout the plant with a two digit number identifying its location.
4.
Sound Powered Phone System Sound powered phones are available for use within the plant and are primarily used for operations and maintenance coordination.
Phone jacks are located throughout the Containment, Auxiliary Building, Turbine Building and Control Room.
II.
TECHNICAL SUPPORT CENTER (TSC) TELEPHONE COMMUNICATIONS 1.
Touch-A-Matic Dialer i
The TSC Communications area is equipped with two automatic
{))
dialers. They function as a 31 name and number directory with an s,,
automatic memory. Numbers are programmed into the memory as labeled on the face plate. Both Touch-A-Matics are connected directly to an outside line. The memory button needs only to be depressed once to automatically dial the complete number.
Unit #1 has numbers preprogrammed for all the State and County Agencies, plus the EOF Coordinators and Engineers, Maintenance, i
Electrical, and I&C parsonnel required for notification procedures. Unit #2 is programmed for Operations Committee I
members and all the t.ealth Physics personnel.
l j
The last number manually dialed is automatically recorded into the last number dialed position of the directory. Each number in this position is automatically replaced by the number previously manually dialed.
2.
Dimension PBX Attendant Console Located in the communications area, the console once activated has complete control of all incoming communications. The console is activated by calling the console in operation and instructing them to unplug the handset receiver.
IBM l
1..--
F3-5 ATTACHMENT A (Continued)
Rev. 6 PAGE 32 Operating Console on backshifts and weekends - Secondary Alarm Station Operating Console during normal working hours - Receptionist in Administration Bldg.
The TSC console is then made operational by plugging its handret into the board. At no time should two consoles be operated at the same time.
The console should only be operated by the Shift Emergency Communicator (SEC) or someone designated by the SEC.
3.
Stations, Exten ions, and Hot Lines Individual telephone communication from the TSC is provided for by fif teen separate plant stations with two extensions of these l
stations, four General Office extensions, and four Eau Clair FX lines. Three separate dedicated circuits (auto ringdown), are also l
available with points of connection as follows:
1.
TSC - St. Paul State Capital EOC - (REC - Minn. Health Department) 2.
The auto ring down is initiated by picking up the receiver.
Ringing ceases when one other point picks up the line.
4.
Phillips M100 Intercom Two stations of the Phillips M100 intercom station are located in l
the TSC. One is in the Radiation Protection Area while the ot' er a
l is in the communications area.
5.
Emergency Notification System (ENS)
The ENS is a leased private line between Prairie Island and the NRC Incident Response Center. The ENS is the primary means for reporting emergencies and other significant events to the NRC/IC Headquarters. When the NRC Operations Center is activated, the ENS becomes the dedicated line to the NRC for the transmission of operational data.
O 1
IBM u
)
F3-5 s
ATTACHMENT A (Continued)
Rev. 6 PAGE 33 Red phones labeled (GPO 1504) are located in the Control Room and the Technical Support Center. To activate the ENS line, proceed as follows:
(1) Lift receiver. This causes the telephone console in the Operation Center in Bethesda, Maryland to ring automatically.
(2) The NRC Duty Officer will answer.
(3) Calmly identify yourself and give the NRC Duty Officer the required information.
(4) Designate an individual to maintain continuous communication with the NRC staff member in the Operations Center until the NRC decides that the event has been successfully terminated or additional communication is unnecessary.
I I
l NOTE:
If the incident has little potential for l
l u'pacting the public health and safety, the NRC l
l Duty Officer may only collect relevent infor-l l
mation and then terminate the conversation.
l l
However, if the event is of a more serious l
(O l
nature, the Duty Officer will maintain an open l
/
l and continuous line with the site until the l
l matter is resolved.
l l
I 6.
The Health Physics Network (HPN) is a leased, private line system which connects all the nuclear power plants, the NRC Operations Center, and the NRC Regional Office (Glen Ellyn).
It is primarily intended for use during emergencies and will function as the dedicated line between the Health Physics personnel, the Operations Center in Bethesda, MD and the NRC Regional Office.
In the event of a site emergency, the NRC will activate the HPN.
Before NRC Health Physics specialists arrive on site, the NRC Operations Center communicator may request information from plant personnel.
l l
IBM
-.--_. ~
F3-5 ATTACHMENT A (C:ntinu d)
Rev. 6 PAGE 34 l
l l NOTE: The HPN is a restricted network and may not be used l
l by nongovernment employees at any time unless a l
l significant event has to be reported and both the l
l ENS and the commercial telephone lines are out of l
l service.
l l
l Extensions for the HPN are at the following locations:
(1) HP Office (2) Technical Support Center (3) NRC Resident Inspector's Office If necessary to use the HPN phone:
(1) Lift receiver. NO DIAL TONE IS HEARD.
(2) Dial the required number:
22 - NRC Operations Center 23 - Region III Office l
l l NOTE:
a.
There will be audible ringing signal dial tone l
l after dialing the desired code. Ringing is l
l heard at the called station to indicate an l
l incoming call. This ring stops when the tele-l l
phone is answered or at the end of thirty l
l seconds. You may dial again if the call has l
l not been answered in approximately 30 seconds.
l l
l l
l b.
An automatic time-out period of six seconds is l
l provided on the HPN to prevent a tie-up if only l l
one digit has been dialed. This means that the l
l desired code must be dialed within six seconds l
l or the call will not complete.
l l
l 7.
National Warning System (NAWAS)
The National Warning System (NAWAS) is a private wire system provided by the Federal Government to disseminate emergency information of a National or International nature. The National Primary input location is the North American Air Defense (NORAD)
Command Center in the Cheyenne Mountains, Colorado. There are over 2000 terminals on this system in federal, military and state designated locations.
O IBM i
l
.g j
- b F3-5 ATTACHMENT A (CoNinued)
NRev.'6
~
PAGU 35 l
()
The Wisconsin Division of Emergency Government (DEG) is,
[*
responsible for maintaining a 24-hour statewide. warning system as s
part of the National Warning System (NAWAS). The Prairie Island
)
s NAWAS is part of the Wisconsin Statq National Warning System.
In 1,
Wisconsin, there are three (3) state warning centers. These' warning centers have operational control over all terminals serving Wisconsin (including Prairie Islan D.
This system is so designated that only the State Warning Point can.'communin te with terminals outside of Wisconsin. All terminals % thin Yisconsin I
are on a " Party Line" basis, 'in that any termintL talking on the circuit is heard by all'other terminals c.t'the bisconsin circuit'.
In Wisconsin, NAWAS terminals are located <at all seven district u
State Patrol Headquarters radio d!sptch rooms and Area'Emerdncy Government EOC's, 26 county waening centers, the five nuclear T -
power plants and six U.S. Weather St.ation Offices.
The Stateq N'
Patrol and count.y warning centers relay to and from the other g46 county non-NAWAS centers by radia.
y
~
,)
3 Js The Prairie Island NAWAS talks directly to the State Warning s' ', ' y' Centers, the Weather Station Offices,,and co the county
/g sheriffs. The State Warning Centers and the county sheriffsi, further disseminate information to emergency organizations nd personnel by other communications systems.
s' The state-wide emergency telephone nu.nber CZ(.ITED is'. tn' c'4 alternate communications backup for notificatios to the Wisconsin s
Division of Emergency Government.
,Nr i
'l t,
,)
~ '
TIE FOLLOWING WILL BE USED IN THE EVENT AN INCIDENT AT PRAIkIE ISLAND REQUIRES A RESPO.4SE FROM EfATE AND LOCAL MEECfES:
]
n (1) DETERMINE THE CLASS OF EMERGENCY.
N (2) PICK UP THE NAVAS SET, PRESS TALK, BUTTON AVD SAY:
\\
"THIS IS PRAIRIE ISLAND NUCIP.AR PLANT CALLING WISCONSIN ' #
WARNING CENTER ONE, WEST CEXTR.!L W:EA?VARNING CENTER AKd PIERCE COUNTY WARNING CENTEg AO7i9WJ.DGE."
,'(
l
\\
j C
(3) WHEN WARNING CENTER ONE, WEST CETRAL AREA AND PIEPCE COUNT'il WARNING CENTERS ACKNOWLEDGE, PRESS TALK SWITCH AND SAY:
" PRAIRIE ISLAND NUCLEAR POWER PLANT IS EXPERIENCING A:'.
I
" NOTIFICATION OF UNUSUAL EVENT" (least serious); OR
" ALERT"; OR 4
" SITE AREA EMERGENCY"; OR g
" GENERAL EMERGENCY" (most serious)
" RELAY THIS INFORMATION TO EMERGENCY GOVERNMENT IMMEDIATELY."
NOTES: a)
IF AREA OR COUNTY WARNING CENTER $ DO' NOT ACKN0WLEDGE, WISCONSIN WARNING CENTERS I, II, OR III WILO RING ON THE CIRCUIT AND RELAY THE MESSAGE TO APPROPRIATE WARNIhG CENTERS.
b) DUTY OFFICERS AND EMERGENCY GOVERltENT OFFICIALS AT STATE AND L0t.AL AGENCIES WILL INITIATE RESPONSE IN AC' CORDANCE WITH CURRENT PLANS AND SOP'S.
IBM s
~
F3-5 Riv. 6 Page 36 ATTACHMENT A (Continued)
NATIONAL WARNING SYSTEM (NAWAS) m COLORADO SPRINGS ALTERNATE PRIMARY NWC WARNING CENTER OLNEY, MD
.? lI s'
I i
/
/
/
i l
i 1
/
/
5 i
l E
l
/
i
~
/
STATES
/
WISCONSIN FEDERAL AGENCIES
/
WISCONSIN WARNING CENTER III MILITARY POINTS
/
/
STATE PATROL TOMAH
/
COMM CENTER
/
DISTRICT I
/
/
MADISON
/
f NUCLEAR p
/
- 'p#
ll
[
WARNING CENTER II fe PLANTS DEG COMMO ROOM i
s f
e s
HILL' FARMS i
i e
MADISON j#
s-2 1
e 8
7'SP DISTRICTS AREA E0C's U.S. WEATHER SERVICE s
- p#
MILWAUKEE
,/
/ se ji MADISON g
/p
/8 g
/
- I g
GREEN BAY 8 e'
/8
[gl LA CROSSE g
8 e' g
f,8 g
DUBUQUE
/g g
MINNEAPOLIS 26 COUNTIES
- -/7 - - - -
18 COUNTIES 1
RADAR NEENAH
/
/ ~'#
l RADAR MARSELLES
/s8 I
/#
\\
/#
\\
l 28 COUNTIES l
4 DEDICATED TELEPHONE (NAWAS)
OL MOBI m
- - - - - - - - RAD IO o o e e e e e e e e WEATHER TELETYPE s e e i s e.'
TELETYPE (TIME) isen. n ni f
(ALL POINTS, EXCEPT MOBILES INTERCONNECTED BY COMMERCIAL TELEPHONE)
F3-5 ATTACHMENT A (Continued)
Rev. 6 PAGE 37
\\
SUMMARY
OF PRAIRIE ISLAND HOTLINE NETWORK EOF CONTROL
(
)
ROOM BETHESDA 3
2 NRC 1l (HPN)
~
o TSC Z
5 CLEN ELLYN 7
o o
WISC.
NRC AUTHORITIES 4
5 (HPN)
(NAWAS)
BETHESDA o
e STATE OFFICE Number Name Station 1
Emergency Primary means for reporting emergencies and
(./
Notification other significant events to the NRC Head-System quarters in Bethesda, Maryland. ENS phones (ENS) are located in the Control Room and TSC.
2 TSC - EOF (ED-EM) 2 point auto ring between the TSC and EOF.
Either station can activate the circuit.
3 TSC-EOF (REC-RPSS) 2 point auto ring between the TSC and EOF.
Each station can activate the circuit.
4 TSC - Minn 2 point ring on demand between the TSC State EOC and State EOC. Each station can activate the circuit.
5 Health Physics Multiple station line between the TSC, Plant Network (HPN)
HP Office, NRC Glen Ellyn, & other utilities.
This is a two digit ring telephone.
6 TSC - National Dedicated Line to Wisc. Warning Center I, II, Warning System and III, Regional Warning Center, and County (NAWAS)
Warnir.g Center.
O IBM l
F3-5 Rev. 6 PAGE 38 ATTACHMENT B RADIO COMMUNICATIONS NETWORK I
I.
MOTOROLA RADIO SYSTEM This radio system is capable of being operated in either a normal (clear-uncoded) mode or in a private (Coded-digital voice protection) l mode.
In the clear mode, all communications can be monitored by scanner receivers.
In the coded mode, a standard receiver or scanner cannot monitor your communications.
In the coded mode, the audio quality is degraded due to the encoding / decoding process. This is a normal condition.
1.
Motorola Radio Console Three radio consoles provide the heart of the radio system.
They are all identical with respect to function but not appearance. The consoles are located in the Control Room, TSC, and EOF.
All contain the same channels and have an intercom feature between the consoles.
Indication lights on the face of the console give the status of the transmitter / receiver mode, coded or clear operation.
Check the status lamp located beside the clear / coded switch on the control units. Operate it as necessary to put the system into the clear or coded mode.
All consoles are able to monitor the selected channel as well as the unselected channels.
Independent volume controls are provided for both. Frequency 1 and frequency 2 are banded together and are one in the same.
Call lights on the verticle portion of the console indicate which channel information is being received on.
The second row of channel selection buttons on the TSC cons'le are not connected.
O IBM m
F3-5 ATTACHMENT B (Continued)
Rev. 6 PAGE 39 8 Channels give communication ability for:
v CHI (60 watt Simplex) Goodhue County EOC - Goodhue County Sheriff's office, Red Wing, MN Dakota County EOC - Dakota County Sheriff's office, Hastings, MN Pierce County EOC - Pierce County Sheriff's office, Ellsworth, WI CH2 (100 watt repeater) - 10 radiation monitoring team portables -
F1 or F2.
CH3 (100 watt repeater) - 10 plant portables - F1.
CH4 (60 watt Simplex) - 20 security portables - F1 (primary freq)
CH5 (60 watt Simplex) - 20 security portables - F2 (secondary freq)
CH6 (60 watt Simplex) - Goodhue County Sheriffs office -
Red Wing, MN CH7 - (60 Watt Simplex) - System Dispatcher (proposed)
CH8 (12 watt Simplex) - Auxiliary Building F2 of the plant portables.
20 SECURITY
\\
PORTABLES 10 PLANT PORTABLES (F2)
AUXILIARY BLDG USE SECURITY
'4 CAS
- s 0
a
's CONTROL SEC ITY 5
i.
SAS i
n TSC 3
RAD SURVEY 2
TEAM MEMBERS
^
( }
2 P.I. VEHICLES 10 PORTABLES EOF (Proposed) l 6
SYSTEM i
DISPATCHER GOODHUE COUNTY GOODHUE EOC SHERIFF DAKOTA EOC RED WING, MN PIERCE EOC
~~~~~~~~~
RADIOWAVE HARDWIRE IBM
F3-5 ATTACliMENT B (Continued)
Rev. 6 PAGE 40 2.
Motorola Portable Handie-Talkie (Model MX350)
A.
Special Instructions I
(1) Do not separate battery pack from radio. This l
separation could cause loss of DVP feature and it would I
have to be recoded. The encoder and instructions are l
located in the communications area of the TSC if needed.
(2) Radios may be lef t in charger after full charge signal (green light) is on.
You may leave volume turned "on" in charger; however, you must never transmit while radio is in the charger.
(3) External antenna jack located on " press to talk" switch side near the top of the radio provides an extended range when an antenna is used with this set.
All Radiation Monitoring Team radios are provided with external antennas.
(4) A compatable headset is available for use with this portable. When connected to the headphone plug (on top of set) the headset earphones and microphone displaces the built in speaker and microphone. This accessory provides noise control when required.
B.
Radio Operation (1) Knob on top marked F1 and F2 is a frequency selector switch. On the plant portables F1 works on Cil3 of radio console and should be used in the Turbine Bldg and outplant areas. F2 works on CH8 of the radio console and should be used in the Auxil'ary Bldg.
The radiation monitoring portables have F1 and F2 banded together.
(2)
% is the squelch control - it should be positioned to just remove extraneous receiving noises.
(3) The knob marked Q d O provides a choice of the coded position (left), private line position (center) and clear position (right). To protect your messages, always use the coded position. NEVER USE THE CENTER POSITION!
(4) The red light on top will be on during transmitting.
It is also a check for battery status.
(Weak indicates low battery power.)
(5) Operate radio similar to other portables, using the 2" distance between mouth and the microphone grill, speak clearly, and say when your transmission is complete.
Use reasonable volume and squelch.
IBM
. =
~,,
i F3-5 ATTACHMENT B (Continued)
Rev. 6 PAGE 41 i.
ILLUSTRATION MOTOROLA PORTABLE HANDIE TALKIE MODEL MX350 i
1
).
. HEADSET CONTROL DO NOT USE!
SQUELCH CONTROL CODED CLEAR ANTENN GEO i
8.. a e,
I9l k L
x VOLUME l
i
'O RED TRANSMITTING LIGHT
!O IBM
F3-5 ATTACHMENT B (Continued)
Rev. 6 PAGE 42 II.
LOW BAND PAGING SYSTEM SYSTEM DISPATCHER D. GILBERTS HQEC TSC AND i
CONTROL ROOM l
RED
/
HANDSETS
/
i
/
RADIO 8
l HARDWIRE MINN STATE EOC O
PROCEDURE 1.
To contact the System Dispatcher:
Lift the handset, push the push-to-talk switch and say:
" PRAIRIE ISLAND TO SYSTEM DISPATCHER."
2.
To contact the Minn. State EOC (See Note f):
Lift the handset, push the push-to-talk switch and say:
" PRAIRIE ISLAND TO EMERGENCY OPERATIONS CENTER."
1 I
l MOTES:
(a) The System Dispatcher can activate the receiver l
l at the plant.
l l
(b) The plant can activate the receiver at the System l
l Dispatcher and the HQEC (when conna cted).
l l
(c) The state can activate the Prairie Island rece?.ver. i l
(d) Each station can monitor each channel.
l l
(e) The HQEC can activate the receiver at the plant.
l l
(f) The State EOC must first be manned and the l
l radio phone activated by the Duty Officer.
l l
1 IBM
F3-5 ATTACHMENT B (Continued)
Rev. 6 PAGE 43 i
R
' (Q
)
III. RADIO ALERT MONITOR SYSTEM Cd i
N 1
l l
@s Q*%g g8 9 w
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.v GENERAL The Radio Alert (RA) System is a one-way radio transmission system from the plant to the receiver. The transmitter is located in the onsite Technical Support Center with receivers installed in the homes and/or offices of the following three groups:
1.
Local Residents 2.
Civil Defense 3.
Prairie Island Emergency Organization Personnel The transmitter unit consists of: (a) message recorder; (b) message transmitter; (c) microphone; (d) telephone answering unit; (e) telephone; and (f) code selector.
When the RA System is activated, a tone will be heard by the receiver. The pre-recorded message will then be automatically played three times by the Alert Radio Message Unit. Upon completion of the transmission, the pre-recorded tape is then placed into the telephone answering unit.
If an individual is not home when the unit is activated, a red light on the receiver will indicate that a message has been transmitted via the Radio
(-
Alert System. Thet individual may then call the number indicated on his receiver (388-1233) and the pre-recorded tape will play the message over the phone.
IBM
F3-5 ATTACHMENT B (Continued)
Rev. 6 PAGE 44 The microphone will allow plant personnel to transmit messages which are not detailed and pre-recorded.
The code numbers for the various receiver groups are:
1.
Local Residents - 01 2.
Civil Defense - 04 3.
Prairie Island Emergency Organization Personnel - 06 INSTRUCTIONS The following details some of the various specific operating instructions:
A.
To Record the Message Cassette:
(1) Make sure that the remote control unit ' Mike Enable' and
' Transmit Enable' key switches are both off (Green).
(2) Set tape unit selector switch to ' Record Announcement' -
insert microphone in tape unit mike jack.
(3) Press tape unit ' Start' switch and record 45 second prepared messages.
(4) When recording the message, speak slowly and clearly about 3 inches from the microphone.
(5) Set tape unit selector switch to ' Check Announcement' -
press 'Stant' switch and listen to recording.
(Adjust volume to desired level with tape unit ' Monitor Volume' Control) - if satisfactory, proceed.
B.
To Test Entire Alert Sequence:
(1)
Insert proper recorded cassette in tape unit.
(2) Set tape unit selector switch to ' Answer'.
(3) Set up desired group code on encoder - Press
'P' (Page) button. Tones will be heard on the remote control unit.
Adj us t its volume control to the desired level.
(4) 18 seconds after the 2nd tone is heard, the 45 second recorded message will be heard 3 times. Then the unit will shut off.
C.
To Transmit an Alert Message:
(1)
Insert the proper recorded message cassette into the tape unit.
IBM
~
F3-5 ATTACHMENT B (Continued)
Rev. 6 PAGE 45 t
)
(2) Set the tape unit selector switch to ' Answer'.
i (3) Turn the remote control unit ' Transmit Enable' key switch
\\
l on.
(Red 'XMIT' lamp will light.)
(4) Set up desired group code on encoder press
'P' (Page) button.
If other groups are to be alerted to receive the same message, enter the next code or codes as soon as the preceeding tones have finished.
The rest of the sequence is automatic - several seconds after the last tone has been transmitted, the 45 second l
recorded message will be transmitted 3 times - then the j
system will shut off.
4 (5) Now, remove the message cassette from the tape unit and insert it into the telephone answering unit.
l D.
To Send a Live Microphone Transmission:
2 i
(1) Turn the remote control unit ' Mike Enable' and ' Transmit Enable' key switches both on.
(Red lamps will light.)
(2) Press ' Transmit' paddle on microphone and transmit desired message.
)
/
s/
g l NOTE:
(1) Any message sequence, recorded or live, l
l can be aborted at any time simply by l
l turning the remote control unit ' Transmit l l
Enable' key switch off.
(Green ' Test' l
j l
lamp will light.)
l t
i I
l l
(2) None of the volume esntrols on any of the l
l l
units affect the volume of the transmitted l i
l message. They are for your convenience l
l l
in monitoring the message.
l l
l l
(3)
In case the automatic alert sequence has l
l been inadvertantly started without a tape l
l in the message unit, simply press the l
l blue ' Reset' button on the alert radio l
l message unit - insert the proper. tape l
l message, and start the sequence over.
l l
l I
(
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l IBM
_ _ _ _ _ _ _ _ _ _... _ - _ - _ _ _, - - _ - - - ~
t
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PAGE 1 OF 6 l
l EMERGENCY PLAN IMPLEMENTING l
p l
-PRAIRIE ISLAND NUCLEAR PROCEDURES l
g l
GENERATING PLANT l
l NORTHERN STATES POWER COMPANY l Number:
F3-10 Rev: 3 l
l l
History Copy l l
A Retention Time:
Lifetime l
l tzz[
l TITLE:
l Supt' ad Prot' tion l
l Approved By:
)
PERSONNEL ACCOUNTABILITY l
l Plant Manage /r' l
l l
OC Date: // Tf J
l l
l l
1 I
l 1.0 PURPOSE l
l I
l The Instruction SHALL delineate the procedure to perform the l
l personnel accountability check within the Protected Area, l
l following a plant evacuation.
l l
l l
l l
2.0
SUMMARY
]
I I
l In the event of a plant evacuation, the personnel accountability l
l check within the Protected Area should be completed within thirty l
l (30) minutes following the evacuation to allow on orderly search l
l for missing personnel. The Emergency Director is responsible for l
. U l
the completion of this personnel accountability and may delegate l
l this authority to the Guard Force and the respective Coordinators l
l at each of the emergency operating centers. All personnel l
l accountability results SHALL be forwarded to the Emergency l
l Director.
l l
l l
l l
3.0 APPLICABILITY l
l 1
l The Instruction SHALL apply to all Emergency Directors and all l
l Emergency Organization Coordinators.
l l
l l
l t
l 4.0 PRECAUTIONS l
l 1
l (1) All individuals remaining in the Protected area following l
l a plant evacuation SHALL be verified by a direct contact l
l (either in person or verbally) and their location, name l
l and badge # recorded on the personnel accountability l
l l
sheet, Figure 1 (PINGP #601).
l l
1 l
(2) The Emergency Director should ensure that this instruction l
l is completed.
l l
I o'
l' l
l l
I IBM
F3-10 Rev. 3 Page 2 O
(3) When the initial accountability is completed, access to the Protected Area shall require coordination between the Emergency Director, Radiation Protection Group, and the Guard Force to ensure an ongoing personnel accountability throughout the duration of the emergency situation.
(4) To ensure a continuous personnel accountability, an accountability check should be completed once per shift (every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />) or when requested by the Emergency Director (See Step 5.12).
5.0 PROCEDURE 5.1 During an evacuation, all nonessential personnel SHALL proceed to the designated assembly area.
l l
l NOTE: The designated assembly area may be either the l
l Screenhouse or the Construction Office Building. l l
Listen for instructions over the public address l
l address system prior to evacuating.
l 1
I I
I 5.2 As soon as the evacuation alarm sounds, the CAS operr. tor SHALL type EEV (Emergency Evacuation) into the security computer to activate the OSC and TSC card readers.
5.3 As soon as the evacuation alarm sounds, all personnel in the TSC and OSC SHALL insert or ensure that their badges are inserted into the TSC and OSC card readers.
5.4 As soon as all OSC personnel have inserted their badges into the OSC card reader, the OSC Coordinator should inform the Emergency Director p rg-E T E D 5.5 When it has been verified that all badges (OSC and TSC) have been inserted into the card readers, the ED should call the guard force y [,g 7 E g and inform them.
5.6 The Control Room SHALL complete an " Emergency Operating Center Personnel Accountability Check", Figure 1 (PINGP Form
- 601), listing all Control Room personnel and out plant operators.
5.7 The OSC Coordinator should designate an individual to obtain the " Emergency Operating Center Personnel Accountability Check", Figure 1 (PINGP Form #601) from the Control Room and bring it to the Emergency Director in the TSC, as soon as it j
}
is completed.
l IBM
f F3-10 l
Rev. 3 s
Page 3 i
(N-5.8 The Guard Force action SHALL be as follows:
5.8.1 If the Construction Off, ice Building is the designated assembly point, the Guard Force action SHALL be as follows:
l (a) The Guard Force shall collect all badges from personnel as they leave the protected area via the Guard House.
I I
l NOTE: Evacuating personnel need not stop at l l
the Portal Monitor in the Guard House l l
or at Access Control.
l l
l (b) The Guard Force SHALL insert all badges into the two (2) Guard House card readers as soon as possible.
(c) As soon as all badges (evacuated personnel, OSC
~
personnel and TSC personnel) have been inserted f'~'}
into the card readers, the CAS operator will
(,,/
obtain a list of unaccounted personnel from the security computer by typing in EVACNT (Evacua-tion Accountability).
I I
l NOTE: This unaccounted personnel list will l
l include missing personnel and those l
l who have not inserted their badges l
l into the card readers, e.g.,
Control l
l Room operators and out plant opera-l l
tors.
l l
l (d) As soon as the " Unaccounted Personnel List" is generated, the Guard Force SHALL bring this list to the Emergency Director in the TSC.
5.8.2 If the Screenhouse is the designated assembly point, the Guard Force action SHALL be as follows:
(a) As soon as all personnel in the TSC and OSC have inserted their badges into the TSC and OSC card i
I readers, the CAS operator SHALL obtain a list of 7-s unaccounted personnel from the security computer by typing.in EVACNT (Emergency Accountability).
(s-j t
IBM l
l i
l l -
.n
P F3-10 Rev. 3 Page 4 l
I
+
l __
1 i
l NOTE:
This unaccounted personnel list will l
i l
contain missing personnel and all personnell l
l who have not inserted their badges into thel I
card readers, e.g., Control Room Operators l l
l out plant operators, and evacuated person-l l
nel gathered at the Screenhouse Assembly l
l Point.
l I
l (b) As soon as the " Unaccounted Personnel List" is generated, the Guard Force SHALL take this list and proceed to the Screenhouse Assembly Point.
(c) The Guard Force SIIALL immediately account for all personnel assembled at the Screenhouse by manually checking off all personnel from the i
" Unaccounted Personnel List".
(d) As soon as all personnel at the Screenhouse Assembly Point are checked off the " Unaccounted Personnel List", the Guard Force SIIALL immediately bring this list to the Emergency Director in the TSC.
l I
5.9 The Emergency Director or designee shall then compare the
" Unaccounted Personnel List" with the " Emergency Operating Center Personnel Accountability Check", Figure 1 (PINGP Form i
- 601), to determine if all personnel are accounted for.
i 5.10 If all personnel are not accounted for, re-check all Emergency Operating Centers, the Guard House and the applicable assembly point for missing personnel.
5.11 If all personnel cannot be accounted for, the Emergency Director SHALL initiate a search for missing personnel, in accordance with F3-11, " Search and Rescue".
5.12 Once each shift (every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />) or when requested by the Emergency Director, a personnel accountability check onsite shall be conducted as follows:
5.12.1 The Emergency Director shall request the CAS Operator 1 ELETED to activate the OSC and TSC card readers.
Ti.e CAS operator SHALL then type EEV (Emergency h
Evacuation) into the security computer.
5.12.2 All personnel in the TSC and OSC SHALL then insert j
their badges into the TSC and OSC card readers.
l I
IBM i
6 F3-10 a
Rev. 3 Page 5 P
5.12.3 As soon as all OSC personnel have inserted their badges into the OSC card reader, the OSC Coordinator
. should inform the Emergency DirectorDELETED DELETED 5.12.4 When it has been verified that all badges-(OSC & TSC) have been inserted into the card readers, the ED should call the guard forceDELETED and inform, them.
5.12.5 The Control Room SHALL complete an " Emergency
~
Operating Center Personnel Accountability Check",
Figure 1 (PINGP Form #601), listing all Control Room personnel and out plant operators.
5.12.6 The OSC Coordinator should designate an individual to obtain the " Emergency Operating Center Personnel Accountability Check", Figure 1 (PINGP Form #601),
from the Control Room and bring it to the Emergency
-4 i
Director in the TSC, as soon as it is completed.
1 5.12.7 As soon as all OSC and TSC personnel have inserted 1
their badges into the card readers, the CAS operator t
will obtain a list of unaccounted personnel from the i
security computer by typing in EVACNT (Evacuation Accountability).
J j
l I
l NOTE: This unaccounted personnel list will l
l include missing personnel and those who l
l have not inserted their badges into the I
i l
card readers, e.g., Control Room operators I i
l and out plant operators.
l 1
I I
i 5.12.8 As soon as the " Unaccounted Personnel List" is generated, the Guard Force SHALL bring this list to the Emergency Director in the TSC.
I 5.12.9 The Emergency Director or designee shall then compare l
the " Unaccounted Personnel List" with the " Emergency j'
Operating Center Personnel Accountability Check",
Figure 1 (PINGP Form #601), to determine if all personnel are accounted for.
i l
5.12.10 If all personnel are not accounted for, re-check all l-j Emergency Operating Centers and the applicable assembly point for missing personnel.
i 5.12.11 If all personnel cannot be accounted for, the Emergency Director SHALL initiate a search for v
missing personnel, in accordance with F3-11, " Search and Rescue".
IBM
F3-10 Rev. 3 Page 6 PINGP #601, Rev. O FIGURE I Et1ERGENCY OPERATING CENTER PERSONNEL ACCOUNTABILITY Cl{ECK LOCATION:
Control Room i I
Operational Support Center iI Radiation Protection Group ii Date:
Time:
l NAME liadge #
NAME Badge #
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Completed by.
Ilit!
PAGE 1 OF 49 l
l EMERGENCY PLAN IMPLEMENTING l
l PRAIRIE ISLAND NUCLEAR l PROCEDURES l
v l
GENERATING PLANT l
l l NORTHERN STATES POWER COMPANY Number:
F3-23 Rev: 4 l
l History Copy l l
n
/)
Retention Time:
Lifetime l
[
l Sup padProction_ l TITLE:
l l
l
^
l Approved By:
EMERGENCY SAMPLING l
7 l
Plant Managgr l
l l
OC Date: // - 71 l
l l
~
l I
I I
l 1.0 PURPOSE l
l l
l Very high exposure rates may be present during accident conditions.
l l
While conducting sampling during emergency conditions, all attempts l
l
.should be made to keep exposures within the limits of 10CFR20.101.
l l
l l
The purpose of this p.ocedure is to:
l l
l l
(1) Establish priorities for obtaining and analyzing plant samples in l
l varying emergency situations; and l
l l
l (2) Provide appropriate radiation control procedures to be used while l
l conducting primary and containment air sampling.
l (v;
I I
l Sampling and analysis priorities have been pre-established according to l
l tasks which directly impact on'the public health and safety or NSP's l
l ability to protect the health and safety of the public.
l l
l l
This procedure is intended to be a guideline since each accident would l
l pose its own peculiar set of circumstances. Sampling should be l
l accomplished within the guidelines of this procedure. The precautions, l
l however, should apply to any situation.
l l
l l
The Radiological Controls specified in this procedure are applicable l
l only when there are indications of fuel damage. Normal Radiological l
l Control practices should be used if there is no fuel damage l
l indications.
l l
l l
2.0 APPLICABILITY l
l l
l This instruction is applicable to all Radiation Protection Group l
l personnel.
l l
l l
3.0 PRECAUTIONS l
l l
l 3.1 The safety of the personnel performing the evolutions in this l
l procedure is the first priority.
l pJ I
I l
l l
1 1
I IBM
F3-23 R v. 4 Page 2 3.2 Any entry made initially in a post-accident situation should bc made with two individuals.
3.3 If, for any reason, the monitoring equipment should fail to function properly or go off scale, the evolutions SHALL be aborted and the personnel SHALL return to a safe area.
4.0 PROCEDURE 4.1 Sampling and Analysis Priorities 4.1.1 Refer to Attachment A and determine which criteria applies to the current plant status.
4.1.2 Direct sampling and analysis to be accomplished in accordance with the applicable priorities established in Attachment A.
4.1.3 Review sample analysis and be aware of plant status.
If conditions change, shift sampling priorities as per Attachment A.
4.1.4 Determine the sampling frequencies required.
I I
l NOTE: The frequency should be often enough to l
l provide current information for decision l
l making and allow for trend analysis.
l l
l 4.2 Sampling 4.2.1 After the appropriate sampling priorities have been established, select the applicable procedure:
(1) Attachment B (PINGP #606) - Post Accident Containment Particulate, Iodine and Liquid Sample Checklist.
(2) Attachment C (PINGP #607) - Post Accident Containment Atmosphere Filtered Gas and Liquid Sample Checklist.
(3) Attachment D (PINGP #608) - Post Accident Primary Hydrogen and Radiogas Checklist.
(4) Attachment E (PINGP #609) - Post Accident Primary Liquid Checklist.
(5) Attachment F (PINGP #6iO) - Post Accident Primary Hydrogen, Radiogas and Liquid Sampling Checklist.
l
.I i
IBM
F3-23 Rev. 4 Page 3
['~')T (6) Attachment G (PINCP #611) - Post Accident
(,.
Containment Atmosphere Filtered Gas, Particulate, Iodine and Liquid Sample Checklist.
4.2.2 Designate an emergency sampling team to perform the required sampling in accordance with the established sampling priorities.
4.2.3 Request additional exposure authorization from the Emergency Director if the plant dose rates indicate that the sampling team may exceed their normal exposure limits.
l l
l NOTE:
Expected radiation levels projected from l
l the worst case accident assuming major l
l safety system failure and significant core l
l damage are contained in F3-25, Reentry.
l l
I 4.2.4 All sampling team entries should originate from the OSC.
If necessary, proceed to the Hot Cell for additional clothing, respiratory protection equipment or the Rolling Sampling Transporter.
O; 4.2.5 Proceed with the Auxiliary Building entry and perform
\\- /
the appropriate sampling in accordance with the applicable sampling checklists.
4.2.6 When the sampling is completed, return to the Auxiliary Building / Turbine Building interface.
I I
l CAUTION: Use the shielded carrier and Sample l
l Transporter as deemed necessary, based l
l on sample dose rates.
l l
l 4.2.7 At the Auxiliary Building / Turbine Building interface, remove the protective clothing and respiratory protection equipment.
4.2.8 Proceed to the Hot Cell with the sample (s).,
If necessary, dilute the primary coolant liquid sample and analyze in accordance with the Cf.emistry Manual procedures. Use the shielded work area as necessary.
4.2.9 Er.sure all samples are properly labeled with sauple identification and sample times.
1 4.2.10 Have samples analyzed either at Access Control or the Count Room, if available, or transport or arrange for traneport of all samples to the EOF Count Room for analysis, in accordance with Section 5.0 of the Count Room Manual.
IBM
I F3-23 R:.v. 4 Page 4 4.2.11 Report to Radiological Emergency Coordinator for:
Evaluation of observed survey results a.
b.
Evaluation of internal exposure Evaluation of radiation exposure by dosimeter, c.
4.2.12 All exposure in excess of normal limits shall be evaluated in accordance with F3-12, Emergency Exposure Control.
O 9
O IBM
F3-23 Rav. 4 Page 5 g
ATTACHMENT A SAMPLING AND ANALYSIS PRIORITIES CRITERIA 1:
LIQUID EFF UENTS HAVE EXCEEDED INSTANTANEOUS TECHNICAL SPECIFICATION LIMITS.
Sample Priority Sample Type Required Analysis 1
Discharge Canal Isotopic 2
Leakage Source Isotopic CRITERIA 2:
GASEOUS EFFLUENTS HAVE EXCEEDED INSTANTANEOUS TECHNICAL SPECIFICATION LIMITS.
Sample Priority Sample Type Required Analysis 1
Shield Building Gas Stacks Iodine Particulate CRITERIA 3:
PRIMARY TO SECONDARY LEAKAGE Sample Priority Sample Type Required Analysis b
\\- /
1 Air Ejector Gas 2
Secondary y Analysis 3
Primary Gas Isotopic (Pressurized)
Liquid Isotopic Boron CRITERIA 4:
CONTAINMENT LOCA Sample Priority Sample Type Required Analysis 1
Containment Air Liquid Unfiltered Gas H /02 (fr m gas 2
analyzer) 2 Primary Liquid Isotopic (Unpressurized)
Boron Chloride (Optional) 3 Shield Building Iodine Stacks Particulate Gas IBM n
i F3-23 Rav. 4 Page 6 ATTACHMENT A (Continued)
CRITERIA 5:
CORE DAMAGE Sample Priority Sample Type Required Analysis 1
Primary Gas Isotopic (Pressurized Liquid Isotopic if RCS intact)
H2 Boron Chloride (Optional) 2 Containment Air Filtered Gas Iodine Particulate H /0, (from 2
gas Enalyzer) 3 Shield Building Iodine Stacks Particulate Gas O
9 O
IBM
F3-23 Rav. 4 Page 7 PINGP #606, Rev. O Q
ATTACIIMENT B POST ACCIDENT CONTAINMENT PARTICULATE,
, IODINE, AND LIQUID SAMPLE N]/ d d)\\i]uJ1 S7 Q Q fTtl [
f}lly CifECKLIST I h b d bu h3 Date Time u Q').b
[BBH" BND@Dll e" eo8e This procedure describes the steps necessary to obtain the Post Accident Containment Atmosphere Sample (s).
Entry should be in accordance with F3-23.
PRECAUTIONS 1.
Minimize personal exposure by waiting in lower dose rate areas during purge time.
2.
To do liquid sample, proceed to condensate collection pot by taking path with lowest dose rates. Main steam lines are potentially very l
high dose rates, due to streaming effects. For A.L.A.R.A. purposes, Unit I liquid sample entry and exit should be through Access Control.
t
)
\\d 3.
Record all data at proper steps.
PROCEDURE INIT 1.
Log R-48 dose rate.
R/hr 2.
Log R-49 dose rate.
R/hr 3.
Log R-3 Hot Chem Lab Area Monitor.
R/hr 4.
Log R-6 Hot Sample Room Area Monitor.
R/hr 5.
Log Containment Pressure.
psig 6.
Obtain current whole body exposure for team members.
Current Allowable Name TLD No.
Exposure Exposure l
^^
l IBM
F3-23
-+
R;v. 4 Pcg2 8 PING 1' #606, Rev. O ATTACHMENT B (Continued)
{
7.
Verify each team member has their TLD.
8.
Place a finger ring TLD on each hand.
9.
Verify each team member has designated dosimetry.
10.
Don r'equired protective clothing and respiratory protection equipment. (Activate respirator just prior to entry).
11.
Response check all dose rate indicating devices.
l l
l NOTE: There is a rolling shielded sample transporter l
l and headsets in the Hot Cell, available for use.
l l
l 12.
Notify OSC prior to entering Aux Bldg and verify no changes in plant status.
13.
Using path with lowest dose rate, proceed to Turbine / Auxiliary Building interface (for entry to D-3 Room, get key from S.S.
or call guard to open door). Activate respirator and enter Auxiliary Building.
I I
Log meter reading in Auxiliary Building 695 Unit 2 mR/hr Access Control mR/hr 715 Unit i mR/hr 715 Unit 1 mR/hr Hot Chem Lab mR/hr Hot Sample Room mR/hr 14.
Open MV-32271, #11 [MV-32290, #27] Post LOCA Hydrogen Control Vent Isolation Valve.
15.
Open MV-32273, #12 [MV-32292, #22] Post LOCA Hydrogen Control Vent Isolation Valve.
16.
Open CV-31925, #11 [CV-31926, #21] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
17.
Open CV-31927, #12 [CV-31928, #22] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
18.
Proceed to the Gas Analyzer Panel, outside the Chem Lab, open WG-41-14, Containment Air Shielded Filter Outlet. Verify open WG-41-6, Containment Air Sample By-Pass, and WG-41-11, i
Containment Air Sample Flow Meter Outlet.
l I
IBM
y,./
F3-23 Rev. 4 i
Page 9
['"')
PINGP #606, Rev. 0
(,/
ATTACHMENT B (Continued) 19.
Transfer from the Scott Air Pack bottle supply of breathing air to the breathing, air station at the entrance to the Hot
,\\
Sample Room, if station air is available.
I I
l NOTE:
If Gas Analyzer not available complete Step 20.
l l
Do not do Steps 21, 22, 23 and 24.
l l
l 20.
Open storage box, plug sample pump into a working electrical outlet and hook-up suction and discharge hoses. Shut WG-41-11, Containment Air Sample Flow Meter Outlet, open WG-41-12 and WG-41-13, Sample Pump Suction and Discharge Isolation.
Open WG-41-5 (WG-41-4) Unit 1 SV-37022 Bypass (Unit 2 SV-37028 Bypass) and start the pump.
21.
On the Gas Analyzer Stream Selector place sample point 11, Unit 1 Post LOCA [12, Unit 2 Post LOCA] in the readout position.
22.
Place the HOLD switch on the selector panel to the HOLD position.
\\~/
23.
Starting with the stream being readout (the lighted number) push all sample point switches to the bypass position except point 11 [12].
I I
l NOTE: Up to'I minute may be required for selector to l
l cycle through to the desired position.
l l
l 24.
After number 11 [12] sample point has lighted, allow 3 minutes to purge the sample line. During this time return the desired sample point switches to the readout position leaving the HOLD switch on HOLD.
25.
After 3 minutes, record H and 0 e ncentration from gas 2
2 analyzer recorders, correct H reading using Figure 1.
2 Sample Time 0 Concentration H Concentration 2
2 26.
Proceed to Gas Analyzer Panel outside the Hot Lab and shut WG-41-6 Containment Air Sample Bypass.
/'"'T 27.
Open WG-41-9 Containment Air Sampler Filter Inlet.
U 28.
Open WG-41-10, Containment Air Sampler Filter Outlet, until max. (on scale) flow rate obtained or valve fully opened.
IBM
F3-23 R;v. 4 Pcg2 10 PINGP #606, Rev. O ATTACHMENT B (Continued)
{
g 29.
Collect a sample for (2) two minutes or until any increase in dose rate, on filters, is detected.
Log Flow Rate, pressure and time.
Shut WG-41-9 and WG-41-10, Containment Air Sample Filter Inlet and Outlet and remove filter cartridge.
\\
FI Flow Rate P Pressure 2
Sample Time 30.
Open WG-41-6, Containment Air Sample Bypass and open WG-41-15, Nitrogen Purge to Containment Air Sample Line.
I I
l NOTE:
If Gas Analyzer not available, complete Step 31 l
l and do not do Step 32.
l l
l 31.
Stop the pump, open WG-41-11, Containment Air Sample Flow Meter Outlet, shut WG-41-12 and WG-41-13, Sample Pump Suction and Discharge Isolation. Disconnect pump and place hoses back in storage box.
32.
Return " Hold" switch to 0FF and place #11 [12] sample point switch in Bypass position.
l l
33.
Af ter approximately 2 minutes shut WG-41-14, Containment Air Shielded Filter outlet and open WG-41-5 (WG-41-4) Unit 1 SV-37027 Bypass (Unit 2 SV-37028 Bypass), if not already open.
34.
Af ter approximately 5 minutes shut WG-41-5 (WG-41-4)
Unit 1 SV-37027 Bypass (Unit 2 SV-37028 Bypass) and shut WG-41-15, Nitrogen Purge to Containment Air Sample Line.
35.
Shut MV-32271, #11 [MV-32290, #21] Post LOCA Hydrogen Control Vent Isolation Valve.
36.
Shut MV-32273, #12 [MV-32292, #22] Post LOCA Uydrogen Control Vent Isolation Valve.
37.
Shut CV-31925, #11 [CV-31926, #21] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
38.
Shut CV-31927, #12 [CV-31928, #22] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
39.
Obtain shielded carrier and proceed to affected unit condensate collection pot located North of RWST on 715' level. Minimize exposure by taking path with lowest dose rates.
IBM
l F3-23 Rev. 4 Page 11
/]
PINGP #606, Rev. O I
Q ATTACHMENT B (Continued)
I I
l NOTE: For A.L.A.R.A. purposes Unit I sample entry and l
l exit should be through Access Control entrance l
l door to Auxiliary Building.
I I
I 40.
Vent the colle-ion pot by slowly opening WG-41-16 [WG-41-17]
condensate co. :ction pot vent.
41.
Drain sample into sample bottle by slowly opening WG-41-2
[WG-41-3], containment air condensate sample.
42.
When collection pot is completely drained, shut WG-41-2
[WG-41-3], containment air condensate sample and WG-41-16
[WG-41-17] condensate collection pot vent.
43.
Exit Auxiliary Building with shielded carrier using same route as entered.
44.
Give samples to individual assigned to count samples. Label samples.
[~'N 45.
To calculate corrected flow rates for particulate and iodine s_,)
sample, see Step 29 for flow rate measured and P Pressure.
2 Corrected Measured
/P P ss e + 14.7 Flow rate Flow rate 2
14.7 I
t Corrected Flow rate =
46.
To calculate containment activity from liquid sample (see Step 5 for Containment Pressure):
-5 If P < 15 psig, A = 4.353 x 10 xA xP c
s If P 1 15 psig, A = 4.005 x 10" x A, x P where:
P = Containment Pressure (psig)
A = Containment Activity (pCi/cc)
A = Liquid sample activity (pCi/ml) s O
m IBM
N 1
5 F3-23 R;v. 4 Pag 2 12 s
PINGP #606, Rev. 0 l
l ATTACHMENT B (Corttinued)
/
\\
FIGl7AE 1 1
(
l HYDROGEN CONCENTRATION IN AIR A17.03h?E.RE USING R-3' m
I t
- \\
P 4
\\7 100-in i.
\\
... ;.. 6...s.. _. 4.... i... a.... L.. a.... a.... 4...u.. a. _. _ 6.. s.... s...i_ _....i...a....t..s
..t...
o.
i.
c.
.._q___p.__;.. 9._..p.. p..p..p._;.. +..+...p.
4
,.. p__p. 4.. 4....p..q._.p.. p..p...
t 60- - - - '.
. - -. - - -. - - - ~ - -. - - +. -. *. - - ~, - - ~. - -. - - - '.. -. - - *. -. ~ - - *. - -. ~ - - *. - - - ~. - - ". - - - *. - -. - - *. - -. - - -
...q...;._ 4. _.;_..p. 4...'. q...;. 4,...;.. 4. _ _. p...;._ _ ; _..;... ; _..p. 4.... p. 4.._; _.,
i
..........a.......a...t.
..-._.__.s__a.... _.. _
.._u..a......_a......_.......
2;
.s.....
3 60- - -- i. - - -F - -t. -- r - - + - - t. -- ' - - P. - -F -- P. -- F --i.-- - t. -- -F - -i. - -.F - - i.. - - t. -- i.-- - t. - --F M--
c.
m cr.;
.. 4...p._4....p. 4 t,...p. 4....p._q___p..+._}.__p. 4....p..q...p.f.,4..__g.. +_.4....p_
a M
..............................a....
_m..
E--'
40- - - - 4. - - -F. - - 4. -
- r. - - 4.- -- i. --'r. + i. -- r' -- 4.-- - F -- + -- i. -- -F. - - i. - -- b. -- 4.-- - +. - - 4.-- - +. -- -l--- 4. -- - E
-x
..a.............u.........a............a._....s......._i.......u__a....t_a._..&....
.I.
...s..._..s........u._ 2... 6.. a. _ _. t....u. _2....u.. a. _.. t _ s. _.. m. _ _ s.. __.u.a.._
t__s..t....
20- --.
.-.--.---c.--~.---.-~~. -,.- - - ~ - - ~ - - - ~ - - ~ - - - + - - - - ~ - - - - - - - - - - - - - - - - - - * - - - < - - - - - - -
....;._p. 4. _.+...p_. p. ;.. p..;___p._;...p. 4._..p..q_.p. 4.._4....p..q...p__ 4...p...
- 4... p...;.. ;...v. _. 4.. _.p.. q... ;._4... ;...p...;...;...;... ; _. 4... ;...;.. 4....p. 4... p __ _
0 i
0 20 40 60 80 100 PERCENT CONCENTRATION I
l I
1 Oi.
IBM
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I
~
~
i F3-23 Rev. 4 Page 13 r
f PINGP #607, Rev. 0
,2 ATTACHMENT C POST ACCIDENT CONTAINMENT ATMOSPHERE FILTERED GAS, AND LIQUID SAMPLE EXAMPLE ONLY
+
- Date Time a w
.a PURPOSE This procedure describes the steps necessary to obtain the Post Accident Containment Atmosphere Sampis(s). Entry should be in accordance with F3-23.
PRECAUTIONS 1.
Minimize personal exposure by waiting in lower dose rate areas during purge time.
- 2., T4 do liquid sample, proceed to condensate collection pot by taking path with lowest dose rates. Main steam lines are potentially very I
1:igh dose rates, due to streaming effects. For A.L.A.R.A. purposes
(-4j Unit I liquid sample entry and exit should be through Access Control.
s-s 3.
Record all data at proper steps.
PROCEDURE INIT 1.
Log R-48 dose rate.
R/hr 2.
Log R-49 dose rate.
R/hr 3.
From Figure 1, determine size of gas sample to obtain, based on Containment Rad Monitor Reading and sample dose rate at one foot.
c.c.
I I
l NOTE: Obtain the lowest dose rate sample as possible.
I I
I 4.
Log R-3 Hot Chem Lab Area Monitor.
R/hr J
l 5.
Log R-ti F,t Sample Room Area Monitor.
R/hr
\\
6.
Log Containment Pressure.
psig IBM t
i 1
F3-23 R;v. 4 Page 14 PINGP #607, Rev. 0 l
ATTACI: MENT C (Continued) l 7.
Obtain current whole body exposure for team members.
Current Allowable Name TLD No.
Exposure Exposure l
8.
Verify each team member ':s their TLD.
9.
Place a finger ring iLD on each hand.
10.
Verify each team member has designated dosimetry.
11.
Don required protective clothing and respiratory protection equipment. (Activate respirator just prior to entry).
12.
Response check all dose rate indicating devices.
l I
I I
l NOTE: There is a rolling shielded sample transporter l
l and headsets in the Hot Cell which are available l
l for use.
l l
l 13.
Notify OSC prior to entering Aux Bldg and verify no changes in plant status.
14.
Using path with lowest dose rate, proceed to Turbine / Auxiliary Building interface (for entry to D-3 Room get key from S.S.
or call guard to open door). Activate respirator and enter Auxiliary Building.
Log meter reading in Auxiliary Building 695 Unit 2 mR/hr Access Control mR/ht 715 Unit 2 mR/hr 715 Unit 1 mR/hr Hot Chem Lab mR/hr Hot Sample Room mR/hr 15.
Open MV-32271, #11 [MV-32290, #21) Post LOCA Hydrogen Control Vent Isolation Valve.
4' 16.
Open MV-32273, #12 [MV-32292, #22] Post LOCA Hydrogen Control
{
}
i
{
Vent Isolation Valve.
IBM
F3-23 Rev. 4 Page 15
[]
PINGP #607, REv. O V
ATTACHMENT C (Continued) 17.
Open CV-31925, #11 [CV-31926, #21] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
18.
Open CV-31927, #12 [CV-31928, #22] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
19.
Proceed to the Gas Analyzer Panel, outside the Chem Lab, open WG-41-14, Containment Air Shielded Filter Outlet. Verify open WG-41-6, Containment Air Sample By-Pass, and WG-41-11, Containment Air Sample Flow Meter Outlet.
20.
Transfer from the Scott Air Pack bottle supply of breathing air to the breathing air station at the entrance to the Hot Sample Room, if station air is available.
l l
l NOTE:
If Gas Analyzer not available complete Step 21.
l l
Do not do Steps 22, 23, 24 and 27.
l l
l 21.
Open storage box, plug sample pump into a working electrical outlet and hook-up suction and discharge hoses. Shut WG-41-11, 7-s)
Containment Air Sample Flow Meter Outlet, open WG-41-12 and (s_ /
WG-41-13, Sample Pump Suction and Discharge Isolation. Open WG-41-5 (WG-41-4) Unit 1 SV '7022 Bypass (Unit 2 SV-37028 i
Bypass) and start the pump.
t 22.
On the Gas Analyzer Stream Selector place sample point 11, Unit 1 Post LOCA [12, Unit 2 Post LOCA) in the readout position.
23.
Place the HOLD switch on the selector panel to the HOLD position.
24.
Starting with the stream being readout (the lighted number) push all sample point switches to the bypass position except point 11 [12].
I I
l NOTE: Up to 1 minute may be required for selector to l
l cycle through to the desired position.
l l
l 25.
Open SM-18-1 and SM-18-2, GA Ace Bomb Inlet and Outlet, located in Hot Sample Room.
O' 26.
Shut SM-5-51, Sample Bomb Bypass to Vent Header located in the Unit I hood.
)
IBM
F3-23 R;v. 4 Pcg2 16 PINGP #607, Rev. O ATTACHMENT C (Continued)
{
}
27.
After number 11 [12] sample point has lighted allow 3 minutes to purge the sample bomb.
During this time return the desired sample point switches to the readout position leaving the HOLD switch on HOLD and prepare the gas vial and syringe.
28.
After'3 minutes purge, syringe sample froin bomb into gas vial.
Place vial in shielded carrier.
29.
Record H, and 0, concentration from gas analyzer recorders, correct H reading using Figure 2.
2 Sample Time 0 Concentration H Concentration 2
2 i
I l NOTE:
If Gas Analyzer not available complete Step 30 l
l and do not do Step 31.
l l
1 30.
Stop the pump, open WG-41-11, Containment Air Sample Flow Meter Outlet, shut WG-41-12 and WG-41-13, Sample Pump Suction and Discharge Isolation. Disconnect pump and place hoses back in storage box.
31.
Return " Hold" switch to 0FF and place #11 [12] sample point switch in Bypass position.
32.
Open WG-41-15, Nitrogen Purge to containment air sample line isolation.
33.
After approximately 2 minutes shut WG-41-14, containment air shielded filter outlet and open WG-41-5 (WG-41-4) Unit 1 SV-37027 Bypass (Unit 2 SV-37028 Bypass), if not already open.
34.
After approximately 5 minutes shut WG-41-5 (WG-41-4)
Unit 1 SV-37027 Bypass (Unit 2 SV-37028 Bypass) and shut WG-41-15, Nitrogen Purge to Containment Air Sample Line.
35.
Shut MV-32271, #11 [MV-32290, #21] Post LOCA Hydrogen Control Vent Isolation Valve.
36.
Shut MV-32273, #12 [MV-32292, #22] Post LOCA Hydrogen Control Vent Isolation Valve.
37.
Shut CV-31925, #11 [CV-31926, #21] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
38.
Shut CV-31927, #12 [CV-31928, #22] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
IBM
~
F3-23 Rev. 4 Page 17 p
PINGP #607, Rev. O
\\
ATTACHMENT C (Continued) 39.
Obtain shielded carrier and proceed to affected unit condensate collection pot located North of RWST on 715' level. Minimize exposure by taking path with lowest dose rates.
l l
l l NOTE: For A.L. A.R. A. purposes, Unit I sample entry and l
1 l
exit should be through Access Control entrance l
l door to Auxiliary Building.
l l
l 40.
Vent the collection pot by slowly opening WG-41-16 [WG-41-17]
condensate collection pot vent.
41.
Drain sample into sample bottle by slowly opening WG-41-2
[WG-41-3], containment air condensate sample.
42.
When collection pot is completely drained, shut WG-41-2
[WG-41-3), containment air condensate sample and WG-41-16
[WG-41-17] condensate collection pot vent.
43.
Exit Auxiliary Building with shielded carrier.
44.
Give samples to individual assigned to count samples.
Label samples.
- 45. To calculate containment activity from liquid sample (see Step 6 for Containment Pressure):
46.
To calculate containment activity from liquid sample (see Step 6 for Containment Pressure):
-5 If P < 15 psig, A = 4.353 x 10 x A, x P c
-5 If P > 15 psig, A = 4.005 x 10 x A, x P where:
P = Containment Pressure (psig)
A = Containment Activity (pCi/cc)
A = Liquid sample activity (pCi/ml)
IBM lw
PINGP 607 Rev. O ATTACHMENT C (Continued)
F3-23 R:v. 4 i
FIGURE 1 l
Prge 18 I
ESTIMATED CONTAINMENT AIR SAMPLE DOSE RATES
- 107 l
l ra
.......ig...
........i. s
..g..
- . g. i.:. >
...........p...,....
r
.. g,
.g.,
....,..g.,...
....)..
.... 6...,..,,...)
.. g
..l i
.s.
.g.....
....,.... s... ;.,.
.s....
s....
106 7
10
..... {..:.. g.
.....g.,.,.........yg.pg
. <..y.:..:..
......... 3..,..:. {. y g
,.... (..y.,. :..
.g....,
...:...g.
...; {.; 3 4...;..: ; ;
.:. g g
... ;. (..;.; ;.y ;
......;..g. 4.. "..;{.;3
.l.
.........v..,........
.3,
.. s....
..s..
...s...
i
..T.....
r%
g U
..;.. i....;.; <.; ;
..;..... <..L.;. :..
9
...;....... {..;.; ;.; ;
.....:... g.....;.; { ; ;
.,4 tj
- 1 p
5 C
10 a
.c
.C,Cr
's 6
M 10
.-. :. g. g :.
a w
,.. g. g. g..
.g.g..
... g.... >.... :. g. ;.;. )
.. g. g..:....
...b..
H
- 4.... ).. ;. :. 4 g.:. )
....... ~.......,.
J
.. 4...>..
- . 4. g.
.. 4 > ; <
.;.....,.,.,.3
,. g. 4.,. ;.,......
,. 3. 4.:. ;.:,
.................,. 4.,,g : )
.e4 e+
.., l 3
W s
4.....
.t.
W v)
O e
m v.
.v.....,
p
../
m o
..L m
M l
.c.,.
o H
c.
34 pa D.
(
y,
. S,.
o 5
10
-4.
.y g. y g
,.. <..y.:. g.
. <. y.:.,.
..y......
.y ;.y ;
.. <..y.: g.
...y..g.
- r4 p
...4..,,
.g.
,..c
.g.
.. g. 3,. y.
,..3
........g..,....4... ;
,o
. v.. g.,
v....
.v,
<C j
....g.
g u
.....,..3.....
g3 C
o
....,.3.....,.,,..,,.
....f,,.,..,..
.g.
N
.D
....<n
.......... u g
c 7.
O g
3o g
4
- 10 o os 10
.. g. g..':. 'g.;.
4
..4.......4.
. g. g.
..$..>................$ g ;
...<....y..g.g..,.,.
..... >.....:..:. g.y 3 gg
..>.; :. 4. g.:.;
...... >.. g. 4... ;
4....).
.:....4 4... ;
- . 4. l.:. >
,.g.
... 4....}..;..:. 4 g.:.;
m
.g...
...g......
c M
.v....g.
...... g.,
..v.
..y...,.,
2
. 10 3
10
..y..g...'
....,... <..y.;.,.
...y.
.g...,......g.g.
..,.. <..y.; g.
....<..y.;.,.
..............,q.yi
...<..g
.. <....... ~.......
....,..g..................,1
.g.
..,.,.1
,...).
.4
... a
.........,...v.,..g,
..v.....
a
...g....., s.. g
(
2 10
- 0. '1 '
' ' ' ' r. 0
'10.0
'100.0
' 1000.D '
SAMPLE VIAL DOSE RATES AT 1 FOOT (mR/hr)
I
F3-23 R:v. 4 Page 19 p
PINGP #607, Rev. 0
(,
ATTACHMENT C (Continued)
FIGURE 2 HYDROGEN CONCENTRATION IN AIR ATMOSPHERE USING R-3 I
t l
100
...s.
6..
...... t.. a... t.. s.... t...i_.
- 4...... a.... t.. s... 6...a_.....i..2....t..s....t....
... +..p._ 4.. 4....p_.i....p._ +..t....p,.4.._.p..q_
,...{...t...p. 4..__p..q...p.. +..p...
80- ---.
. - -. ~ - -. - - - ~ -. - - *. - -. ~ - ~ ~ - -. - -. - - - ~ -. - - *. - -. ~ - -. - - - ~ ~ -. - - - ~. - -. - - -
, _ _..,...,......r -,..-- r.--i--t.---c--,.--r--i.---r.---
..s....
..s
... 6 6..
.......s......s.......
e l
O
.r._,.._...r.....,..r..,...r._,___,._,...,._,r..,.....,...,..,.
Z 5
60- - - - i. - - +. --i. - -- r - - + - - t. -- ' - - f. - - -F - d -- - F - --:--- t. -- -F - -i. - --r - - i. - - - t. - - i.-
i N
(q Z
.. 4. _..p.. +.. p...p
- 4....p. 4....p..g... p _ + _ 4....p. _4....p...(... t... +.. t....p. 4....p...
s M
.......,__...s_........_a.......s........
s
.........s_.....s...
M i
i..
E-*
40- - -- 4. - -.F - - 4. -
.r -- -i- - - 4. - -.h - - 4. - -.F -- 4. --.F - -.i- -- i. --.h - - 4. - -.F -- 4. -- - f. -- 4.-- - +.
W
.,4
,,a;
...s.......
.....t.. a. _. o.. s.... t....u. 4...... a. _. 6..s.......
......i...a....t..s....t...
.r.
.r...
...s....
...t.. a. _. t.. s. _. 4...u 4...u _. a.... t. _ s.. _ _ S... _ u....s.. a.... t. s.... t....
20- -- -. - -. - - - - - ~. - - - + - -. - - - ~. - -. - - ~. - - - ~. -. - - - + - -. - - *. - -. - -. - - - - -. - - -.
..p...p. 4....p..q...p.. +..}...p._4....p. 4....p. 4. _.t....p. 4._..p..q...p_ 4...t...
..;... ;...;.. 4....;.. 4.... p. 4.... ;...p. _4....p. _ 4.... p...;... ;...;_.
4...p _. 4. _.p...;..v...
0 6
6 6
0 20 40 60 80 100 PERCENT CONCENTRATION v
IBM
F3-23 R:v. 4 Pcg; 20 PINGP #608, Rev. O ATTACIRIENT D
{
}
EXAMPLE ONtY""""'=I:" "" ^"o "^"' "8 Date Time
']D ]Df f M
]O
@"" J
~
w Ju.fU3.A..
Ju_.u.C).
_A.
SUMMARY
Primary coolant is recirculated and collected in a sample bomb. The pressurized sample is then expanded into an evacuated expansion bomb.
Pressure is equalized within the panel and nitrogen is added to return the system pressure to zero pounds, thus providing a constant system volume for sample calculations. The combined gas sample and nitrogen are then recirculated through the analyzer and the liquid sample to continue stripping gases from the liquid. The hydrogen concentration is then taken directly from the analyzer and a depressurized gas sample may then be collected and counted for gamma emitters.
PRECAUTIONS This procedure describes the steps that may be required to obtain a depres-surized primary gas sample for hydrogen and/or radiogas analysis following an accident. Each accident shall be appraised and the appropriate measures l
l specified by the Radiological Emergency Coordinator or his designee. The important difference between Post Accident Sampling and normal operational sampling is the possibility for large post accident exposure rates to be present, both in sampling areas and in the areas passed through to reach the sampling areas. Eecause of these high coolant activity levels, sample volumes are diluted to reduce radiation exposures. This procedure is written on the basis of not exceeding the exposure limits prescribed in 10CFR 20.101.
Travel to and from the sample area shall be in accordance with F3-23.
PROCEDURE Circle One INIT 1.
Determine sample point.
RHR Loop B 2.
Check SI and Containment Isolation reset, if necessary.
3.
Log R-3, Hot Chem Lab Area Monitor.
R/hr 4.
Log R-6, Hot Sample Rm. Area Monitor.
R/br S.
Ensure Demin Water System is in service and that a positive pressure exists.
6.
Check prior Emergency Sample Checklists for proper valve line-up already completed, initial proper step u).
IBM
F3-23 Rev. 4 Page 21
\\
PINGP #608, Rev. O ATTACHMENT D (Continued) s 7.
Obtain current whole body exposure.
1 Current Allowable Name TLD Exposure Exposure 8.
Verify each team member has their TLD.
9.
Place a finger ring TLD on each hand.
10.
Verify each team member has designated dosimeter (s).
11.
Don required protective clothing and respiratory protection equipment.
i l
i f)~g 12.
Response check all dose rate indicating device (s).
I I
l NOTE: There is a rolling shielded sample transporter l
l and headsets in the Hot Cell which is available l
l for use.
l l
l 13.
Notify OSC prior to entering Aux Bldg and verify no changes in plant status.
14.
Using path with lowest dose rate, proceed to Turbine / Auxiliary Building interface (for entry to D-3 Room get key from S.S.
or call guard to open door). Activate respirator and enter Auxiliary Building.
695 Unit 2 mR/hr Access Control mR/hr 1
715 Unit 2 mR/hr 715 Unit 1 mR/hr Hot Chem Lab mR/hr Hot Sample Room mR/hr 15.
Shut WL-83-1 (2WL-85-1) sample hood drain diversion valve.
16.
Transfer from the Scott Air Pack bottle supply of breathing fN air to the breathing air station at the entrance to the Hot
(,)
Sample Room, if station air is available.
IBM
F3-23 R:,v. 4 Page 22 PINGP #608, Rev. O ATTACHMENT D (Continued)
{
}
l l
l NOTE:
If previous samples have been drawn during l
l post-accident conditions, many of the pre-l l
liminary valve line-up steps of this proce-l l
dure should be completed, check prior sam-l l
pling checklists or use reach rods to mini-l l
mize radiation exposure. Use a dose rate l
l instrument to determine what precautions l
l are necessary.
l l
l l
17.
Obtain a lead transport pig, gas vial, and demin water flexible connection, in red drawer in Hot Lab.
Place lead transport pig near Beckman being used.
18.
Install a syringe needle on the gas grab sample port.
Place a gas vial on the syringe needle.
19.
Start demineralized water flowing to the fume hood drain on the affected unit.
20.
Check open the Beckman gas panel isolation valve SM-19-33 I
I (2SM-19-33), located by sample coolers.
21.
Shut SM-20-3 (2SM-21-2) relief to VCT Isolation and open SM-20-4 (2SM-21-3), Emergency Relief Isolation.
22.
Verify fume hood ventilation is on and raise door.
23.
Shut SM-20-2 (2SM-21-1) Loop "B" hood isol. and shut SM-21-2 (2SM-21-5) mixed bed inlet isol, both located in fume hood.
l 24.
Determine which pressurized sample panel is to be used.
If l
the affected unit's panel is out of service, the unaffected unit's sample panel may be used by shutting the affected unit's panel inlet isolations SM-19-34, (2SM-19-34) and panel outlet isolations SM-19-35, (2SM-19-35), and opening the inlet and outlet crossconnects, SM-19-36 and SM-19-37, respectively.
25.
Ensure that power is supplied to the panel's analyzers and pumps as indicated by the red heater "on", lights cycling on and off.
Power must be on to the H analyz r 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> 2
prior to use.
26.
Shut the nitrogen purge supply SM-19-4, (2SM-19-4) and
(
}
note the zero pressure indication on gauge G1 (2GI).
IBM
l F3-23 Rav. 4 Page 23 PINGP #608, Rev. O ATTACHMENT D (Continued) 27.
Shut the gas space vent, SM-19-3, (2SM-19-3).
28.
At the Beckman Panel' shut SM-19-16 (2SM-19-16), SM-19-18 (2SM-19-18) and SM-19-19 (2SM-19-19).
29.
Shut or check shut the following valves at the Beckman Panel:
SM-19-1 (2SM-19-1)
SM-19-2 (2SM-19-2)
SM-19-12 (2SM-19-12)
)
SM-19-8 (2SM-19-8)
SM-19-21 (2SM-19-21)
SM-19-22 (2SM-19-22)
SM-19-6 (2SM-19-6)
SM-19-7 (2SM-19-7)
SM-19-27 (2SM-19-27)
SM-19-28 (2SM-19-28)
SM-19-5 (2SM-19-5)
SM-19-29 (2SM-19-29)
SM-19-30 (2SM-19-30)
SM-19-9 (2SM-19-9) l SM-19-10 (2SM-19-10)
SM-19-14 (2SM-19-14)
SM-19-13 (2SM-19-13) 30.
Open or check open SM-19-23 (2SM-19-23) H analyzer inlet.
2 31.
Open SM-19-31 (2SM-19-31) and start the vacuum pump. Obse rve the vacuum increase on gauge G1 (2GI).
32.
Open SM-5-16 (2SM-5-16) Loop "B" manual isol. or SM-5-22 (2SM-5-22) RHR manual isol. Open CV-31300, CV-31301 (CV-31307, CV-31308) Loop "B" containment isol. CV's or
)
open CV-31302 (CV-31309) RHR isol CV.
IBM
F3-23 R:v. 4 Page 24 PINGP #608, Rev. O ATTACHMENT D (Continued)
{
f I
l l NOTE: The introduction of post accident coolant into the l l
sample room may significantly affect the dose l
l rates.
Monitor carefully and frequently during l
l this period. Make use of available shielding by l
l falling back into lower radiation areas uhile l
l waiting for purge times to end.
This sample pro-l l
cedure is to be aborted prior to exceeding pre-l l
scribed exposure limits.
l l
l 33.
At the Beckman Panel open SM-19-17 (2SM-19-17) and SM-19-15 (2SM-19-15) to start recirculation through the sample bomb.
34.
Once the expansion bomb vacuum steadies out on G1 (2GI) shut SM-19-31 (2SM-19-31) and secure the vacuum pump. Vacuum should remain steady after the pump is off.
35.
Once the sample bomb is purged (2-3 min), shut SM-19-15 (2SM-19-15), sample bomb outlet.
36.
Shut SM-19-17 (2SM-19-17) sample bomb inlet and log sample, date, time.
l l
Sample Date Time 37.
Shut the sample remote control valve (s) (RHRorloop).keadies Crack open SM-19-16 (2SM-19-16) until gauge G1 (2G1) s,
out, then open SM-19-16 (2SM-19-16).
l.
38.
CrackopenSM-19-18(2SM-19-18)untilgaugeG1(2G1)st@ dies out, then open SM-19-18 (2SM-19-18).
1,;.
t 39.
Open SM-19-19 (2SM-19-19) and SM-19-20 (2SM-19-20).
.}
40.
Start the gas recirc pump P1 (2P1) and crack SM-19-4 (2SM-19-4) to allow the pressure on gauge G1 (2G1) to return to the same zero pressure indication noted in Step 26, then shut SM-19-4 (2SM-19-4).
41.
Return to a low radiation area uatil the hydrogen value steadies out as observed on the analyzers.,
l I
IBM
F3-23 R v. 4 Page 25 ATTACHMENT D (Continued)
I l
l NOTE: The hydrogen analyzer may require adjusting the l
l range switch to obtain an on-scale reading.
l l
l 42.
Log Hydrogen Analyzer Reading.
- 43. To draw a radiogas sample, open SM-19-7 (2SM-19-7).
44.
Open SM-19-6 (2SM-19-6), start the vacuum pump and observe the vacuum increase on G3 (2G3).
45.
Open SM-19-21 (2SM-19-21) and SM-19-22 (2SM-19-22) and fall back to Chem Lab and observe the hydrogen recorder for a steady reading. This step valve's in the sample dilution bomb, which dilutes gas concentrations by app. a factor of 15.
46.
Once the hydrogen recorder steadies out, shut SM-19-6 (2SM-19-6) and stop the vacuum pump.
47.
Open SM-19-27 (2SM-19-27) and SM-19-28 (2SM-19-28) and shut SM-19-11 (2SM-19-11).
48.
Crack open SM-19-4 (2SM-19-4) and allow G3 (2G3) to return to zero pressure, then shut SM-19-4 (2SM-19-4) and shut SM-19-7 (2SM-19-7).
49.
Remove the gas sample vial and place it in the lead transport pig.
50.
Stop pump P1 (2P1) and immediately shot SM-19-18 (2SM-19-18) and shut SM-19-16 (2SM-19-16).
I I
l NOTE:
If care is not taken to follow this portion of the l l
procedure exactly as written, post accident cool-l l
ant could contaminate the demineralized water sys-l l
tem.
l I
I 51.
Shut all remote isolation control valves (RHR or Loop) on the affected unit and shut SM-5-16 (2SM-5-16) Loop "B"
manual isol or SM-5-22 (2SM-5-22) RHR manual isol.
OV IBM
F3-23 R;v. 4 Pcg2 26 PINGP #608, Rev. O ATTACHMENT D (Continued) 52.
Using reach rod check shut SM-20-2 (2SM-21-1) Loop "B" hood isol. and check shut SM-21-2 (2SM-21-5) mixed bed inlet isol.
53.
Using reach rod open SM.15-1 (2SM-19-36) Emer. Sample grab valve and verify there is no flow, leave valve open.
54.
Install flexible conn. from demin water supply to affected unit sample flush line.
55.
Open SM-21-3, Demin Water Supply and open SM-21-1 (2SM-21-4) sample flush line isol. and observe flow from Emer. Sample grab valve.
56.
Check shut SM-19-18 (2SM-19-18) and SM-19-16 (2SM-19-16) gas bomb inlet and outlet.
57.
Open SM-19-17 (2SM-19-17) and SM-19-15 (2SM-19-15) liquid sample bomb inlet and outlet.
58.
Shut SM-25-1 (2SM-19-36) Emer. Sample grab valve. On Unit 1 position SM-25-1 to the " drain" position for app. 15 sec.
and then shut SM-25-1.
59.
After 3-5 min. flush shut SM-19-17 (2SM-19-17) and SM-19-15 (2SM-19-15) liquid sample bomb inlet and outlet.
{
}
60.
Shut SM-21-1 (2SM-21-4) sample flush line isol and shut SM-21-3, demin water supply, and remove flexible conn.
61.
Shut SM-19-23 (2SM-19-23) hydrogen anal. inlet.
62.
Open SM-19-12 (2SM-19-12) sample bomb drain and open SM-19-4 (2SM-19-4) nitrogen purge isol.
63.
After approximately 15 sec., open SM-19-18 (2SM-19-18) and SM-19-16 (2SM-19-16) gas bomb inlet and outlet, after one minute shut SM-19-4 (2SM-19-4) nitrogen purge isol.
64.
Shut SM-19-12 (2SM-19-12) sample b(mb drain.
65.
Shut SM-19-20 (2SM-19-20) and open SM-19-3 (2SM-19-3), then open SM-19-4 (2SM-19-4) to purge the post accident gases from the panel.
66.
Open SM-19-23 (2SM-19-23) and observe the decrease in hydrogen concentration on the analyzer.
67.
Secure the demin water flush to the hood drain.
(
68.
Switch from the station breathing air manifold to the Scott Air Pak bottle supply and exit the Auxiliary Bldg in accordance with F3-23.
IBM
~
F3-23 Rev. 4 Page 27 PINGP #608, Rev. O O
ATTACHMENT D (Continued) 69.
Caiculate cc/kg dissolved hydrogen as follows:
-(400) (1000) (% Hydrogen as a decimal) cc/kg of H 2
75 Radiogas analysis may be completed'using the following parameters:
Sample Units = cc Sample Size = 12 cc Liquid Volume = 75 ml Gas Volume without dilution bomb = 440 Gas Volume with dilution bomb = 5500 cc Decay samples to time noted in Step 36.
70.
Log sample results on the Post Accident Chemical Analysis Report.
71.
Attach sample date, time, size and gas system volume to radiogas sample and send to the counting facility.
72.
Complete chemical analysis as directed by the Radiological O
Emergency Coordinator in accordance with the Post Accident Procedures in the Chemistry Manual.
73.
Dispose of samples in accordance with Procedure #PA6 of Chemistry Manual.
U i
IBM
F3-23 R;v. 4 Prg2 28 PINGP #609, Rev. O ATTACHMENT E POST ACCIDENT PRIMARY LIQUID l'
Date Time a w
.:a J[
PRECAUTIONS This procedure describes the steps that may be required to obtain a liquid sample of primary coolant following an accident. Each accident shall be appraised and the appropriate measures specified by the Emergency Director or the Radiological Emergency Coordinator. The important difference between Post Accident Sampling and normal operational sampling is the possibility for large post accident exposure rates to be present, both in sampling areas and in the areas passed through to reach the sampling areas. Because of these high coolant activity levels, the liquid grab sample is not drawn from the routine sample point but from a smaller j
shielded sample line to minimize the amount of activity introduced into the sample room.
Sample volumes are minimized and the samples are diluted to reduce radiation exposures. This procedure is written on the basis of not exceeding the exposure limits prescribed in 10CFR 20.101.
Travel to and from the sample area shall be in accordance with F3-23.
PROCEDURE Circle One INIT 1.
Determine sample point.
RHR Loop B 2.
Check SI and Containment Isolation reset, if necessary.
3.
Log R-3, Hot Chem Lab Area Monitor.
R/hr 4.
Log R-6, Hot Sample Rm. Area Monitor.
R/hr 5.
Ensure Demin Water System is in service and that a positive pressure exists.
6.
Check prior Emergency Sample Checklists for proper valve line-up already completed, initial proper step (s).
7.
Obtain current whole body exposure.
Current Allowable j
Name TLD Exposure Exposure 1
l IBM
l l
F3-23 Rav. 4
, Page 29
/~'}
PINGP #609, Rev. 0
( _,/
ATTACHMENT E (Continued) 8.
Verify each team member has their TLD.
t 9.
PlaceafingerringiLDoneachhand.
l 10.
Verify each team member has designated dosimeter (s).
11.
Don required protective clothing and respiratory protection equipment.
12.
Response check all dose rate indicating device (s).
l l
l NOTE: There is a rolling shielded sample transporter l
l and headsets in the Hot Cell which is available l
l for use.
l l
l 13.
Notify OSC prior to entering Aux Bldg and verify no changes in plant status.
14.
Using path with lowest dose rate, proceed to Turbine / Auxiliary O*
Building interface (for entry to D-3 Room get key from S.S.
or call guard to open door). Activate respirator and enter Auxiliary Building.
m'/hr 695 Unit 2 mR/hr Access Control R
715 Unit 2 mR/hr 715 Unit 1 mR/hr Hot Chem Lab mR/hr Hot Sample Room mR/hr 15.
Shut WL-83-1 (2WL-85-1) sample hood drain diversion valve.
l 16.
Transfer from the Scott Air Pack bottle supply of breathing air to the. breathing air station at the entrance to the Hot Sample Room, if station air is available.
l I
l NOTE:
If previous samples have been drawn during l
l post-accident conditions, many of the pre-l l
liminary valve line-up steps of this proce-l l
dure should be completed, cneck prior sam-l l
pling checklists or use reach rods to mini-l l
mize radiation exposure. Use a dose rate l
[h l
instrument to determine what precautions l
_,/
l are necessary.
l I
l l
IBM
j 1
F3-23 Rev. 4 Page 30 1
PINGP //609, Rev. O ATTACHMENT E (Continued) l l
l 17.
Obtain a lead transport pig, liquid sample bottle, l
and demin water flexible connection.
Place pig and bottle on fume hood apron.
18.
Start demineralized water flowing to the fume hood drain on the affected unit.
19.
Check open the Beckman gas panel isolation valve SM-19-33 (2SM-19-33), located by sample coolers.
20.
Shut SM-20-3 (2SM-21-2) relief to VCT Isolation and open SM-20-4 (2SM-21-3), Emergency Relief Isolation.
21.
Verify fume hood ventilation is on and raise door.
22.
Shut SM-20-2 (2SM-21-1) Loop "B" hood isol. and shut SM-21-2 (2SM-21-5) mixed bed inlet isol, both located in fume hood.
23.
Open SM-5-16 (2SM-5-16) Loop "B" manual iso?. or SM-5-22 (2SM-5-22) RIIR manual isol. Open CV-31300, CV-31301 (CV-31307, CV-31308) Loop "B" containment isol. CV's or open CV-31302 (CV-31309) RIIR isol CV.
24.
Begin the sample line purge in the following manner using l
I reach rods.
Unit 1 - Position the Emergency Sample 3-way valve SM-25-1 to the " Drain" position. This diverts recirculation flow to the RIIR pits sump via the hood drain.
Unit 2 - Open the Emergency Sample grab valve 2SM-19-36 to direct purge flow down the hood drain.
Fall back to a lower radiation area during the purge.
l l
l NOTE: The introduction of post accident coolant into'the l l
sample room may significantly affect the dose l
l rates. Monitor carefully and frequently during l
l this period. Make use of available shielding by l
l falling back into lower radiation areas while l
l waiting for purge times to end.
This sample pro-l l
cedure is to be aborted prior to exceeding pre-l l
scribed exposure limits.
l l
l l
l IBM
F3-23 Rev. 4 Page 31 PINGP #609, Rev. 0 ATTACHMENT E"(Continued) 25.
After a one to two minute purge, determine the dose rates at the nood opening and at three feet and determine whether the sample can be drawn without overexposure without additional shielding.
Dose Rate at Hood mR/hr Dose Rate at 3' mR/hr 26.
Using reach rod shut SM-25-1 (2SM-19-36), Emergency Sample grab valve. On Unit 1 purge approximately 10ml to hood, ensure purge water is being flushed away.
27.
Using reach rod position sample bottle under sample grab valve outlet.
28.
Using a separate reach rod, slowly open SM-25-1 (2SM-19-36)
Emergency Sample grab valve, and collect a 2-Sml sample.
Siiut SM-25-1 (2SM-19-36) Emergency Sample grab valve.
29.
Cap the bottle and place it into the lead transport pig.
Cap the lead pig and place it into the rolling transport shield, if available.
v I
I l NOTE:
If care is not taken to follow this portion of the l l
procedure exactly as written, post accident cool-l l
ant could contaminate the demineralized water sys-1 I
tem.
l l
l 30.
Shut all remote isolation control valves (RHR or Loop) on the affected unit and shut SM-5-16 (2SM-5-16) Loop "B"
manual isol. or SM-5-22 (2SM-5-22) RHR manual isol.
31.
Using reach rod check shut SM-20-2 (2SM-21-1) Loop "B" hood isol. and check shut SM-21-2 (2SM-21-5) mixed bed inlet isol.
32.
Using reach rod open SM-25-1 (2SM-19-36) Emer. Sample grab valve and verify there is no flow.
33.
Install flexible conn. from demin water supply to affecteck unit sample flush line.
34.
Open SM-21-3, Demin Water Supply and open SM-21-1 (2SM-21-4) sample flush line iscl. and observe flow from Emer. Sample grab valve.
IBM
F3-23 R:.v. 4 P;g2 32 PINGP #609, Rev. O ATTACHMENT E (Continued)
{
l 35.
After approximately 1 minute flush shut SM-25-1 (2SM-19-36)
Emer Sample grab valve. On Unit 1 position SM-25-1 to the
" Drain" position for app. 15 sec. and then shut SM-25-1.
36.
Shut SM-21-1 (2SM-21-4), sample flush line isol. and shut SM-21-3, demin water supply and remove flexible conn.
37.
Secure the demin water flush to the hood drain.
38.
Switch from the station breathing air manifold to the Scott Air Pak bottle supply and exit the Auxiliary Bldg in accordance with F3-23.
39.
Log sample results on the Post Accident Chemical Analysis Report.
40.
Attach sample date, time, size and send to the counting facility.
41.
Complete chemical analysis as directed by the Radiological Emergency Coordinator in accordance with the Post Accident Procedures in the Chemistry Manual.
42.
Dispose of samples in accordance with Procedure #PA6 of Chemistry Manual.
l I
O IBM
F3-23 Rev. 4 Page 33 6)
PINGP #610, Rev. 0
/
ATTACHMENT F EXAMPLE flNtT"'"^"' ""== ^" ^"" """'" "^"""""
Date _
Time 3
~
lD 5
10 J0}1} 10}h~@(D'0}
D i D l
SUMMARY
J Primar cooJ. art :.s recIrcElated and collected in a sample bomb. The pressurized sample is then expanded into an evacuated expansion bomb.
Pressure is equalized within the panel and nitrogen is added to return the system pressure to zero pounds, thus providing a constant system volume for sample calculations. The combined gas sample and nitrogen are then recirculated through the analyzer and the liquid sample to continue stripping gases from the ligtiid. The hydrogen concentration is then taken directly from the analyzer and a depressurized gas sample may then be collected and counted for gamma emitters.
PRECAUTIONS This procedure describes the steps that may be required to obtain a liquid sample of primary coolant and a depressurized primary gas sample for hydrogen and/or radiogas analysis following an accident. Each accident (mV) shall be appraised and the appropriate measures specified by the Radiological Emergency Coordinator or his designee. The important difference between Post Accident Sampling and normal operational sampling is the possibility for large post accident exposure rates to be present, both in sampling areas and in the areas passed through to reach the sampling areas.
Because of these high coolant activity levels, the liquid grab sample is not drawn from the routine sample point but from a smaller shielded sample line to minimize the amount of activity introduced into the sample room. Sample volumes are minimized and the samples are diluted to reduce radiation exposures. This procedure is written on the basis of not exceeding the exposure limits prescribed in 10CFR 20.101.
Travel to and from the sample area shall be in accordance with F3-23.
PROCEDURE Circle One INIT 1.
Determine sample point.
RHR Loop B 2.
Check SI and Containment Isolation reset, if necessary.
3.
Log R-3, Hot Chem Lab Area Monitor.
R/hr 4.
Log R-6, Hot Sample Rm. Area Monitor.
R/hr
[3 5.
Ensure Demin Water System is in service anu that a positive pressure exists.
6.
Check prior Emergency Sample Checklists for proper valve line-up already completed, initial proper step (s).
IBM
F3-23 R;v. 4 Page 34 PINGP #610, Rev. O ATTACHMENT F (Continued)
{
l 7.
Obtain current whole body exposure.
Current Allowable Name TLD Exposure Exposure
(
8.
Verify each team member has their TLD.
9.
Place a finger ring TLD on each hand.
10.
Verify each team member has designated dosimeter (s).
11.
Don required protective clothing and respiratory protection equipment.
12.
Response check all dose rate indicating device (s).
I I
I l
l NOTE: There is a rolline shielded sample transporter l
l and headsets in the llot Cell which are available l
l for use.
l l
l 13.
Notify OSC prior to entering Aux Bldg and verify no changes in plant status.
14.
Using path with lowest dose rate, proceed to Turbine / Auxiliary l
Building interface (for entry to D-3 Room get key from S.S.
or call guard to open door). Activate respirator and enter Auxiliary Building.
695 Unit 2 mR/hr Access Control mR/hr 715 Unit 2 mR/hr 715 Unit 1
,__mR/hr I
Ifot Chem Lab mR/hr llot Semple Room mR/hr l
15.
Shut WL-83-1 (2WL-85-1) sample hood drain diversion valve.
1 16.
Transfer from the Scott Air Pack bottle supply of breathing air to the breathing air station at the entrance to the Hot Sample Room, if station air is available.
l
}
IBM
F3-23 l
Rev. 4 l
Page 35 1
/
PINGP #610, Rev. 0 (s_,)/
ATTACKMENT F (Continued) l I
I l NOTE:
If previous samples have been drawn during l
l;i post-accident conditions, many of the pre-l l
liminary valve line-up steps of this proce-l l
dure should be completed, check prior sam-l l
pling checklists or use reach rods to mini-l l
mize radiation exposure. Use a dose rate l
l instrument to determine what precautions l
l are necessary.
l l
l 17.
Obtain (2) two lead transport pigs, liquid sample bottle, gas vial, and demin water flexible connection, in red drawer in Hot Lab.
18.
Install a syringe needle on the gas grab sample port. Place a gas vial on the syringe needle.
19.
Place (1) one transport pig on affected unit's fume hood with 7_s liquid sample bottle. Place (1) one transport pig near
(
Beckman being used.
s 20.
Start demineralized water flowing to the fume hood drain on the affected unit.
21.
Check open the Beckman gas panel isolation valve SM-19-33 (2SM-19-33), located by sample coolers.
22.
Shut SM-20-3 (2SM-21-2) relief to VCT Isolation and open SM-20-4 (2SM-21-3), Emergency Relief Isolation.
23.
Verify fume hood ventilation is on and raise door.
24.
Shut SM-20-2 (2SM-21-1) Loop "B" hood isol. and shut SM-21-2 (2SM-21-5) mixed bed inlet isol, both located in fume hood.
25.
Determine which pressurized sample panel is to be used.
If the affected unit's panel is out of service, the unaffected unit's sample panel may be used by shutting the affected unit's panel inlet isolations SM-19-34, (2SM-19-34) and panel outlet isolations SM-19-35, (2SM-19-35), and opening the inlet and outlet crossconnects, SM-19-36 and SM-19-37, respectively.
'~'
26.
Ensure that power is supplied to the panel's ant iyzers and y,
pumps as indicated by the red heater "on" lights cycling on and off.
Power must be on to the H nalyzer 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> l
2 prior to use.
IBM
F3-23 Rtv. 4 Page 36 PINGP #610, Rev. O ATTACilMENT F (Continued)-
l l
27.
Shut the nitrogen purge supply SM-19-4, (2SM-19-4) and note the zero pressure indication on gauge G1 (2G1).
28.
Shut the gas space vent, SM-19-3, (2SM-19-3).
29.
At th,e Beckman Panel shut SM-19-16 (2SM-19-16), SM-19-18 (2SM-19-18) and SM-19-19 (2SM-19-19).
30.
Shut or check shut the following valves at the Beckman Panel:
l SM-19-1 (2SM-19-1)
SM-19-2 (2SM-19-2)
SM-19-12 (2SM-19-12)
SM-19-8 (2SM 19-8)
SM-19-21 (2SM-19-21)
SM-19-22 (2SM-19-22)
SM-19-6 (2SM-19-6)
SM-19-7 (2SM-19-7)
SM-19-27 (2SM-19-27)
SM-19-28 (2SM-19-28)
SM-19-5 (2SM-19-5)
SM-19-29 (2SM-19-29)
SM-19-30 (2SM-19-30)
SM-19-9 (2SM-19-9)
SM-19-10 (2SM-19-10)
SM-19-14 (2SM-19-14)
SM-19-13 (2SM-19-13) 31.
Open or check open SM-19-23 (2SM-19-23) H analyz r inlet.
2 32.
Open SM-19-31 (2SM-19-31) and start the vacuum pump. Observe the vacuum increase on gauge G1 (2GI).
33.
Open SM-5-16 (2SM-5-16) Loop "B" manual isol. or SM-5-22 (2SM-5-22) RHR manual isol.
Open CV-31300, CV-31301 (CV-31307, CV-31308) Loop "B" containment isol. CV's or open CV-31302 (CV-31309) RHR isol CV.
O IBM
F3-23 Rev. 4 Page 37 p
PINGP #610, Rev. O Q
ATTACHMENT F (Continued) 34.
Begin the sample line purge in the following manner using reach rods.
Unit 1 - Position the Emergency Sample 3-way valve SM-25-1 to the " Drain" position.
This diverts recirculation flow to the RHR pits sumps via the hood drain.
Unit 2 - Open the Emergency Sample grab valve 2SM-19-36 to direct purge flow down the hood drain.
Fall back to a lower radiation area during the purge.
l l
l NOTE: The introduction of post accident coolant into the l l
sample room may significantly affect the dose l
l rates. Monitor carefully and frequently during l
l this period. Make use of available shielding by l
l falling back into lower radiation areas while l
l waiting for purge times to end.
This sample pro-l l
cedure is to be aborted prior to exceeding pre-l l
scribed exposure limits.
l i
I
< gO
- 35. After a one to two minute purge, determine the dose rates at the hood opening and at three feet and determine whether the sample can be drawn without overexposure without additional shielding.
Dose Rate at Hood mR/hr Dose Rate at 3' mR/hr
- 36. Using reach rod shut SM-25-1 (2SM-19-36), Emergency Sample j
grab valve. On Unit 1 purge approximately 10ml to hood, j
ensure purge water is being flushed away.
l
- 37. Using reach rod position sample bottle under sample grab valve outlet.
38.
Using a separate reach rod, slowly open SM-25-1 (2SM-19-36)
Emergency Sample grab valve, and collect a 2-Sml sample.
Shut SM-25-1 (2SM-19-36) Emergency Sample grab valve.
39.
Cap the bottle and place it into the lead transport pig.
Cap the lead pig and place it into the rolling transport shield, if available.
O IBM
F3-23 R,v. 4 Page 38 PINGP #610, Rev. O ATTACHMENT F (Continued)
)
40.
Log sample, date, and time.
Sample Date Time 41.
At th'e Beckman Panel, open SM-19-17 (2SM-19-17) and SM-19-15 (2SM-19-15) to start recirculation through the sample bomb, 42.
Once the expansion bomb vacuum steadies out on G1 (2GI) shut SM-19-31 (2SM-19-31) and secure the vacuum pump.
Vacuum should remain steady after the pump is off.
43.
Once the sample bomb is purged (2-3 min), shut SM-19-15 (2SM-19-15), sample bomb outlet.
44.
Shut SM-19-17 (2SM-19-17) cample bomb inlet and log sample, date, time.
Sample Date Time 45.
Shut the sample cont rol valve (s) (RHR or loop).
{
}
46.
Crack open SM-19-16 (2SM-19-16) until gauge G1 (2G1) steadies out, then open SM-19-16 (2SM-19-16).
47.
Crack open SM-19-18 (2SM-19-18) until gauge G1 (2GI) steadies out, then open SH-19-18 (2SM-19-18). ~
48.
Open SM-19-19 (2SM-19-19) and SM-19-20 (2SM-19-20).
49.
Start the gas recire pump P1 (2PI) and crack SM-19-4 (2SM-19-4) to allow the pressure on gauge G1 (2GI) to return to the same zero pressure indication noted in Step 27, then shut SM-19-4 (2SM-19-4).
50.
Return to a low radiation area until the hydrogen valve steadies out as observed on the analyzers.
I I
l NOTE:
The hydrogen analyzer may require adjusting the l
l range switch to obtain an on-scale reading.
l l
l
__I l
51.
Log hydrogen analyzer reading.
52.
To draw a radiogas sample, open SM-19-7 (2SM-19-7).
{
IBM
F3-23 Rav. 4 Page 39 C'
PINGP (/610, Rev. 0 ATTACHMENT F (Continued) 53.
Open SM-19-6 (2SM-19-6), start the vacuum pump and observe the vacuun increase on G3 (2G3).
- 54. Open SM-19-21 (2SM-19-21) and SM-19-22 (2SM-19-22) and fall back to Chem Lab and observe the hydrogen recorder for a steady reading. This step valve's in the sample dilution bomb, which dilutes gas concentrations by app. a factor of 15.
55.
Once the hydrogen recorder steadies out, shut SM-19-6 (2SM-19-6) and stop the vacuum pump.
57.
Crack open SM-19-4 (2SM-19-4) and allow G3 (2G3) to return to zero pressure, then shut SM-19-4 (2SM-19-4) and shut SM-19-7 (2SM-19-7).
58.
Remove the gas sample vial and place it in the lead transport i
P g.
i 59.
Stop pump P1 (2P1) and immediately shut SM-19-18 (2SM-19-18)
)
and shut SM-19-16 (2SM-19-16).
,V l
l l NOTE:
If care is not taken to follow this portion of the l l
procedure exactly as written, post accident cool-l l
ant could contaminate the demineralized water sys-l l
tem.
l l
1 60.
Shut all remote isolation control valves (RHR or Loop) on the affected unit and shut SM-5-16 (2SM-5-16) Loop "B" manual isol. or SM-5-22 (2SM-5-22) RHR manual isol.
61.
Using reach rod check shut SM-20-2 (2SM-21-1) Loop "B" hood isol. ai,d check shut SM-21-2 (2SM-21-5) mixed bed inlet isol.
62.
Using reach rod open SM-25-1 (2SM-19-36) Emer. Sample grab valve and verify there is no flow.
63.
Install flexible conn. from demin water supply to affected unit sample flush line.
64.
Open SM-21-3, Demin Water Supply and open SM-21-1 (2SM-21-4) sample flush line isol. and observe flow from Emer. Sample grab valve.
IBM
1 l
F3-23 R;v. 4 Page 40 PINGP #610, Rev. O ATTACHMENT F (Contii.ued) l f
65.
Check shut SM-19-18 (2SM-19-18) and SM-19-16 (2SM-19-16) gas bomb inlet and outlet.
66.
Open SM-19-17 (2SM-19-17) and SM-19-15 (2SM-19-15) liquid sample bomb inlet and outlet.
67.
Shut SM-25-1 (2SM-19-36) Emer. Sample grab valve. On Unit 1 position SM-25-1 to the " drain" position for app. 15 sec.
and then shut SM-25-1.
68.
After 3-5 min. flush shut SM-19-17 (2SM-19-17) and SM-19-15 (2SM-19-15) liquid sample bomb inlet and outlet.
~
1 69.
Shut SM-21-1 (2SM-21-4) sample flush line isol and shut SM-21-3, demin water supply, and remove flexible conn.
I 70.
Shut SM-19-23 (2SM-19-23) hydrogen anal. inlet.
71.
Open SM-19-12 (2SM-19-12) sample bomb drain and open SM-19-4 (2SM-19-4) nitrogen purge isol.
l I
72.
Af ter approximately 15 sec., open SM-19-18 (2SM-19-18) and SM-19-16 (2SM-19-16) gas bomb inlet and outlet, after one minute shut SM-19-4 (2SM-19-4) nitrogen purge isol.
73.
Shut SM-19-12 (2SM-19-12) sample bomb drain.
74.
Shut SM-19-20 (2SM-19-20) and open SM-19-3 (2SM-19-3), then open SM-19-4 (2SM-19-4) to purge the post accident gases from the panel.
75.
Open SM-19-23 (2SM-19-23) and observe the decrease in hydrogen concentration on the analyzer.
76.
Secure the demin water flush to the hood drain.
77.
Switch from the et - iou breathing air manifold to the Scott Air Pak bo'*'#
c, y and exit the Auxiliary Bldg in m ', C
'3 accordanci 78.
Calculate cu/kg dissolved hydrogen as follows:
(
cc/kg of H
=
2 75 O
IBM
F3-23 Rev. 4 Page 41 PINGP #610, Rev. 0 g
ATTACHMENT F (Continued) f-Radiogas analysis may be completed using the following parameters:
u 9
Sample Units = cc j
Sample Size = 12 cc Liquid Volume = 75 ml
- r1 Gas Volume without dilution bomb = 440 Gas Volume with dilution bomb = 5500 cc Decay samples to time noted in Step 44.
79.
Log sauple results on the Post Accident Chemical Analysis Report.
80.
Attach sample date, time, size and gas system volume to radiogas sample and send to the counting facility.
81.
Complete chemical analysis as directed by the Radiological Emergency Coordinator in accordance with the Post Accident Procedures in the Chemistry Manual.
82.
Dispose of samples in accordance with Procedure #PA6 of Chemistry Manual.
l i
IBM
F3-23 R;v. 4 Page 42 PINGP #611, Rev. O ATTACHEMENT G l
I POST ACCIDENT CONTAINMENT ATMOSPHERE FILTERED GAS, l
PARTICULATE, IODINE, AND LIQUID SAMPLE EXAMPLE ONLY h3 Time Date a C') b 1.
PURPOSE This procedure describes the steps necessary to obtain the Post Accident Containment Atmosphere Sample (s) described in this procedure. Entry should be in accordance with F3-23.
PRECAUTIONS 1.
Minimize personal exposure by waiting in lower dose rate areas during purge time.
2.
To do liquid, sample proceed to condensate collection pot by taking path with lowest dose rates. Main steam lines are potentially very high dose rates, due to streaming effects. For A.L.A.R.A. purposes Unit I liquid sample entry and exit should be through Access Control.
q 3.
Record all data at proper steps.
PROCEDURE INIT 1.
Log R-48 dose rate.
R/hr 2.
Log R-49 dose rate.
R/hr 3.
From Figure 1, determine size of gas sample to obtain, based on the Containment Rad Monitor Readings and the sample dose rates at one foot.
c.c.
l l
l l
l NOTE: Obtain the lowest dose rate sample as possible.
l l
l 4.
Log R-3 Hot Chem Lab Area Monitor.
R/hr 5.
Log R-6 Hot Sample Room Area Monitor.
R/hr 6.
Log Containment Pressure.
psig l
IBM
F3-23 Rev. 4 Page 43 PINGP #611, Rev. O ATTACHMENT G (Continued) s 7.
Obtain current whole body exposure for team members.
Current Allowable Name TLD No.
Exposure Exposure 8.
Verify each team member has their TLD.
9.
Place a finger ring TLD on each hand.
10.
Verify each team member has designated dosimetry.
11.
Don required protective clothing and respiratory protection equipment. (Activate respirator just prior to entry).
12.
Response check all dose rate indicating devices.
I I
l NOTE: There is a rolling shielded sample transporter l
l and headsets in the Hot Cell which are available l
l for use.
l l
l 13.
Notify OSC prior to entering Aux Bldg and verify no changes in plant status.
14.
Using path with lowest dose rate, proceed to Turbine / Auxiliary Building interface (for entry to D-3 Room get key from S.S.
or call guard to open door). Activate respirator and enter Auxiliary Building.
Log meter reading in Auxiliary Building 695 Unit 2 mR/hr Access Control mR/hr 715 Unit 2 mR/hr 715 Unit 1 mR/hr Hot Chem Lab mR/hr Hot Sample Room mR/hr 15.
Open MV-32271, #11 [MV-32290, #21] Post LOCA Hydrogen Control Vent Isolation Valve.
()
16.
Open MV-32273, #12 [MV-32292, #22] Post LOCA Hydrogen Control Vent Isolation Valve.
IBM
F3-23 R;v. 4 l
Pcg2 44 l
PINGP #611, Rev. O ATTACIIMENT G (Continued)
{
}
17.
Open CV-31925, #11 [CV-31926, #21] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
18.
Open CV-31927, #12 [CV-31928, #22] Post LOCA Hydrogen Sample l
to 121 Gas Analyzer Isolation Valve.
19.
Proceed to the Gas Analyzer Panel, outside the Chem Lab, open WG-41-14, Containment Air Shielded Filter Outlet. Verify open WG-41-6, Containment Air Sample By-Pass, and WG-41-11, Containment Air Sample Flow Meter Outlet.
20.
Transfer from the Scott Air Pack bottle supply of breathing air to the breathing air station at the entrance to the Hot I
Sample Room, if station air is available.
1 I
l NOTE:
If Gas Analyzer not available complete Step 21.
l l
Do not do Steps 22, 23, 24 and 27.
l l
l 21.
Open storage box, plug sample pump into a working electrical outlet and hook-up suction and discharge hoses. Shut WG-41-11, Containment Air Sample Flow Meter Outlet, open WG-41-12 and WG-41-13, Sample Pump Suction and Discharge Isolation. Open
{
}
WG-41-5 (WG-41-4) Unit 1 SV-37022 Bypass (SV-37028 Bypass) and start the pump.
22.
On the Gas Analyzer Stream Selector place sample point 11, Unit 1 Post LOCA [12, Unit 2 Post LOCA) in the readout position.
23.
Place the HOLD switch on the selector panel to the HOLD position.
24.
Starting with the stream being readout (the lighted number) push all sample point switches to the bypass position except point 11 [12].
i l
l NOTE:
Up to 1 minute may be required for selector to l
l cycle through to the desired position.
l l
l 25.
Open SM-18-1 and SM-18-2, GA Acc Bomb Inlet and Outlet, located in Hot Sample Room.
26.
Shut SM-5-51, Sample Bomb Bypass to Vent Header located in the Unit I hood.
l I
IBM
F3-23 Rev. 4 Page 45
<"'s PINGP #611, Rev. O ATTACHMENT G (Continued) 27.
After number 11 [12] sample point has lighted allow 3 minutes to purge the, sample bomb. During this time return the desired sample point switches to the readout position leaving the HOLD switch on HOLD and prepare the gas vial and syringe.
28.
After 3 minutes purge, syringe sample from bomb into gas vial. Place vial in shielded carrier.
29.
Record H, and 0 e neentration from gas analyzer recorders, 2
correct H reading using Figure 2.
2 Sample Time 0 Concentration H Concentration 2
2 30.
Procede to Gas Analyzer Panel outside the Hot Lab and shut WG-41-6 Containment Air Sample Bypass.
31.
Open WG-41-9 Containment Air Sampler Filter Inlet.
32.
Open WG-41-10, Containment Air Sampler Filter Outlet, until (on scale) flow rate obtained or valve fully opened.
max.
33.
Collect a sample for (2) two minutes or until any increase
(N in dose rate, on filters, is detected. Log Flev Rate,
(,)
pressure and time.
Shut WG-41-9 and WG-41-10, Containment Air Sample Filter Inlet and Outlet and remove filter cartridge.
FI Flow Rate P Pressure 2
Sample Time 34.
Open WG-41-6, Containment Air Sample Bypass and open WG-41-15, Nitrogen Purge to Containment Air Sample Line.
I I
l NOTE:
If Gas Analyzer not available, complete Step 35 l
l and do not do Step 36.
l l
l 35.
Stop the pump, open WG-41-11, Containment Air Sample Flow Meter Outlet, shut WG-41-12 and WG-41-13, Sample Pump Suction and Discharge Isolation. Disconnect pump and place hoses back in storage box.
36.
Return " Hold" switch to 0FF and place #11 [12] sample point switch in Bypass position.
37.
Af ter approximately 2 minutes shut WG-41-14, Containment Air
(
Shielded Filter outlet and open WG-41-5 (WG-41-4) SV-37027 Bypass (SV-37028 Bypass), if not already open.
IBM
F3-23 Rev. 4 Page 46 PINGP #611, Rev. O ATTACHMENT G (Continued) 38.
After approximately 5 minutes shut WG-41-5 (WG-41-4)
SV-37027 Bypass (SV-37028 Bypass) and shut WG-41-15, Nitrogen Purge to Containment Air Sample Line.
39.
Shut MV-32271, #11 [MV-32290, #21] Post LOCA Hydrogen Control Vent Isolation Valve.
40.
Shut MV-32273, #12 [MV-32292, #22] Post LOCA Hydrogen Control Vent Isolation Valve.
41.
Shut CV-31925, #11 [CV-31926, #21] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
42.
Shut CV-31927, #12 [CV-31928, #22] Post LOCA Hydrogen Sample to 121 Gas Analyzer Isolation Valve.
43.
Obtain shielded carrier and proceed to affected unit condensate collection pot located North of RWST on 715' level. Minimize exposure by taking path with lowest dose rates.
I l
l NOTE: For A.L.A.R.A. purposes Unit 1 sample entry and l
(
l l
exit should be through Access Control entrance l
l door to Auxiliary Building.
l l
l 44.
Vent the collection pot by slowly opening WG-41-16 [WG-41-17]
condensate collection pot vent.
45.
Drain sample into sample bottle by slowly opening WG-41-2
[WG-41-3], containment air condensate sample.
46.
When collection pot is completely drained, shut WG-41-2
[WG-41-3], containment air condensate sample and WG-41-16
[WG-41-17] condensate collection pot vent.
47.
Exit Auxiliary Building with shielded carrier.
48.
Give samples to individual assigned to count samples. Label samples.
49.
To calculate corrected flow rates for particulate and iodine sample, see Step 33 for flow rate measured and P Pressure.
2 Corrected Measured
/P P essure + 14.7 Flow rate Flow rate 2
4.7 l
I Corrected Flow rate =
IBM
F3-23 Rev. 4 Page 47 4
PINGP #611, Rev. O ATTACHMENT G (Continued) 50.
To calculate containment activity from liquid sample. (see Step 6 for Containment Pressure):
If P < 15 psig, A = 4.353 x 10" x A, x P
-5 If P > 15 psig, A = 4.005 x 10 x A, x P where: P = Containment Pressure (psig)
A = Containment Activity (pCi/cc) c A = Liquid sample activity (pCi/ml) 4 IBM
I PIWGP 611 Rev. O ATTACHMENT G *(Continued)
F3-23 l
0 FIGURE 1 Rev. 4 i
Page 48 ESTIMATED CONTAINMENT AIR SAMPLE DOSE RATES 10
- 107
(
.3...
,....,...i..,.
.....;. i.;-
.i..,.,..,.,
....,. p.
..i..
.s..
.g.
.s...
.v.
.......,........ g,.
106 7
10
....{.,
..y...!........y {. y }
3.....
.... ;......y g.y ;
. (..y.;,,.
.... ~..
,. i..
...,{.,
v,..
1
.J...,
.. o.... v.,.. 3
..{....,..,.,..
.g........
..,.,.3..n.,.
n
......v.
....v...
,. v.
.,v..
...v.
.. 'l.
e"s g
u
..,..v,..
.b.
',s 4
U 2
.Y.
- C N
.r Cf. g
.a IU M
6 ts x
10 C
o
.g.e
.g.,..
,y 4
H
.,.g.v.,.,,.i
.g.e
.r d
,.. v. t......)
..,..r.s.,...,
,.....,........,.,.g.,.
..,..).s...
.v...,..
....y.
..,.,.g.
w4 i
D e
w
.....,. 4....
W to
..a.
O
.f p
...g.
m s
..n
,.v,.
....v.
..6
..,v.,
m
.. v.
M
~
c 3
o
......C p
. 0 X
y g.
(Z z
.N.
O 5
.8 10 a
d
..y.; e.y.
..y.
.. ;. g.,s 3....
....y.;,
.g.,......
.y g.y 3 e4 p
3,....,.
.. v,. s.. n
.4.........
.,y,.
,..j..... g..,.
.g.
3 a
g t)
...v.
.i
- C g
v.
u DJ C
tj-
... g,G.
..y g
......g.....
g
- v..
Ed D
.C e*
g
....g.
e4 e
g a
O C
U 3o 4
- 10 o m
10
<r
.I......................l..,.
....l.,...
.r.
.og
......i.,.
..4....
...........i..>..
w
. 4
.y.. : 4.. g.:. )
. g. 4...;. ;.;,
4...>.. :.4 g.:.:.
.. 4.,...,. ;. ;. 4.,.1. /. ;.
,.g.
.
..y..g.,...
.y 4 7 )
.. <..y.; ;
... {..y.;,..,....:
..5
.g.
..p,)
..{.............
.g.....
,... v.
- t..., n v.
.v.
...e
...v..
..v......
......e a
...,v, v.,.
,v.
..v a..
.v.
(
I Q
10'
' l'. 0
'10.0
'100.0
'1000.0 '
=
0 '. 1 SAMPLE VIAL DOSE RATES AT 1 FOOT (mR/hr)
F3-23 Rev. 4 Page 49 t
PINGP #611, Rev. O v]
\\
ATTACHMENT G (Continued)
FIGURE 2 HYDROGEN CONCENTRATION IN AIR ATMOSPHERE USING R-3 i
l i
l..
100
...;___6....,__.4,...i__s.__t..a._..i....i__.4.._.u._2..__6__a....i.__i._.
_. _ u.
- 2.. _ _ t _ _ s.... t....
r._,.
... q_.. p _ _ _;_ _ _4...; __ q _..p _ _ _;. _ _ ;...;., _4..._;._ _ 4
,.. _;__ p. _p__4,...p. 2.__;...q._
p.__
80- ---*. - - - ~ - -. - - - ~ - - ". - - - *. - - - - - -. - -. ~ - -. - - - ' -. - -. - - ~. ~ - - *.,- - - ~ ~ -. - - -. - - ". - - - *
...,._..,._,___,__.c__,_____,.___,___,_
,__.c__,__._.,..,. _ _.,. _ _,.
.r..,.___._., __.__,. __,..__
r
_......._a.._._.s.,................_u..a..-_a._......__a.....a........,.,.__u.
i O
....c. _,....., _ _,...,.. _ _.,. _ _,. _,.....r._,.___,___
2; i
ca 60_... ;. _ _ u.. ;..
- 6. _ ;... i. _ _ _..
- 2....t..... t _ _.a,.. _ i. _..u
- 2.. _. t _. a.. _ _ t... s.....__t..a....t_..
/7 m
r g
)
ct
.. 4.. _ _ p. _ q. _ _ p. _ _p_4....p _. 4., _.. p.. q. _. p..q.. _ 4. _ _ _t. _4... _ p. _ q - _ _ p _ _ _p _
j v
CE M
i g
40--..,....c..,...
.c._,._-_,.__,....r...,. _,..... _ _.
i
.c M
I
,a
...s....._s
___u..,.
__.,c..s,...i....._4,._.__a.___m..s,__.i,_.,_.
___u__s....t
___i...
-..,. _ _ _.,. _ _ _., _,.___,......r..,....., _ _,.....,..,. _ _ _,. _ _ _..r r.
.r...
r
__s.__.__._.2._.u..;...u__s,...i,.__m._2__.u._2._..u___......___4....t_...t_.s.___t..__
i i
20- ---.
. - -. - - - - -. - - -., - -. - - -,.--.--,.. - - - ~. - -. - - - *. - -. - - *. - -. - -. - - -. -
...; __p___p_.4,.. p_.;__ p..q_.;___p__4....p..q...p__4....p_.p__4,...p..q_.p.._;___p.__
.... _ _,. _ _ _,..,....,. _ _.,. _ _ _,....---,.-- r-,..--
r.-- >-- r.-- r-,.---r-,.. --r---
r,__,...,.
.r 0
0 20 40 60 80 100 PERCENT CONCENTRATION A
i
\\%.
IBM i
~vr-