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{{#Wiki_filter:ATTACHMENT B3.1.43.1.4.1a~b.c~3.1.4.2MaximumCoolantActivitSecifications Wheneverthereactoriscriticalorthereactorcoolantaveragetemperature isgreaterthan500F:Thetotalspecificactivityofthereactorcoolantshallnotexceed8+k'99/EpCi/gm,whereEistheaveragebetaandgammaenergiesperdisintegration inMev.TheI-13180'88equivalent oftheiodineactivityinthe'eactor coolantshallnotexceedEh-2~l.:'.-';:9 p,i/gm.TheI-131equivalent oftheiodineactivityonthesecondary sideofasteamgenerator shallnotexceed0.1pCi/gm.Ifthelimitof3.1.4.1.a isexceeded, thenbesubcritical withreactorcoolantaveragetemperature lessthan500'Fwithin8hours.3.1.4.3a~IftheI-131equivalent activityinthereactorcoolantexceedsthelimitof3.1.4.1.b butislessthantheallowable limitshownonFigure3.1.4-1,operation maycontinueforupto168hours.3:-&-hheAmendment No.273.1-219405310171'00S2Z PDR.,'DOCK
{{#Wiki_filter:ATTACHMENT B 3.1.4     Maximum    Coolant    Activit S  ecifications 3.1.4.1    Whenever      the reactor is critical or the reactor coolant average temperature is greater than 500 F:
.05000244; iP,,,PDR' weredesignedforoperation with14defec>.Thelimitforsecondary iodineactivityisconservatively established withrespecttothelimitsonprimarysystemiodineactivityandprimary-to-secondary leakage(Specification 3.1.5.2).
a~  The total specific activity of the reactor coolant shall not exceed 8+ k'99/E pCi/gm, where E is the average beta and gamma energies per disintegration in Mev.
Iftheactivityshouldexceedthespecified limitsfollowing apowertransient themajorconcernwouldbewhetheradditional fueldefectshaddeveloped bringingthetotaltoabove14defects.Appropriate actiontobetakentobringtheactivitywithinspecification includeoneormoreofthefollowing:
: b. The I-131 80'88 equivalent of the iodine activity in coolant shall not exceed Eh-2 ~l.:'.-';:9 p, i/gm.
gradualdecreaseinpowertoalowerbasepower,increaseinletdownflowrate,andventingofthevolumecontroltankgasestothegasdecaytanks.Thespecified activitylimitsprovideprotection tothepublicagainstthepotential releaseofreactorcoolantactivitytotheatmosphere, asdemonstrated bytheanalysisofasteamgenerator tuberuptureaccident.+
the'eactor c ~ The I-131 equivalent of the iodine activity on the secondary side of a steam generator shall not exceed 0.1 pCi/gm.
The500'Ftemperature inthespecification corresponds atsaturation to681psia,whichisbelowthesetpointofthesecondary sidereliefvalves.Therefore, potential primarytosecondary leakageatatemperature below500'Fcanbecontained byclosingthesteamlineisolation valves.
3.1.4.2    If    the    limit of 3.1.4.1.a     is  exceeded,       then be subcritical      with reactor coolant average temperature less than 500'F within 8 hours.
: 3. 1.4.3    a ~   If  the I-131 equivalent activity in the reactor coolant exceeds the limit of 3.1.4.1.b but is less than the allowable limit shown on Figure 3.1.4-1, operation may continue for up to 168 hours. 3:-&-hhe Amendment No. 27                    3.1-21 P,,,
9405310171'00S2Z PDR.,'DOCK .05000244; PDR' i
 
were  designed for operation with 14 defec                >. The  limit for secondary iodine activity is conservatively                established with respect to the limits on primary system iodine activity and primary-to-secondary leakage (Specification 3.1.5.2). If the activity should exceed the specified limits following a power transient the major concern would be whether additional fuel defects had developed bringing the total to above 14 defects.
Appropriate action to be taken to bring the activity within specification include one or more of the following: gradual decrease in power to a lower base power, increase in letdown flow rate, and venting of the volume control tank gases to the gas decay tanks.
The specified activity limits provide protection to the public against the potential release of reactor coolant activity to the atmosphere, as demonstrated by the analysis of a steam generator tube rupture accident.+
The 500'F temperature                in the specification corresponds at saturation to 681 psia, which is below the set point of the secondary side relief valves.               Therefore, potential primary to secondary leakage at a temperature below 500'F can be contained by closing the steam line isolation valves.


==References:==
==References:==


(1)UFSARTable9.~8,',''-.::,9 (2)UFSARSection11.1.8g(3)3~123 ATTACHMENT CRevisetheTechnical Specification pagesasfollows:RemoveInsert3'-213'-233.1-243'-21301-233.1-24 ATTACHMENT C3.1.43.1.4.1MaximumCoolantActivitSecifications Wheneverthereactoriscriticalorthereactorcoolantaveragetemperature isgreaterthan500'F:a.Thetotalspecificactivityofthereactorcoolantshallnotexceed100/EpCi/gm,whereEistheaveragebetaandb.c~3.1.4.2gammaenergiesperdisintegration inMev.TheI-131doseequivalent oftheiodineactivityinthereactorcoolantshallnotexceed1.0pCi/gm.TheI-131equivalent oftheiodineactivityonthesecondary sideofasteamgenerator shallnotexceed0.1pCi/gmoIfthelimitof3.1.4.1.a isexceeded, thenbesubcritical withreactorcoolantaveragetemperature lessthan500'Fwithin8hours.3.1.4.3a~IftheI-131equivalent activityinthereactorcoolantexceedsthelimitof3.1.4.1.b butislessthantheallowable limitshownonFigure3.1.4-1,operation maycontinueforupto168hours.Amendment No.273.1-21 weredesignedforoperation with1%defects'.Thelimitforsecondary iodineactivityisconservatively established withrespecttothelimitsonprimarysystemiodineactivityandprimary-to-secondary leakage(Specification 3.1.5.2).
(1) UFSAR  Table  9.~ 8,',''-.::,9 (2) UFSAR  Section 11.1.8 g (3) 3 ~ 1 23
Iftheactivityshouldexceedthespecified limitsfollowing apowertransient themajorconcernwouldbewhetheradditional fueldefectshaddeveloped bringingthetotaltoabove14defects.Appropriate actiontobetakentobringtheactivitywithinspecification includeoneormoreofthefollowing:
 
gradualdecreaseinpowertoalowerbasepower,increaseinletdownflowrate,andventingofthevolumecontroltankgasestothegasdecaytanks.Thespecified activitylimitsprovideprotection tothepublicagainstthepotential releaseofreactorcoolantactivitytotheatmosphere, asdemonstrated bytheanalysisofasteamgenerator tuberuptureaccident.@
ATTACHMENT C Revise the Technical Specification pages as follows:
The500'Ftemperature inthespecification corresponds atsaturation to681psia,whichisbelowthesetpointofthesecondary sidereliefvalves.Therefore, potential primarytosecondary leakageatatemperature below500Fcanbecontained byclosingthesteamlineisolation valves.
Remove              Insert 3 '-21              3 '-21 3 '-23              301-23 3.1-24              3.1-24
 
ATTACHMENT C
: 3. 1.4    Maximum  Coolant  Activit S  ecifications 3.1.4.1    Whenever    the reactor is critical or the reactor coolant average temperature is greater than 500'F:
: a. The total specific activity of the reactor coolant shall not exceed 100/E pCi/gm, where E is the average beta and gamma energies per disintegration in Mev.
: b. The I-131 dose equivalent of the iodine activity in the reactor coolant shall not exceed 1.0 pCi/gm.
c ~ The I-131 equivalent of the iodine activity on the secondary side of a steam generator shall not exceed 0.1 p Ci/gm o
: 3. 1.4.2  If    the    limit of 3.1.4.1.a   is  exceeded, then be subcritical with reactor coolant average temperature less than 500'F within 8 hours.
3.1.4.3    a ~   If  the I-131 equivalent activity in the reactor coolant exceeds the limit of 3.1.4.1.b but is less than the allowable limit shown on Figure 3.1.4-1, operation may continue for up to 168 hours.
Amendment No. 27                  3. 1-21
 
were  designed for operation with 1% defects '. The limit for secondary iodine activity is conservatively established with respect to the limits on primary system iodine activity and primary-to-secondary leakage (Specification 3.1.5.2). If the activity should exceed the specified limits following a power transient the major concern would be whether additional fuel defects had developed bringing the total to above 14 defects.
Appropriate action to be taken to bring the activity within specification include one or more of the following: gradual decrease in power to a lower base power, increase in letdown flow rate, and venting of the volume control tank gases to the gas decay tanks.
The specified activity limits provide protection to the public against the potential release of reactor coolant activity to the atmosphere, as demonstrated by the analysis of a steam generator tube rupture accident.@
The 500'F temperature      in the specification corresponds at saturation to 681 psia, which is below the set point of the secondary side relief valves.       Therefore, potential primary to secondary leakage at a temperature below 500 F can be contained by closing the steam line isolation valves.


==References:==
==References:==


(1)UFSARTable9.3-9(2)UFSARSection11.1.2(3)UFSARSection15.6.33~123 EV2VVIKidO'dOAIKOOVCCOCQ25020015010050ACCEPTABLE OPERATION UNACCEPTABLE OPERATION 02030405060708090100PERCENTOFRATEDTHERMALPOWERFIGURE3.1.4-1ReactorCoolantDoseEquivalent I-131SpecificActivityLimitversusPercentofRatedThermalPowerAmendment No.3.1-24  
(1) UFSAR  Table 9.3-9 (2) UFSAR  Section 11.1.2 (3) UFSAR  Section 15.6.3 3 ~ 1 23
'*A}}
 
E  250 V
2 UNACCEPTABLE 200 OPERATION V
V 150 I
K id O'd 100 O
A I            ACCEPTABLE K              OPERATION O
O V
CC 50 O
CQ 0
20      30        40        50        60      70        80        90  100 PERCENT OF RATED THERMALPOWER FIGURE 3.1.4-1 Reactor Coolant Dose Equivalent I-131 Specific Activity Limit versus Percent of Rated Thermal Power Amendment No.                               3.1-24
 
A}}

Latest revision as of 09:33, 4 February 2020

Proposed Tech Specs,Increasing Allowable Reactor Coolant Activity Levels
ML17263A658
Person / Time
Site: Ginna Constellation icon.png
Issue date: 05/23/1994
From:
ROCHESTER GAS & ELECTRIC CORP.
To:
Shared Package
ML17263A656 List:
References
NUDOCS 9405310171
Download: ML17263A658 (7)


Text

ATTACHMENT B 3.1.4 Maximum Coolant Activit S ecifications 3.1.4.1 Whenever the reactor is critical or the reactor coolant average temperature is greater than 500 F:

a~ The total specific activity of the reactor coolant shall not exceed 8+ k'99/E pCi/gm, where E is the average beta and gamma energies per disintegration in Mev.

b. The I-131 80'88 equivalent of the iodine activity in coolant shall not exceed Eh-2 ~l.:'.-';:9 p, i/gm.

the'eactor c ~ The I-131 equivalent of the iodine activity on the secondary side of a steam generator shall not exceed 0.1 pCi/gm.

3.1.4.2 If the limit of 3.1.4.1.a is exceeded, then be subcritical with reactor coolant average temperature less than 500'F within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />.

3. 1.4.3 a ~ If the I-131 equivalent activity in the reactor coolant exceeds the limit of 3.1.4.1.b but is less than the allowable limit shown on Figure 3.1.4-1, operation may continue for up to 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br />. 3:-&-hhe Amendment No. 27 3.1-21 P,,,

9405310171'00S2Z PDR.,'DOCK .05000244; PDR' i

were designed for operation with 14 defec >. The limit for secondary iodine activity is conservatively established with respect to the limits on primary system iodine activity and primary-to-secondary leakage (Specification 3.1.5.2). If the activity should exceed the specified limits following a power transient the major concern would be whether additional fuel defects had developed bringing the total to above 14 defects.

Appropriate action to be taken to bring the activity within specification include one or more of the following: gradual decrease in power to a lower base power, increase in letdown flow rate, and venting of the volume control tank gases to the gas decay tanks.

The specified activity limits provide protection to the public against the potential release of reactor coolant activity to the atmosphere, as demonstrated by the analysis of a steam generator tube rupture accident.+

The 500'F temperature in the specification corresponds at saturation to 681 psia, which is below the set point of the secondary side relief valves. Therefore, potential primary to secondary leakage at a temperature below 500'F can be contained by closing the steam line isolation valves.

References:

(1) UFSAR Table 9.~ 8,',-.::,9 (2) UFSAR Section 11.1.8 g (3) 3 ~ 1 23

ATTACHMENT C Revise the Technical Specification pages as follows:

Remove Insert 3 '-21 3 '-21 3 '-23 301-23 3.1-24 3.1-24

ATTACHMENT C

3. 1.4 Maximum Coolant Activit S ecifications 3.1.4.1 Whenever the reactor is critical or the reactor coolant average temperature is greater than 500'F:
a. The total specific activity of the reactor coolant shall not exceed 100/E pCi/gm, where E is the average beta and gamma energies per disintegration in Mev.
b. The I-131 dose equivalent of the iodine activity in the reactor coolant shall not exceed 1.0 pCi/gm.

c ~ The I-131 equivalent of the iodine activity on the secondary side of a steam generator shall not exceed 0.1 p Ci/gm o

3. 1.4.2 If the limit of 3.1.4.1.a is exceeded, then be subcritical with reactor coolant average temperature less than 500'F within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />.

3.1.4.3 a ~ If the I-131 equivalent activity in the reactor coolant exceeds the limit of 3.1.4.1.b but is less than the allowable limit shown on Figure 3.1.4-1, operation may continue for up to 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br />.

Amendment No. 27 3. 1-21

were designed for operation with 1% defects '. The limit for secondary iodine activity is conservatively established with respect to the limits on primary system iodine activity and primary-to-secondary leakage (Specification 3.1.5.2). If the activity should exceed the specified limits following a power transient the major concern would be whether additional fuel defects had developed bringing the total to above 14 defects.

Appropriate action to be taken to bring the activity within specification include one or more of the following: gradual decrease in power to a lower base power, increase in letdown flow rate, and venting of the volume control tank gases to the gas decay tanks.

The specified activity limits provide protection to the public against the potential release of reactor coolant activity to the atmosphere, as demonstrated by the analysis of a steam generator tube rupture accident.@

The 500'F temperature in the specification corresponds at saturation to 681 psia, which is below the set point of the secondary side relief valves. Therefore, potential primary to secondary leakage at a temperature below 500 F can be contained by closing the steam line isolation valves.

References:

(1) UFSAR Table 9.3-9 (2) UFSAR Section 11.1.2 (3) UFSAR Section 15.6.3 3 ~ 1 23

E 250 V

2 UNACCEPTABLE 200 OPERATION V

V 150 I

K id O'd 100 O

A I ACCEPTABLE K OPERATION O

O V

CC 50 O

CQ 0

20 30 40 50 60 70 80 90 100 PERCENT OF RATED THERMALPOWER FIGURE 3.1.4-1 Reactor Coolant Dose Equivalent I-131 Specific Activity Limit versus Percent of Rated Thermal Power Amendment No. 3.1-24

A