ML20078E897
| ML20078E897 | |
| Person / Time | |
|---|---|
| Site: | Brunswick  |
| Issue date: | 06/22/1983 |
| From: | Boyer L CAROLINA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20078E889 | List: |
| References | |
| PROC-830622-01, NUDOCS 8310060567 | |
| Download: ML20078E897 (38) | |
Text
.
CAROLINA POWER & LIGHT COMPANY BRUNSWICK STEAM ELECTRIC PLANT UNIT 0 INITIAL DOSE PROJECTIONS PLANT EMERGENCY PROCEDURE:
PEP-03.4.1 VOLUME XIII Rev. 006 t
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Recommended By:
Date:
- Il Director - A strative Support Approved By:
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t/z2/rt General Managek
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LIST OF EFFECTIVE PAGES J
PEP-03.4.1 Page(s)
Revision 1-8 6
(
BSEP/Vol. XIII/ PEP-03.4.1 i
Rev. 6
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1.0 Responsible Individual and Obiectives i
This procedure is intended to be used by Control Room personnel until the Dose Projection Team can be activated La the Technical Support Center.
2.0 Scope and Applicability.
This procedure is intended to enable a rapid determination of the severity of an em~ergency.
It should be implemented as the first step subsequent to recognition that an unplanned off-site release has occurred or could have occurred. The procedure can be used to make either whole body or thyroid dose projections. Thyroid dose projections made using this procedure are extremely conservative and are realistic only if there is i
reasonable assurance that significant quantities of iodine are being released.
The dose projections calculated by use of this procedure are to be compared against pre-established criteria (Emergency Action Levels and i
Protective Action Guidelines) for possible consequences off site. These projections pertain to the radioactive gases at ground level and do not include radiation from an overhead cicud that may contribute to the whole body dose at ground level. Under certain meteorological conditions (elevated release and E, F, or G stability classes), direct radiation 4
j from an overhead plume may produce somewhat higher doses than those calculated by this procedure.
i A simplified formula for estimating radiological consequences of an i
accidental release to the atmosphere is:
D=
x. Q eDCF Q
where D = Dose in rem.
x/Q = Atmospheric Dispersion Factor in units of sec/m*, and with values determined by atmospheric stability and wind speed.
Q = Source Term in curies per second.
DCF = Dose Conversion Factor.
NOTE:
This procedure makes use of scientific notation, i.e.,
2E-6 is I
the same as 2 x 10'0.
3.0 Actions List of Exhibits 3.4.1-1 Initial Dose Projection Record Sheet 4
i BSEP/Vol. XIII/ PEP-03.4.1 1
Rev. 6 i
-.--- -..--~
- n. - --. -,,, - - - -, -,. *.~.
3.1 Obtain a copy of Exhibit 3.4.1-1 (Initial Dose Projection Record Sheet) and record time and your initials in column 1.
4 3.2 Record in column 2 whether this calculatien is for whole body or thyroid dose projections. Recall that thyroid dose projections should only be made using this procedure if there is reasonable assurance that significant quantities of iodine are being released.
3.3 Determine wind speed, wind direction, and stability class using one of the following five methods listed in order of preferred use.
Record in column 3 of Exhibit 3.4.1-1.
NOTE:
USE UPPER WIND SPEED AND DIRECTION FOR A STACK RELEASE; OTHERWISE USE LOWER WIND SPEED AND DIRECTION.
3.3.1 If operable, use the plant computer or E&RC computer to obtain the wind speed, wind direction, and stability class.
3.3.2 Call E&RC and request meteorological data in accordance with PEP-02.6.20, Exhibit 2.6.20-1.
3.3.3 Call National Weather Service for area conditions (PEP Appendix A-4).
3.3.4 Call corporate m.eteorologists and request assistance from meteorological section (PEP Appendix A-4).
3.3.5 If there is no meteorological data readily available, a general estimate of the current Atmospheric Stability
~
Class can be made by visual observation, using the following table:
Sunny Cloudy Cloudy Clear Day Day Night Night light wind or calm B
C E
F
($ 4 m/sec or 8.9 mph) moderately strong wind C
D D
D
(> 4 m/sec or 8.9 mph)
NOTE:
Assume Stability Class D whenever it is raining.
s BSEP/Vol. XIII/ PEP-03.4.1 2
Rev. 6
3.4 Determine the x/Q value 3.4.1 If the release is from the stack, use Table 3.4.1-1.
(If not, go to Step 3.4.3.)
Read across the appropriate row based on wind speed to the x/Q value under the Atmospheric Stability Class determined in Step 3.3.
TABLE 3.4.1-1 METEOROLOGICAL DISPERSION (x/Q) VALUE AT BSEP PROPERTY BOUNDART (4000 FEET)
ELEVATED LEVEL RELEASE
- X/Q Values By A,tmospheric Stability Class Wind Speed (Units: sec/m )
{
a sph m/sec A
B C
D E
F G
1.0 0.4 4.1 E-6 2.1 E-5 3.0 E-5 5.2 E-6 1.4 E-7 6.5 E-12 2.0 E-22 2.0 0.9 2.1 E-6 1.1 E-5 1.5 E-5 2.6 E-6 6.8 E-8 3.3 E-12 9.9 E-23 3.0 1.3 1.4 E-6 7.1 E-6 1.0 E-5 1.7 E-6 4.6 E-8 2.2 E-12 6.6 E-23 4.0 1.8 1.0 E-6 5.3 E-6 7.6 E-6 1.3 E-6 3.4 E-8 1.6 E-12 4.9 E-23 5.0 2.2 8.3 E-7 4.3 E-6 6.1 E-6 1.0 E-6 2.7 E-8 1.3 E-12 4.0 E-23 6.0 2.7 6.9 E-7 3.6 E-6 5.1 E-6 8.7 E-7 2.3 E-8 1.1 E-12 3.3 E-23 7.0 3.1 5.9 E-7 3.0 E-6 4.4 E-6 7.5 E-7 2.0 E-8 9.3 E-13 2.8 E-23 8.0 3.6 5.2 E-7 2.7 E-6 3.8 E-6 6.6 E-7 1.7 E-8 8.2 E-13 2.5 E-23 9.0 4.0 4.6 E-7 2.4 E-6 3.4 E-6 5.8 E-7 1.5 E-8 7.2 E-13 2.2 E-23 10.0 4.5 4.1 E-7 2.1 E-6 3.0 E-6 5.2 E-7 1.4 E-8 6.5 E-13 2.0 E-23 11.0 4.9 3.8 E-7 1.9 E-6 2.8 E-6 4.8 E-7 1.2 E-8 5.9 E-13 1.8 E-23
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12.0 5.4 3.5 E-7 1.8 E-6 2.5 E-6 4.4 E-7 1.1 E-8 5.4 E-13 1.6 E-23 13.0 5.8 3.2 E-7 1.6 E-6
-2.3 E-6 4.0 E-7 1.1 E-8 3.0 E-13 1.5 E-23 14.0 6.2 3.0 E-7 1.5 E-6 2.2 E-6 3.7 E-7 9.8 E-9 4.7 E-13 1.4 E-23 15.0 6.7 2.8 E-7 1.4 E-6 2.0 E-6 3.5 E-7 9.1 E-9 4.3 E-13 1.3 E
- 16.0 7.2 2.6 E-7 1.3 E-6 1.9 E-6 3.3 E-7 8.5 E-9 4.1 E-13 1.2 E-23 17.0 7.6 2.4 E-7 1.3 E-6 1.8 E-6 3.1 E-7 8.8 E-9 3.8 E-13 1.2 E-23 18.0 8.0 2.3 E-7 1.2 E-6 1.7 E-6 2.9'E-7 7.6 E-9 3.6 E-13 1.1 E-23 19.0 8.5 2.2 E-7 1.1.E-6 1.6 E-6 2.8 E-7 7.2 E-9 3.4 E-13 1.0 E-23 20.0 8.9 2.1 E-7 1.1 E-6 1.5 E-6 2.6 E-7 6.8 E-9 3.3 E-13 9.9 E-24 21.0 9.4 2.0 E-7 1.0 E-6 1.5 E-6 2.5 E-7 6.5 E-9 3.1 E-13 9.4 E-24 22.0 9.8 1.9 E-7 9.7 E-7 1.4 E-6 2.4 E-7 6.2 E-9 3.0 E-13 9.0 E-24 23.0 10.3 1.8 E-7 9.3 E-7 1.3 E-6 2.3 E-7 3.9 E-9 2.8 E-13 8.6 E-24 24.0 10.7 1.7 E-7 8.9 E-7 1.3 E-6 2.2 E-7 5.7 E-9 2.7 E-13 8.2 E-24 25.0 11.2 1.7 E-7 8.5 E-7 1.2 E-6 2.1 E-7 5.5 E-9 2.6 E-13 7.9 E-24 26.0 11.6 1.6 E-7 8.2 E-7 1.2 E-6 2.0 E-7 5.3 E-9 2.5 E-13 7.6 E-24 27.0 12.1 1.5 E-7 7.9 E-7 1.1 E-6 1.9 E-7 5.1 E-9 2.4 E-13 7.3 E-24
,28.0 12.5 1.5 E-7 7.6 E-7 1.1 E-6 1.9 E-7 4.9 E-9 2.3 E-13, 7.1 E-24 l29.013.0 1.4 E-7 / 7.4 E-7 1.1 E-6 1.8 E-7 4.7 E-9 2.2 E-13I6.8 E-24 30.0 13.4 1.4 E-7 7.1 E-7 1.0 E-6.1.7 E-7 4.6 E-9 2.2 E-13 4 6.6 E-24
- For stack release using upper level wind speed.
NOTE:
If wind speed is between adjacent values, use the lower value to find x/Q.
3.4.2 Record the selected x/Q value in column 4 of Exhibit 3.4.1-1.
BSEP/Vol. XIII/ PEP-03.4.1 3
Rev. 6 4
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l 3.4.3 If release is NOT from the stack, use Table 3.4.1-2.
Read across the appropriate row based on wind speed to the X/Q value under the Atmosphere Stability class determined in Step 3.3, Table 3.4.1-2.
TABLE 3.4.1-2 METEOROLOGICAL DISPERSION (x/Q) VALUE AT BSEP PROPERTY BOUNDARY (4,000 FT.)
GROUND LEVEL RELEASE
- l x/Q Values By Atmospheric Stability Class Wind Speed (Units: sec/m*)
mph m/sec A -
B C
D E
F G
l 1.0
'O.4 4.2 E-6 2.8 E-5 7.7 E-5 2.3 E-4 4.7 E-4 1.1 E-3 2.5 E-3 2.0 0.9 2.1 E-6 1.4 E-5 3.9 E-5 1.2 E-4 2.3 E-4 5.4 E-4 1.2 E-3 3.0 1.3 1.4 E-6 9.3 E-6 2.6 E-5 7.8 E-5 1.6 E-4 3.6 E-4 8.2 E-4 4.0 1.8 1.0 E-6 7.0 E-6 1.9 E-5 5.8 E-5 1.2 E-4 2.7 E-4 6.1 E-4 5.0 2.2 8.4 E-7 5.6 E-6 1.5 E-5 4.7 E-5 9.4 E-5 2.1 E-4 4.9 E-4 6.0 2.7 7.0 E-7 4.7 E-6 1.3 E-5 3.9 E-5 7.8 E-5 1.8 E-4 4.1 E-4 7.0 3.1 6.0 E-7 4.0 E-6 1.1 E-5 3.3 E-5 6.7 E-5 1.5 E-4 3.5 E-4 8.0 3.6 5.2 E-7 3.5 E-6 9.7 E-6 2.9 E-5 5.9 E-5 1.3 E-4 3.1 E-4 9.0 4.0 4.7 E-7 3.1 E-6 8.6 E-6 2.6 E-5 5.2 E-5 1.2 E*4 2.7 E-4 10.0 4.5 4.2 E-7 2.8 E-6 7.7 E-6 2.3 E-5 4.7 E-5 1.1 E-4 2.5 E-4 11.0 4.9 3.8 E-7 2.5 E-6 7.0 E-6 2.1 E-5 4.3 E-5 9.8 E-5 2.2 E-4 12.0 5.4 3.5 E-7 2.3 E-6 6.5 E-6 1.9 E-5 3.9 E-5 8.9 E-5 2.0 E-4
(
13.0 5.8 3.2 E-7 2.1 E-6 6.0 E-6 1.8 E-5 3.6 E-5 8.3 E-5 1.9 E-4 14.0 6.2 3.0 E-7 2.0 E-6 5.5 E-6 1.7 E-5 3.4 E-5 7.7 E-5 1.8 E-4 15.0 6.7 2.8 E-7 1.9 E-6 5.2 E-6 1.6 E-5 3.1 E-5 7.2 E-5 1.6 E-4 16.0 7.2 2.6 E-7 1.7 E-6 4.8 E-6 1.5 E-5 2.9 E-5 6.7 E-5 1.5 E-4 17.0 7.6 2.5 E-7 1.6 E-6 4.6 E-6 1.4 E-5 2.8 E-5 6.3 E-5 1.4 E-4
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18.0 8.0 2.3 E-7 1.6 E-6 4.3 E-6 1.3 E-5 2.6 E-3 6.0 E-5 1.4 E-4 19.0 8.5 2.2 E-7 1.5 E-6 4.1 E-6 1.2 E-5 2.5 E-5 5.6 E-5 1.3 E-A 20.0 8.9 2.1 E-7 1.4 E-6 3.9 E-6 1.2 E-5 2.3 E-5 5.4 E-5 1.2 E-4 121.0 9.4 2.0 E-7 1.3 E-6 3.7 E-6 1.1 E-5 2.2 E-5 5.1 E-3 1.2 E-4
'22.0 9.8 1.9 E-7 1.3 E-6 3.5 E-6 1.1 E-5 2.1 E-5 4.9 E-3 1.1 E-4 23.0 10.3 1.8 E-7 1.2 E-6 3.4 E-6 1.0 E-5 2.8 E-5 4.7 E-5 1.1 E-4 24.0 10.7 1.7 E-7 1.2 E-6 3.2 E-6 9.7 E-6 2.0 E-5 4.5 E-5 1.0 E-4
[25.0 11.2 1.7 E-7 1.1 E-6 3.1 E-6 9.4 E-6 1.9 E-5 4.3 E-5 9.8 E-5 l:26. 0 11.6 1.6 E-7 1.1 E-6 3.0 E-6 9.0 E-6 1.8 E-5 4.1 E-5 9.4 E-5 h27.0 : 12.1 1.6 E-7 1.0 E-6 2.9 E-6 8.7 E-6 1.7 E-5 4.0 E-5 9.1 E-5
- 28.0'12.5 1.5 E-7 1.0 E-6 2.8 E-6 8.4 E-6 1.7 E-5 3.8 E-5 8.8 E-3
- 29.0 13.0 1.5 E-7 9.6 E-7 2.7 E-6 8.1 E-6 1.6 E-3 3.7 E-5 8.4 E-5 7.8 E-6 1.6 E-5 3.6 E-5, S.2 E-5 9.3E-7l2.6E-6 30.0 13.4 1.4 E-7 i
- For vent release using lower level wind speed.
g NOTE:
If wind speed is between adjacent values, use the lower value to find x/Q.
3.4.4 Record the selected x/Q value in column 4 of Exhibit 3.4.1-1.
BSEP/Vol. XIII/ PEP-03.4.1 4
Rev. 6
3.5 Determine Source Term i
3.5.1 Determine which effluent radiation monitor is (or monitors are) indicating an abnormal release.
3.5.2 Determine the release rate (pCi/sec) indicated by this monitor (s) as per PEP-03.6.1, " Release Estimates Based upon Stack / Vent Readings."
3.5.3 For whole body dose projections, calculate the release
-6 rate in Ci/sec = (pCi/sec) X (1.0 X 10 Ci/pC1).
OR 3.5.4 For thyroid dose projections, calculate the release rate in Ci/sec = (pCi/sec) X (1.0 X 10'0 Ci/uC1) X (0.15).
3.5.5 Record the results of either Steps 3.5.3 or 3.5.4 in column 5 of Exhibit 3.4.1-1.
3.6 Determine Dose Conversion Factor 3.6.1 Use Table 3.4.1-3 to determine the Whole Body or Thyroid Dose Conversion Factor (DCF). Record the appropriate DCF in column 6 of Exhibit 3.4.1-1.
TABLE 3.4.1-3 DOSE CONVERSION FACTORS (Rem /hr)/(Ci/m*)
Accident Condition Whole Body Thyroid Unknown / unidentified 28'7 7.49E+5 Major damage to fuel cladding 287 7.49E+5 RCS leaks or steam line leaks 133 1.25E+6 but no major cladding failure Accidental discharge of waste gas 45 2.06E+6 Fuel handling accident 19 2.94E+6 3.7 To obtain the projected dose at the property boundary, multiply column 4 x column 5 x column 6 = column 7.
Record the product in column 7 of Exhibit 3.4.1-1.
v.
BSEP/Vol. XIII/ PEP-03.4.1 5
Rev. 6 l
NOTE:
If the release was via the stack (elevated), maximum e'
radiological exposures could occur beyond the property boundary depending on stability class. Step 3.8 projects doses at distances beyond the property boundary for both elevated and ground level releases.
3.8 Determine Extrapolation Factor 3.8.1 If the release.is from the stack, use Table 3.4.1-4.
(If not, go to Step 3.8.3.)
Read across the appropriate row based on distance from the plant to the extrapolation factor under the atmospheric stability class determined in Step 3.3.
NOTE:
With an elevated release, maximum radiological exposures may occur beyond the property boundary depending on stability class. The following table indicates the downwind distance where maximum exposures are likely to occur as the result of an elevated release.
Stability Class Downwind Distance A
0.27 miles (0.43 km)
B 0.45 miles (0.72 km)
C 0.76 miles (1.22 km)(Property Boundary)
D 1.8 miles (2.9 km)
C E
3.5 miles (5.6 km)
F 9 miles (14.5 km)
G 33 miles (53 km)
TABLE 3.4.1-4 EXTRAPOLATION FACTOR FOR ESTIMATING DOSES BEYOND BSEP PROPERTY BOUNDARY-(4,000 ft.)
ELEVATED RELEASE DISTANCE FROM PLANT EX'IRAPOLATION FACTORS BY ATMOSPHERIC STABILITY CLASS Miles' km A
B C
D E
F G
i 1
1.6 4.2 E-1 6.6 E-1 9.2 E-1 2.1 8.4 E+0 2.3 E+2 4.2 E+5 2
3.2 5.2 E-2 1.9 E-1 3.8 E-1 3.4 6.7 E+1 8.8 E+4 8.5 E+11 3
4.8 1.6 E-2 8.4 E-2 2.0 E-1 2.8 8.7 E+1 3.3 E+5 3.4 E+13 4
6.4 6.5 E-3 4.7 E-2 1.2 E-1 2.2 8.6 E+1 5.8 E+5 1.8 E+14 5
8.0 3.4 E-3 3.1 E-2 8.2 E-2 1.8 8.0 E+1 7.3 E+5 4.6 E+14 6
9.7 2.0 E-3 2.1 E-2 5.9 E-2 1.4 7.3 E+1 8.1 E+5 8.4 E+14 7
11.3 1.2 E-3 1.5 E-2 4.5 E-2 1.2 6.6 E+1 8.8 E+5
- 1. 3 E+15 8
12.9 8.2 E-4 1.2 E-2 3.6 E-2 1.0 6.0 E+1 8.8 E+5
- 1. 6 E+15 9
14.5 5.8 E-4 9.4 E-3 ;2.8 E-2 8.6 E-1 5.5 E+1{8.8 E+5 2.2 E+15 10
. 16.1 4.3 E-4 7.6 E-3 !2.4 E-2
- 7. 6 E-1 4. 9 E+1 ' 8. 8 E+5
- 2. 5 E+15 I
3.8.2 Record the selected extrapolation factor in column 8 of Exhibit 3.4.1-1.
BSEP/Vol. XIII/ PEP-03.4.1 6
Rev. 6
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3.8.3 If the release is not from the stack, use Table 3.4.1-5.
Read across the appropriate row based on distance from the
. plant to the extrapolation factor under the atmospheric stability class determined in Step 3.3.
TABLE 3.4.1-5 EXTRAPOLATION FACTOR FOR ESTIMATING DOSES BEYOND BSEP PROPERTY BOUNDARY.(4,000 ft.) GROUND LEVEL RELEASE DISTANCE FROM PLANT
RAPOLATION FACTORS BY ATMOSPHERIC STABILITY CLASS Miles km A
. B C
D E
F G
1 1.6 4.3 E-1 '
'1 6.1 E-1 6.4 E-1 6.3 E-1 6.5 E-1 6.5 E-1 2
3.2 5.3 E-2 1.2 t.7 E-1 2.2 E-1 2.3 E-1 2.3 E-1 2.4 E-1 3
4.' 8 1.6 E-2 6.5 E-2
- E-2 1.2 E-1 1.3 E-1 1.3 E-1 1.4 E-1 4
6.4 6.5 E-3 3.7 E-2 4.,
7.8 E-2 8.4 E-2 9.3 E-2 1.0 E-1 5
8.0 3.4 E-3 2.4 E-2 3.2 E.
' 6 E-2 6.3 E-2 7.0 E-2 7.6 E-2 6
9.7 2.0 E-3 1.6 E-2 2.4 E-2
-2 4.9 E-2 5.6 E-2 6.1 E-2
~
7 11.3 1.2 E-3 1.2 E-2 1.8 E-2 3.*
4.0 E-2 4.4 E-2 5.0 E-2 8
12.9 8.2 E-4 9.1 E-3 1.4 E-2 2.8 E-2 3.4 E-2 3.7 E-2 4.3 E-2 9
14.5 5.8 E-4 7.3 E-3 1.2 E-2 2.3 E-2 2.9 E-2 3.3 E-2 3.8 E-2 10 16.1 4.3 E-4 5.9 E-3 9.4 E-3 2.0 E-2 2.5 E-2 2.8 E-2.
3.3 E-2 3.8.4 Record selected extrapolation factor in column 8 of Exhibit 3.4.1-1.
3.9 To obtain projected dose at points beyond the property boundary,
. multiply column 7 x column 8 = column 9.
Record the product in column 9 of Exhibit 3.4.1-1.
Indicate the distance from the property boundary the projected dose' represents.
3.10 Report the projected doses to the Site Emergency Coordinator or Radiological Control Director.
3.11 Refer to PEP-02.1, Section 4, " Abnormal Radiological Effluent or Radiation Levels" to determine if any EAL has been met or exceeded.
If the EAL for a general emergency has been met, refer to Exhibit 2.5-4 for recommended protective actions.
3.12 Repeat this procedure whenever source term or meteorological conditions change or as directed.
BSEP/Vol. XIII/ PEP-03.4.1 7
Rev. 6 9
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s CAROLINA POWER & LIGHT COMPANY BRUNSWICK STEAM ELECTRIC PLANT UNIT 0 RELEASE ESTIMATES BASED UPON STACK / VENT READINGS PLANT EMERGENCY PROCEDURE:
PEP-03.6.1 VOLUME XIII
(,.
Rev. 004 6!2,fg3 Recommended By:
Date:
~
Director j inistrative Su b t Approved By:
.h Date:
( /2 2 [t:ri
/
General Manater
),
1 2
LIST OF EFFECTIVE PAGES PEP-03.6.1 Page(s)
Revision 1-8 4
l BSEP/Vol. XIII/ PEP-03.6.1 i
Rev. 4
1.0 Responsible Individual and Objectives The Radiological Control Director is responsible to the Site Emergency Coordinator for determining the magnitude and rate of radioactive release to the environment. The Radiological Control Director may delegate the calculational aspects of this procedure to the Dose Projection Coordinator. This procedure may be used by the Control Room personnel until the dose projection team is activated in the Technical Support Center.
2.0 Scope and Applicability This procedure shall be implemented by the Sits Emergency Coordinator, or by the Radiological Control Director, whenever an abnormal radiological l
release through an identifiable release point is suspected, including any Site or General Emergency. The only apparatus required is a scientific calculator.
3.0 Actions and Limitations NOTE:
The detector response will depend on the specific isotopic mixture being released at various times. Grab samples must be taken, analyzed and evaluated to provide an exact relationship; however, the predetermined relationship used in this procedure should be sufficiently accurate to guide initial emergency response actions and assessments.
(
List of EXHIBITS:
3.6.1-1 Source Term Calculation from Plant Stack Monitors 3.6.1-2 Source Term Calculation from #1 RX Gas (1-CAC-AQH-1264-3) 3.6.1-3 Source Term Calculation from #1 Turbine Vent l
3.6.1-4 Source Term Calculation from #2 Rx Gas (2-CAC-AQH-1264-3) 3. 6.- 1-5 Source Term Calculation from #2 Turbine Gas (2-VA-AQH-3215-3)
(Low Range) 3.6.1-6 Source Term Calculation from #2 Turbine Building Vent (High Range) 3.1 Depending upon alarming channel (s), use appropriate EXHIBIT (EXHIBIT 3.6.1-1 through EXHIBIT 3.6.1-6) to calculate the release source term.
Note:
If the time duration of the release is unknown, assume 60 minutes and perform this procedure as directed by the t
Radiological Control Director.
3.2 If only one channel is alarming or reading abnormally high, the source term determined on the appropriate EXHIBIT is the total.
BSEP/Vol. XIII/ PEP-03.6.1 1
Rev. 4
3.3 If multiple building vent radiation monitors are alarming (and not l
monitoring the same point), calculate the individual source terms and sum them to obtain the total source term.
NOTE:
Source terms calculated for the stack should not be added to source terms calculated for alarming vent monitors
?
since stack source terms represent elevated rather than l
ground level releases.
If the stack and' vent monitors are alarming, then. separate elevated and ground level source terms should be calculated and applied separately to dose calculations. The resultant off-site dose projections can then be summed to assess the total impact of the releases.
3.4 Report the source term to the Radiological Control Director (Radio-logical Control Manager after the Emergency Operations Facility is activated) for use in appropriate dose projection procedure from PEP-Section 3.4.
(
I e
l i
i 1
i i
l l
SSEP/Vol. XIII/ PEP-03.6.1 2
Rev. 4 l
EXHIBIT 3.6.1-1 f
d SOURCE TERM CALCULATION FROM STACK MONITORS Release rate is read in pCi/sec directly from 2-D12-RR-4600 (effluent channel) when the 2-VA-FT-3359 flow instrument loop is operational. The following calculations are necessary when this loop is not operational".
l l
CONVERSION MONITOR
- FACTOR RELEASE READING FLOW cc/sec RATE
- i 8
I l
TIME,
(yCi/cc)
(cfm) cfm (yci/sec) 472 1
I i
i e
1
(
i t
i i
i i
I The monitor automatically selects the most accurate operational channel, r
either lov, mid, or high range. Read the pCi/cc from the appropriate channel (low, mid, or high) of 2-D12-RR-4599.
If not available, use the sum of design flows for systems exhausting to the stack:
Steam Jet Air Ejectors (A & B) 300 SCFM ea.
Radwaste Bldg. Vent (2 fans) 23,100 SCFM ea.
Purge Fans (2 fans) 7,200 SCFM ea.
Standby Gas (per train - 2 trains) 3,500 SCFM ea.
Release rate (pCi/sec) = pCi/cc X cfm X 472 s
BSEP/Vol. XIII/ PEP-03.6.1 3
Rev. 4
EXHIBIT 3.6.1-2 SOURCE TERM CALCULATION FROM til Rx GAS (1-CAC-AQH-1264-3)
HETER RELEASE (3)
II)
EFFICIENCY (2)
RATE READING FLOW TIME (cpm)
(cfm)
FACTOR (uCi/sec)
(
()
If not available use 43,200 cfm per discharge fan times the number of fans operating.
()
The efficiency factors posted on the front panel of the stack, reactor buildings monitors.
If not posted, these values can be obtained from E&RC File 13324, or use 8.6E-6.
I f) Release Rate = cpm X cfm X Efficiency Factor i
BSEP/Vol. XIII/ PEP-03.6.1 4
Rev. 4
EXHIBIT 3.6.1-3 l
SOURCE TERM CALCULATION FROM #1 TURBINE VENT Release rate is read in pCi/sec directly from 1-D12-RR-4549 (effluent channel) when the 1-VA-FT-3358 flow instrument loop is operational. The following calculations are necessary when this loop is not operational.
CONVERSION MONITOR FACTOR RELEASE READING ( )
FLOW (2) cc/see RATE (3)
TIME (VCi/cc)
(cfm) cfm (uCi/sec)
I 472 i
i I
i I
1 I
l t
l I
{
i-s i
!i i
i i
( )
The monitor automatically selects the most accurate operational channel, either low, mid, or high range. Read the pCi/cc from the appropriate channel (low, mid, or high) of 2-D12-RR-4548.
l
(
If not available, use 15,000 cfm.
)
Release Rate (uC1/sec) = pCi/cc X cfm X 472 s
i BSEP/Vol. XIII/ PEP-03.6.1 5
Rev. 4
f, EXHIBIT 3.6.1-4 SOURCE TERM CALCULATION FROM #2 Rx GAS (2-CAC-AQH-1264-3)
METER RELEASE (3)
II)
EFFICIENCY (2)
RATE READING FLOW TIME (com)
(cfm)
FACTOR (uCi/sec) l t
?
\\
f i
I i
(1).If not available use 43,200 cfm per discharge fan times the number of fans operating.
f (2)
The efficiency factors posted on the front panel of the stack, reactor buildings monitors.
If not posted, these values can be obtained from RC&T File 13324, or use 9.26E-6.
(3)
Release Rate = cpm X cfm X Efficiency Factor 3
s BSEP/Vol. XIII/ PEP-03.6.1 6
Rev. 4 1
_~
_ __., _,.. _ _. _, _... _ _. _, _ -, _.,. ~, _. _..... _... _.
m..
EXHIBIT 3.6.1-5 SOURCE TERM CALCULATION FROM (12 TURBINE GAS (2-VA-AQH-3215-3) (LOW RANGE)
METER RELEASE ( )
READING FLOW (1)
EFFICIENCY (2)
RATE
__ TIME (cpm)
(cfm)
FACTOR (pCi/sec)
{
()
If not available, use 15,000 cfm.
( )
The afficiency factors posted on the front panel of the stack, reactor buildings monitors.
If not posted, these values can be obtained from RC&T File 13324, or use 1.11E-5.
()
Release Rate = cpm X cfm X Efficiency Factor A
i BSEP/Vol. XIII/ PEP-03.6.1 7
Rev. 4 i
\\
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--,--->s--- - -
EXHIBIT 3.6.1-6 Source Term Calculation from Unit No. 2 i
Turbine Building Vent (High Range)
.001
,. 01 i.1
,1. 0
,10 100 10'
~
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.1 1.0 10 100 Indicated Dose, R/hr TEMPORARY GASEOUS EFFLUENT RADIATION MONITORS To determine total release activity (microcuries/sec) from a Turbine l
Building vent:
1.
Read the " actual specific activity (curies /cc)" from the graph as a function of the dose rate (R/hr) indicated on the meter.
i 2.
Read flowmeter for the specific release point (SCFM).
3.
Calculate total release (pCi/sec) = Specific Activity (Ci/cc) x Flow Rate (SCFM) x 28300 (cc/SCF) x.0167 (min /sec) x 1.0 x 10+6 ( Ci/C1)
Graph parameters based on the projected isotopic distribution 30 minutes after l
i a TMI-based accident. Referenco:
BSE,P/Vol. XIII/ PEP-03.6.1 8
Rev. 4 i
CAROLINA POWER & LIGHT COMPANY BEUNSWICK STEAM ELECTRIC PLANT UNIT 0 EMERGENCY RESPONSE RESOURCES PLANT EMERGENCY PROCEDURES:
PEP-APPENDIX A VOLUME XIII
(
Rev. 008 b!iV!t 3 Recommended By:
Date:
Director - Adm rative Support Approved By: Ak kflAh Date:
SitP/3 General Manager b
dj k
=
a p
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LIST OF EFFECTIVE PAGES PEP-APPEhTIX A Pages Revision 1-5 8
6 7
7 8
8-9 7
10 8
(
~
BSEP/ PEP-APPENDIX A i
Rev. 8
CPT Page 1 5-15-83
/'ORPORATE E?1ERGENCY RESPONSE PLAN TELEPiiONE DIRECTORY a
AMERICAN NUCLEAR INSURERS (ANI)
[$hibbh Richmond feytyF after hours)
%i?v?l,@..kLyf:.,CfgP
%;Wib'i^
~
Connecticut ATOMIC I'NDUSTRIAL FORUM (AIF) fter hours)
CORPORATE EMERGENCY RESPONSE CENTER (CERC) y3-OJRP 'O d it 5
Yt..'d
)
System Operator's PBX-393 Reception Area / Floor Security Team Work Areas:
Administrative Services Q. ;
j@.p.,
Design & Construction Support
@jg; Advisory Support Oe Technical Support
(;f/4 Scheduling / Planning 5th Floor OJRP Office Numbers F. M. Alligood -
R. L. Baldwin R. H. Leasburg g
H. L. f1 iller C
j,yg W. L. Stewart sr
-e
,e e
CPT Page 2 05-15-83 C&P TELEPHONE COMPANY (North Anna)
Primary Sheldon R. Lesh Business Home Md
..3SR g$&n;%(s Alternate J. R. Werner Business j;-g
- y g.;lpy;%p 11ome gX G Ib;;h Emergency Center
';&#Rn3.g Bob Dawdson Business kfb Os SjkIkh;p(,;.j[
il Home g
asp.g$
W'3 t 5
thk 0:w -
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For Pay Telephone Trailers (North Anna)
- F..t.
r 1-(QQ ' f,(y'.'
Primary K. C. Moore Business Home
.OJi 4. :
GN:
~. M ;7 Home J
w + ;.. ~:.q;..
u s.
0,N[h[ ( g ~
Alternate George A. Bruner, Jr.
Business m's g'mi Home
~.
s In case of' an emergency, Pay Telephone Trailers are available from C&P or Continental Telephone for Surry.
CONTINENTAL TELEPHONE COMPANY (Surry)
Primary Dan Stainback Business i -
Home San
- h<','f*?.;,,
i.
Alternate flal Willson Business
.. r.
Ilome 7
es 7
CONTROL ROOMS North Anna Surry Lk lN'
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CPT Page 6 05-15-83 l
RADIATION EMERGENCY ASSISTANCE CENTER / TRAINING OFFICE (REAC/TS)
Emergency No. ( -
gh Nd*" '
(Oak Ridge, TN)
RUMOR CONTROL CENTER STONE & WEBSTER EM R h
hkt4%jf s
~'
Boston, Mass.
Gordon Burroughs Business i(pfpjj hjft}{y m,-:,-
H me
- v., :. *.., > $ m North Anna C. H. Wilbur Business 16Af/h:@2f/
Home O SjdWJ,A.iWb-;,
0$;NSlh b hl?i 3:e 74%ld{s4lV%;
Surry A. K. Banerjee Business Home Y!Wi!kuSNS c$ d d %'$biQydif M 49ffME'.
QT'f'h
~~~
TECHNICAL SUPPORT CENTERS (TSC)
North _ Anna Louisa County (Via Richmond -
M..:.
Emergency Director
~, '!l6 Health Physics
?ph Operations T.
-"2 Technical Services Maintenance Surry 3((.
Surry County O
G
-....-a uc s u..
. - ~. _..
CPT Page 7 05-15-83 TELECOPIER NU?.1BERS North Anna
'd
( Admin. Bldg.)
4 ->.
L, Surry_
g;;;;Cg
( Admin. Bldg.)
M[gmi:.p ut
. y 22yy
-(( :(*
Public News Center (OJRP Auditorium) A+cr.;$.,! 3/
r Local niedia Center - pi'.@%gf _
- '[:t{D 5
(J3'
~ I-WI,;@,
North Annu 4.'kA8
~
M@W#N (Mineral Fire Dept.
(Lebanon Elementary
- 7;Q:%yg Surry M
~
/ :,t%
n - vrw, f"E,rN;;gghx.
s l'
g (Emergency)
INPO f
(Regular)
(Atlanta)
$T
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26[Q4 (Bethesda)
.f iffNJ:[4
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( Atlanta)
QNih%
17 ad tzdM
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$AI,EMA((
Stone & Webster (Boston) pW" G/.M-
, n g :a ~
~.N ' :
3r (Pittsburgh)
State Office of Emergency and Energy Services (SOEES)
~
State Emergency Operations Center (EOC)
(24 hr. operation)
WATS / ECON-CALL NUtlBERS_
WATS - (Virginia) 710 + 1 + area code (if other than 804) + 7-digit number WATS - (Interstate)715 + 1 + area code + 7-digit number Econo-Call 717. + (area code) + 7-digit number (Do not_ dial the prefix "1" as is required for WATS and Direct Long Distance)
SD _ _ _ - - - _ _ _ _ _ - _ _ _ - - _ - _ - _ - - - - - - - - - -
CPT Page 9 05-15-83 CERP TELEPIlONE DIRECTORY Mame CPIP Ilome Office
=2
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3 g_e. g ww g cq.m.-
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Note:
All numbers shown as they would be dialed from Richmond.
SPS Extensions can be reached from OJRP with 62 + extension.
NAPS Extensions can be reached from OJRP with 67 + extension.
a
b, -
CPT Page 10 j
05-15-83 CERP TELEPIIONE DIRECTORY (Cont.)
Name CPIP flome Office Danylo, J. C.
7 e; e Rg_n%s.g.g[p
^
k Davis, D. S.
2
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2 Girvin, L. 51.
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6 Grier, A. B1.
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CPT Page 11 05-15-83 CERP TELEPliONE DIRECTORY (Cont.)
Name CPIP Ilome Office l
l
%,pdQS%yJg Ilerndon, J. A.
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Rev. 8
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Home Phone Office 6
SECURITYSPECIALIST(EMERGENCYSECURITYLEADER)/
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Environmental and Radiation Control Home Office Foremen l
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,W BSEP/ PEP-APPENDIX A.1 4
Rev. 8
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Qualified Operators for Emergency Switchboard Home Office f
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'u-g'I;'%4'zpW,mp Annette Clemmons 3
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R Charlotte Frye R
Jzely J@.tt;O.#> t.p: ynAgy"wl Kay Hewett 44 s
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EOF Personnel EOF Communicator
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Mike Jones y " n.4W gn.
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Wayne Martin yy uy-m p wa.g;.
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v Brenda Unger
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Evelyn Johnson DC.. kO.. WMA..x.j)g5.w@'M5. %h?[~
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Doug Allen W^
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h@O~"2M$$lkh&YkW George Milligan
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Bob Beverage
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Ed Thorndyke 3z
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Connie Cathey e.m,, 9
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BSEP/ PEP-APPENDIX A.1 S
Rev. 8 J
APPENDIX A.2 - FEDERAL, STATE, AND COUNTY AGENCIES U.S. NUCLEAR REGULATORY COMMISSION, REGION II Atlanta, Georgia (Daytime, Nights an no a. id a HPN - Black Phone System Rotary Dia Touch Ton g#g, Bethesda, Maryland Qg@W (Upon failure of Red enone EN )
HPN - Black Phone System Rotary Dia Touch Tone (To operate the HPN System, lift receiver and dial the desired party. ho dial tone is heard.)
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DEPARTMENT OF ENERGY
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Savannah River Operations Office
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Radiological Assistance Teams G"$jj@UT,. s^t"F W. T. Thornton QMn ";$M2ii S. R. Wright
[yIf g O Primary Alternate (During Normal Working Hours)
STATE OF NORTH CAROLINA
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State Warning Point gddsw %gp epgK Hi,hway Patrol f
M Radiological Health Branch g
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Mr. Dayne Brown t
BRUNSWICK COUNTY p e'A S @v g;s ~
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Z Warning Pc, int i
(County Sheriff) 4 Civil Preparedness u >;;
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(Mr. Cecil Logan)
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NEW HANOVER COUNTY c
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Warning Point (County Sheriff - Sheriff J. Mc g r' j2g
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&t2 Civil Preparedness ew
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4 (Mr. Ben Washburn)
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f" U.S. COAST GUARD cQy.
dggp Marinc Safety Office.
1m (Duty Officer, Wrightsville Beach)
FEDERAL AVIATION ADMINISTRATION hI{$v.
- Automatic Ring-Down dedicated telephone line BSEP/ PEP-APPENDIX A.2 7
Rev. 8
l'.
o GENERAL ELECTRIC San Jose, California 408/971-1038 UNITED ENGINEERS AND CONSTRUCTORS Philadelphia, Pennsylvania 215/422-4844 BABC0CK AND WILCOX EMERGENCY PROTOCOL For Postaccident Sample Analysis Emergency Contacts The following individuals are the points of contact within B&W for emergency notification that BSEP is preparing to ship a postaccident sample to the Lynchburg Research Center (LRC):
Emergency Control Officer:
Mr. J. P.
(Pat) Doran,-
Work Phone SdNN E dP Home Phone 8 "i l
- Emegency Control Officer - Alternate:
Mr. A. F. (Arne) Olsen
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Work Phone
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. F.Cl.fl' N. Gi' Home Phone Gnl : '"
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Required Information s
When notifying the B&W Emergency Control Officer (ECO), the caller should be prepared to supply the following information:
1.
The plant involved, the name of the individual making contact, and the name and telephone numbers of the responsible person at the utility to whom follow-up communication should be addressed.
2.
The number and type of samples to be shipped; i.e., liquid, gaseous and/or charcoal cartridge.
3.
Measured radiation levels from the shipping container at the surface and at three feet.
4.
The estimated shipping time and time of arrival at the Lynchburg (Virginia) Municipal Airport.
(If shipment by other than air transport is intended, the carrier and time of arrival at the Lynchburg Research Center should be specified.)
RADIATION EMERGENCY ASSISTANCE CENTER / TRAINING SITE (REAC/TSJ Dr. Karl Hubner j
BSEP/ PEP-APPENDIX A.4 10 Rev. 8