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| {{#Wiki_filter:Attachment II Marked Up Copy of R.E.Ginna Nuclear Power Plant Technical Specifications Instructions: | | {{#Wiki_filter:Attachment II Marked Up Copy of R.E. Ginna Nuclear Power Plant Technical Specifications Instructions: |
| Remove pages 3.3-18 and 3.3-19 and replace with the attached pages.l'PbOb0b0149 9b0b03 PDR ADQCK 05000244 p PDR O RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 5 of 6)Reactor Trip System Instrumentation Note 1: Overtem erature sT The Overtemperature aT Function Trip Setpoint is defined by: 1+r,s Overtemperature h T dh T~K,+K~(P-P')-K (T"T')-f(h I)1+t'~s Where: aT is measured RCS aT, F.aTo is the indicated zT at RTP, F.s is the Laplace transform operator, sec'T is the measured RCS average temperature, F.T is the nominal T., at RTP, F.P is the measured pressurizer pressure, psig.P is the nominal RCS operating pressure, psig.K, is the Overtemperature aT reactor trip setpoint, 1.20.K~is the Overtemperature aT reactor trip depressurization setpoint penalty coeffi ci ent, 0.000900~t/~Ps'.
| |
| K, is the Overtemperature zT reactor trip heatup setpoint penalty ceei'i'i cient, 0.0209~g r, is the measured lead/lag time constant, 25 seconds.e r, is the measured lead/lag time constant, 5 seconds.f(aI)'s.a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q,+g is the total THERMAL POWER in percent RTP.t$b f(/II)=0 when q,-qb is 8+13'i RTP f(E I)=1.3 ((q,-q)-13j when q,-q, is>+13%RTP R.E.Ginna Nuclear Power Plant 3.3-18 Amendment No.61 RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 6 of 6)Reactor Trip System Instrumentation Note 2: Over ower zT The Overpower aT Function Trip Setpoint is defined by: w~sT Overpower h T 8a T K,-K~(T"T')-Kz-f(h 1)res+1 Where: aT is measured RCS zT, F.aTO is the indicated aT at RTP, F.s.is the Laplace transform operator, sec'T is the measured RCS average temperature,'F.T is the nominal T,, at RTP, F.(/'s f(aI)is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and qare the percent power in the top and bottom halves of the core, respectively, and q,+q, is the total THERMAL POWER in percent RTP.C f(a,I)=0 when q,-q, is+13%RTP'f(aI)=1.3 I (q,-q,)-13I when q,-qb is>+13%RTP K4 is the Overpower bT reactor trip setpoint, 1.077.Ks is the Overpower zT reactor trip heatup setpoint penalty coefficient which is: 0.0 for T<T~and;0.0011 for T~K6 is t e Overpower aT reactor trip thermal time delay setpoint penalty~~~which is:/ap.026 f'r increasing T and;0.0 for decreasing T.r, is the measured lead/lag time constant, 10 seconds.R.E.Ginna Nuclear Power Plant 3.3-19 Amendment No.61 Attachment III Proposed Technical Specifications Instructions:
| |
| Remove pages 3.3-18 and 3.3-19 and replace with the attached pages. | | Remove pages 3.3-18 and 3.3-19 and replace with the attached pages. |
| e RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 5 of 6)Reactor Trip System Instrumentation Note 1: Overtem erature aT The Overtemperature aT Function Trip Setpoint is defined by: 1+r,s Overtenperature h T Sh T K+K (P-P')-K (T-T')'f(h I)0 1 2 1+rs 2 Where: aT is measured RCS aT,'F.aTo is the indicated aT at RTP, F.s is the Laplace transform operator, sec'T is the measured RCS average temperature, F.T is the nominal T,, at RTP,'F.P is the measured pressurizer pressure, psig.P is the nominal RCS operating pressure, psig.K, is the Overtemperature aT reactor trip setpoint, 1.20.K2 is the Overtemperature aT reactor trip depressurization setpoint penalty coefficient, 0.000900/psi.
| | 'PbOb0b0149 9b0b03 PDR ADQCK 05000244 l p PDR |
| Ks is the Overtemperature aT reactor trip heatup setpoint penalty coefficient, 0.0209/F.r, is the measured lead/lag time constant, 25 seconds.r, is the measured lead/lag time constant, 5 seconds.f(aI)is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q,+q, is the total THERMAL POWER in percent RTP.f(61)=0 f(BI)1.3 ((q,-q)-13}when q,-q, is z+13%RTP when q,-q, is>+13%RTP R.E.Ginna Nuclear Power Plant 3.3-18 Amendment No.g i RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 6 of 6)Reactor Trip System Instrumentation Note 2: Over ower aT The Overpower aT Function Trip Setpoint is defined by: r>sT Overpower h T 6h To K,-Ks(T-T')-K, s-f(hi)'3'here: aT is measured RCS sT, F.aTo is the indicated aT at RTP,'F.s is the Laplace transform operator, sec'T is the measured RCS average temperature, F.T is the nominal T., at RTP,'F.K4 is the Overpower sT reactor K~is the Overpower sT reactor 0.0/'F for T<T and;0.0011/'F for T z T.K, is the Overpower aT reactor which is: 0.0262/'F for increasing T 0.00/'F for decreasing T.trip setpoint, 1.077.trip heatup setpoint penalty coefficient which is: trip thermal time delay setpoint penalty andt f3 is the measured lead/lag time constant, 10 seconds.f(aI)is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q,+q, is the total THERMAL POWER in percent RTP.f(zI)=0 f(LI)=1.3 ((q,-qb)-13)when q,-qb is~+13%RTP when q,-q, is>+13%RTP R.E.Ginna Nuclear Power Plant 3.3-19 Amendment No.g 0 0 t ll I l 4%5l+$p*" Iy}} | | |
| | O RTS Instrumentation 3.3.1 Table 3.3. 1-1 (page 5 of 6) |
| | Reactor Trip System Instrumentation Note 1: Overtem erature sT The Overtemperature aT Function Trip Setpoint is defined by: |
| | -P') -K "T') 1 + r,s - f(h I) |
| | Overtemperature h T dh T~ K,+K~ (P ( T 1 + t'~s Where: |
| | aT is measured RCS aT, F. |
| | aTo is the indicated zT at RTP, F. |
| | s is the Laplace transform operator, sec' T is the measured RCS average temperature, F. |
| | T is the nominal T., at RTP, F. |
| | P is the measured pressurizer pressure, psig. |
| | P is the nominal RCS operating pressure, psig. |
| | K, is the Overtemperature aT reactor trip setpoint, 1.20. |
| | K~ is the Overtemperature aT reactor trip depressurization setpoint penalty coeffi ci ent, 0.000900~t/~Ps'. |
| | K, is the Overtemperature zT reactor trip heatup setpoint penalty ceei'i'i cient, 0.0209~g r, is the measured lead/lag time constant, 25 seconds. |
| | e r, is the measured lead/lag time constant, 5 seconds. |
| | f(aI)'s .a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q,t + g is the total THERMAL POWER in percent RTP. |
| | $b - is 8+13'i RTP f(/II) = 0 when q, qb f(E I) = 1.3 ( (q, - q ) - 13j when q, - q, is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-18 Amendment No. 61 |
| | |
| | RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 6 of 6) |
| | Reactor Trip System Instrumentation Note 2: Over ower zT The Overpower aT Function Trip Setpoint is defined by: |
| | w~sT Overpower h T 8a T K,-K~ ( T "T') -Kz f(h 1) res+1 Where: |
| | aT is measured RCS zT, F. |
| | aTO is the indicated aT at RTP, F. |
| | s .is the Laplace transform operator, sec' T is the measured RCS average temperature, 'F. |
| | T is the nominal T,, at RTP, F. |
| | K4 is the Overpower bT reactor trip setpoint, 1.077. |
| | Ks is the Overpower zT reactor trip heatup setpoint penalty coefficient which is: |
| | /'s 0.0 for T < T~and; |
| | ( 0.0011 for T ~ |
| | K6 is t e Overpower aT reactor trip thermal time delay setpoint penalty |
| | ~ |
| | which is: |
| | /ap .026 f'r increasing T and; 0.0 for decreasing T. ~ |
| | r, is the measured lead/lag time constant, 10 seconds. |
| | f(aI) is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q are the percent power in the top and bottom halves of the core, respectively, and q, + q, is the total THERMAL POWER in percent RTP. C f(a,I) = 0 when q, - q, is +13% RTP |
| | 'f(aI) = 1.3 I (q, - q,) - 13I when q, - qb is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-19 Amendment No. 61 |
| | |
| | Attachment III Proposed Technical Specifications Instructions: |
| | Remove pages 3.3-18 and 3.3-19 and replace with the attached pages. |
| | |
| | e RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 5 of 6) |
| | Reactor Trip System Instrumentation Note 1: Overtem erature aT The Overtemperature aT Function Trip Setpoint is defined by: |
| | -P') -K - T') 1 +r,s Overtenperature h T Sh T0 K1 +K2 (P ( T f(h I) 1 +rs2 Where: |
| | aT is measured RCS aT, 'F. |
| | aTo is the indicated aT at RTP, F. |
| | s is the Laplace transform operator, sec' T is the measured RCS average temperature, F. |
| | T is the nominal T,, at RTP, 'F. |
| | P is the measured pressurizer pressure, psig. |
| | P is the nominal RCS operating pressure, psig. |
| | K, is the Overtemperature aT reactor trip setpoint, 1.20. |
| | K2 is the Overtemperature aT reactor trip depressurization setpoint penalty coefficient, 0.000900/psi. |
| | Ks is the Overtemperature aT reactor trip heatup setpoint penalty coefficient, 0.0209/ F. |
| | r, is the measured lead/lag time constant, 25 seconds. |
| | r, is the measured lead/lag time constant, 5 seconds. |
| | f(aI) is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q, + q, is the total THERMAL POWER in percent RTP. |
| | f(61) = 0 when q, - q, is z +13% RTP f(BI) 1.3 ( (q, - q ) - 13} when q, - q, is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-18 Amendment No. g |
| | |
| | i RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 6 of 6) |
| | Reactor Trip System Instrumentation Note 2: Over ower aT The Overpower aT Function Trip Setpoint is defined by: |
| | Overpower h T 6h To K,-Ks(T-T') -K, r>sT s -f(hi) |
| | '3 |
| | 'here: |
| | aT is measured RCS sT, F. |
| | aTo is the indicated aT at RTP, 'F. |
| | s is the Laplace transform operator, sec' T is the measured RCS average temperature, F. |
| | T is the nominal T., at RTP, 'F. |
| | K4 is the Overpower sT reactor trip setpoint, 1.077. |
| | K~ is the Overpower sT reactor trip heatup setpoint penalty coefficient which is: |
| | 0.0/'F for T < T and; 0.0011/'F for T z T. |
| | K, is the Overpower aT reactor trip thermal time delay setpoint penalty which is: |
| | 0.0262/'F for increasing T andt 0.00/'F for decreasing T. |
| | f3 is the measured lead/lag time constant, 10 seconds. |
| | f(aI) is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q, + q, is the total THERMAL POWER in percent RTP. |
| | f(zI) = 0 when q, - qb is ~ +13% RTP f(LI) = 1.3 ( (q, - qb) - 13) when q, - q, is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-19 Amendment No. g |
| | |
| | 0 0 t ll I |
| | l 4% 5l+$ p* " Iy}} |
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[Table view] |
Text
Attachment II Marked Up Copy of R.E. Ginna Nuclear Power Plant Technical Specifications Instructions:
Remove pages 3.3-18 and 3.3-19 and replace with the attached pages.
'PbOb0b0149 9b0b03 PDR ADQCK 05000244 l p PDR
O RTS Instrumentation 3.3.1 Table 3.3. 1-1 (page 5 of 6)
Reactor Trip System Instrumentation Note 1: Overtem erature sT The Overtemperature aT Function Trip Setpoint is defined by:
-P') -K "T') 1 + r,s - f(h I)
Overtemperature h T dh T~ K,+K~ (P ( T 1 + t'~s Where:
aT is measured RCS aT, F.
aTo is the indicated zT at RTP, F.
s is the Laplace transform operator, sec' T is the measured RCS average temperature, F.
T is the nominal T., at RTP, F.
P is the measured pressurizer pressure, psig.
P is the nominal RCS operating pressure, psig.
K, is the Overtemperature aT reactor trip setpoint, 1.20.
K~ is the Overtemperature aT reactor trip depressurization setpoint penalty coeffi ci ent, 0.000900~t/~Ps'.
K, is the Overtemperature zT reactor trip heatup setpoint penalty ceei'i'i cient, 0.0209~g r, is the measured lead/lag time constant, 25 seconds.
e r, is the measured lead/lag time constant, 5 seconds.
f(aI)'s .a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q,t + g is the total THERMAL POWER in percent RTP.
$b - is 8+13'i RTP f(/II) = 0 when q, qb f(E I) = 1.3 ( (q, - q ) - 13j when q, - q, is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-18 Amendment No. 61
RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 6 of 6)
Reactor Trip System Instrumentation Note 2: Over ower zT The Overpower aT Function Trip Setpoint is defined by:
w~sT Overpower h T 8a T K,-K~ ( T "T') -Kz f(h 1) res+1 Where:
aT is measured RCS zT, F.
aTO is the indicated aT at RTP, F.
s .is the Laplace transform operator, sec' T is the measured RCS average temperature, 'F.
T is the nominal T,, at RTP, F.
K4 is the Overpower bT reactor trip setpoint, 1.077.
Ks is the Overpower zT reactor trip heatup setpoint penalty coefficient which is:
/'s 0.0 for T < T~and;
( 0.0011 for T ~
K6 is t e Overpower aT reactor trip thermal time delay setpoint penalty
~
which is:
/ap .026 f'r increasing T and; 0.0 for decreasing T. ~
r, is the measured lead/lag time constant, 10 seconds.
f(aI) is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q are the percent power in the top and bottom halves of the core, respectively, and q, + q, is the total THERMAL POWER in percent RTP. C f(a,I) = 0 when q, - q, is +13% RTP
'f(aI) = 1.3 I (q, - q,) - 13I when q, - qb is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-19 Amendment No. 61
Attachment III Proposed Technical Specifications Instructions:
Remove pages 3.3-18 and 3.3-19 and replace with the attached pages.
e RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 5 of 6)
Reactor Trip System Instrumentation Note 1: Overtem erature aT The Overtemperature aT Function Trip Setpoint is defined by:
-P') -K - T') 1 +r,s Overtenperature h T Sh T0 K1 +K2 (P ( T f(h I) 1 +rs2 Where:
aT is measured RCS aT, 'F.
aTo is the indicated aT at RTP, F.
s is the Laplace transform operator, sec' T is the measured RCS average temperature, F.
T is the nominal T,, at RTP, 'F.
P is the measured pressurizer pressure, psig.
P is the nominal RCS operating pressure, psig.
K, is the Overtemperature aT reactor trip setpoint, 1.20.
K2 is the Overtemperature aT reactor trip depressurization setpoint penalty coefficient, 0.000900/psi.
Ks is the Overtemperature aT reactor trip heatup setpoint penalty coefficient, 0.0209/ F.
r, is the measured lead/lag time constant, 25 seconds.
r, is the measured lead/lag time constant, 5 seconds.
f(aI) is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q, + q, is the total THERMAL POWER in percent RTP.
f(61) = 0 when q, - q, is z +13% RTP f(BI) 1.3 ( (q, - q ) - 13} when q, - q, is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-18 Amendment No. g
i RTS Instrumentation 3.3.1 Table 3.3.1-1 (page 6 of 6)
Reactor Trip System Instrumentation Note 2: Over ower aT The Overpower aT Function Trip Setpoint is defined by:
Overpower h T 6h To K,-Ks(T-T') -K, r>sT s -f(hi)
'3
'here:
aT is measured RCS sT, F.
aTo is the indicated aT at RTP, 'F.
s is the Laplace transform operator, sec' T is the measured RCS average temperature, F.
T is the nominal T., at RTP, 'F.
K4 is the Overpower sT reactor trip setpoint, 1.077.
K~ is the Overpower sT reactor trip heatup setpoint penalty coefficient which is:
0.0/'F for T < T and; 0.0011/'F for T z T.
K, is the Overpower aT reactor trip thermal time delay setpoint penalty which is:
0.0262/'F for increasing T andt 0.00/'F for decreasing T.
f3 is the measured lead/lag time constant, 10 seconds.
f(aI) is a function of the indicated difference between the top and bottom detectors of the Power Range Neutron Flux channels where q, and q, are the percent power in the top and bottom halves of the core, respectively, and q, + q, is the total THERMAL POWER in percent RTP.
f(zI) = 0 when q, - qb is ~ +13% RTP f(LI) = 1.3 ( (q, - qb) - 13) when q, - q, is > +13% RTP R.E. Ginna Nuclear Power Plant 3.3-19 Amendment No. g
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