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{{#Wiki_filter:ATTACHMENT l Marked-up Technical Specification Pages: 2-4 3/4 3-l8 B 2-S za02 g6f@Q90622 86 Oo~gq pDR'DOCK 0@DR,,''JV/l/018/3 I C FNCTIONL NIT I l..Hanual Reactor Trip TRIP SETPOIHT Hot, Applicable Hot Applicable TABLE 2.2-1 REACTOR PROTECTIVE IHSTRNEHTATIN TRIP SETPOIHT LIHITS J hLLOMABLK VALUES~~0~2.Variable Peer level-High (1)~Four Reactor Coolant Pu<<ps Operating 3.Pressurizer Pressure-High Theraal Hargin/Lm Pressure I four Reactor Coolant Pu<<ps Operating 5.Contain<<ent Pressure-High 6.Steai Generator Pressure-Low 7;Steai Generator Pressure (1)Dl f ferencc-High (Logic in TH/LP Trip Unit)<9.61K above TllERNL POMER, Pith a<<inta'etpoint of 15K of RhTED TUERNlL ONER,'nd a<<axi<<u<<of<107.N of QATEO THERHAL PNB.<2370 psia Trip setpoint adjusted to not exceed the li<<it lines of~figures 2.2-3 and 2.g-4.Hini<<m value of 1900 psia.<3.0 Psig>626;9 psia (2)<120.0 psid.: I I c 9.6lX above TilERNAL PNER,'nd a<<iniam setpoint of 15K of RATEO TIIERNL POMER and a<<axiom of<107.0X.of RATEO TllERNL POMER..<237I psia.Trip setpoint adjusted to not exceed the li<<it lines of figures 2.2-3 and 2.2-4.Hiniae value of 19M psia.<3.l psig I>621.O psia (2).<132.0 psid O lO 8.Stea<<Generator Level-Los 9.5X (3)->39.1X (3)
{{#Wiki_filter:ATTACHMENT l Marked-up Technical Specification Pages:
2-4 3/4 3-l8 B 2-S g6f@Q90622 86 za02 pDR'DOCK 0 Oo~gq@DR,,''
JV/l/018/3


I n M fll I C M tQ Oh I lQ FUNCTIONAL UNIT.5.CONTAIHMEHT SUHP'RECIRCULATION (RAS)a.Hanual RAS (Trip Buttons)b.Refueling ifater Storage Tank-Low c.Automatic Actuation Logic 6.LOSS OF POMER a.(1)4.16 kV Emergency Bus Undervoltage (Loss of Voltage).(2)480 V Emergency Bus Undervoltage (Loss of Voltage)b.(1)4.16 kV Emergency Bus Undervoltage (Degraded Voltage)TRIP VALUE Hot Applicable 5.67 feet above tank bottoa Hot Applicable
                                                                                                                                    ~  ~ 0 ~
>3120 volts>360 volts>3848 volts with a 10-second 1 time delay ALLOMABLf VALUES Hot Applicable 4.62 feet'to 6;24 feet above'tank bottom Hot Applicable
TABLE 2.2-1 REACTOR PROTECTIVE      IHSTRNEHTATIN TRIP SETPOIHT LIHITS I
>3120 volts~>360 volts>3848 volts with a 10-'second tiae delay i TABLE 3.3-4 Continued ENGINEERED SAFETY FEATURES ACTUATION SYSTEH IHSTRUNENTATION TRIP.VALUES, (2)480 V Emergency Bus Undervoltage (Degraded Voltage)AUXILIARY FEEOMATER (AFAS)a.Hanual (Trip Buttons)b.Automatic Actuation Logic c.Steals Generator hP-High d.SG 2wt28 Level Low e.Feedwater Header High AP>432 volts Hot Applicable
C J
.Hot Applicable
FNCTIONL      NIT                            TRIP SETPOIHT                          hLLOMABLK VALUES I
<180.0 Pseud'g g7.>20.6X<100.0 psid>432 volts Hot Applicable Hot Applicable
l.. Hanual Reactor  Trip                  Hot,  Applicable                      Hot Applicable
<187.5 psid>20.(C<107.5 psid ig o%%uo SAFETY LIMITS AND LIMITING SAFETY SYSTEM SETTINGS BASES Containment Pressure-High The Containment Pressure-High trip provides assurance that a reactor trip is initiated priot to oi'concurrently with a'afety injection (SIAS).This also provides assurance that a reactor trip is initiated prior to or.concurrently with an MSIS.Steam Generator Pressure-Low The Steam Generator Pressure-Low trip provides protection against an excessive rate of heat extraction from the steam generators and subsequent cooldown of the reactor coolant.The setpoint of 620 psia is sufficiently below the full load operating point of approximately 885 psia so as not to interfere with normal operation, but" still high enough to provide the required protection in the event of excessively'igh steam flow.This setting was used with an uncertainty factor of 30 psi in the safety analyses.Steam Generator Level-Low The Steam Generator Level-Low trip provides protection against a loss of feedwater flow incident and assures that the design pressure of the Reactor Coolant System wi 11 not be exceeded due to loss of the steam generator heat sink.This specified setpoint provides allowance that there will be sufficient water inventory in the steam generator at the time of the trip to provide a margin of at least 10 minutes before'auxiliary feedwater is required.AK'ocal Power Density-Hi h The Local Power Density-High trip, functioning from AXIAL SHAPE INDEX monitoring, is provided to ensure that the peak local power density in the fuel which corresponds to fuel centerline" melting will not occur as a consequence of axial power maldistributions.
: 2. Variable Peer level    -  High(1)
A reactor trip is i nitiated whenever the AXIAL SHAPE INDEX exceeds the allowable limits of Figure 2.2-2.The AXIAL SHAPE INDEX is calculated from the upper and lower excore neutron detector channels.The calculated
                                                                                                      .:  I I
'setpoints are generated as a function of THERMAL POWER level with the allowed CEA group position being inferred from the THERMAL POWER level.'he trip is automatically bypassed below 15K power.The maximum AZIMUTHAL POWER TILT and maximum CEA misalignment permitted for continuous operation are assumed in generation of the setpoints.
        ~
In addition, CEA group sequencing in accordance with the Specifications 3.1.3.5 and 3.1.3.6 is assumed.Finally, the maximum insertion of CEA banks which can occur during any anticipated operational occurrence prior to a Power Level-H>c".
Four Reactor Coolant Pu<<ps              <  9.61K above TllERNL POMER,          c 9.6lX above      TilERNAL PNER,'nd Operating                              Pith    a <<inta'etpoint    of        a  <<iniam setpoint of        15K of 15K  of   RhTED TUERNlL ONER,        RATEO  TIIERNL      POMER  and a <<axiom
trip is assumed.~~''~~p~~~~"~~~~~~~~we>~mew~~iq~+we))~~blHG los%oF 5Quxtekal~~~~~~~~g~+~~~~~o~W>>~<+V,svetw~
                                                'nd    a  <<axi<<u<< of  < 107.N of      of  < 107.0X  .of    RATEO  TllERNL POMER.  .
gee eR~sp~ic UCIE-UNIT 2 hcepWC.
QATEO THERHAL      PNB.
ATTACHMENT 2 SAFETY EVALUATION Introduction This is a request to revise Technical Specification 2.2.I, Reactor Protective Instrumentation (RPS), and 3/4.3.2, Engineered Safety Features Actuation System (ESFAS)Instrumentation and their associated Bases of the Technical Specifications for St.Lucie Unit 2.Discussion The existing Technical Specification setpoints correspond to a Cycle I analysis assumption of steam generator low level RPS setpoint of 30%narrow range (NR)for the most limiting event, Loss of Feedwater, and 5%NR setpoint for all accidents.
: 3. Pressurizer Pressure    - High          < 2370    psia                        <  237I psia.
The difference between the analysis assumption and specified setpoint (9.5%)accounts for process equipment uncertainties, equipment response times and RPS cabinet uncertainties.
Theraal Hargin/Lm Pressure I
Auxiliary feedwater was manually actuated by the Reactor Operator, as reflected in all the analyses presented for Cycle I.The safety grade automatic auxiliary feedwater actuation system (AFAS)was installed before Cycle I operation to satisfy a post-TMI requirement, NUREG-0737, Item II.E.I.2.This proposed change does not impact the results of the Safety Analysis presented for Cycles 2 or 3 but only reflects a change in the analysis assumptions made for Cycle I versus Cycles 2 or 3.The new values take into consideration the assumed RPS and ESFAS steam generator low level analysis setpoint of<5%NR and the related instrument uncertainties.
four Reactor Coolant    Pu<<ps            Trip setpoint adjusted to not        Trip setpoint adjusted to not Operating                                exceed the li<<it lines of            exceed the li<<it lines of
The calculated uncertainties were derived using accepted methodology for instrument uncertainties calculations (CEN-I l2(s)Rev.0,'Plant Protection System-Selection of Trip Setpoint Values," November l5, I 979), which takes into account inherent process instrumentation errors, equipment response time, instrument drift and environmental concerns for accident conditions, as appropriate.
                                                ~
The proposed setpoint numbers are applicable for operation of the RPS and ESFAS systems and are bounding for either the existing Barton M764 transmitters or Rosemount I I54 transmitters (possible replacement transmitters).
figures 2.2-3 and 2.g-4.             figures 2.2-3 and 2.2-4.
The proposed change contains those Technical Specifications needed to support the reduction of the low steam generator level setpoint for actuation of reactor trip and initiation of the AFAS in the RPS and ESFAS.The proposed change revises Table 2.2-I Reactor Protective Instrumentation Trip Setpoint Limits and its associated Bases, to reflect a reduction in the setpoint and allowable values for the reactor trip on steam generator level-low.The proposed change also revises Table 3.3-4 Engineered Safety Features Actuation System Instrumentation Trip Values, to reflect a reduction in the initiation setpoint and allowable value for the AFAS on steam generator level-low.F JW I/0 I 8/4
Hini<<m value of 1900 psia.           Hiniae value of 19M psia.
'I 4 I 4l I I I 4 I I I I I Attachment 2 (Cont'd)Table 2.2-I, item 8, presently specifies that the trip setpoint on low steam generator level is>39.5%NR, with an allowable value of>39.I%.These values are based on the Cycle I Final Safety Analysis Report (FSAR)analysis.The proposed change to Table 2.2.-l, item 8 decreases the trip setpoint on low steam generator level to>20.5%NR, with an allowable value of>l9.5%.These values correspond with an analytical setpoint of 5%used in the accident analysis for Cycles 2 and 3.The Bases for Table 2.2.I, item 8, specify that the trip on low steam generator level protects against exceeding the reactor coolant system (RCS)pressure limit of I I0%of design pressure for a Loss of Feedwater event.The proposed change adds that this trip also protects against violation of a specified acceptable fuel design limit (SAFDL)and offsite dose limits for the anticipated operational occurrence of the inadvertent opening of a steam generator atmospheric dump valve or a main steam safety valve.Table 3.3-4, item 7.d, presently specifies that the AFAS setpoint on low steam generator level is>20.6%NR with an allowable value of>20.0%.These are based on the Cycle I FSAR analysis.The proposed change to Table 3.3-4, item 7.d, revises the AFAS setpoint on low steam generator level to>l9.0%NR, with an allowable value of>I8.0%.These values correspond with an analytical setpoint of 5%used in the accident analysis for Cycles 2 and 3.The proposed amendment to the low steam generator level setpoints does not impact the results presented in the Reload Safety Evaluation for Cycles 2 and 3 but only reflects changes to the determination of the instrument setpoint consistent with the Cycles 2 and 3 RPS and ESFAS analysis assumptions.
: 5. Contain<<ent Pressure    - High         <  3.0 Psig                          <  3.l psig      I
The events which can be impacted by changes in RPS and ESFAS steam generator low level setpoints are the Loss of Feedwater event, the Feedwater Line Break (FLB)event, the Steam Line Break event (SLB), and the Inadvertent Opening of a Steam Generator Safety Valve or Atmospheric Dump Valve.The Cycle 2 Safety Analysis assumed a<5%NR RPS and ESFAS steam generator low level setpoint.The analysis setpoint was set at 5%NR to ensure actuation prior to reaching 0%, under accident conditions.
: 6. Steai Generator Pressure      - Low      > 626;9 psia (2)                      > 621.O  psia (2) 7;    Steai Generator Pressure (1)            < 120.0 psid                      .   < 132.0 psid Dl f ferencc - High (Logic in TH/LP Trip Unit)
The results of the analyses for the events presented in the Cycle 2 Reload Safety Evaluation demonstrated that all key parameters were below the acceptance criteria.Based on this evaluation, it can be concluded that the proposed amendment has been addressed by the existing Analyses of Record and, therefore, there is no impact on the reported results.E JW I/0 I 8/5 II U 4 ll 5 v 4 ATTACHMENT 3 DETERMINATION OF NO SIGNIFICANT HAZARDS CONSIDERATION The standards used to arrive at a determination that a request for amendment involves no significant hazards consideration are included in the Commission's regulation, IO CFR 50.92, which states that no significant hazards considerations are involved if the operation of the facility in accordance with the proposed amendment would not (I)involve a significant increase in the probability or consequences of an accident previously evaluated; or (2)create the possibility of a new or different kind of accident from any accident previously evaluated or (3)involve a signficant reduction in a margin of safety.Each standard is discussed as follows: (I)Operation of the facility in accordance with the proposed amendment would not involve a significant increase in the probability or consequences of an accident previously evaluated.
O
The proposed change lowers the probability of previously evaluated events by decreasing the likelihood of an unplanned reactor trip or Auxiliary Feedwater Actuation System (AFAS)initiation on low steam generator level.(2)Use of the modified specification would not create the possibilityof a new or different kind of accident from any accident previously evaluated.
: 8. Stea<<Generator    Level  -  Los            9.5X    (3)                      -> 39.1X (3) lO
The setpoints for the Reactor Protective Instrumentation (RPS)trip and the AFAS have been established such that they ensure actuation of these functions before the instrumentation goes off scale.This starts with a minimum level of 5%NR and includes appropriate errors for an',inside containment accident such as a Steam Line Bre'ak.The difference betw'een the setpoint and allowable values accounts for the instrumentation drift over the specified surveillance interval.(3)Use of the modified specification would not involve a significant reduction in a margin of safety.As discussed in the Safety Evaluation, the results of all analyses remain within the acceptance criteria of the Standard Review Plan.Based on the above, we have determined that the amendment request does not (I)involve a significant increase in the probability or consequences of an accident previously evaluated, (2)create the probability of a new or different kind of accident from any accident previously evaluated, or (3)involve a significant reduction in a margin of safety;and therefore does not involve a significant hazards consideration.
 
E JW I/0 I 8/6 ls'>>i Ma'0'J v MS'Ms s Ht uksu s slf.Sta H'" M'~ifss~IJ Ist Jt li s~I I ,H II I M~>>I H uf'~its 4 lis~H ifs if Mskl~I J V tl~tt gs II M'N t I~J Itl, il~>>I,'a J, I*J M Htsfi I~I'M IS~M g~MD~~..fl s'~I it us M I si.'s M s u s,a'II~, t s v M I', Iii I S Iti ft'I J II M S II S a I I li f IMJIH s I HH s it a~'t~t t t I I stf I I'sa~II M lilt,s''lil~I II I I~, M'" SIf,~~'f lfI>>u I I'I',f'I, I,I II t a I~I~" k'I SS~IJ u...Mf,JS J ilk a~11 fl S, P if I I I Mfl tl,~.s I I uJ M.I S.~I}}
i TABLE  3. 3-4    Continued ENGINEERED SAFETY FEATURES ACTUATION SYSTEH IHSTRUNENTATION TRIP. VALUES, I
n M                                                                                        ALLOMABLf fll                                                            TRIP VALUE                    VALUES I  FUNCTIONAL UNIT    .
C M    5. CONTAIHMEHT SUHP 'RECIRCULATION (RAS)
: a. Hanual    RAS (Trip Buttons)                  Hot Applicable            Hot Applicable tQ
: b. Refueling ifater Storage Tank -   Low         5.67 feet above            4.62 feet'to 6;24 feet tank bottoa                above'tank bottom
: c. Automatic Actuation Logic                      Hot Applicable            Hot Applicable
: 6. LOSS OF POMER
: a.    (1) 4.16    kV Emergency Bus Undervoltage (Loss of Voltage)                        > 3120  volts            > 3120    volts
              .(2)  480 V Emergency Bus Undervoltage (Loss of Voltage)                        > 360  volts            ~ > 360    volts Oh 3848 volts              > 3848 volts I      b.    (1) 4. 16 kV Emergency Bus Undervoltage        >
lQ                  (Degraded Voltage)                        with  a 10-second 1        with a 10-'second time delay                tiae delay (2)  480 V Emergency Bus Undervoltage (Degraded Voltage)                      > 432  volts              >  432  volts AUXILIARY FEEOMATER (AFAS)
: a. Hanual    (Trip Buttons)                      Hot Applicable            Hot Applicable
: b. Automatic Actuation Logic                    . Hot Applicable            Hot Applicable
: c. Steals Generator hP-High                        < 180.0  Pseud'g g7        < 187.5 psid ig o%%uo
: d. SG 2wt28 Level Low                          . >  20.6X                    >  20.(C
: e. Feedwater Header High AP                        < 100.0 psid              <  107.5 psid
 
SAFETY LIMITS AND      LIMITING SAFETY    SYSTEM SETTINGS BASES Containment Pressure-High The Containment      Pressure-High    trip provides assurance that a reactor trip is initiated priot to      oi  'concurrently with a'afety injection (SIAS). This also provides assurance        that a reactor trip is initiated prior to or .
concurrently with      an MSIS.
Steam Generator      Pressure-Low The Steam Generator Pressure-Low trip provides protection against an excessive rate of heat extraction from the steam generators and subsequent cooldown of the reactor coolant.          The setpoint of 620 psia is sufficiently below the full load operating point of approximately 885 psia so as not to interfere with normal operation, but" still high enough to provide the required protection in the event of excessively'igh steam flow. This setting was used with an uncertainty factor of 30 psi in the safety analyses.
Steam Generator      Level-Low The Steam Generator Level-Low trip provides protection against a loss of feedwater flow incident and assures that the design pressure of the Reactor Coolant System wi 11 not be exceeded due to loss of the steam generator heat sink. This specified setpoint provides allowance that there will be sufficient water inventory in the steam generator at the time of the trip to provide a margin of at least 10 minutes before'auxiliary feedwater is required.
AK'ocal Power    Density-Hi  h The Local Power Density-High trip, functioning from AXIAL SHAPE INDEX monitoring, is provided to ensure that the peak local power density in the fuel which corresponds to fuel centerline" melting will not occur as a consequence of axial power maldistributions.          A reactor trip is i nitiated whenever the AXIAL SHAPE INDEX exceeds the allowable limits of Figure 2.2-2.
The AXIAL SHAPE INDEX is calculated from the upper and lower excore neutron detector channels. The calculated 'setpoints are generated as a function of THERMAL POWER level with the allowed CEA group position being inferred from the THERMAL POWER level.'he trip is automatically bypassed below 15K power.
The maximum AZIMUTHAL POWER TILT and maximum CEA          misalignment permitted for continuous operation are        assumed in generation of  the setpoints.     In addition, CEA group sequencing in accordance with the Specifications 3. 1.3.5 and 3. 1.3.6 is assumed.        Finally, the maximum insertion of CEA banks which can occur during any anticipated operational occurrence prior to a Power Level-H>c".
trip is  assumed.
~~''~~ p~~~ ~"~ ~~~~ ~ ~ ~we> ~mew ~~iq~ +we
    )                         ~ ~blHG        los% oF 5Quxtekal
        ~+~~ ~~~ o~W>> ~ <+V,svetw~ gee eR ~sp~ic
                    )                                            ~~~ ~~~~~g UCIE  -  UNIT 2                              hcepWC.
 
ATTACHMENT2 SAFETY EVALUATION Introduction This is a request    to revise Technical Specification 2.2.I, Reactor Protective Instrumentation (RPS), and 3/4.3.2, Engineered Safety Features Actuation System (ESFAS) Instrumentation       and their associated    Bases  of the Technical Specifications for St. Lucie Unit 2.
Discussion The existing Technical Specification setpoints correspond to a Cycle I analysis assumption of steam generator low level RPS setpoint of 30% narrow range (NR) for the most limiting event, Loss of Feedwater, and 5% NR setpoint for all accidents. The difference between the analysis assumption and specified setpoint (9.5%) accounts for process equipment uncertainties, equipment response times and RPS cabinet uncertainties. Auxiliary feedwater was manually actuated by the Reactor Operator, as reflected in all the analyses presented for Cycle I. The safety grade automatic auxiliary feedwater actuation system (AFAS) was installed before Cycle I operation to satisfy a post-TMI requirement, NUREG-0737, Item II.E. I.2.
This proposed change does not impact the results of the Safety Analysis presented for Cycles 2 or 3 but only reflects a change in the analysis assumptions made for Cycle I versus Cycles 2 or 3. The new values take into consideration the assumed RPS and ESFAS steam generator low level analysis setpoint of < 5% NR and the related instrument uncertainties. The calculated uncertainties were derived using accepted methodology for instrument uncertainties calculations (CEN-I l2(s) Rev.
0, 'Plant Protection System - Selection of Trip Setpoint Values," November l5, I 979),   which takes into account inherent process instrumentation errors, equipment response time, instrument drift and environmental concerns for accident conditions, as appropriate. The proposed setpoint numbers are applicable for operation of the RPS and ESFAS systems and are bounding for either the existing Barton M764 transmitters or Rosemount I I54 transmitters (possible replacement transmitters).
The proposed change contains those Technical Specifications needed to support the reduction of the low steam generator level setpoint for actuation of reactor trip and initiation of the AFAS in the RPS and ESFAS.
The proposed change revises Table 2.2-I Reactor Protective Instrumentation Trip Setpoint Limits and its associated Bases, to reflect a reduction in the setpoint and allowable values for the reactor trip on steam generator level - low.
The      proposed change also revises Table 3.3-4 Engineered Safety Features Actuation System Instrumentation Trip Values, to reflect a reduction in the initiation setpoint and allowable value for the AFAS on steam generator level-low.
F JW I /0 I 8/4
 
I 4
I 4l I
I I
4 I
I I I
I
 
Attachment    2 (Cont'd)
Table 2.2-I, item 8, presently specifies that the trip setpoint on low steam generator level is > 39.5% NR, with an allowable value of > 39.I%. These values are based on the Cycle I Final Safety Analysis Report (FSAR) analysis. The proposed change to Table 2.2.-l, item 8 decreases the trip setpoint on low steam generator level to > 20.5% NR, with an allowable value of > l9.5%. These values correspond with an analytical setpoint of 5% used in the accident analysis for Cycles 2 and 3.
The Bases for Table 2.2.I, item 8, specify that the trip on low steam generator level protects against exceeding the reactor coolant system (RCS) pressure limit of I I0% of design pressure for a Loss of Feedwater event. The proposed change adds that this trip also protects against violation of a specified acceptable fuel design limit (SAFDL) and offsite dose limits for the anticipated operational occurrence of the inadvertent opening of a steam generator atmospheric dump valve or a main steam safety valve.
Table 3.3-4, item 7.d, presently specifies that the AFAS setpoint on low steam generator level is > 20.6% NR with an allowable value of > 20.0%. These are based on the Cycle I FSAR analysis. The proposed change to Table 3.3-4, item 7.d, revises the AFAS setpoint on low steam generator level to > l9.0% NR, with an allowable value of > I8.0%. These values correspond with an analytical setpoint of 5% used in the accident analysis for Cycles 2 and 3.
The proposed    amendment to the low steam generator level setpoints does not impact the results presented in the Reload Safety Evaluation for Cycles 2 and 3 but only reflects changes to the determination of the instrument setpoint consistent with the Cycles 2 and 3 RPS and ESFAS analysis assumptions. The events which can be impacted by changes in RPS and ESFAS steam generator low level setpoints are the Loss of Feedwater event, the Feedwater Line Break (FLB) event, the Steam Line Break event (SLB), and the Inadvertent Opening of a Steam Generator Safety Valve or Atmospheric Dump Valve. The Cycle 2 Safety Analysis assumed a < 5% NR RPS and ESFAS steam generator low level setpoint. The analysis setpoint was set at 5% NR to ensure actuation prior to reaching 0%,
under accident conditions. The results of the analyses for the events presented in the Cycle 2 Reload Safety Evaluation demonstrated that all key parameters were below the acceptance criteria. Based on this evaluation, it can be concluded that the proposed amendment has been addressed by the existing Analyses of Record and, therefore, there is no impact on the reported results.
E JW I /0 I 8/5
 
II U
4 ll 5 v         4
 
ATTACHMENT3 DETERMINATIONOF NO SIGNIFICANT HAZARDS CONSIDERATION The standards used to arrive at a determination that a request for amendment involves no significant hazards consideration are included in the Commission's regulation, IO CFR 50.92, which states that no significant hazards considerations are involved if the operation of the facility in accordance with the proposed amendment would not (I) involve a significant increase in the probability or consequences of an accident previously evaluated; or (2) create the possibility of a new or different kind of accident from any accident previously evaluated or (3) involve a signficant reduction in a margin of safety. Each standard is discussed as follows:
(I) Operation of the facility in accordance with the proposed amendment would not involve a significant increase in the probability or consequences of an accident previously evaluated.
The proposed change lowers the probability of previously evaluated events by decreasing the likelihood of an unplanned reactor trip or Auxiliary Feedwater Actuation System (AFAS) initiation on low steam generator level.
(2)  Use of the modified specification would not create the possibilityof  a new or different kind of accident from any accident previously evaluated.
The setpoints for the Reactor Protective Instrumentation (RPS) trip and the AFAS have been established such that they ensure actuation of these functions before the instrumentation goes off scale.      This starts with a minimum level of 5% NR and includes appropriate errors for an',inside containment accident such as a Steam Line Bre'ak. The difference betw'een the setpoint and allowable values accounts for the instrumentation drift over the specified surveillance interval.
(3)  Use  of the modified specification would not involve a significant reduction in a margin of safety.
As discussed in the Safety Evaluation, the results of all analyses remain within the acceptance criteria of the Standard Review Plan.
Based on the above, we have determined that the amendment request does not (I) involve a significant increase in the probability or consequences of an accident previously evaluated, (2) create the probability of a new or different kind of accident from any accident previously evaluated, or (3) involve a significant reduction in a margin of safety; and therefore does not involve a significant hazards consideration.
E JW I /0 I 8/6
 
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Latest revision as of 13:48, 4 February 2020

Proposed Tech Specs Re Reactor Protection Instrumentation & ESFAS & Associated Bases.Safety Evaluation & NSHC Determination Encl
ML17219A245
Person / Time
Site: Saint Lucie NextEra Energy icon.png
Issue date: 12/02/1986
From:
FLORIDA POWER & LIGHT CO.
To:
Shared Package
ML17219A244 List:
References
NUDOCS 8612080622
Download: ML17219A245 (11)


Text

ATTACHMENT l Marked-up Technical Specification Pages:

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TABLE 2.2-1 REACTOR PROTECTIVE IHSTRNEHTATIN TRIP SETPOIHT LIHITS I

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FNCTIONL NIT TRIP SETPOIHT hLLOMABLK VALUES I

l.. Hanual Reactor Trip Hot, Applicable Hot Applicable

2. Variable Peer level - High(1)

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Four Reactor Coolant Pu<<ps < 9.61K above TllERNL POMER, c 9.6lX above TilERNAL PNER,'nd Operating Pith a <<inta'etpoint of a <<iniam setpoint of 15K of 15K of RhTED TUERNlL ONER, RATEO TIIERNL POMER and a <<axiom

'nd a <<axi<<u<< of < 107.N of of < 107.0X .of RATEO TllERNL POMER. .

QATEO THERHAL PNB.

3. Pressurizer Pressure - High < 2370 psia < 237I psia.

Theraal Hargin/Lm Pressure I

four Reactor Coolant Pu<<ps Trip setpoint adjusted to not Trip setpoint adjusted to not Operating exceed the li<<it lines of exceed the li<<it lines of

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figures 2.2-3 and 2.g-4. figures 2.2-3 and 2.2-4.

Hini<<m value of 1900 psia. Hiniae value of 19M psia.

5. Contain<<ent Pressure - High < 3.0 Psig < 3.l psig I
6. Steai Generator Pressure - Low > 626;9 psia (2) > 621.O psia (2) 7; Steai Generator Pressure (1) < 120.0 psid . < 132.0 psid Dl f ferencc - High (Logic in TH/LP Trip Unit)

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8. Stea<<Generator Level - Los 9.5X (3) -> 39.1X (3) lO

i TABLE 3. 3-4 Continued ENGINEERED SAFETY FEATURES ACTUATION SYSTEH IHSTRUNENTATION TRIP. VALUES, I

n M ALLOMABLf fll TRIP VALUE VALUES I FUNCTIONAL UNIT .

C M 5. CONTAIHMEHT SUHP 'RECIRCULATION (RAS)

a. Hanual RAS (Trip Buttons) Hot Applicable Hot Applicable tQ
b. Refueling ifater Storage Tank - Low 5.67 feet above 4.62 feet'to 6;24 feet tank bottoa above'tank bottom
c. Automatic Actuation Logic Hot Applicable Hot Applicable
6. LOSS OF POMER
a. (1) 4.16 kV Emergency Bus Undervoltage (Loss of Voltage) > 3120 volts > 3120 volts

.(2) 480 V Emergency Bus Undervoltage (Loss of Voltage) > 360 volts ~ > 360 volts Oh 3848 volts > 3848 volts I b. (1) 4. 16 kV Emergency Bus Undervoltage >

lQ (Degraded Voltage) with a 10-second 1 with a 10-'second time delay tiae delay (2) 480 V Emergency Bus Undervoltage (Degraded Voltage) > 432 volts > 432 volts AUXILIARY FEEOMATER (AFAS)

a. Hanual (Trip Buttons) Hot Applicable Hot Applicable
b. Automatic Actuation Logic . Hot Applicable Hot Applicable
c. Steals Generator hP-High < 180.0 Pseud'g g7 < 187.5 psid ig o%%uo
d. SG 2wt28 Level Low . > 20.6X > 20.(C
e. Feedwater Header High AP < 100.0 psid < 107.5 psid

SAFETY LIMITS AND LIMITING SAFETY SYSTEM SETTINGS BASES Containment Pressure-High The Containment Pressure-High trip provides assurance that a reactor trip is initiated priot to oi 'concurrently with a'afety injection (SIAS). This also provides assurance that a reactor trip is initiated prior to or .

concurrently with an MSIS.

Steam Generator Pressure-Low The Steam Generator Pressure-Low trip provides protection against an excessive rate of heat extraction from the steam generators and subsequent cooldown of the reactor coolant. The setpoint of 620 psia is sufficiently below the full load operating point of approximately 885 psia so as not to interfere with normal operation, but" still high enough to provide the required protection in the event of excessively'igh steam flow. This setting was used with an uncertainty factor of 30 psi in the safety analyses.

Steam Generator Level-Low The Steam Generator Level-Low trip provides protection against a loss of feedwater flow incident and assures that the design pressure of the Reactor Coolant System wi 11 not be exceeded due to loss of the steam generator heat sink. This specified setpoint provides allowance that there will be sufficient water inventory in the steam generator at the time of the trip to provide a margin of at least 10 minutes before'auxiliary feedwater is required.

AK'ocal Power Density-Hi h The Local Power Density-High trip, functioning from AXIAL SHAPE INDEX monitoring, is provided to ensure that the peak local power density in the fuel which corresponds to fuel centerline" melting will not occur as a consequence of axial power maldistributions. A reactor trip is i nitiated whenever the AXIAL SHAPE INDEX exceeds the allowable limits of Figure 2.2-2.

The AXIAL SHAPE INDEX is calculated from the upper and lower excore neutron detector channels. The calculated 'setpoints are generated as a function of THERMAL POWER level with the allowed CEA group position being inferred from the THERMAL POWER level.'he trip is automatically bypassed below 15K power.

The maximum AZIMUTHAL POWER TILT and maximum CEA misalignment permitted for continuous operation are assumed in generation of the setpoints. In addition, CEA group sequencing in accordance with the Specifications 3. 1.3.5 and 3. 1.3.6 is assumed. Finally, the maximum insertion of CEA banks which can occur during any anticipated operational occurrence prior to a Power Level-H>c".

trip is assumed.

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ATTACHMENT2 SAFETY EVALUATION Introduction This is a request to revise Technical Specification 2.2.I, Reactor Protective Instrumentation (RPS), and 3/4.3.2, Engineered Safety Features Actuation System (ESFAS) Instrumentation and their associated Bases of the Technical Specifications for St. Lucie Unit 2.

Discussion The existing Technical Specification setpoints correspond to a Cycle I analysis assumption of steam generator low level RPS setpoint of 30% narrow range (NR) for the most limiting event, Loss of Feedwater, and 5% NR setpoint for all accidents. The difference between the analysis assumption and specified setpoint (9.5%) accounts for process equipment uncertainties, equipment response times and RPS cabinet uncertainties. Auxiliary feedwater was manually actuated by the Reactor Operator, as reflected in all the analyses presented for Cycle I. The safety grade automatic auxiliary feedwater actuation system (AFAS) was installed before Cycle I operation to satisfy a post-TMI requirement, NUREG-0737, Item II.E. I.2.

This proposed change does not impact the results of the Safety Analysis presented for Cycles 2 or 3 but only reflects a change in the analysis assumptions made for Cycle I versus Cycles 2 or 3. The new values take into consideration the assumed RPS and ESFAS steam generator low level analysis setpoint of < 5% NR and the related instrument uncertainties. The calculated uncertainties were derived using accepted methodology for instrument uncertainties calculations (CEN-I l2(s) Rev.

0, 'Plant Protection System - Selection of Trip Setpoint Values," November l5, I 979), which takes into account inherent process instrumentation errors, equipment response time, instrument drift and environmental concerns for accident conditions, as appropriate. The proposed setpoint numbers are applicable for operation of the RPS and ESFAS systems and are bounding for either the existing Barton M764 transmitters or Rosemount I I54 transmitters (possible replacement transmitters).

The proposed change contains those Technical Specifications needed to support the reduction of the low steam generator level setpoint for actuation of reactor trip and initiation of the AFAS in the RPS and ESFAS.

The proposed change revises Table 2.2-I Reactor Protective Instrumentation Trip Setpoint Limits and its associated Bases, to reflect a reduction in the setpoint and allowable values for the reactor trip on steam generator level - low.

The proposed change also revises Table 3.3-4 Engineered Safety Features Actuation System Instrumentation Trip Values, to reflect a reduction in the initiation setpoint and allowable value for the AFAS on steam generator level-low.

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Attachment 2 (Cont'd)

Table 2.2-I, item 8, presently specifies that the trip setpoint on low steam generator level is > 39.5% NR, with an allowable value of > 39.I%. These values are based on the Cycle I Final Safety Analysis Report (FSAR) analysis. The proposed change to Table 2.2.-l, item 8 decreases the trip setpoint on low steam generator level to > 20.5% NR, with an allowable value of > l9.5%. These values correspond with an analytical setpoint of 5% used in the accident analysis for Cycles 2 and 3.

The Bases for Table 2.2.I, item 8, specify that the trip on low steam generator level protects against exceeding the reactor coolant system (RCS) pressure limit of I I0% of design pressure for a Loss of Feedwater event. The proposed change adds that this trip also protects against violation of a specified acceptable fuel design limit (SAFDL) and offsite dose limits for the anticipated operational occurrence of the inadvertent opening of a steam generator atmospheric dump valve or a main steam safety valve.

Table 3.3-4, item 7.d, presently specifies that the AFAS setpoint on low steam generator level is > 20.6% NR with an allowable value of > 20.0%. These are based on the Cycle I FSAR analysis. The proposed change to Table 3.3-4, item 7.d, revises the AFAS setpoint on low steam generator level to > l9.0% NR, with an allowable value of > I8.0%. These values correspond with an analytical setpoint of 5% used in the accident analysis for Cycles 2 and 3.

The proposed amendment to the low steam generator level setpoints does not impact the results presented in the Reload Safety Evaluation for Cycles 2 and 3 but only reflects changes to the determination of the instrument setpoint consistent with the Cycles 2 and 3 RPS and ESFAS analysis assumptions. The events which can be impacted by changes in RPS and ESFAS steam generator low level setpoints are the Loss of Feedwater event, the Feedwater Line Break (FLB) event, the Steam Line Break event (SLB), and the Inadvertent Opening of a Steam Generator Safety Valve or Atmospheric Dump Valve. The Cycle 2 Safety Analysis assumed a < 5% NR RPS and ESFAS steam generator low level setpoint. The analysis setpoint was set at 5% NR to ensure actuation prior to reaching 0%,

under accident conditions. The results of the analyses for the events presented in the Cycle 2 Reload Safety Evaluation demonstrated that all key parameters were below the acceptance criteria. Based on this evaluation, it can be concluded that the proposed amendment has been addressed by the existing Analyses of Record and, therefore, there is no impact on the reported results.

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ATTACHMENT3 DETERMINATIONOF NO SIGNIFICANT HAZARDS CONSIDERATION The standards used to arrive at a determination that a request for amendment involves no significant hazards consideration are included in the Commission's regulation, IO CFR 50.92, which states that no significant hazards considerations are involved if the operation of the facility in accordance with the proposed amendment would not (I) involve a significant increase in the probability or consequences of an accident previously evaluated; or (2) create the possibility of a new or different kind of accident from any accident previously evaluated or (3) involve a signficant reduction in a margin of safety. Each standard is discussed as follows:

(I) Operation of the facility in accordance with the proposed amendment would not involve a significant increase in the probability or consequences of an accident previously evaluated.

The proposed change lowers the probability of previously evaluated events by decreasing the likelihood of an unplanned reactor trip or Auxiliary Feedwater Actuation System (AFAS) initiation on low steam generator level.

(2) Use of the modified specification would not create the possibilityof a new or different kind of accident from any accident previously evaluated.

The setpoints for the Reactor Protective Instrumentation (RPS) trip and the AFAS have been established such that they ensure actuation of these functions before the instrumentation goes off scale. This starts with a minimum level of 5% NR and includes appropriate errors for an',inside containment accident such as a Steam Line Bre'ak. The difference betw'een the setpoint and allowable values accounts for the instrumentation drift over the specified surveillance interval.

(3) Use of the modified specification would not involve a significant reduction in a margin of safety.

As discussed in the Safety Evaluation, the results of all analyses remain within the acceptance criteria of the Standard Review Plan.

Based on the above, we have determined that the amendment request does not (I) involve a significant increase in the probability or consequences of an accident previously evaluated, (2) create the probability of a new or different kind of accident from any accident previously evaluated, or (3) involve a significant reduction in a margin of safety; and therefore does not involve a significant hazards consideration.

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