ML20236A850
| ML20236A850 | |
| Person / Time | |
|---|---|
| Site: | Peach Bottom  |
| Issue date: | 01/31/1989 |
| From: | BECHTEL POWER CORP. |
| To: | |
| Shared Package | |
| ML20236A791 | List: |
| References | |
| NUDOCS 8903200191 | |
| Download: ML20236A850 (412) | |
Text
{{#Wiki_filter:* Philadelphia Electric Company i PEACH BOTTOM ATOMIC POWER STATION UNITS 2 AND 3 VOLTAGE REGULATION STUDY l { 9 . U.,bb. ) hNd d 5 N'l U d!_sby l
. i l Bechtel Power Corporation s c um usm,, PDC 4 9
1 4 L O VOLTAGE REGULATION STUDY PEACH BOTTOM ATOMIC POWER STATION UNIT NOS. 2 & 3 PHILADELPHIA '.LECTRIC COMPANY JOB 18247-026 1 1 1 l t REVISION O lifB"NEHED
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I BECHTEL POWER CORPORATION SAN FRANCISCO, CALIFORNIA JANUARY,1989 O j
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V EXECUTIVE
SUMMARY
The purpose of this voltage regulation study is to demonstrate that adequate voltage is available to the Peach Bottom Units 2 & 3 plant auxiliary electrical distribution system under various plant operating conditions. The auxiliary distribution system-has been evaluated down to and including the 480V level for startup, nonnal operation, normal shutdown, long term shutdown, unit trip and shutdown following a LOCA, with either one or two offsite power sources available. The 120V "Y" instrument panels have also been evaluated. Additionally, this study evaluated the auxiliary distribution system l voltage levels while supplied by the main turbine generator. Setpoints for the degraded ! voltage relays (Millstone Event) have also been established. j During the course of this study, several required changes to the Technical Specifications ! and administrative controls and several modifications to the auxiliary distribution system l to improve voltage regulation have been identified. From these study results, it is l concluded that with the implementation of these changes and modifications, adequate , voltage levels are available to equipment powered by the plant auxiliary electrical ! distribution system. O U l epmmmqy
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n ke = , B ;. 8 O VoLTREGO. STY 1/31/89
lO TABLE OF CONTENTS
- 1. Introduction j
- 2. Scope
- 3. Methodology
- 4. Results
- 5. Summary of Changes Resulting from Study
- 6. Conclusions
- 7. References APPENDICES -
A Tables B Figures C Computer Result Tabulation D Electric Load Tabulation E Voltage Profile Diagrams I O VOLTREGOSTY 1/31/89 i
i
- 1. INTRODUCTION
.; T D'
The purpose of this voltage regulation study is. to demonstrate that adequate voltage is available to the peach Bottom Units 2 & 3 plant auxiliary electrical 1 distribution spstem under various plant operating conditions. i ' The scope of this study is described in Section 2. Section 3 discusses the - -l methodology used, including information on.the assumptions and system models , used. The results of the study are detailed in Section 4. Section 5 provides a i summary of changes, modifications and items for_ future consideration resulting ! from this study. i Various tables and figures provide information pertinent to the discussion in the ' above sections. These tables and figures are located in Appendices A and B,- i respectively. A tabulation of the voltage levels resulting from the bounding plant - operating configurations is provided in Appendix C. Appendix D.contains a tabulation of the bus loads on switchgear and load centers for the following plant operating conditions: o Startup o Normal Operation
- o. Normal Shutdown
(- o Unit Trip V) o o Long-Term Shutdown LOCA Voltage levels at different buses are plotted graphically to represent voltage profiles for selected cases in Appendix E. l UN03NTP%E i CDPi
.'q VoLTREGO.S1Y 1/31r69 ~ l'1 m_______S__-_ _ _ - --
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- 2. SCOPE- 1 i
A. ItemsLIncluded The scope 'of this study is to determine and analyze the effects of'the voltage levels on the plant auxiliary electrical distribution system under the following plant configurations and conditions, with either one or two offsite power supplies available: o Both units in normal operation. i o 'One unit in normal operation, the other unit in~long term shutdown. o' 'LOCA in one unit and orderly shutdown of the other unit from normal operation after transient. o LOCA in one unit and the other unit in long-term shutdown.-
)
- o. Unit trip in one unit and the other unit in normal operation or in '
l long-term shutdown.
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' Q o Both units in long term shutdown. 1 This voltage regulation study modelled all voltage levels down to and 1 including the '480V level, but evaluated down to the 120V level.
3 . I In addition to the configurations delineated above, the following tasks have j 1: l also been included in this study: i o Voltage regulation study of the unit auxiliary system while supplied. j by the, main turbine-generator. .l o Voltage regulation study for the startup of the unit (including cooling _ s l towers) from the offsite power supplies. j o Optimizing transformer tap settings.
- j. o Establishing operating boundaries for allowable range of supply voltages to maintain voltage regulation within acceptable limits.
o Establishing setpoints for the degraded voltage relays (Millstone ! Event). O VoL'IREGO. STY - 1/31/89 2*1 j
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1 y: V o; ' Preparing electric load tabulations. , a
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- o. ' Evaluating the voltage levels lduring' start of the fire pump at the -
- motor terminals.
o - Evaluating Class 1E power distribution equipment loading. ]I o Operating the plant with the loss of one offsite power source.: o B. Items Excluded , The following tasks have not been included in the scope of this ' study: i o ;The 480120' volt control transformer circuits at the MCCs will be " addressed in a separate report. j 4
-o- Diesel generator voltage regulation will be addressed in another study.
- o. - Optimization of transformer tap settings for the administration and ' .l j
7( miscellaneous buildings and switchyard load center transformers have not been included in this study. As noted in Section: 3.C.18,' ho' wever, assumed loads and power factors for these transformers are used in this study. 1 o Operation of the 13.2kV unit auxiliary bus loads from the offsite power sources in case of ~a loss of any unit auxiliary transformer during normal plant operation has not been addressed by this study. [: O
. VOLTREGO. STY 1/31/89 2-2
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'V: : 3. METHODOLOGY
- This section describes the meth~ o doloy / that has been used in performing'this voltage regulation study. Informatico provided in'this section includes system :
models, assumptions, plant design features and acceptance bases. t A. General Three bounding plant operating configurations (using offsite power sources)
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apply to.this voltage regulation study. There plant configurations provide the limiting -(minimum and maximum) loads that; the plant auxiliary.
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electrical distribution system will see during normal plant operation. The . three configurations are: a.
- 1. No cooling towers operating, one or two offsite power sources available, Unit '2 in normal operation, and '
Unit 3 in long-term shutdown'(both 13.3kV unit auxiliary buses of l Unit 3 supplied by the offsite power source or sources) or Unit 3 in normal operation.
. 2. At least four cooling towers operating, one or two offsite power
- sources available, Unit 2 in normal operation,'and Unit 3 in long-term shutdown (both 13.2kV unit auxiliary buses of Unit 3 supplied by the offsite power source or sources) or i
Unit 3 in normal ~ operation. P 3. No cooling towers operating, only one offsite power source available,. ' and. Unit 2 in normal operation with .one 13.2kV unit auxiliary bus supplied by the offsite power source (other 13.2kV unit auxiliary bus supplied by the associated turbine-generator unit) and Unit 3 in long-term shutdown (both 13.2kV unit auxiliary buses of Unit 3 are supplied by the offsite power source) or Unit 2 and 3 in normal operation with one 13.2kV unit auxiliary bus j of any unit supplied by the offsite power source (This is not a normal l mode of plant operation.). VoLTREGO. STY 1/31/89 3-1 1
. 1 _ O V . - ( Voltage levels on the plant electrical distribution system have been then { determined for these three bounding plant operating configurations during - 1 specific conditions as described in Section 2c A set of bounding case studies
.l have. been performed with the limiting case offsite circuit (2 Startup '
Transformer 00X03) voltage and its associated transformer impedance . j (Section 4.J.3). For the other offsite power circuit (3 Startup Transformer 00X05 and 343 Startup Transformer 00X11), only a few cases are run to ensure that the results are enveloped by the bounding case studies. Since Unit 2 has more loads than Unit 3 and both units are essentially the same - in terms of bus configuration and transformer impedances, the study cases for Unit 2 also apply to Unit 3. Voltage regulation calculations have.been performed 1 sing Bechtel's PC based in house computer program 'VOLTDROP, which is the PC version of the mainframe "VOLTANAL" Program.
'1 Bus loading of switchgear, load centers and MCCs has been determined by -l reviewing individual l loads connected to each bus. Tabulations of bus ,
loadings have been made for startup, normal operation, normal shutdown, l LOCA, unit trip and long term shutdown conditions. ' Bechtel's PC based
]b; in house computer program "LOADTAB" has been utilized in the preparation
'of the tabulations. These tabulations are provided in Appendix D.-
a With these bus loads and cable and transformer impedances, models of the { plant electrical distribution system have been developed. The model data ; has been input to the~ computer program which calculated the response of
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the plant electrical distribution system to the various bounding plant operating configurations. A tabulation of the results from the evaluation of these configurations is provided in Appendix C. B. System Models The plant electrical distribution system models for this study consist of impedance models and load models. The load model and corresponding impedance values for each configuration under study have been input into the 'VOLTDROP" program to calculate the. voltage. level of the buses and loads represented by the model. I p O _ _ 32 1 1 ' i
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.h j., 1.- Impedance Models The impedance models that have been used are shown on Figures 1, 2,3 and 4 in Appendix B. Figure 1 is the model that has been used when 'the 13.2kV unit auxiliary buses'are supplied from the unit j auxiliary transformer. This.model is applicable to either Unit 2 'or.
3 since the differences between the two units are negligible (loa' ds,- bus arrangement,' cable impedance and transformer impedance are essentially the same). Figure 2_is the model that has been used for startup of the units, normal operation, degraded voltage protective relay setpoint (Millstone Event), long term shutdown, and unit trip from Startup Transformers 00X03,00X05 and 00X11. Figure 3 is-the model that has been used to represent the shutting down of the plant when fed from any one of the three startup transformers, due
, to a LOCA at either unit... Figure 4 is the model used to represent the loss of any one of the two offsite power sources during normal-plant operation.
Motors are represented on buses as constant impedance while starting - and constant MVA when running. Starting motors are represented-j " on buses at discrete points in operational' sequences in combination . '{ with other running loads to calculate their transient starting voltage j {d ' and effect on the plant electrical distribution system voltages. Cable and captive transformer impedances for each individual motor.are combined and represented as a single impedance. Similarly, cable 1 i and transformer impedances for each load center are combined and ' represented' as , a i single . Impedance. Also, impedances for the { 1 following are represented in the models: I 4 o 15kV cables interconnecting 13.2kV buses, o 15kV and:5kV. nonsegregated buses..
;l o- 600V cables from load ~ centers to MCCs. . I l
o- Cables from buses to selected-4kV, 2.3kV and 460V~ motor terminals.
- 2. Load Models-The load models for mnning loads used in the voltage regulation-study have been developed- from the electric load tabulations in Appendix D. The bases for the electric load tabulations are the VoUmEGO. STY - t/31/89 3-3
*4 Qt ,
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,4 t
- station ? single lines.,I schematic diagrams, vendor - drawings,) Bus -
4 Connection Report (Reference 2), Bus, Load Study (Reference 3), ! FSAR,: and Technical Specifications. All pertinent data for motors - 100HP. and smaller is from Reference 2. The program "LOADTAB" has -been used in the preparation of the electric load tab'ulations.' ? These tabulations provide 'the connected loads. and-load demand under various plant operating configurations for each 480V MCC bus, 480V load center bus and higher voltage buses. The nameplate rating of the motors at all voltage levels has been used withcut any consideration of load factor. Locked rotor current multipliers and power factors for starting loads are listed in Appendix- A, Table B.-
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In case of a LOCA or unit trip, non-Class 1E unit loads are considered '
' to be the same as those of the normal plant operating loads except
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that the recire M-G sets have been tripped due 'to a LOCA or unit 1 tdp. !However, any one of the two recirc M-G sets may be started - manually after a unit trip. l C. ~ Assumptions
. Unless stated otherwise, the assumptions discussed below are applicable to all the cases desedbed in this report.
- 1. Nameplate horsepower (HP) rating of the continuous duty motors has been used without consideration of load factor. Use' of the.
nameplate rating is conservative since it maximizes the load on the i plant electrical distribution system. , L
- 12. Locked rotor current multipliers and power factors for starting loads, listed in Appendix. A, Table B, are based on 100% voltage at the f motor terminals.
l , 3. Per - Appendix A, Table H, the 2 operating minimum, normal ~ and - ! maximum voltages on the 230kV system are 0.975 per unit,1.00 per unit and 1.043 per unit system voltage on a 230kV base. The-abnormal minimum and maximum voltages that have been used are-- 0.934 per unit and 1.054 per unit, respectively. These limits are applicable. to 2 Startup Transformer 00X03~ and 343'Startup Transformer 00X11 only.
- 4. Per Appendix A, Table H,. the operating' minimum, normal and i maximum voltages at 3 Startup Transformer 00X05 are 0.975 per E unit,1.00: per unit and 1.054 per unit on a 14.1kV base. The abnormal minimum voltage that has been used is 0.941 per unit for this transformer. 1 VoLTREGO. STY 1M 1/89 3-4 l -.
j i D 5. For the non Class IE load centers, a transformer with a limiting case L j cloading (1000kVA) has been modelled with an MCC feeder loaded
, to 400kVA ~at a 0.86 power factor. For the Class 1E load' centers, only the transformer with the maximum loading has been modelled with a MCC feeder loaded'to 250kVA at a 0.86 power factor. 4
- 6. Loads that exist on Class 1E buses prior to the occurrence of a LOCA are not redistributed after a LOCA initiation.
- 7. Maximum test impedances of transformers (of the same rating) are used.
'8. Efficiency of the transformers is 100% at full load. This value has
. been used for the electric load tabulation in Appendix D.
- 9. Limited short duty loads such as motor operated valves, hoists and cranes have not been included in the steady-state _ load'on buses.
Demand factor for other intermittent loads is generally censidered to be 0.15 (Appendix D). However, motor operated valves' are considered for starting transient loading when significant. ;
,iq' v 10. Running loads have been treated as constant MVA loads. Motor starting loads have been treated as constant impedance loads.
11 Valves that are open and start to close are considered running loads after 5 cycles from the time of starting. Valves that are closed and start to open are considered as drawing locked rotor current for the
- first 20% of the stroke time. After 20% of stroke time, the valves are considered running loads until the end of their stroke time.
- 12. Where two or more .100% capacity components are available'on the MCCs, and only one component is required to be operated,'the 100%'
load of one component is distributed equally to the designated buses;- Similarly, for the case of 3-50% capacity components with only 2- _ j 50% capacity components' required, the 100% capacity load is distributed equally to the designated buses'(Appendix D). , 13. A LOCA and fire do not occur concurrently.
- 14. On loss of one offsite power source, the operator will restore 13.2kVs Switchgear Bus 00A03B or 00A03C and will manually start the 3 affected cooling tower pumps and fans as soon as practicable.
{ l L _ i VoLTREGO.SW 1/31/89 3-5 _ _ _ _ _ _ _ _ _ J
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.s) hch ' i [ Q 1 Q$ 4" ' ; il5.' ' During startup of.the units, the cooling ~ towers are n6t operating.- Cooling towers are started 'only after the unit auxiliary buses are - j transferred to the unit auxiliary transformers. ' The only exception is' , when~any unit is in long-term shutdown and the unit auxiliary buses - -l
. are supplied by the offsite power sources.
- 16. Per Appendix A, Table H, the minimum and maximum voltages of the-22kV generator bus are 0.95 1% and 1.05 per unit, respectively.'
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- 17. Per Reference 5, automatic fr ransfer of 13.2kV auxiliary buses from the unit auxiliary to c%ite power sources will not entail any c inrush currcnts.
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- 18. A 3900kVA load at a 0.85 power factor has been. assumed for the - !
administration and miscellaneous buildings and'a 250kVA load'at a 1 0.85 power factor has been assumed for the switchyard lighting and - j a pc,wer requirements. These loads are bssed'on approximately 50%. j of the transformer rating. ;
- 19. At the start of a LOCA, unit trip or normal shutdown, the non-Class 1E load center loads of the unit auxiliary buses of the affected unit ]
are the same as those present during normal operation (Appendix D). I 20. The 230kV system supplying 2 Startup Transformer 00X03 and 343
., Startup' Transformer 00X11 and' the' 500kV system supplying 3 Startup Transformer 00X05 are' infinite sources.
- 21. During startup, unit trip or normal shutdown, the nmning load of each M G set is assumed to be-30% of the set rated load.
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- 22. For the cases where Unit:3.is.in.long-term shutdown and ~only one m j offsite power source is available,' the following maximum loads have - '
been used: 1 o- 3.5MVA at 0.955 power factor on the 13.2kV buses. j T i o 3.9MVA'at 0.897 power factor on.the 4.16kV Class 1E buses. E For operation of four cooling towers, a total load of 25.3MVA at 0.988 power factor has been used. If five cooling towers are in use, then the same minimum load (25.3MVA) mus; be maintained. H <
- 23. It is assumed that the RPS M-G set motors start automatically on restoration of power supply to buses following a loss of one of the 3 offsite power sources.
6- [ VOLTREGO. STY 1/31/89 3-6 w' _- - - _ - - . - .- - - - a
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.fm 24. Feeder cable impedances for the 600V system have been based upon
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footage installed in magnetic raceways. Higher voltage cables ha've - 1 Lbeen assumed.to be installed in PVC conduits. D. Plant Design Features
, 1
- 1. The largest motor connected to any 480V load center is- 285:
horsepower.
- 2. The largest motor connected to any motor control center is 100:
horsepower,
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- 3. On loss of one offsite power source, the reactor building area exhaust - }
and supply fans, refueling floor vent supply and exhaust fans, as well { as equipment cell exhaust fans in both units, are tripped, and the ! standby gas treatment fans of both units are automatically started by reactor building ise'ation signals.
- 4. On loss of one offsite power source, if the power supply to the Class 1E MCC supplying the Computer Motor-Generator set is lost, the set
.is transferred automatically to the de power source. It will run for 2 minutes on the de system before automatic retransfer to the ac.
[]' system following restoration of the ac power supply. i
' 5. On loss of any one of the offsite power sources, Class IE MCC loads such'as the fuel pool cooling water pump, fuel pool _ service water booster pump, and cleanup recirculation pump and the CRD pump on the 4.16kV Class 1E bus, are automatically tripped on the affected buses. These will be manually restarted.
J 1
- 6. The affected turbine-generator unit will be tripped as a consequence !
of a LOCA. Automatic fast transfer of 13.2kV auxiliary buses from ., the unit auxiliary to offsite power sources will be initiated by unit- l trip lockout relays. These are energized by the power / load unbalance relay (Device 361), directional power relay (Device 32) or auxiliary { relay (Device 94TT).
- 7. The Class IE 4kV buses are split between the two offsite power
.]
sources. Of the four 4kV buses per unit, two from each unit are ! powered from each of the offsite sources. If only one offsite source is available, all buses are fed from this source. -< O l votnmcosnr ini/s, 3-7 l 1
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- 8. 'On any unit trip or any unit in normal shutdown: )
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.Q.~ CoolingLtowers.D and .E are tripped if both offsite power y -
., sources are available.
o All cooling towers are tripped if only one offsite power source-r is available. All cooling. towers are tripped following a LOCA.with one or both ! offsite ' power sources available.
]
- 9. The recire M G sets are tripped in case of a LOCA'or unit trip. Any .
,, one of the M-G sets may be started manually in case of unit trip.
- 10. On unit trip or normal shutdown, the RHR compartment fans start-automatically with the associated RHR pump breaker.(Shutdown Cooling Mode). A LOCA signal willinitiate all the RHR compartment )
fans of the affected unit. ,
- 11. In case of a LOCA and availability of one offsite power source: 'only one of the'two 13.2kV unit auxiliary buses of the affected unit will; l be transferred to the available offsite power source for the operating - ,;
configuration described in Section 3.A.1, both buses for the operating 1 P _ configuration described in Section 3.A.2 and a second bus in addition .
\ to 'the bus already energized or only one of the two 13.2kV unit
- auxiliary buses of the affected unit in a'd dition'to one bus of the non-affected unit already energized ' for the operating configuration .,
l described in Section 3.A.3. 1
- 12. In the event of a LOCA, the transformer automatic load tap changers l
(LTCs) for 2"Startup ~ Transformer 00X03, 3 Startup Transformer. l 00X05, and 343 Startup Transformer 00X11 will remain fixed h their . l ' l pre-LOCA position for 30 seconds. The load tap changers are capable of moving one step (5/8%) every three to five seconds..
- 13. Non Class 1E loads are not shed from.the Class 1E' buses in the >
event of a LOCA. i l 14. For the establishment of the degraded voltage relay (Millstone Event) setpoints, a typical Class 1E' transfonner is loaded to 500kVA with ~ a MCC loaded to 250kVA at 0.86 power factor. To determine the l Class IE MCC voltages on a 480V base, the 4.16kV Class 1E voltage is maintained at 0.89 per unit on a 4.16kV base. O , VoLTREG0 STY 1/31/89 3-8 1
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.. .15. .RHR Pumps A&B and C&D and Core Spray Pumps A&C and B&D will' O' be started as pairs with a predeterndned time delay following a b LOCA.
a j I
- 16. Diesel generator vent and supplemental supply fans will.be auto- 1 started with a predetermined time delay following a LOCA.. )
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- 17. The automatic LTCs for 2 Startup Transformer 00X03, 3 Startup j Transformer 00X05 and 343 Startup Transformer 00X11 are set to d
. maintain approximately 1.0334 per unit voltage at the 13.2kV buses during normal plant operation. The one exception to.this is when the plant is in the bounding configuration described in Section 3.A.3 - !
(one unit in normal operation, one unit in long term shutdown). Under this configuration, theiautomatic LTC (at maximum tap ; position) for 2 Startup Transformer 00X03 will ' maintain i approximately 1.0177 per unit voltage at the 13.2kV buses during l normal plant operation based on a 230kV system voltage of 0.934 l per unit. ,
- 18. One recirc M-G set lube oil pump per set will be normally operating.
- 19. The 15kV cables from 3 Startup Transformer 00X05 and 343. Startup N
' Transformer 00X11 to the Unit 313.2kV startup bus are installed in aluminum trays.
- 20. 600V cables have copper conductors while all higher voltage cables have aluminum conductors.
E. Acceptance Bases
- 1. The minimum. terminal voltage during starting of any. motor rated 2.3kV or above is 75% of rated voltage (Reference 6). For recire M-G set motors and Core Spray pump motors, the minimum terminal.
voltage is'65% (Reference 7) and 82% (Reference 8) ~of rated voltage, respectively. For CRD pump motors, the minimum' terminal voltage !
-during starting is 78% (Reference 8).
l
- 2. Per Reference 9, the. specified minimum terminal voltage during starting of any 460V. motor is 80% of rated voltage. However, the National Fire Protection Association (NFPA) requires that the fire pump motor starting voltage be 85% of rated voltage (Reference 10).
- 3. In general, when starting any motor in the auxiliary system, the
, terminal voltage of running induction motors will not dip below-VOLTREGO. STY 1/31/89 3-9 l
t - ________m___.___________._____m. . _ _
7
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4 1 P4.,
- 70.7% based, on NEMA design B. For synchronous motors the
. r~' . - b-
. terminal volt' age will not dip _ below 75.6%, based on G.E. data,for j .*[ (the. l circulating. water pump; motors 1(Reference 11). 1Where information has not been available as to the design type ofinduction
, motors, a NEMA design B has been assumed.-
;- 4. Motor terminal voltage under steady state conditions will be maintained between 90% and 110% of rated voltage in accordance
. with NEMA MG.1- .
- 5. In accordance with ANSI C57.12, the no load secondary voltage at any transformer.will not exceed 110% of rated terminal voltage and full load secondary voltage at any transformer will not exceed 105%
of rated terminal voltage.
-6.~ The minimum voltage to be maintained at the Mccs will be 0.90 per unit on a 480V base.
- 7. Two plant offsite power sources' are available for plant. startup
'(Reference 5).
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- 4. RESULTS V
During the' course of this study, several required changes- to the Technical
~
Specifications and administrative controls and several modifications to the auxiliary. distribution system have been identified. The voltage regulation study results l presented in this section are based on the implementation of these changes. These i modifications and controls are summarized in Section 5. With the implementation-of these changes, controls and modifications, the plant electrical power distribution t" system has the capability to maintain adequate voltage levels under the bounding-plant operating configurations ' concurrent with-a LOCA or unit trip.
'A summary of the results of analyses perfermed.to assess plant electrical powe,r 4
distribution system voltage levels under the above configurations and conditions . is provided below. These configurations and conditions are consistent with those
' described in Section 2.. A A key to the numbering of the cases-discussed below is provided in Appendix C. I A. Normal Operation !
- 1. Both Units in Normal Operation '
l' FY a. Two Offsite Power Sources Available ' V Under. these operating conditions, voltage regulation is-adequate at all voltage levels with 2 Startup Transformer 00X03 and 343 Startup Transformer 00X11 and the offsite power source voltage at 0.934 to 1.054 per unit on a 230kV base. Section 4.H describes voltage level requirements for 3 Startup Transformer 00X05. , b. ~ Loss of One Offsite Power Source t ? The evaluation of a loss of one offsite power source assumes that the available offsite power source voltage is 0.934 per unit on a 230kV base with 2 Startup Transformer 00X03. With the loss of any offsite power source, two air compressors will trip. Case 2L2337A2-(Appendix C, Sheet 11) shows that; l automatically restarting two air compressors simultaneously ; with other affected loads'on loss of one offsite power source will drop some of the compressor terminal voltage to as low-as 74.9% per unit on a 460V base. VoLTREGO. STY 1/31/89 4-1 I
h . These motors have been purchased for a starting voltage at :
.the motor terminals of 80%. : Reference 1; established that '
l,j . there is about a +5% margin between the measured and . ! o . calculated voltage values'on aL460V base for the cas'e.of-
. starting a 100HP air compressor l motor:with a preload of 402kVA at 0.71 power factor for the 480Vload center. If this '-
." margin is considered,- the air compressor . terminal voltage should.be approximately 80%.
i Screen . wash pumps fed from MCCs 00B61 and 00B62 are 2 intermittent loads which can start at any time depending on-the debris blocking the travelling screens. Case 2L2337A2 shows that starting of.the intake structure vent supply fans
- with the screen wash pumps (and all other affected loads) on loss of one offsite power source will drop the intake structure vent supply fan motor terminal voltage to 77.12% on a 460V base instead of the desired 80% of valtage on a 460V base.
For the above~ scenario, there is a remote possibility that the - intake structure vent supply fans and screen wash pumps could - , be starting simultaneously with the other affected loads. '
, However, the' load center transformers have been modelled using the maximum test impedance. Based on ' thisi j f conservatism, it is expected that;the intake structure fans will start without any problem. Moreover, Reference 1 established l that there is approximately +5% margin between the measured {
' and calculated voltage values on a 460V base. .
- 1. Administrative Controls i
1 It is .necessary to realign the affected 13.2kV bus 1 breakers on Buses 00A03B or 3C and manually load the. buses as soon as practicable following a loss of'one offsite power source so that the LTC can bring the bus
~ , voltages' to the. : desired':value i fors the operatmg q
configuration that the plant is in.
)
- 2. 'One Unit in Normal- Operation-and-the Other Unit in Long Term.
Shutdown
- a. 'Two Offsite Power Sources Available= l i
Under these operating conditions, voltage regulation is adequate at all voltage levels with 2 Startup Transformer . 00X03 and 343 Startup Transformer 00X11 and the offsite- -l
)O VOLTREG051Y 1/31/89 4-2
= - _____-_____
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.g ,
. power source voltage at 0.934 to 1.054'per unit on a 230kV .
base. 'Section 4.H describes voltage level requirements for 3 - j Startup Transformer 00X05. b.. . Loss of One Offsite Power Source j The evaluation of a loss of one offsite power source ' assumes 1 that the available offsite power source voltage is 0.934 'per I unit 'on a 230kV hase with 2 Startup Transformer 00X03. With the loss of any offsite power source, two air compressors .; will trip. Case 2L2392Z (Appendix C, Sheet 11) shows that - ' automatically. restarting two air compressors simultaneously with other affected loads 'on loss of one offsite power source '
- will drop some of the compressor terminal voltage to as low as 74.92% per unit on a 460V. base, l i
These moton have been purchased for a. starting voltage at the motor terminals of 80%. Reference 1' established that . there is about a +5% margin. between the measured and calculated voltage values on a 460V base for the case of . starting a 100HP air compressor motor with a preload,of ( . 402kVA at 0.71 power factor for the 480V load center. If this . ; margin is considered, thel air compressor terminal voltage- I should be approximately 80%. ; Screen wash pumps fed from MCCs 00861 and 00B'62 are i intermittent loads which can start at any time depending on the debris blocking. the travelling screens. Case 2L2392Z-shows that starting of the intake structure vent supply fans with the screen wash pumps (and all other affected loads) on , j loss of one o' ffsite power source will drop the intake structure - j vent supply fan motor terminal voltage to 77.12% on a 460V - i base instead of the desired 80% of voltage on a 460V base. For the above scenario,' there is 'a remote possibility that the intake structure vent supply fans and screen wash pumps could be starting simultaneously with the other affected , loads. However, the load center transformed have been modelled ' using the maximum -test impedance. Based on this ! conservatism, it is expected that the intake structure fans will-start without any problem. Moreover. Reference 1 established ! that there is approximately +5% margin between the measured and calculated voltage values on a 460V base. VoLTREGO.STt' 1/31/89 4-3 l ..
[ ' [ j 1
. f~( , 1. Administrative Controls i
.O .
i It is necessary to realign the affected 13.2kV bus ! I breakers on Buses 00A03B or 3C and manually load the buses as soon as practicable following a loss 'of one offsite power source so that the LTC can bring the bus voltages to the desired value for the operating j l . configuration that the plant is in. s B. LOCA in One Unit, the Other Unit in Nonnal Operation For the purposes of the following' discussion, it has been assumed that the ! LOCA has occurred in Unit 2 and that the offsite power source voltage is - i- O.934 per unit on a 230kV base. l Additionally, unless otherwise noted,' the following results are based on the l assumed use of 2 Startup Transformer 00X03. The basis ~ for using this I transformer is detailed in Section 4.J.3. . ! N
- 1. Two Offsite Power Sources Available
]
~p a. No Cooling Towers Operating; l
I J i
- 1. Cases 23L2342K & U (Appendix C, Sheet 17) show that i sequencing the loads as detailed in Appendix- A, Table l D, ensures that motor voltages and accelerating times I are acceptable,
- b. Four Cooling Towers Operating.
- 1. Cases 23L2345K & U (Appendix C, Sheet 18) show that 1 sequencing the loads as detailed in Appendix A, Table D, ensures that motor voltages and accelerating times: .
are acceptable. I l
- 2. One Offsite Power Source Available I
- a. No Cooling Towers Operating
- 1. Cases 2L2337K & U (Appendix C, Sheet 12) show that .
- sequencing the loads as detailed in Appendix A, Table C, ensures that motor voltages and accelerating times are acceptable.
V l. VoLTREGO. STY 1/31/89 44
<< 1 l
U
, 2.1 Cases 2L2332, A, B, C,'D, K, L,' M2,- N2, M6, M7, S, T, - 1 U,' W, Y, &~Z, 2L2332C6 (0.975. per unit voltage on a 230kV base),' 3L2332C-(0.941 per unit voltage on'a >
p 14.1kV base 'using 3 Startup Transformer 00X05) and ) 4 d OL2332C (using .343 Startup' Transformer 00X11) -) (Appendix C, Sheets 14,.15 and 16) assume that one j Unit 313.2kV unit auxiliary bus is supplied. by the . turbine generator and one by the one available offsite power source. The loads for these cases are sequenced - per Appendix A, Table C.- I
~ For Case 2L2332W (Appendix C, Sheet 16), voltages :
at one load center and some motor control centers,are
] i slightly less than 90% on a 480V base after completion ' l of automatic load sequencing. Tripping of loads such - "
as the RHR'and Core Spray pumps;when conditions. 1 permit ' or the shedding :of: non essential ' loads Ewill 1 alleviate this problem. : Refer to Appendix A, Table C, . 1 which calls for this action sometime after 10 minutes. d However, operation of the load centers and MCCs at - less_ than-90% voltage for a short period will have a . negligible.effect.- Cases 2L2332M2 & M6 (Appendix C, Sheet 15) show. 4 that the RHR injection and recire line discharge valves
'~
will experience about' 77.55% and 77.86% ' voltage, j respectively, on a .460V, base (valve actuators purchased ' with 80% starting voltage) 'at'.23 seconds into 'the.- i -
. LOCA. The injection valves may operate before, during .
or after the start of the second groupfof Core Spray i pumps and the recirc line discharge valves may start t' closing during or after the start of the second group of Core Spray pumps. However, both groups of valves will not start operating at- the same time. Moreover, l- Reference 1 shows'that there is a +5% margin between i- the measured and calculated voltage values on a 460V , base.' Taking into account the above information, it is -
- expected that both the valves will have adequate voltage to perform their intended function.
Case 2L2332M2 also shows that the Core Spray pump - l " . cooler fan will experience voltage as low as 77.61% of - rated motor voltage (motor purchased for 0.80 per unit of rated voltage for starting) during starting of the
, second group of Core Spray pumps. It is expected ~that-the fan motor will accelerate because the voltage at the O
V VoLTRECO S1Y 1/31/89 +5
- motor terminals will improve immediately 'after the
'G.,,
start of the fan and the Core Spray pump motors due
- to a drop in inrush current proportional to the voltage. '
Additionally, Reference 1 indicates that the motor voltage will actually be approximately +S% higher than 77.61% of the rated motor voltage,
- b. Four Cooling Towers Operating
- 1. Cases 2L2335K & U (Appendix C, Sheet 13) show that '
sequencing the loads as detailed in Appendix A, Table-C, ensures that motor voltages and accelerating times are acceptable.
- 2. . Cases 2L2335P & W (Appendix C, Sheet 28) assume a controlled shutdown of Unit 3 after Unit 2 LOCA loads have stabilized. Case 2L2335P has been studied with.
Startup Transformer 00X03 and shows that the steady state voltage at one MCC will be 89.14% on a 480V base. It is considered that this voltage will be tolerable . ! for a short duration because more loads will be tripped
]
manually'during the process of controlled shutdown. ! D This will improve the voltage at different MCCs. This configuration is considered to be the limiting case. Hence, no cases have been studied with other bounding plant operating configurations. C. LOCA in One Unit, the Other Unit in Shutdown For the purposes;of the following discussion,-it has been assumed that the - LOCA occurred in Unit 2 and that the offsite power source voltage is 0.934 - per unit on a 230kV base. l 4 Additionally, unless otherwise noted, the following results are based on the ' i assumed use of 2 Startup Transformer 00X03. The basis for using this transformer is detailed in Section 4.J 3. i
- 1. Two Offsite Power Sources Available 1 ;
- a. No Cooling Towers Operating
- 1. Cases 23L2322K & U (Appendix C, Sheet 26) show that sequencing the loads as detailed in Appendix A, Table VOllnlEGO.S1Y 1/31/89 4-b L_ - _ _ = _ _ _ _ _ _ - _ - _
n..
~tw .. ,
i 4> D, er,sures that motor voltages arid accelerating times l g are acceptable, n
' b. Four Cooling Towers Operating.
- 1. . Casas 23L2325K & U (Appendix C, Sheet 27) show that.
- sequencing the loads as detailed in Appendix A, Table y D, ensures that motor voltages and accelerating times . - -
T are acceptable. 2.- One Offsite Power Source Available
- a. No Cooling Towers Operating '
'1. Cases 2L2399, A, B, C, D, E, F, G, hi,' I, J, K, L, M, N, 4 Q,' R & T (Appendix C, Sheets 19, 20 and 21) assume that both Unit 3 13.2kV unit auxiliary busest are'-
supplied . by the available offsite' power source. Sequencing the loads as detailed in Appendix A, Table - C, ensures that motor voltages and accelerating' times' j. are acceptable. i h {
'v
- 2. Cases 2L2394A, B,' C.& D, 2L2394D1L(0.975 'per unit voltage on a 230kV base) & E (Appendix C,' Sheet 25):
assume that one Unit 213.2kV unit auxiliary bus is supplied by the turbine-generator and the other bus by the available offsite power source. Both Unit 313.2kV. ; unit auxiliary buses are also supplied by the available j offsite power source. : Loads are sequenced as shown in' Appendix A,' Table C. This. scenario is the same as l that described in - Section 4 C.2.b.1' below after . the ; transfer of the Unit 2 auxiliary bus at 12 seconds. ; l b. Four Cooling Towers Operating-
]
1 s: 1. Cases 2L2398A, B, C, D, 'E, K1, L1, M2, N2,-Y & Z,' 2L2398Z1 (0.975 per unit voltage on a 230kV base), 2L2398Z2 (1.054 per unit voltage on a 230kV base), 2L2342S, T, U, W & X and 2L2344M4,'M6. & M8 - L (Appendix C, Sheets 22,23 and 24) assume that both L Unit 313.2kV unit auxiliary buses are supplied by the- 4 one available offsite power. source. The loads are - sequenced as detailed in Appendix A, Table C. { VoLTREGO. STY 1/31/89 4-7 l J .'
h, p
"j
.g y ' ' '
j !4 , , '1
; w 1E.,
s ; Case' 2L3342X (Appendir C, Sheet '24) ~ shows that < i voltages at one load center and some MCCs'are slightly L (W) Lless than' 90% on a 480V base after completion of - Lf automatic load sequencing. Tripping'of loads such as r L the RHR and Core Spray pumps when conditions permit . or the shedding of non-essentialloads will alleviate this problem. Refer to Appendix A, Table C, which calls for this action sometime after 10 minutes. However, operation of the load centers' and MCCs at less'thani 90% voltage for a short period will have a negligible effect. Cases 2L2398M2 and 2L2344M6 (Appendix C, Sheets 22 and 23, respectively) show that the RHR injection l and re: ire line discharge valves'will experience about ' 78.62% and '/8.61% voltage, respectively, on a 460V . base (valve . actuators purchased with 80% < starting voltage) at 23 seconds into the LOCA.1 The injection- j valves may operate before, during or after the start of ' the second group of Core Spray pumps' and recirc linei discharge valves may start closing during or after the ' { start of < the second group of Core Spray ptimps. However, both the valves will. not start operating at the same time; Moreover, Reference 1 indicates that there i is a +5% margin between the mecsured and calculated voltage values on a 460V base. Taking into account the above information, it is expected that both the valves - ! will have adequate voltage to perform their intended-function. As shown by Case 2L2342X, Emergency ' Auxiliary - Trar.sformers 0AX04 or OBXO4 will be overloaded bye about 7% of FA rating at 63 C, beyond the 36-second ' LOCA sequence-point. Per- NEMA Publication: No. TR98-1964 (Guide for Loading Oildmmersed Power =. Transformers with 65 C Average Winding Rise), Table 2-2, the transfonner can withstand this overload without any' loss of life for about 4 hours at, an ambient temperature of 40 C. However, the required number of RHR pumps and' Core Spray pumps .as listed in Appendix A, Table C, will be tripped manually sometime after 10 minutes. This will reduce the load of the-transformer below its OA rating at 55 C.
't 't VoLTREG0SrY 1/31/89 4-8
D. Unit Trip in One Unit, the Other Unit in Normal Operation or in Shutdown 9 For the purposes of the following discussion, it has been assumed tlut Unit 2 trips.
- 1. One or Both Offsite Power Sources Available Cases 2L2382A, C, D, F1 & H, 3L2382C, OL2382C, 2L2327D, G &
I, 3L23271, OL2327I, 2L2392D, H, I, P & Q, 3L2392D, OL2392D, 23L2342F and 23L2392B (Appendix C, Sheets 29, 30, 32 and 34) h show that there will be no significant problem to shut down Unit 2 following a trip, except in a certain bounding plant operating configuration (Case 2L2382C - Appendix C, Sheet 29) where there will be problems in starting either of the 9000HP reactor recirc M-G - i sets. Cases pertinent to starting of the M-G set are analyzed and j tabulated in Appendix A, Table K. Case 2L2382C assumes a trip of Unit 2, Unit 3 in normal operation, no cooling towers in operation and one Unit 313.2kV unit auxiliary bus normalload supplied by 2 Startup Transformer 00X03. Only one Unit 213.2kV unit auxiliary bus will be automatically transferred from the generator to 2 Startup Transformer 00X03 with a maximum e of 2 condensate and 2 circulating water pumps. It is assumed that all of these pumps cannot be tripped before starting the M-G set since the M G set is to be started manually within a short period of time after the unit trip. It is initially desirable following a unit trip to have the circulating water pumps operating for cooling the main condenser, since the turbine bypass valves will open. It is dso desirable to have the condensate ptmps available to provide suction to the feedwater pumps so that they can continue to provide flow to the reactor. Hence, in this particular case, neither one of the M-G sets should be started. However, the plant is not normally operated-in the above configuration. It will only be seen in the process ( 4 changes in plant configuration. As noted in Table K, the running 460V air compressor motor terminal voltage under certain operating configurations will be about 70% during the starting of a reactor recire M-G set whereas the desired value is 70.7%. As soon as the M-G set starts, the inrush current will drop in direct proportion to voltage and as the motor accelerates the voltage will improve. Moreover, the M-G set will accelerate in a short period of time. Furthermore, Reference 1 established that approximately +5% margin exists between the measured and calculated voltage values on a 460V base. Therefore, it is expected 4 b VoLTREGO. STY 1/31/89 4-9
m.
,, that the effect on 460V motors due to the short duration dip in voltage (if it occurs at all) will be negligible,
- a. Administrative Controls l Trip equipment as listed in Table K to enable the 9000HP recirc M-G set to be started and to ensure adequate voltage at the 4kV, 2.3kV and 460V running motor terminals.
E. Both Units in Long-Term Shutdown Cases 23L2333,34,35,36,37 & 38 (Appendix C, Sheet 35),32L2337,38, 39,40 & 42 (Appendix C, Sheet 36), and 02L2337,38 & 42 (Appendix C, Sheet 37) assume that Class 1E Load Center 30B12 is loaded to 151kVA and the MCC 30B27 load is negligible Assuming a total shudown load of approximately 7 MVA per unit with 5 MVA on the Class' 1E Luses, the 460V . equipment connected to a very lightly loaded MCC bus may experience slightly higher than 110% voltage at its terminal. Case 32L2338 shows that there will be an overvoltage on several buses in the maximum buck tap position assuming a supply voltage of 1.054 per unit on a 14.1kV base for 3 Startup Transformer 00X05 even with a shutdown load of approximately l 16.9 MVA. Continued operation of a motor at voltages greater than 110% of rated voltage may reduce the life of the motor. Further discussion of the limitations of 3 Startup Transformer 00X05 is provided in Section 4.H.
- 1. Administrative Controls The voltage should be monitored periodically under this condition and operators should take appropriate action to prevent overvoltage for an extended period of time.
F. Unit Auxiliary System Supplied by the Main Turbine-Genemtor,
- 1. Per Cases 2G2028B and 2G2021B (Appendix C, Sheet 40), to ,
maintain 0.90 per unit on a MCC 480V base, the minimum generator voltage should be 0.957 per unit and 0.963 per unit on a 22kV base for unit auxiliary transformer normal and maximum loadings of 39.3 MVA and 43.5 MVA, respectively.
- 2. Per Case 2G2030B (Appendix C, Sheet 40), to maintain approximately 1.034 per unit voltage on a 22kV base at the 13.2kV 9
votnu:GOSIY 1n 1/89 4-10
si o, [' . , - - unit auxiliary b'uses/the minimum generator voltage should be IM23 per unit on a 22kV base, a t k L 3. LPer Case 2G2006B (Appendix C, Sheet 38), to prevent ovelvoltage _ l_ with the plant operating .at ' minimum load, the generator voltage L should be limited to 1.015 per unit voltage on a 22kV base.-
- 4. - Per Case 2G2002B (Appendix C, Sheet 38), maintaining the nummum L generator voltage at 0.95 per unit results in a MCC voltage of 0.89
[ per unit on a 480V base.; Operation at 0.89 per unit voltage (versus
; the required 0.90 per unit voltage) for a short duration is acceptable. - 4 However, if extended operation at the minimum generator voltage is required, Case 2G2023B '(Appendix C, Sheet 40) shows that the load on the unit auxiliary transformer should be reduced to 30.3MVA. 'l l 1
- 5. Per Case 2G2011B (Appendix C, Sheet 39), for a minimum generator . .!
voltage of 0.95 per unit, the terminal voltages at the control room chiller during starting will be 0.771 per unit of 460V motor voltage.' E]L , As mentioned in Section 3.C.5, a load center transformer has been modelled - assuming the maximum test impedance for that size transformer and that it is fully loaded. In actuality, this limiting condition will not occur for all' 1 transformers. .Moreover, Reference 1 established that there is approximately. O
;+5% margin between the measured and calculated voltage at the 480V !
V level. Hence, it is expected that a voltage of 0.80 per unit will be available; at the motor terminals. q
.G. Unit Startup from the Offsite Power Supplies
/
Cases 23S2302, 3, -4, 5, 5A,' 6,~ 6A, 7,' 9,11 & 13, 32S2302 and 02S2302 :; (Apnendix C, Sheets 41, 42. and: 43) show that all bus voltages arec satisfactory during startup of Unit 2 with two offsite power sources available ~ .; and Unit. 3 either in long-term shutdown or in normal operation. Case.
' ]
2L2363CD shows that all bus. voltages are satisfactory during startup of Unit t 2 with one offsite power source available and Unit.3 shutdown.
- 1. Startup of. Cooling Towers with:One or Two.Offsite Power Sources Available ' I
,i The cases analyzed for startup of the 5000HP coo!ing tower pumps -
are summarized in Appendix A, Table J. The limiting case for startup of the cooling towers assumes startup of the first 5000HP cooling tower pump (0AP88) from 2 Startup Transformer 00X03, 2 Startup Transformer 00X03 and 343 Startup Transformer 00X011 are at. VoLTREGO. STY 1/3 U89 4-11
yx . , uy -
~ -
---- 7 v ,
y x
,y ,
_, H NT 0.934 per unit and Os75'per: Unit on a 230kV base and 3 Startup-
- Mr ,
' transformer 00X05 is at 0.941 per unit and 0.975 per unit 'on a '
- 14.1kV base. Unit 2 is in normal operation and Unit 3.is'in'long--
; term shutdown. Similarly, the. 3rd 5000HP; coolirig. tower pump; J c (OCP88) is~ started with 0.934 per unit on a 230kV base and 0.941 i lper unit on a 14.1kV.. base' with!only one offsite power source.
j available. During starting of the cooling tower pumps, all cooling tower fans 3 are in the off position and only intake structure loads are normally' ' running. / The voltage' available at these pump _ motor terminals' will-vary from 70.13% to 72.71% on a'4kV base depending on the power. source from which the pump is _ started. Since the motors have been ;
, purchased for 75% starting voltage at the motor terminals, it would '
have been necessary to boost the voltage by manually operating lthe. LLTC to start any of the 5000HP pump motors. Even by this method, j Case 2S2316A (Appendix C,' Sheet 46) shows that it would not be . ! possible to 'obtain 75% voltage with the maximum LTC boost, l
, _Moreover, in all cases of manual boost, the voltage at different buses j will be beyond 110% for a short period of time. The operator would1 '
have to bring the voltage within the acceptance range as soon as j practicable before returning the LTC to the auto mode position. i s
' ,1 On October 22-23, 1988, a -field voltage verification test' was i performed. It has been established from the test (Reference' 1) that _ '
'here is an approximate margin of +2.0% between measured and calculated voltage values on a 13.2kV bus for the case of starting of' a 5000HP motor with a system total preload of 21.3 MVA at 0.91 PF. Even though the starting voltage at the motor terminals'was not -
measured, the calculated starting voltage at the motor terminals is 70.85kwhen fed from 343 Startup Transformer 00X11. The pump, started at this voltage without any difficulty. The voltage regulation: study considered a preload of about 19.43,MVA-at 0.966 PF before= starting the 3rd 5000HP pump as noted in Cases 2S2316, 3S2316' , and OS2316 (Appendix C, Sheets'46 and 47). At system abnormal minimum voltage, the lowest starting voltage is 70.13%. Based on the field verification test, it can be concluded that boosting the voltage by operating the LTC in the manual mode before starting any of the 5000HP cooling tower pumps is not necessary. However, consideration should be given to replacing the pump motor captive 1 transformers with lower impedance transformers on a long-term basis - to reduce stress on the cage windings during starting, if frequent operation in this state is anticipated. Cases 2S2320, 21, 22, 23 & 24 (Appendix C, Sheets 47 and 48) show that all bus voltages are satisfactory during startup of other ; _j cooling tower motors with one offsite power source available. l VoLTREGO.STYr 1/31/89 . _4-12
- _ _ _L _ _- -_x _
* [
- , e -
y
,y V- <
i cr _; g '- ( ii
. H.' Operating Boundaries for Allowable Range of Supply Voltages to Maintain Voltage Regulation Within Acceptable Limits
- This ? study has established : that for the = bounding _ plant: operating ' 1
' configurations with one or both offsite power sources available, there will be an overvoltage at various~ buses if the 3 Startup Transformer 00X05 L
supply voltage exceeds ~that.shown in' Appendix A, Table H. 1 1; Administrative Controls-
]
.. 1 3 Startup Transformer 00X05 will-only be used as a backup to 343 1 j
Startup Transformer 00X11.
' :/
\
' 1 L' Establishment of Setpoints for the Degraded Voltage Relays (Millstone.
l Event) ' j
-1 The degraded voltage relays are set at 89% of rated voltage at their 4.16kV j buses. With - this setpoint, Cases 2N2302M1, 2N2332M, .2N2363M, 7 3N2302M,3N2364M, ON2302M & ON2364M (Appendix C, Sheet 50) show
'g that 480V MCCs will experience a voltage of approximately 84% on a 480V.
base for the loading condition described in Section'3.D.14. Additionally, certain 460V equipment will experience approximately 85% of rated voltage. 3 These voltages are low compared to the desired 90% voltage on a 460V. I base for motors and.the 90% voltage on a 480V base for MCCs. The
. duration of these degraded voltage conditions depends on the rate at ,which'
~
the dip in voltage occurs and the response of the automatic LTCs on the startup transformers'. . For the bounding plant operating ' configurations (Section- 3.A),'the LTC. on ~2 Startup Transformer 00X03' willJnot bei available'in some cases to improve the degraded voltage condition because ' i the tap changer will already be at the. maximum boost position prior.to the: incident.: Similarly, 343'Startup Transformer 00X11 may not be able' to" j provide the desired voltage levels in some cases (even though the LTC has 1 not reached the maximum boost position prior to the incident) because.the reraaining taps are not sufficient. This means that the 460V motors and . { 480V MCC contactors will experience less thaa 90% voltage on a 460V base and 480V base, respectively, for a short period of time. This period of undervoltage is short because Devices 127Y and 127B (Appendix A, Table. G) will very likely trip the incoming 4.16kV feeder breakers and connect
-the diesel generator to the 4.16kV buses. The effect of operation of the 460V motors and 480V MCCs at less than 90% voltage for this short period y of time will be negligible.
s.
" votnu:G0 STY 1/31/89
. 4-13 i
=______ - _ _ _ _ _
I\ gb Previously, Device 127Y (relay type ITE-27D as noted in Appendix A, Table - ,j
@ G) had a tolerance of f.2% over the drop-out setting. In ' addition,' the : '
'( f pickup setting was 103% of the drop-out setting. Undervoltage relays with'
,, 'a low tolerance (f.0.2%) and a high drop'-out to pickup ratio are needed for shutdown from a LOCA when connected to an offsite power source. A ' Otherwise, the offsite power source would be tripped by the undervoltage relay '(Device '127Y).' To eliminate this concern,l Device 127Y. is being - replaced with a type ITE 27N relay and the settings on . Devices 127B.and - 127D are being changed to those noted in Appendix A, Table G. I o J. Miscellaneous ' Items
- 1. Fire Pump-i The fire pump is. supplied from Class IE Load Center 20B11 which - l is supplied by the offsite power sources. The 500 kVA Class 1E load center transformer (20X31) will be operating beyond' nameplate rating when the fire pump is running. Moreover, as shown by Case 2S2363F (Appendix C, Sheet 49), the volta'ge at the motor terminals will be 79.44% (motor purchased for 80% starting voltage) during starting with the availability.of one offsite power source (2 Startup Transformer 00X03 at 0.934 per unit voltage on a 230kV base). This is lower than the NFPA code requirement of 85% of rated voltage.
However, discussions with an NFPA 20 committee member indicated .. that this requirement could be. waived as long as the' motor was successfully tested at the lower voltage. The following alternative solutions have been considered: q r o The Class 1E transformer can be brought to the normal rating of 500kVA by manually sheMJng/ transferring some of. the loads such as the reactor building cooling water pump and a computer motor-generator set within.two hours after the fire ; pump has started. This will likely not. entail any. loss of , normal life.of the transformer (Appendix A, Table I). The redundant RBCW pump will be auto-started after a preset 'L time delay and the computer M-G set will be transferred to the de system. The computer M-G set will be retransferred nianually to the ac motor control center only after the fire pump is. manually tripped, i.e., it is no longer required. o The fire pump can be fed from non-Class 1E load center j L 20B04A with the addition of 160 foot cables (two 1000 KCMIL r votrREGO. STY - t/31/89 4-14 L __1_- _ _ _ - _ . _ _ _ _
>1 w : .
n
,m
- , , l -l 4 1 ll -
n ,
; per phase) from the load center to the splice box and 725 foot - '
d
- cablis (one 1000 KCMIL cable per phase) in parallel with the '
existing.two 500 KCMIL per phase cables from the _ splice box :
> to the motor' terminals. Case 2S2300F1 (Appendix C, Sheet-49)~ showed'that the motor terminal voltage'during starting will be 84.06% of the motor rating when supplied from the offsite power : source during the' plant .startup. period.' . In normal plant' operation,L the non Class 1E load centers are.
supplied byL the turbine-generators. To obtain at-least 80%-
~
H voltage at the motor terminals during startingMth the above d cable configuration, the generator will be required to operate normally at least at 0.975 per unit voltage (Case 2G2017B -
^
Appendix C, Sheet 40). It is judged 'that the first alternative solution be used-in the short-term. ' Additionally, the fire pump has been field verification tested-
'.o verify that the motor will start at 79.44% of rated motor voltage.
In the long term, consideration should be given to the replacement of the existing 500kVA transformer with a larger. transformer. The" ' impedance of the new transformer should be'such that,it will not .i increase the fault current level at the load center or MCCs compared to the existing figures. j
/T\
]
g a. Administrative Controls After the fire pump.has started, manually trip or transfer other motor loads from Class 1E Load Center 20B11 within 2 hours to prevent _ extended operation over nameplate of the load center transformer, g,
- 2. Class 1E Power Distribution Equipment l
This study revealed that the 500kVA load center transformer for Class'~ IE Load Center 20B10 operates about 24% over nameplate ratingH for a LOCA condition, 20B12 operates about 2% over nameplate - rating during normal operation and 20B13 operates about 7% over nameplate rating during normal operation. ' This is based on load L distribution as stated in Section 3.C.12. Loading of MCCs 20B27,
^
20B28,30B27 and 30B28 is also based on Section 3.C.12. If all the loads on each of the 20B27 and 20B28 MCCs are considered except the recire M-G set lube oil pumps, which are assumed to be normally , supplied by non-Class 1E MCCs 20B25 and 20B26 for Unit 2, then 1 Load Centers 20B12 and 20B13 will operate about 13.5% and 18.5% G
\, )
over nameplate rating, respectively. Per Reference 4, the 500kVA transformer for Class 1E Load Center 20B10 will lose about ".27% VOLT 11 EGO.s'IY 1/31/89 4-15
. s N
3 F~ . g {4 9
)
of normal life, assuming a' 3 hour overload of.22% during a LOCA condition. 4 TheLtransformer for Class IE Load Center 20B11 has been addressed . in Section 4.J.1. This transformer will operate by about 24% over. nameplate rating when the fire pump is running. It should be noted that the loading conditions described above are based on' nameplate ratings for loads. .If the actual loads on the ,! battery chargers and actual motor .BHPs are used, these. loading j conditions can be reduced.' j
- a. Administrative Controls Load center transformers should be monitored to minimize the duration of overloading (refer to the transformer life reduction discussion above).
- 3. Startup Transformer Limitations l 4
This' study establishes that 2 Startup Transformer 00X03 is the'offsite power source that provides lower limit bounding conditions in terms
- of system voltages and transformer impedance. Full computer runs
-have been made for the bounding plant operating configurations
~
i described in Sections 4.C.2.a and 4.C.2.b (Unit 2 in a LOCA with Unit 3 in long-term shutdcwn and one offsite power source available) , and Section 4.B.2.a.2 (Unit: 2 in a LOCA with Unit 3 in normal operation and one offsite power source available) with' this transformer at the abnormal minimum system supply voltage of 0.934 L per unit on a 230kV base.E One LOCA sequence point.for a bounding, 1; ~' plant operating configuration (Section 4.B.2.a.2) has also been run for 3 Startup Transformer 00X0S _(Case 3L2332C -. Appendix C, Sheet i 16)'at 0.941 per unit voltage on a 14.1kV base and 343 Startup i Transformer 00X11 (Case OL2332C - Appendix C, Sheet 16) at 0.934'- per unit voltage on a 13.2kV base to ensure that the results were
-l better than those of 2 Startup Transformer 00X03. For the other two bounding plant configurations that assume only one offsite power source is available (Sections 4.B.2.a.1 and 4.B.2.b.1),' two- LOCA sequence points have been run (using 2'Startup Tmnsformer 00X03 at the abnormal minimum system supply voltage ) and compared with the results from the corresponding points in the full computer runs.
Similarly, only two LOCA sequence points have been run for the bounding plant configurations that assumed that two offsite power sources were available for this transformer.(Section 4.B.1 and 4.C.1). > VoLTREGO.SW 1/31/89 4-Ib d I
x . y 4-
'0
l ' 1 p k ; In all cases, it has been found that the configurations evaluated withL Q full computer runs provided the limiting voltage levels. One LOCA sequence point has.been run for three bounding plant operating configurations.(Sections 4.B.2.a.2f4.C.2.a.2 and 4.C.2.b.1)- with 2 Startup Transformer 00X03 at the normal minimum system supply voltage of 0.97S per unit on 'a 230kV base. Cases 2L2332C6; r (Appendix C, Sheet 16), 2L2394D1 (Appendix C, Sheet 25)'and.
- 2L2398Z1-(Appendix C, Sheet 24) ensure that the results are better: '
j 1 than those with the minimum system supply voltage.' One LOCAi i
- sequence point has also been run~for the bounding plant _ operating; ,
configuration in Section 4.C.2.b.1.with 2 Startup Transformer 00X03L at the maximum system supply voltage of 1.054 per unit on'a 230kV
' base. Case 2L2398Z2.(Appendix C, Sheet 24) ensures'that the; results are better than those _ with the minimum system supply voltage.
- 4. 'Recire M-G Set Locked Rotor Current Multipliers The locked rotor current (LRC) multiplier of 6.4 times the normal full load current for the 9000HP recire M-G set motors has been'taken i
- from Reference 7 to complete the study of starting 'the recirc M-G set motor at different plant operating conditions. It was later found that' the LRC multiplier is 5.47 according to Reference 12.' This agrees with the field verification test (Reference 1). - Hence, all the critical: '
. casef(Cases 2L2382C, F1 & H, 3L2382C and OL2382C -' Appendix
. C, Sheet 29,2L2327G & I,3L2327I and OL2327I - Appendix C, Sheet a 30,' 2L2392D, H & I,3L2392D'& OL2392D - Appendix C, Sheet 32 _
and 23L2392B & 23L2342F - Appendix C, Sheet 34) of staning the ,
-M G set motor after a unit trip and Case 2S2363CD (Appendix C,. ,
~
Sheet 49) have been rerun with this new information. The cases for. ; starting of th' eM-G set motors from the Lturbine-generator have also_ r i been rerun. ' However, other cases such as' starting of the M G set; j motors during unit startup while supplied from offsite po_wcrsources have not been rerun. For these cases, an LRC multiplier of 6.4 has-been found to provide satisfactory results.
- 5. 343 Startup Transformer 00X11-Single Line Station Diagram E1, Revision G,-shows that the LTC for-343 Startup Transformer 00X11 has a range of +17% and -S%.
Since the details of the number of taps and. voltage variations at each tap for this transformer were not available during the study, it has been assumed that the LTC has a total of 36 tap positions and voltage variation at each tap is 5/8%. It was later determined that VoLTREGO. STY 1/31/89 4-17
g
,s p
r q p._
; the LTC of this transformer has a range of +171/2% and -5% with.
qN 33 tap positions and the average voltage variation at each tap is' i about 45/64%. However, the conclusions of the study are not affected by this new LTC information. L . 1 4 It should be noted, though, that when using the results from the '{ computer result tabulations (Appendix C) for different cases relating -
- to the use of this transformer, the results should be compared'with l the new LTC range and the' nearest tap sho'uld be used to achieve the s desired results. Appendix A, Table L, provides all the LTC positions 1
,j for each startup transformer in'per unit voltage on a 13.2kV base.
j r K. Optimization of Transformer Tap Settings gl Appendix A, Table A, shows the optimized tap settings for_ Units 2 and 3. r These optimized' settings provide the maximum allowable range of service > l voltage while maintaining acceptable utilization' voltages. l L _120V System Effects i q Upon receipt of a LOCA signal, a two second delay in starting the first set
^(g of ECCS motors allows energization of required equipment at full voltage prior to a transient voltage reduction. The limiting case minimum voltage 1 at any 120V instrument distribution ptnelis 82.7 volts during the transient. 1 d
Those components which are required to operate immediately after a LOCA will be energized during the initial two-second time delay. The other 120V .
~
components can also : be energized to pickup as L required after . the acceleration of each 4kV motor during the starting sequence. The 120V control components which are required to perform anl active function have been reviewed to ensure that the transient voltage would not j { degrade safe shutdown. This review concludes that no control relays will 4 drop-out (drop-out voltage is less than the limiting case minimum voltage) during the transient condition and no instrumentation which is supplied by. the 120V "Y' instrument panels perform any active safety functions. The: 120V solenoid valves are deenergized to perform their safety functions. Therefore, this review concludes that the limiting case voltage transient on the Class 1E 120V."Y" instrument panels will not adversely affect safe - shutdown of the plant. l b l l VoLTREGO. STY - 1/31/89 4-18 ' l
5.'
SUMMARY
OF CHANGES RESULTING FROM' STUDY A - l (/. - The following Technical Specification changes, administrative controls- and modifications have been incorporated into the_ ' study results. With the'. l ? ' implementation of. these changes, adequate voltage: levels are ' available to
* .l
_ equipmeot: powered' by the plant auxiliary electrical distribution system. 'In ' addition".o these changes, items are also identified in Section 5.D for future consideration, y < A. Technical Specification Changes Required Revise the Technical Specifications 'to reflect the following changes: .l 1.. . New setpoints for degraded voltage relays for Devices 127Y,127B,
- and 127D_(Section 4.I and Appendix A, Table G).
- 2. New auto-loading sequence timer settings for all RHR pumps and Core Spray pumps (Sections '4.B and 4 C and Appendix A, Tables C-and D). .
B. ' Administrative Controls Required N ,
- 1. - The operator should realign the 13.2kV startup bus breakers on Buses :!
00A03B or 3C and manually start the affected cooling tower pumps i and fans as soon as practicable following loss of either one of the offsite power sources (Sections 3.C.14, 4.A.1.b and 4.A.2.b). l 2. After the fire pump has started, manually trip or transfer other motor loads from Class 1E Load Center 20B11 within 2 hours to prevent - extended operation over nameplate of the loadicenter transformer (Sectiori 4.J.1).
]
- 3. Restrict operation of the plant:to the configuradons and conditions. '!
' discussed'in~ Sections 3.A, 3.C.22, 3.D.11, 4.B and 4.C. i h
- 4. Load center transformers, specifically the Class 1E transformers, 4 should be monitored (such as temperature) to avoid overloading them i for extended periods of time (Section 4.J.2).
- 5. Implement the deenergized tap settings of the transformers shown- ,
in Appendix A, Table A. j O l vocnu:co.sw 1/31/89 5-1 i l 4
)
w ; ~ E
}; - ,
/h . '
- 6. Manually. trip loads in accordance with Appendix -A, Table K, forJ
, - manual restarting of any one of the recirc M-G sets following a unit trip (Section'4.D.1).'
t
-i' l 7. Operate 3. Startup Transformer '00X05 only as a backup to :343 Startup Transformer 00X11 and at the system voltage conditions -
l describe'd in Section 4.H and Appendix A, Table'H. i I C. Modifications to be Implemented' i q
- 1. ; Adjust the settings of the degraded voltage' detection relays (Devices: ~!
127B and 127D) (Section 4.I and ' Appendix. A, Table G).. 1
- 2. . ' Adjust the settings of the auto-sequence timers for RHR' Pumps C&D,-
Core Spray Pumps A&C,.and Emergency Service and' Emergency H
. Cooling Water Pumps (Secticas 4.B and 4.C and Appendix A, Tables
- C and D).
- 3. For a LOCA Event (Sections 4.B and 4.C and Appendix A, Tables C '
and D) o Trip all cooling towers on a LOCA signal from either unit. w{ -o Start RHR compartment fans by a LOCA signal. _ o Delay start of diesel generator supply and supplemental supplyL- 'l fans by the addition of new timers. :! o Delay start of RHR Pumps A&B by the addition of new timers. o Provide higher range auto-sequencing timers for Core Spray, Pumps B&D. i l
- 4. For degraded voltage protection, replace Device 127Y (relay type ITE-27D) 'with relay type ITE-27N (Section 4.I and Appendix A, Table G). .
l j
- 5. Set the LTC of'each startup transformer to maintain the.13.2kV?
startup buses approximately 1.0334 per unit voltage at.the 13.2kV base (Section 3.D.17). , i D. Future Considerations The following items have been identified as the result of this study. PECo ; should consider these as plant betterment items. 1
- 1. Evaluate the loading of all Class 1E load center transformers for O ermei a toc ^ e vire me ts es aiscessea t sectiem 4.3.2 te- t VOillllEGO. STY 1/31/89 5-2 l
1 I m; ,
- determine whether replacing Class 1E load center transformers.with~.
larger transformers is warranted. 1"
- 2. Lock-out the fire pump in case of a LOCA, but provide the capability.
i
.to manually override the LOCA signal (Section 4.J.1).
l 1 e q O . i i l O- l 1
. votnteco.m intes, 5-3 y
g: ,
. (e h .-+, 1
.j. (~N 6. CONCLUSIONS l V
' This study: evaluated plant volt regulation under various plant operating i configurations based on the "abnt ,al" minimum offsite source voltage of 0.934 per unit. . With the implementation of the. required = Technical Specifications- 1 l changes, administrative controls and modifications, adequate voltage levels are
~
available at the power distribution buses. l l 1 i o O VOLTREGO. STY 1/31/89 b-1
> R, iI
./
l
. p.e 7. REFERENCES
qh l1. Verification of Calculated Auxiliary System Voltages By Test - Draft Report, (
-Revision 0, December 13,1988 .;
l
- 2. Load & Bus Connection Reports, December 3,1988 (LOADTRAK)'
3 3.- Bus Load Study - t' ode of Operation, November 2,1987 1 l
- 4. Letter from Asea Bro vn Boveri Power Distribution Inc., July 6,1988 .
'5. Letter from PECo to NRC (Docket Nos. 50-277 and 50 278), December 31, 1979
- 6. Requisition No. 6280 E-8, Revision 17, Large Induction and Synchronous ~ i Motors .
- 7. Vendor Document 6280 M-1-JJ 551, Instructions for Variable Frequency Motor-Generator Sets and Associated Control Equipment i 4
l
- 8. General Electric Nuclear Energy Letter G-HE-8-166, June 17,1988 i p 9. Specification No. 6280 G 10, Revision 3, General Project Requirements -
-() Induction Motor Integral and Functional Horsepower
.l 10.' National Fire Codes 1986 :
I
- 11. Vendor Document.6280-E8 23 2, Motor and Load Torque vs. Speed for ;
Circulating Water Pump Motion 1
- 12. General Electric Test Report No. 6280-T-1047, Recire M-G Sat Motors.
l O
, VoLTREGO. STY 1/31/89 7-1
., I~ 6 l
l APPENDIX A O TABLES l O __ . . . ________m _ ___ _ _ _ _ _ _ __ _ _ _ _ _ . - _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . _ _ _ _
- t. w s g. ,
m > l' 1 l 1 4 , { ( O y) TABLE OF CONTENTS i TABLE NO TITLE i A Optimized Transformer Tap Settings B 0.46kV, 2.3kV, 4kV & 13.2kV Motor Parameters
~l i
C Auto-Loading Sequence For A LOCA On One Unit, Other Unit In Normal 3 Operation _ or Long te rm Shutdown with The Availability Of One Offsite ' Power Source D ! Auto-Loading Sequence For A LOCA On One Unit, Other Unit In Normal ' Operation or Leng-term Shutdown With The Availability Of Two Offsite Power Sources { E Auto Loading Sequence For Loss Of Either Offsite Power Sources F RHR, Core Spray And CRD Pump Motors Accelerating Time ! Q)' G Establishment Of Degraded Grid Voltage Relay Set Points For Milhtone i c Event Under Voltage Protection . Scheme. ! H Allowable Range Of Supply Voltage To Maintain Voltage Regulation Within Acceptable Limits
't" I. Daily Loads Above Rating To Give Normal Life Expectancy In 30 C Average Ambient For Sealed Self Cooled 220 C Maximum Hottest Spot. Temperature -
.J Startup of 5000HP Cooling Tower Pumps K Unit Trip And Starting of One 9000HP Recirc M-G Set ;
'L. Startup Transformers LTC Positions in Per Unit Voltage On a 13.2kV Base O VOLTREG. APP '1/31/89 A-1 1
- r. ; ,
g , .
, +
>g, J'" '
- TABLE A
] .} OPTIMIZED TRANSFORMER TAP SETTINGS 1 Transformer Tao Positons. Unit Auxiliary Transformers 20X02 or' 30X02 - high side no load tap. 4- 2 1/2'. l
,2 Startup Transformer 00X03 - high side no load tap- -
- 21/2% .g 2 Startup Transformer 00X03 - low side load tap changer Variable 3 Startup Transformer 00X05 source side load tap changer Variable '
343 Startup Transformer 00X11 high side no load tap Nominal ; 343 Startup Transformer 00X11 - low side' load tap changer Variable ; a y Emergency Auxiliary Transformer 0AX04 'or OBX04 - high side no load tap - 2 1/2% - l
' Class IE Load Center Transformers - 20X30, 20X31, 20X32, 20X33, 30X30, - 21/2% 1 30X31,'30X32, and 30X33 - high side no load tap 1
-, . Emergency Cooling Tower Load Center Transformers OAX26,.0BX26, and Nominal b OCX36 high side no load tap <
Non-Class 1E Load Center Transformers 2AX21, 2AX22, 2AX24, 2BX21, 2BX22, 21/2% 2BX24, 3AX21, 3AX22, 3AX24, 3BX21, 3BX22, 3BX24, OAX34, OBX34, OAX37, .j OBX37, OAX35, OBX35, OAX36, OBX36,' OAX38, and OBX38 - high side no.
. load tap Non-Class IE Load' Center Transformers OAX25, OBX25,.OOX42, and OOX43 - ~ Nominal-high side no load' tap: y i
Non-Class -1E'MCC1 Transformers 00X44,'00X4S? 00X27, 00X28, and 00X29 ~- ' Nominal' !
' high side no load tap Circulating Water Pump' Motor Transformers 2AX06,' 2BX06,' 2CX06, .3AX06 , + 2 1/2% -
3BX06, and 3CX06.- high side no load tap Cooling Tower Pump Motor Transformers OAX10, OBX10, and OCX10 - high - 2 1/2%. 1 side no load tap - All other pump motor transformers - highside no load tap Nominal . j
' .. i ' /]
O 1 j i i vot:TREG. APP ,1/31/89 1 Of 1
( TABLE B
'; 0.46kV 2.3kV. 4kV & 13.2kV MOTOR PARAMETERS i
NAMEPLATE RATING STARTING LRC VOLT MULTI-EOUIPMENT HP KVA PF (kV) PLIER "F 3 Recirc MG Set 9000 7690.73 0.9 4.0 ** 0.18 Cooling Tower Lift Pump 7000 5384 1.0 13.2 6.5 0.16 Cooling Tower Pump 5000 3845 1.0 4.0 5.7 0.20 Screen Wash Pump 450 412 0.88 2.3 6.44 0.31 Condensate Pump 4500 3926 0.90 4.0 6.5 0.25 Circulating Water Pump 2000 1587 1.0 2.3 5.7 0.27 Service Water Pump 700 638 0.88 2.3 6.52 0.32 RHR Pump 2000 1763 0.91 4.0 5.96 0.20 Core Spray Pump 600 553 0.87 4.0 6.00 0.20' HP Service Water Pump 1000 891 0.90 4.0 6.5 0.24 ESW or ECW Pump 250 241 0.85 4.0 6.5 0.32 Control Rod Drive Pump 250 236 0.90 4.0 6.0 0.25 Fire Pump 250 227.89 0.88 0.46 6.62 0.30 3 Cooling Tower D and E Fans 250 218.02 0.91 0.46 6.50 0.30 : Cooling Tower A, B and C Fans 200 176.36 0.90 0.46 5.62 0.30 77 Air Compressor 100 96.33 0.88 .46 6.00 0.30 C) D"7well Chillers 285 274.55 0.88 0.46 6.00 0.30 l Mechanical Vacuum Pump 150 133.69 0.90 0.46 6.00 0.30 Control Room Chiller 175 168.58 0.88 0.46 6.00 0.30
)
1 480V MCC Miscellaneous Motors 0.88 0.46 4.00 0.35 Emergency Cooling Tower Fan 200
)
176.36 0.90 0.46 5.62 0.30 Stator Coolant Pump 100 96.33 0.88 0.46
]
6.00 0.30 j Standby Gas Treatment Fan 50 48.20 0.38 0.46 5.55 0.282 RHR Injection Valves 36- 35.80 0.88 0.46 S.80* 0.35' Recire Line Discharge Valves 14 14.66 0.88 0.46' 6.00 * - 0.35: Notes:
- 1) Starting power factors are assumed for 460V motors except for the Standby Gas Treatment Fans which are provided by vendor. Nameplate ratings and starting multipliers are taken from I.oad ,
and Bus Connection Report and Motor Data Sheets. Starting multipliers are assumed where l Motor Data Sheets are not available. t
- 2) For 2.3kV, 4kV & 13.2kV motor nameplate rating, starting multiplier and power factors are taken from AC System Fault Calculation, Calc. No. E-2, Rev.1 & Motor Data Sheets.
1 Information provided by PECO. Im)
, ** Multiplier is 6.4 per Instruction Manual (Reference 7), 5.47 per Test Report (Reference 12). j
.VoLTREG. APP 1/31/89 1 Of 1
v&' ! 7.ew s
=
]
Li 1 7' - _Tb8LE C 1 l 1 M AUTO-LOADING SEOUENCE FOR A LOCA ON ONE UNIT. OTHER UNIT IN .!
' NORMAL OPERATION OR LONG-TERM SHUTDOWN WITH THE AVAILABILITY OF, 'I ONE OFFSITE POWER SOURCE-q TIME IN SECONDS EVENT
-3 LOCA- j 0
o o Trip. two 9000HP Reactor Recirc M-G Sets Trip All Cooling Towers
] '
o Trip Reactor Building Area Exhaust and Supply Fans, Refueling , Floor Vent Exhaust and Supply Fans, and Reactor Building l Equipment Cell Exhaust Fan o Trip Cleanup Recirc Pumps ! o- Start 4 Diesel Generators
-o Start RHR Pump Compartment Cooler Fans o
l Start Standby Gas Treatment Fan and Heater o Start 480V Miscellaneous Loads 2 o Start RHR Pumps A&B
'8 o Start RHR Pumps C&D -
12 o Transfer One or Two 13.2kV Unit Auxiliary Buses of the~ LOCA Unit Depending on the Boundary Conditions
'13 o Start Core Spray Pumps ' A&C . as well as Associated Compartment Fans
-20.S o Start Opening RHR and Core Spray Injection Valves P
23 o Start Core Spray Pumps B&D' as' wellEas Associated L Compartment Fans i 27 o Start Closing'Recire Lina Discharge Valves' 36~ o Start two Emergency Service Water Pumps and one Emergency Cooling Water Pump' ! 42 S2 o Trip Emergency Cooling Water Pump 48 o Start Diesel Generator Vent Supply and Supplemental Supply. j Fans-600~or More o Trip 3 RHR Pumps and 2 Core Spray Pumps Manually _. o Start 1.High Pressure Service Water Pump Manually o Trip Miscellaneous 480V Loads Manually as Required h Note: Timings are based on i 7% on timer setting for combined rated, extremes of temperature, voltage and calibration error. Yo!.TREG. APP ' 1/31/89 1 Of 1
7.. 1 y TABLE D v-
- AUTO LOADING SEOOENCE FOR A LOCA ON ONE UNIT. OTHER UNIT -
IN NORMAL OPERATION OR LONG-TERM SHUTDOWN. WITH THE AVAILABILITY OF TWO OFFSITE POWER SOURCES s TIME IN SECONDS EVENT l 3 LOCA 1
.0 o Trip two.9000HP Reactor Recirc M G Sets o Trip All Cooling Towers o Trip Reactor Building Area Exhaust and Supply Fans, Refueling .
Floor Vent Exhaust and Supply Fans, and Reactor Building Equipment Cell Exhaust Fan o ' Trip Cleanup Recire Pumps j o Start 4 Diesel Generators o Start RHR Pump Compartment Cooler Fans o Start Standby Gas Treatment Fan and Heater o Start 480V Miscellaneous Loads 2 o Start 1 RHR Pump from each Offsite' Power Source. 8 o Start 1 RHR Pump from each Offsite Power Source 12 o Transfer One 13.2kV Unit Auxiliary Bus to each Offsite Power Source 13 -o Start Core Spray Pumps A&C as well as Associated Pump Compartment Cooler Fans from one Offsite Power Source 20.5 o Start Opening RHR and Core Spray Injection Valves
-23 o- Start Core Spray Pumps B&D as well as Associated Pump' j Compartment Cooler Fans from the other Offsite Power Source 1 27 o ' Start Closing Recire Line Discharge Valves-36- o Start 1 Emergency Service Water Pump andJl' Emergencyf Cooling Water Pump from one Offsite Power Source' j 36 o Start 1 Emergency Water Pump from the other Offsite Power l Source 42 S2 o Trip Emergency Cooling-Water Pump 48 o Start Diesel Generator Vent Supply and Supplemental Supply - -!
Fans 600 or More o Trip 3 RHR Pumps and 2 Core Spray Pumps Manually . o Start 1 High Pressure Service Water Pump Manually l o Trip Miscellaneous 480V Loads Manually as Required : Note: Timings are based on i 7% on timer setting for combined rated. extremes of temperature, voltage and calibration error. ;
-_ . _ - - _ - _ _ _ _ - .nm-
e: .. . i < l-L- 3 M , TABLE E ! q , AUTO-LOADING SEOUENCE FOR LOSS OF EITHER OFFSITE POWER SOURCES i
- TIME IN SECONDS EVENT 2 . ,
-2.35 LOSS OF OFFSITE POWER 0 o Transfer of four 4.16kV Class IE Buses from Dead Source to Live Source l o Trip CRD Pump .;
- o. Trip' 480V Miscellaneous Loads !
3- o Energize four Class 1E 480V Load Centers on Restoration of Power to Affected 4.16kV Buses - o Energize 480V Miscellaneous Loads o Start Standby Gas Treatment Fans and Heaters - O i i O VOLTREG. APP .1/31/89 1 of 1 1, j
{- .
- l
\
l I -I s l TABLE.E I
/N 1 L
RHR. CORE SPRAY AND CRD PUMP MOTORS ACCELERATING TIME 1 1 MINIMUM 4kV MOTOR TERMINAL ACCELERATION EOUIPMENT VOLTAGE DURING STARTING IN % TIME IN SECONDS E RHR Pump I Motors 75 4.3 - . 78 3.9' l 80 3.5 82 3.1 85 88 2.8 ]
' 2.4 90 2.3 i 100 1,7 j I
Core Spray
~j Pump Motors .82 17.0 85 ]
10.0 - 88 7.7 90 6.7 j 100 4.2 - 1 CRD Pump
- Motors 78 13.2 :
80 6.7 j 82 .4.5 85 3.3 88 2.9 90 2.5 100 2.0_ l J Notes:
- 1. Based on General Electric Nuclear Energy Letter G HE 8-166 dated June 17,1988.
- 2. Percent voltage values are on a 4kV base.
VO.LTREG. APP 1/31/89 1 Of 1
tq -. .
*sn s.
+ ll TABLE G i 2
ESTABLISHMENT OF DEGRADED VOLTAGE RELAY SETPOINTS FOR 1 , MILLSTONE EVENT UNDERVOLTAGE PROTECTION SCHEME ! 4 A. DEGRADED SOURCE VOLTAGESJ DEGRADED SOURCE VOLTAGE 1 RANGE FOR BOUNDING PLANT CONFIGURATIONS WITH THE n. 4.16kV BUS MAINTAINED AT ABNORMAL STARTUP XFMR 0.890 PU (4.16kV BASE l'- MINIMUM VOLTAGES l 2 (00X03) 0.800-0.8495 (230kV Base) 0.934 (230kV Base)- ! 3 (00X05) 0.806-0.8414 (14.1kV Base) 0.941 (14.1kV Base) { 343 (00X11) 0.8012-0.8379 (230kV Base) 0.934 (230kV Base) , l 1 B. RELATIVE BUS VOLTAGES AT SELECTED 0.890 PU LEVEL OF 4.16kV BUS i VOLTAGE LEVEL IN 3 EOUIPMENT PU i
;Q,W 4160V Class 1E Buses 0.890 (4160V Base) i 480V Load Center Buses 0.864 (480V Base) 480V MCC Buses 0.844 (480V Base) j i
C. DEGRADED VOLTAGE RELAY DATA DEVICE RELAY DROP-OUT PICKUP SETTING NO. TYPE < LOCATION SETTING IN PU IN PU , j' -i 127 Y ITE-27N , 4.16kV Class:1E1 0.995 of Pickup : [1.005 x (.891-0.3%)). Buses Setting with Time Dial Setting :- #6 - ( l- D. ASSOCIATED TIME DELAY RELAY DATA l TIME SETTING
' DEVICE NO. RELAY TYPE LOCATION IN SECONDS :
127 B AGST.ETR 14D 4.16kV Class 1E Buses 60 i 7% 127 D AGST-ETR 14D 4.16kV Class 1E Buses 9 7% NOTE: Existing undervoltage relay for Device No.127Y is ITE-27D. l
. votmG. APP 1/31/89 1 Of I f L _-_x_-__ -- _ . \
,J-~
TABLE H l i Q, ALLOWABLE RANGE OF SUPPLY VOLTAGE TO MAINTAIN VOLTAGE REGULATION WITHIN ACCEPTABLE LIMITS (Using Optimized Transformer Tap Settings) Voltage Voltage Generator (22kV Base) (PU) (kV) Specified Normal 0.980 to 1.02
- 21.6 to 22.40 Specified Abnormal 0.932 to 1.05
- 20.5 to 23.1 **
- Allowable:
(a) Maximum Load (Unit Auxiliary Transformer) 0.963 minimum 22.19 minimum (b) Minimum Load (Unit Auxiliary Transformer) 1.015 maximum 22.33 maximum (c) Other than maximum 0.957 to 1.05' 21.05 to 23.1 and minimum loads 230kV System (230kV Base) (2 Startup Transformer 00X03 and 343 Startup Transformer 00X11)
-t ^ 'Specified Normal
'\ 0.975 to 1.043
- 224.25 to 239.89 -
Specified Abnormal-0.934 to 1.054
- 214.82 to 242.42 '
Allowable - with variable load tap changer 0.934 to 1.054 214.82 to 242.42 13.8kV System (14.1kV Base) (3 Startup Transformer 00X05) a Specified Normal 4 0.975 to 1.054
- 13.75 to : 14.86 Specified Abnormal- ! 0.941 to 1.054 *- 13.27 to -14.86 Allowable - with variable load tap changer 0.941 to *** 13.2 to - ***
Notes: - 1 The specified voltages are provided in Philadelphia Electric Company's memo from J. Bustard to W. Clune, dated September 3,1987. The specified abnormal limits have now been changed to 0.95 to 1.05 per unit voltage (20.9kV to 23.1kV) by BLP 24853 dated, December 30,1988. See Sheet 2 of this Table. O )- 1 of 2
' VoL'mEGO. APP U31/89
,___________.--_----a - - - - - - - ' - - - - - ^
e . o_' ,
- TABLE H (continued} .
4 g ,.s ALLOWABLE RANGE OF SUPPLY VOLTAGE TO MAINTAIN VOLTAGE
" REGULATION WITHIN ACCEPTABLE LIMITS (Using Optimized Transformer Tap Settings)
'i STARTUP SOURCE MAXIMUM VOLTAGE LIMITATION STARTUP LTC TAP MAX VOLTAGE IN PU- AVAILABILITY: BOUNDING PLANT CASE NO. TRANSFORMER BUCK POSITION ** 14.1kV BASE OF SOURCES OPERATING CONFIGURATIONS '
32L2342 3 1.0414 1.005 BOTH- LONG TERM SHUTOOWN 3N2302C 3 1.0414 1.002 ONE U2 NORM OPER 3 SHON ZERO CLG TWRS 3N2063C 3 1.0414 1.042 ONE U2 NORM OPER U3 SHON 4 CLG TWR$ 3N23648 3 1.0414 1.052 ONE U2 NORM OPER - U3 SHON
- ZERO CLG TWRS + 1 AUX BUS =
3N2337C 3 1.0414 1.003 ONE U2 & U3 NORM OPER - ZERO CLG TWRS-3N2335C 3 1.0414 1.030 ONE U2 & U3 NORM OPER 4 CLG TWRS. l 3N2332C 3- 1.0414 1.042 ONE U2 & U3 NORM OPER ZERO : CLG TWR$ + 1 AUX BUS l' 32N2322C 3 1.0414 1.004 BOTH U2 NORM OPER - U3 $ HON - I ZERO CLG TWRS 32N2325C 3 1.0414 1.023 BOTH U2 NORM OPER U3 SHON - 4 CLG TWRS 32N2342C 3. 1.0414 0.9975 BOTH U2 & U3 NORM OPER ZER0 LLG TWRS 02N2342C .343* 0.9931 1.0494 a 230kV BOTH U2 & U3 NORM OPER ZERO CLG TWRS 23N23420 2* 0.9918 1.048 a 230kV - BOTH U2 & U3 NORM OPER ZERO CLG TWR$ 32N2345C 3. 1.0414' 1.005 BOTH U2 & U3 NORM OPER - 4 CLG TWRS Notest I These two cases are marginal. Hence, there should not be any restrictions of l 2 Startup Transformer 00X03 and 343 Startup Transformer 00X11. ; See Appendix A, Table L.
-i
\ !
[O VOLTREG. APP 1/31/89 2 Of 2
l TABLE I c g(N, - DAILY LOADS ABOVE RATING TO GIVE NORMAL LIFE EXPECTANCY IN 30 C AVERAGE
. AMBIENT FOR SEALED SELF COOLED 220 C MAXIMUM HOTTEST SPOT TEMPERATURE i
PEAK LOAD TIME FOLLOWING AND FOLLOWED BY A , l IN HOURS CONSTANT LOAD OF 90 PERCENT 70 PERCENT 50 PERCENT 1/2 1.71 1.96 2.00 1 1.39 1.66 1.81 2 1.21 1.34 1.43 4 1.12 1.16 1.21 8 1.06 1.08 1.10
Reference:
ANSI Appendix C57.96 (1959), Guide for Loading Dry-Type Distribution - and Power Transformers, Table 96-01.250 i I e VOLTREG. APP 1/31/89 1 Of 1
l: l h TABLEJ pg f 7:
&f STARTUP OF 5000HP COOUNG TOWER PUMPS l
STARTUP SOURCE MOTOR TERMINAL LTC TAP VOLTAGE AVAILABILITY VOLTAGE IN PU BOUNDlNG PLANT CASE No. NO. IN PU* IN PU OF SOURCES ON A 4kV BASE OPERATING CONFIGURATIONS 23S2314 2 1.0789 0.975 a 230kV BOTH 0.716 U2 NORM OPER, U3 SHON, (1st 5000HP PUMP) ZE O COOLING TOWERS IN OPERATION 23S2314A 2 1.146 0.975 a 230kV BOTH 0.7499 " (Man. Boost) 23!23148 a 2 0.975 a 230kV BOTH 1.1643 a (PUMP ACCEL) 23S2315 2 1.1259 0.934 a 230kV BOTH 0.709 " 23S2315A 2 1.2063 0.934 a 230kV BOTH 0.7469 " (Man. Boost Max.) 23S23158 " 2 0.934 3 230kV BOTH 1.1718 " (PUMP ACCEL) 32S2314 3 1.0748 0.975 a 14.1kV BOTH 0.7271 a ['g 32S2314A 3 1.1215 0.975 a 14.1kV BOTH 0.7521 " g j. (Man. Boost)
%/
32S23148 a 3 0.975 a 14.1kV BOTH 1.142 " (PUMP ACCEL) 32S2315 3 1.1148 0.941 a 14.1kV BOTH 0.7231 " 32S2315A 3 1.1683 0.941 a 14.1kV BOTH 0.7503 " (Man. Boost) n 32S23158 3 " 0,941 a 14.1kV BOTH 1.1468 " (PUMP ACCEL) 02S2314 343 1.0781 0.975 a 230kV BOTH 0.7213- " 02S2314A 343 1.1369 0.975 a 230kV BOTH 0.7515 " (Man. Boost) 02$2314B 343 " 0.975 a 230kV BOTH 1.155 " (PUMP ACCEL) 02S2315 343 1.1238 0.934 a 230kV BOTH 0.7141 " 02S2315A 343 1.2022 0.934 a 230kV BOTH 0.7517 " (Man. Boost) a 02S23158 343 0.934 a 230kV BOTH 1.1682 " (PUMP ACCEL) Note: * - See Appendix A, Table L. ON V VOLTREG. APP ' 1/31/89 3 Of 2 -
- n. . TABLE J (continued) \
u.-l . STARTUP OF 5000HP COOLING TOWER PUMPS STARTUP SOURCE MOTOR TERMINAL LTC TAP VOLTAGE AVAILABILITY VOLTAGE IN PU BOUNOING PLANT CASE NO. NO. IN PU* IN PU OF SCURCES ON A 4kV BASE OPERATING CONFIGURATIONS 2S2316 2 1.146 0.934 a 230kV ONE 0.7013 U2 NORM OPER, U3 SHON, 2 (3rd 5000HP PUMP) COOLING TWR$ IN OPERATION W/0UT FANS 2S2316A 2 1.2063 0.934 9 230kV ONE 0.7286 a (Man. Boost Max.) 2S23164 a 2 0.934 a 230kV ONE 1.1483 a (PUMP ACCEL) 3S2316 3 1.1282 0.941 a 14.1kV ONE 0.7162 a 3S2316A 3 1.195 0.941 a 14.1kV ONE 0.7512 a 1 (Han. Boost) 3S23168 3 a 0.941 a 14.1kV ONE 1.156 a (PUMP ACCEL)
/* \
V
/ OS2316 343 1.1434 0.934 a 230kV ONE 0.7072 a OS2316A 343 1.2218 0.934 a 230kV ONE 0.7432 a ~
(Man. Boost Max.) OS23168 343 a 0.934 G 230kV ONE 1.1653 a (PUMP ACCEL) Note: *
- See Appendix A, Table L.
l l l l l l VOLTREG. APP 1/31/89 2 of 2
l
.1'
- m TABLE K i<
UNIT TRIP AND STARTING OF ONE 9000HP RECIRC M-G SET STARTUP SOURCE AIR COMPRESSOR TERMINAL VOLTAGE AVAILABILITY EQUIPMENT TO VOLTAGE IN PU BOUNDING PLANT CASE NO. No. IN PU OF SOURCES BE TRIPPED ON A 460V BASE OPERATING CONFIGURATIONS 2L2327! 2 0.934 a 230kV ONE 1 COND PP & 0.7137 U2 1 RIP - U3 NORM OPER - 1 CIRC PP # ZERO OR 4 CLG TW S IN OPERATION 2L2327G 2 0.975 a 230kV ONE -- 0.7260 " 3L2327I 3 0.941 a 14.1kV ONE - 0.7639 " OL2327! 343 0.934 a 230kV ONE -- 0.7225 " 2L2382C 2 0.934 9 230kV ONE *** 0.6072* U2 TRIP - U3 NORM OPER - ZERO CLG TWRS IN OPER - 1 AUX BUS NORMAL LOAD OF UNIT 3 SUPPLIED BY OFFSITE POWER SOURCE ** 2L2382H 2 0.975 a 230kV ONE 1 COND PP & 0.7045 a 1 CIRC PP 2L2382F1 2 1.0 a 230kV ONE -- 0.7036 " p 3L2382C OL2382C 3 0.941 a 14.1kV 343 0.934 a 230kV ONE -- 0.7297 " D) ONE 1 COND PP & 1 CIRC PP 0.6987 " 2L2392H 2 0.934 a 230kV ONE 2 COND PPS & 0.7118 U2 TRIP - U3 SHON' 4 CLG 2 LIRC PP # TWR$ OR ZERO CLG TWRS & 1 AUX BUS OF UNIT 2 SUPPLIED BY OFFSITE POWER SOURCC OR ZERO CLG TWR$ 2L23921 2 0.975 a 230kV ONE - 0.7008 a 3L23920 3 0.941 a 14.1kV ONE -- 0.7476 " OL23920 343 0.934 a 230kV ONE 1 COND PP # 0.7138 " 23L2342F 2 0.934 a 230kV- BOTH -- 0.7428 U2 TRIP - U3 NORM OPER - ZERO CLG TWR$ IN OPERATION 23L2392B '2' O.934 a 230kV BOTH -- 0.7101 U2 TRIP - U3 NORM OPER - 4 CLG'TWR$ IN OPERATION-NOTES:
- CIRC WA TER PUhfP Af0 TOR TERhiINAL VOLTAGE WILL BE G 7171 PER UNIT U1llCH IS LESS THAN THE DESIRED 0736 PER UNIT VOLTAGE.
ALL CASES OF THIS OPERATING CONFIGURATION WILL BE ANALOGOUS TO UNIT 2 TRIP, UNIT 3 IN NORhfAL OPERA TION AND 4 COOLINO TOWERS IN OPERA TION IF Tile NORMAL LOAD OF ONE 13.2kV UNIT AUXILLARY BUS OF UNIT 2 IS PonERED BY THE AVAILABLE OFFSITE POWER SOURCE. SEE SECTION 4.D OF THE REPORT. THIS IS NOTA NORMAL MODE OFPLANT OPERATION.
# 3 CONDENSATE AND 3 CIRC WATER PUMPS ARE ASSUMED TO BE RUNNING INITIALLY. i VOLTREG. APP 1/31/89 1 Of 2
TABLE K (continued) UNIT TRIP AND STARTING OF ONE 9000HP RECIRC M-G SET l Auto-Loading Sequence for a Unit Trip on One Unit, Other Unit in Normal Operation or Long Term Shutdown with the Availability of Two Offsite Power Sources TIME IN SECONDS EVENT Relay Operating Time Unit Trip 0 o Trip Two 9000HP Reactor Recire M G Sets o Trip Cooling Towers D & E o Transfer One 13.2kV Unit Auxiliary Bus to Each Offsite Power Source As Required: o Start One 9000HP Reactor Recire M G Set Manually o Start One RHR Pump Manually and Start Associated Pump Compartment Cooler Fan After the Closure of the RHR Pump Breaker From One Offsite Power Source o Start One High Pressure Service Water Pump Manually From the Other Offsite Power Source e Auto-Loading Sequence for a Unit Trip on One Unit, Other Unit in Normal Operation or Long-Term Shutdown with the Availability of One Offsite Power Source TIME IN SECONDS EVENT
- Relay Operating Time Unit Trip 0 o Trip Two 9000HP Reactor Recire M-G Sets o Trip All Cooling Towers o Transfer Two 13.2kV Unit Auxiliary Buses Of The Unit Following a Trip As Required: o Trip Equipment Manually As Indicated in Table L As Required: o Start One 9000HP Recire M G Set Manually o Start One RHR Pump Manually And Start Associated Pump ;
Compartment Cooler Fan After The Closure Of The RHR Pump Breaker o Start One High Pressure Service Water Pump Manually Notes:
- Start this equipment in descending order.
O VOLTREG. APP 1/31/89 2 of 2
y
." s l
l Ln TABLE L l-U ~ STARTUP TRANSFORMERS LTC POSITIONS IN PU VOLTAGE ON A 13.2kV BASE l l' i i , STARTUP TRANSFORMERS PU VOLTAGE ON A 13.2kV BASE I ln l
#343-00x11 .I l
LTC POSITION #2 00x03 #3 00x05' ASSUMED FOR STUDY ACTUAL l 1 0.9918 1.0414 0.9931 0.9931 2 0.9985 1.0481 0.9997 1.0005 3 1.0053 '1.0548 1.0062 1.008 4 1.01196 1.0615 1.0128 1.0152 5 1.0187 1.0682 1.0193 1.0225 6 1.0254 1.0748 1.0258 1.0299 7 1.0321 1.0815 1.0324 1.0372 3 1.0387 1.0882 1.0389 1.0454 9 1.0454 1.0948 1.0454 1.0519 10 1.0521 1.1015 1.0519 1.0593 : 11 1.0588 , 1.1082 1.0585 1.0666 12 1.06556 1.1148 1.065 1.0739 p 13 14 ' 1.07226 1.1215 1.0715 1.0813 i 1.0790 1.1282 1.0781 1.0886 15 1.0857 1.1349 1.0846 1.0960 l 1 16 1.0924 1.1415 1.0911 1.1033 . 17 1.0991 1.1482 1.0977 1 1.1107 18 1.1058 1.'.549 1.1042 1.1181 ! 19 1.1125 1.1616 1.1107 1.1255 I 20 1.1192 -1.1683 1.1173 1.1328 I' 21 1.1259 1.1750 1.1238 1.1401 22 1.1326 1.1817 1.1303 1.1475 l 23 1.1393 1.1884 1.1368 1.1548 ' f- 24 1.1460 1.1951 1.1434 1.1622 - 25 1.1527- 1.2017 1.1499 1.1695 i 26 1.1594 1.2084 1.1565 1.1769 j 27 1.1661 1.2151 1.1630 1.1642 1 28 1.1728 1.2218 1.1695 1.1916 29 1.1795 - 1.2285 1.176 1.1989 30 1.1862- 1.2352 1.1826 1.2063 31 1.1929 1.2418 1.1891 1.2136 32 ' 1.1996 1.2485 1.1957 1.2210 33 1.2063 1.2551. 1.2022 1.2283 34 .. .. 1.2085 4 35 .. .. 1.2153 1 36 .. .. 1.2218
%/
VOLTREG. APP I/31/89 1 Of 1 i _ _ . _ _ _ _ _ _ _ _ _ ________-___m__ _ _
/
- t, O
l l l APPENDIX B f O 4 FIGURES l h O
l l.,
, TABLE OF-CONTENTS 1)
FIGURE NO TITLE i 1 Simplified Impedance Diagram for Supplying the Plant Auxiliary i Electrical System from the Unit Auxiliary Source. 2- Simplified Impedance Diagram for Supplying the Plant Auxiliary Electrical Distribution System from the Offsite Power Sources During Plant Starmp, Normal Operation, Millstone Event, Long-Term Shutdown and Unit. Trip 3 Simplified Impedance Diagram for Supplying the Plant Auxiliary Electrical Distribution System from the Offsite Power Sources In Case of a LOCA 4 Simplified Impedance Diagram for Supplying the Plant Auxiliary Electrical Distribution System During the Loss of Any One Offsite Power Source With the Plant in Normal Operation bv
)
I i l l
)
VoLTREC. APP 1/31/89 Bi I _ -- - - _ - - - - _ - - - - - _ _ _ _ _ - - - - - - _ - - - - - - J
i t General Notes for Appendix B The impedance models used in the voltage regulation study are shown on Figures 1,'2, 3 and 4. The following discussion describes how each figure has been used.
- 1. Figure 1 is the model used when the 13.2kV unit auxiliary buses are supplied from the unit auxiliary transformer. This is applicable to either Unit 2 or 3 since the differences between the two units are negligible (loads, bus arrangement, cable impedance and transformer impedance are essentially the same).
- 2. Figure 2 is the model used for startup of the units,. normal operation, degraded voltage protective relay setpoint (Millstone Event), long-term shutdown, and unit trip from Startup Transformers 00X03,00X05 and 00X11.
- 3. Figure 3 is the model used to represent shutting down the plant when fed from any one of the three startup transformers, due to a LOCA at either unit.
- 4. Figure 4 is the model used to represent the loss of any one of the two offsite power sources during normal plant operation.
p 5. All transformer parameters are in per unit and on the transformer 1 2e rating. O i l () VoLTREG. APP U31/89 B-u. . l l
p.a . l NORMAL OPERATION ] 1.05 PU MAX f h22KVGENERATOR 0.95 PU MI( p . -. ~ UNIT AUXILj
. 'Nb '
[ W '21,4f mm mm ZH-X =0 Y X ZHY= 1 i f 13.2KV BUS A02 10MVA 2HVA L0.75HVA 13.2KV d XFMR [- XFMR
+ CABLE (.SMVA-XFMR CABLE
+ CABLE Q
- XFMRCABLE g(.ly y
- i. RUNNING LOAD 0.00563 . 0.00576 O.00536 0.0108
- CM
.) +J0.0282 0
+J.0521 0.005j
+J0.0276 >J0.0283
.i j
.h h '4.16KV 2.4KV 2.4KV h 4Id
.i 4.16KV l XFMR + CABLE % 2000HP 750HP 0.01175 +j 0.0888 9000HP '4500HP CIRC WATER SERVICE 9000HP REClR1
)' RECIRC H G. COND PUMP SET HOTOR PUMP VATER PUMP H.0 SET MOTOs 4
) ' {
~
480V NON CLASS 1E LC [( ' l i 590' CABLE
-e 125' CABLE 500' CABLE <; 0.0139 +J0.022 RUNNING 0.0278 + J0.0437:
I 0.0139 +J0.0218( LOAD h 480V 480V h . a } DRYh LL CHILLER
!75HP j Q CONTROL ROOM 1
\.2/ 460V HCC BUS CHILLER
-i I
A I 3-l RUNNING 225' CABLE
- h. LOAD 0.0649 + j 0.042 j l 400Y 351' CABLE i 0.0649 4 J 0.042 AIR CO. PRESSOR t 400V l
100HP STATOR COOLANT PUHF ____._..-_.___---__-..L_ - - - . . . _ _ _ . . - - . _ _ . _ - . _ _. - . - . - . _ _ _ _- ._. _ -
,' V
. APPENDIX B 4 J AN 3 -1 1989
- o. n.
NYIIRANSFORMER 3.3MVA e 63843.BKV 339 '+ J0,0893 $95 g;J 0.09007 h A01 - F 1HVA W. XFMR-LE . + CABLE g ._ RUNNING 0.01175 + LOAD F6 + J0.0888 h NON-CLASS lE- LC , 500' CABLE 160' CABLE k 1180' CABLE 4< 0.0139 +j0.0218- 0.0071 +j0.012 - RUFF NG l- OJ895 +J0 039 r-I l3;2KV ADMIN BLDG RUNN]NO h 480V MCC BUS 480V' FIRE PUMP SPLICE BOX a 725' CA8LE RUN ING 0.0071 +J0.012 - M 480v e gy 250HP. PERTURE FIRE PUMP CARD'
\
A!So Availaole On H Aperfure Card F]GURE 1 SIMPLIFIED 1MPEDANCE DIAGRAM FOR SUPPLY]NG l' THE PLANT AUX]LIARY ELECTR] CAL DISTRIBUTION SYSTEM z ' FROM THE UNIT AUXILIARY SOURCE g i c . 890SRO 0191 08 hl N
~~
_2____-._____._ - _ _ - _ - _ - -_ _ . _ _ . _ - - _ _ - - - --
J 1 s a: ll
- i-l' gA 3
o , o STARTUP. NORMAL? OPERATION,-MILLI
.r
- 0.934 PU MIN (ABNORMAL) kT "be 0.975 PU MIN (NORMAL) 230KV 88 1.054 PU MAX ,
i l220KVSYSTEM 'h ' b 2 STARTUP k- 27MVA $ 4 230-13.8KV0.0038+-J0.1222 4. XFMR 00X g
- ,1 -
'13.8
-: [ ~ 1087' CABLE 5MVA ! .. - g 1380' CABLE- $ 0.0112 . XFMR OAX10 l3 OUNN]NG - 0.0442 4 CABLE-
+ J0.021 '
g LOAD t J0.0432 13.2KV b BUS
.00A07 0.00796-t
" 4.16KV J0.0856 25 113.2KV s BUS 10.713MVA
~XfMR' "
RUNNING 0
' 760' CABLE 0.75MVA
<7+AX04 LOAD -
0.0442 , $ (): + J0.043c RUNNING LOAD D XFMR 00X39
- + CABLE COOLING OWER CABLE .
g,gNi f) I- 17 ' O.0516 J - 3.75MVA N LIFT PUMP 5000HO COOLING TOWER
+ J0.0483 2.4KV PUMP I+00X42 CABLE
. .9 450HP 0.0065 j- SCREEN WASH PUMP J0.0578 g 13.2KV
, - Q'iqp,' .e - - -
-}
00Bip7 h E ' RUNBUNG LOAD 463V LC BUS 4.16KV BUS-0 RUNNIN 0278
$ .225MVA X29: ]
j! . fFR LOAD %. + J0.0437 1- 0.0140 + J0.0490 480V -
%.0.5MYA' XFMR- ?
2 + CASLE l T 0.017 ' ! h 480V MCC BUS - IhA g OAX38
+ ' J0 .0509 i 00863 0.0112 + j0.076 250HP 480V 480V; L COOLING TOWER ^
" CLASS lE , LC '
- j. RUNNING FAN
- LOAD 725' CABLE 0
$- 480V LC BUS 00B0.8 h RUhNING M +.0139 i LOAD . J0.022 l' 445' CABLE 4801 A
\/
RUNNING LOAD h, 0.0278
+ J0.0437 480V 250HP jL , em FIRE PUMP J IL f 200HP COOLING TOWER FAN DM_.__________-__________-----_____ __ . _ . _ _ _
Y - - TONE 1 EVENT, LONG;TERMcSHUTDOWN, UNIT TRIP- APPENDIX B: e J' AN 3 1 1989, z-h a 0.941 PU MIN (ABNORMAL) . 0.934 PU MIN (ABNORMAL)- 1 I . 0.975 PU MIN (NORMAL) - 14.lkV BASE 0.975 PU MIN (NORMAL) - . 230KV BASE . SI. 1.054 PU HAX .. 1.054 PU HAX- ' APERTURE 13.8K'l - -h 220KV CYSTEM h CARD. .
.t 3 STARTUP- 343 STARTUP XFMR 00X05 -27MVA XFMR 00X11 Also AvailaWe On .
3GMVA 0.00644 +! A0.lfjy < lure Card 0.00553 + j 0.1347 )'[ BUS 00A03B h { = $':0,0054 655'C43LE + NON-SEGREGATED BUS :
+ j 0.0063 igMyA- SMVA 2MVA l MTED BU'S $ XF R $ XF R $ R R NNI G i 0.00563
+ J0.0276 g 0.00576
+ J0.0283 2.4KV 0.0053 + J0.0282
$ggy4 XFMR + CABLE .
4'*16KV 4.16KV
]
0.01175 4 J0.0888
-1 D 1180' CABLE 0.1895. + J0.039 j 9000HP 4500HP CIRC WATER o RECIRC t&G SET 'COND PUMP 480y PUMP NON-CLASS -lE LC I lg iCLASS 1E -
M0 TOR
' CABLE 1
13.2KV . . ADMIN BLDGh RUNNING LOAD 02 480V- @ p h0' ABLE R NG
-)
0.5MVA 8 + J0.0218 XFMR 480V
- o CABLE 0.017- '
+ JJ0.0509 285HP ORYWELL' CHILLER 480y MCC BUS Qq .
CLASS 1E LC h 175HP - 225' CABLE
, 0.0649 RUNNING 351' CABLE 0.0649 CHILLER
+ J0.042 LOAD + J0.042 341' CABLE -
$y0Je 437 "
RUNNING LOAD 480V. 480V. j g30V . CLASSJE MCC BUS , 670' CABLE RUNNING 0.0649
*O AIR CO P ESSOR STATOR 00LANT 5 180v. @ FIGURE 2 PUMP $ ,
SIMPLIFIED IMPEDANCE DIAGRAM FOR SUPPLYlNG $ , THE PLANT AUX]LIARY ELECTRICAL DISTRIBUTION SYSTEM E5 O FROM THE OFFSITE POWER SOURCES DUR]NG PLANT STARTUP, NORMAL OPERATION, MILLSTONE EVENT,
'$y 100T LONG-TERM SHUTDOWN AND UNIT TR]P G
. AIR COMPRESSOR o
8 9 0 3 2 0 01 91_ n ,_____
.3 L ~T----------~-'-~--~~
~ ~ - - - - - - - ' - - - - - - - - ~ ~ - ~ - - - - - -
M:icq-~ .
.j, ;
- d ii '
\
.( .
i ch*d 0.934 PU MIN (ABNORMAL) - 0.975 PU MIN (NORMAL) - 230KV BASE 1.054 PU HAX s i 220K/ SYSTEM, h 2 STARTUP. 27MVA XFMR 00X03-230-13.8KV $ 0.0038 + j 0.1225 i O.5MVA TRANS 20X30 CABLE $20X31 3 20X32'
$ +0. 017 +0.0509 (TYPICAL 480V LC 20810 ..@ 480V LC BUS 20Bijh 480V LC . 20BL2 RUNNING RUNNING RUNN13 LOAD LOAD LOM
$ $ CABLE $ CABLE 3 CABLE h , 480V_MCC , 480V.MCC - )
RUNN]NG RUNNING RUNN]NG LOAD LOAD LOAD I CABLE I CABLE 480V B,US(RHR INJ VLV) h 480V @ START]NG RHR 1NJ VALVE MOTOR
$ CABLE (TYPICAL)
I -480V. 480V MCC RUNN]NG LOAD $ CABLE (- RECIRC LINE 480V DISCHARGE l' VALVE I
; c,,..y -
- - .__-__--______-_--_-__A
.LOCA- APPENDIXeB'
') AN 3.1 G89
,- ;i , ,
0.934 PU M]N (ABNORMAU 0.934 PU MIN (ABNORMAD E 0.975 PU MIN (NORMAL) ' 14.lKV BASE 0.975 PU MIN (NORMAL) 230KV BASE.
,1.054 PU MAX- : 1.054 PU MAX
' 13.8KV . h 220KV SYSTEM -h 3 STARTUP '
343 STARTUP XFMR 00X05 27MVA XFMR 00411 36MVA
- s: + CABLE 230-13.8KV y +. CABLE -
' O.00553 + j 0.1347 0.00644 + j U.1257 ,
10.713MVA .< TRANS OAX04 4 CABLE +NON-SEGREGATED BUS
' O.0071 + j 0.0483 RUNNING LOAD
$20X33 $30X30 % 30X31 $30X32 $ 30X33 -
_480V LC@ BUS 20B13 _ 480V LC..30810 430V LC ,30B11 480V LC..30812 480V LC 3081,3, h' RUNNING RUNNING RUNNING RUNNING RUNNING
' LOAD- LOAD LOAD LOAD. LOAD J. $ CABLE '$ CABLE
$ CABLE
@480V _ .MCC i SI 1 4kV MTR "E"0I ; APERTURE '
4 CABLE CARD k STARTING h480VBUS.(RHR INJ VLV) Also Available On (TYNAu Aperture Card
~
$ CABLE 480V. @ 480V., MCC @ ,
FIGURE 3 l. l- SIMPLIFIED IMPEDANCE DIAGRAM FOR SUPPLYlNG 4 THE PLANT AUX 1LIARY ELECTRICAL DISTRIBUT]ON SYSTEM ! RECIRC LINE CABLE FROM THE OFFS]TE POWER SOURCES ]N CASE OF A LOCA h DISCHARGE 480V @ d VALVE g rut IG 8 9 0 3 2 0 019 7_g3 ls L . r I .-'- - _ _ _ _ _ _ _ .___ _ _ . _ _ . . _ . _ _ _ _ _ _ . __ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _
c.,,, - LOSS OF ONE OFFSITE POWER E 0.934 PU MIN (ABNORMAL) 0.934 PU H]N (ABNORMAL) ' O.975 PU MIN (NORMAL) 230KY BASE 0.975 PU HlN (NORMAL) . j4 "( 1.054 PU HAX , 1.054 PU HAX 220KV SYSTEM h 13.8KVh 27MVA 2 STARTUP 36MVA 3 STARTUP 230 13.8KV XFMR 03X03 13.2KV XFMR 00X05 E".0.0038 + j 0.1225 g . CABLE 5 0.00553 + j 0 13.2KV 10.713MVA XFMR OAXB4 CABLE E*NONSEGR
+
0.0071 + j 0. 4.16KV CLASS ]E BUS 0.5MVA XFMR 20X30
+ CABLE 4 20X31 M 20X32 $20X33 40.017 + J 0.0509 (TYPlCAL) r 483V LC BUS 20010 # 480V LC BUS 30811 480V LC BUS _20B12 # 480V LC . BUS _20813 gl [ l [
k RUNNING RUNNING J R'NN]NG LOAD RUNNING LOAD LOAD LOAD C LE # # #
,g2 +J0.043
@ Si!B" @ @ @
483V MCC _ (TYP] CAL ) 480V . MCC . 480V.. MCC _ 480V.MCC _ RUNN]NG RUNNING RUNNING RUNNING LOAD LOAD LOAD LOAD 6 CABLE 25 CABLE E! CABLE IECABLE 480V 480V 4E0V 480V l l NOTES : #THESE LOAD CENTERS ARE FED FROM THE SAME OFFSITE POWER SOURCE. _-m 3--
OURCE' ' APPENDIX B O.934 PU MI4 (ABNORMAL) ' 3g 31 ggyj 0 (NORMAL) 230KV BASE V BASE . 220KVSYSTEMh 23$f3.BKV$.hR 8I : CABLE. g+0.00644+j0.1257 l 1347- APERTURE
@ CARD bus 00A03B , j I
Also Available On R NO Aperture Card .* I TED BUS 483
~
w l RUNNING LOAD
$30X30 $ 30X31 M30X32 M 30X33 480V LC , BUS 30810 BUS _30Bilst 43gy L,C BUS 30812 480y LC BUS 3081344 180V LC
~
RUNN]NG RUNNING RUNNING RUNNING LOAD LOAD LOAD LOAD I CABLE M CABLE M ABLE C I CABLE 480V HCC 480V. MCC O ' 480V .MCC - 480V MCC . _ , I RUNNING RUNNING RUNNING RUNNING LOAD LOAD LOAD LOAD I ABLE C I CABLE 6 CABLE N ABLE C 480V 483V 480V 480V O FIGURE 4 SJMPLIFIED IMPEDANCE DIAGRAM FOR SUPPLY]NG THE PLANT AUXIL]ARY ELECTRICAL DISTRIBUTION SYSTEM g DUR]NG THE LOSS OF ANY ONE OFFS]TE POWER q SOURCE WITH THE PLANT IN NORMAL OPERAT]ON s 8 8 8903200191_oo _
N i l l APPENDIX C
)
O u l COMPUTER RESULT TABULATION l l l I l I O
z - -
. , v N
1
- h. TABLE OF CONTENTS u
l 1 1 I.A_B IJ(TM SHEET (S) 1 Normal Operation 1-11 2' LOCA in One Unit, Other Unit in Normal Operation 12-18 3 LOCA in One Unit, Other Unit in Long-Term Shutdown 19 28
'4 Unit Trip in One Unit, Other Unit in Normal Operation or ;29-34
- -Long Term Shutdown 5 Both Units in Long-Term Shutdown 35 37 6 Unit Auxiliary System Supplied by the Turbine-Generator 38 40- i 7 Unit Startup from the Offsite Power Supplies 41-49 n
_() 8 Establishment of the Degraded Voltage Relay Setpoints- -50 O VoLTREG. APP 1/31/89' C-I
l-1 L ,
,, Case No. vs. Sheet No. Matrix for Appendix C l l \
CASE NO. SHEET NO. CASE NO. SHEET NO. CASE NO. SHEET NO. 2G2001B 38 2L2332M6 15 2L2398A 22 2G2002B 38 2L2332M7 15 2L2398B 22 2G2003B 38 2L2332S 15 2L2398C 22 2G2004B 38 2L2332T 15 2L2398D 22 2G2005B 38 2L2332U 15 2L2398E 22 2G2006B 38 2L2332W 16 2L2398K1 22 2G2007B 38 2L2332Y 16 2L2398L1 22 2G2008B 38 2L2332Z 16 { 2L2398M2 22 ' 2G2009B 39 2L2332C6 16 2L2398N2 23 2G2010B 39 2L2335K 13 2L2398Y 24 2G2011B 39 2L2335P 28 2L2398Z 24 2G2012B 39 2L2335U 13 2L2398Z1 24 2G2013B 39 2L233bW 28 2L2398Z2 24 2G2014B 39 2L2337Al 11 2L2399 19 2G2015B 39 2L2337A2 11 2L2399A 19 2G2016B 39 2L2337K 12 2L2399B 19 2G2017B 40 2L2337U 12 2L2399C 19 2G2021B 40 2L2342S 23 2L2399D 19 2G2022B 40 2L2342T 23 2L2399E 19 2G2023B 40 2L2342U 23 2L2399F 19 (~'g 2G2026B 40 2L2342W 24 2L2399G 19 ()'~ 2G2028B 2G2030B 40 2L2342X 24 2L2399H 20 40 2L2344M4 23 2L2399I 20 OL2327I 30 2L2344M6 23 2L2399J 20 OL2332C 16 2L2344M8 23 2L2399K 20 OL2382C 29 2L2382A 29 2L2399L 20 OL2392D 32 2L2382C 29 2L2399M 20 02L2337 37 2L2382D 29 2L2399N 20 02L2338 37 2L2382F1 29 2L2399Q 20 02L234 2 37 2L2382H 29 2L2399R 21 2L2327D 30 2L2392D 32 2L2399T 21 2L2327G 30 2L2392H 32 23L2322K 26 2L2327I 30 2L2392I 32 23L2322U 26 2L2332 14 2L2392P 32 23L2325K 27 2L2332A 14 2L2392Q 32 23L2325U 27 2L2332B 14 2L2392Z 11 23L2333 35 2L2332C. 14 2L2392Z1 11 23L2334 35 2 L2332 D 14 2L2394A 25 23L2335 35 2L2332K 14 2L2394B 25 23L2336 35 2L2332L 14 2L2394C 25 23L2337 35 222332M2 14 2L2394D 25 23L2338 35 2L2394D1 25 23L2342F 34 l 2L2334E 25 23L2342K 17 l. l l
/m (s_- ; i l
votnta.Arr r/31/89 C-ii l
I 1 I p Case No.'vs. Sheet No. Matrix for Appendix C j
\ss/ L '
CASE NO. SHEET NO. CASE NO. SHEET NO. CASE NO. SHEET NO.
'l 23L2342U 17 23N2322A 9 2S2320 47 23L2345K 18 23N2325B 10 2S2321 47 23L2345U 18 23N2342B 4 2S2322 47 23L2392B 34 23N2342D 4 2S2323 48 3L2327I 30 23N2345A 5- 2S2324 48 3L2332C 16 3N2301E 3 2S2363CD 49 3L2382C 29 3N2063 7 2S2363F 49 3L2392D 32 3N2063C 7 2S2300F1 49 32L2337 36 3N'2302 6 23S2301 41 32L2338 36 3N2302A 1 23S2302 41 32L2339 36 3N2302C 6 23S2303 41 32L2340 36 3N2302M 50 23S2304 41 32L2341 36 3N2332C 3 23S2305 41 32L2342 36 3N2335B 2 23S2305A 41 ON2063 7 3N2335C- 2 23S2306 41 ON2063B 7 3N2337C 1 23S2306A 41 ON2301D2 3 3N2364 8 23S2307 42 ON2302N2 6 3N2364B 8 23S2308 42 ON2302A 1 3N2364M , 50 23S2309 42
,_ ON2302B 6 32N2322A 9 23S2310 42
' ON2302M 50 n 32N2322C 9 23S2311 42
'/' ON2335C 2 32N2325A 10 23S2312 42 ON2337B 1 32N2325C 10 23S2313 42 ON2364 8 32N2342B 4 23S2314 44 ON2364M 50 32N2342C 4 23S2314A 44 ,
02N2322A 9 32N2345A 5 23S2314B 44 02N2322B 9 32N2345C 5 23S2315 44 02N2325A 10 OS2316 47 23S2315A 44 L 02N2342B 4 OS2316A 47 23S2315B 44 02N2342C 4 OS2316B 47 3S2316 46 02N2345A 5 02S2301 43 3S2316A 46 02N2345B 5 02S2302- 43 3S2316B 46 2N2063 7 02S2314. 45 32S2301 42 ( 2N2301B 3 02S2314A 45 32S2302 43 2N2302 6 02S2314B 45 32S2314 44 ' 2N2302A 1 02S2315 45 32S2314A 44 2N2302M1 50 02S2315A 46 32S2314B 45 2N2332 3 02S2315B 46 32S2315 45 l 2N2332M 50 2S2316 46 32S2315A 45 2N2335A 2 2S2316A 46 32S2315B 45 2N2363 8 2S2316D 46 l 2N2363M 50 2S2316S 47 2N2364 8 2S2316V 47 f~ (_- ' VOLTREG. APP 1/31/89 C-k l I ;
. - 1 l
f: .. Key To Computer Calculation Case Numbering 1 MH. A. NH HH AH Subcase if needed Case run (Additional characters as needed) Unit Loading Information - Unit ! 2 or 3 - Unit with Major Load ) Listed First 1 Case Study G - Generator L.- LOCA,. Unit Trip, Loss'of any Offsite Power Source, I Long-Term Shutdown ) N - Normal Operation Millstone Syndrome S - Startup V Offsite Power Gource 2 - Startup Transformer 00XO3 1 3 - Startup Transformer 00X05 i 0 - 343 Startup Transformer 00X11 l One Character if one Source is 1 Available ! Two Characters if Both Offsite Power Sources Available j EXAMPLES: ) Case No.' 2L2332A evaluates the configuration of availability of one offsite power source from.
- o. startup transformer 00X03, LOCA on Unit 2, Unit 3 normal operation or shutdown, Case Number 32 with subcase A of LOCA loading sequence.
l Similarly, Case No. 32L2332A evaluates the configuration of availability of both offsite power l sources, study made with startup transformer 00X05. Explanation of other characters is the l same as above. l O Vol.TREG. APP 1/31/89 C* V l
..: w ~
> 1 W i L) General Notes for Appendix C-
- 1. All voltages are shown in per unit values.
i
-2. 1 Motor voltages shown are calculated on motor nominal base voltage of 460,2300, 4000 or 13200 volts.
- 3. Bus voltages shown are calculated on nominal base voltage of '480,- 2400,'4160 1 or 13200 volts. i
- 4. Offsite power source voltages are calculated on nominal base voltage of 14100 volts 'or 230,000 volts.
- 5. Source voltage ranges are discussed in report sections 3.C.3,L 3.C.4 and-3.C.16.
- 6. Circled numbers represent corresponding bus' numbers relating to Appendix B figures or Appendix E load profiles.
l q i i l l u o VOLTREG. APP 1/31/89 C*V u a
l I e 3 a 3 l NORMAL OPERATION g e O
m _, I PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: UNIT 2 ANO UNIT 3 IN NORMAL OPERAlION - ZERO COOLINO TOWERS LIMITING CASE VOLTAGE AT OPERATING (NON- ACCELERATING) S0URCE EGUIPMENT CASE NO.& ] DESCRIPTION yoLTAGE 23eKv
- 13.2KV 4.GKV 4.16KV 460V 13.2KV BUS MTR/ BUS BUS MOTOR MTR/BL CASE NO. 2N2302A 2 SU XFMR 00X03 - SELECT TAP 0.934 SU XFME h N/A h h 1.0361 _
1.0475 BEFCRE LOCA TAP c 1.0311 g 1.1192 COMPR CASE NO. ON23378 SIMILAR TO CASE NO. 2N2302A 1.054 SU Xc'4R h N'A h h0418 ~- EXCEPT 343 SU XFMR 00X11 - TAP d 1.0357 1.0523 1 'g y p _SOHCE VOLTA 0E 1.054 - MAXIMJM 0.9931 COMPR uUu TAP CASE NO. 2N2337C 7 SIN:LAR TO CASE NO. CN23378 SU X;NR 039o-N/A 1.0504 1.0338
' ;,
- EXCEPT 3 SU XFMR 00X05 - TAP c 1'47 MAX: MUM BUCK TAP , 1.c414 COMPR CASE NO. 3N2302A SIMILAR TO CASE NO. 2N2302A 0.941 SU XFMR h N'A h h0359 -
EXCE T 3 SU XFMR 00X25 - SOURCE TAP c 1.0309 1.0473 1 'A I R VOLTAGE 0.941 1.1082 COMPR CASE NO. ON2302A , SIMILAR TO CASE NO. 2N2302A SU XFMR N/A 0349 - u_ EXCEPT 343 SU XFMR OaX11 - TAP e 1.0301 1.0464 1 'A I R g SCURCE VOLTA 0E 0.934 1.1173 COMPR S cc
?
e 5 9 G; g SI APERTURE E CARD a; R S Also Available On A Aperture Card g . . NOTES: N/A __ __ _ _
- m. ,, -
]
i + .j s: -! 1 s . )Y . JOB'.NO.- :-18247"026. . COMPUTER RESULTJTABULATION- !
~ APPENDIX C-PERATING' -ONE 0FFSITE POWER SOURCE.AVAILABLE. SHEET NO. 1 OF 50- ,
. J Ari 3'liisc9 f
L LIMITING CASE- , VOLTAGE AT EQUIPMENT - MOTORS' LISTED ARE ACCELERATING
'460V '460V
~
' 4.0KV i 480V: 460V 480V 460V- '480V 460V 480V- 480V i, LMOTOR MCC. MOTOR- MCC MOTOR- MCC MOTOR MCC MOTOR MCC MOTOR 1
l l N/A" = . 1 i
-)
N/A i. : l 1 N/A = ,i
'i N/A =
[ 1 l
'i i
N/A =
- l
\
-i 8908200191_06____ 1
mm PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION STI CONFIGURATION: UNIT 2 ANO UNIT 3 IN NORMAL OPERATION - FOUR C00 LINO TOWERS LIMITING CASE VOLTA 0E AT OPERATING (NON-ACCELERATING) S0URCE EQUIPMENT CASE NO.& y0tTacg DESCRIPTION 230 KV 13.2KV 4.0KV 4.16KV 460V 13.2K BUS MTR/ BUS BUS' MOTOR MTR/B CASE NO. 2N2335A 2 SU XFMR 00XO3 - SELECT TAP DEFORE LOCA S 0.934 h FMR 1.0308 N/A h 1.0473 h 1.0361 1.1728 COMPR CASE NO. 3N2335C SIMILAR TO CASE NO. 2N2335A EX J FMR 00X05 - SOURCE S 1.03 Ff4R (h,
!.0331 h
1.094 h 1.0496 h 1.0389 O - C00 LINO AIR 1.0414 TOWER COMPR PUMP CASE NO. 3N23358 7 SIMIt_AR TO CASE NO. 2N2335A S 0.941 FAR 1.0304 h' 1.0911 h,) 1.0468 1.0355 h t g, qk}MR00XO5-SOURCE COOLING AIR 1.1452 TOWER COMPR i' PUMP CASE NO. ON2335C SIMILAR TO CASE NO. 2N2335A EXCEPT 3 SU XFMR OCXC5 - SOURCE SU XFMR 1.0308 0.934 h h h 1.0915 1.0972 1.036 h .- VOLTA 0t 0.934 . TAP c C00 LINO AIR { 1.1695 TOWER COMPR ; PUMP 1
- a. 1 e 1 8 >
?
Is 5 1 1 a. si i Si 9 APERTURE f a CARD i 8 I _ 1 E Also Availabic On
! Aperture Card 1 S
c l q Y*-- -- . mfd)TRSA N/A __ _ - - .__ _
3DY JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C OPERATING - ONE OFFSITE POWER SOURCE AVAILABLE SHEET NO. 2 0F 50 j 1. ;; 3 i '333 LIMITING CASE VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING ? 4.0XV 480V 460V 480V 460V 480V 460V 480V 460V 480V 460V BS MOTOR MCC MOTOR .MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR I N/A- -
=
N/A L N/A = ( ' N/A -
)
6M% D b2 '
A - osam PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: UNIT 2 AND 3 IN NORMAL OPERATION - ZERO COOLING TOWERS OPEF SUPPLIED BY THE ONLY AVAILABLE OFFSITE POWER SOURCE. 1 LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING) S0URcE EQUIPMENT CASE NO.& y0tTacE DESCRIPTION 230 KV 13.2KV 4.0KV 4.16KV 460V 13.2Ki BUS MTR/BU" GUS MOTOR MTR/BL CASE NO. 2N2332 U XFMR 00X03 - TAP SETTING fu MR TAP c 1.034 N/A 1.0505 1.0399 1.1996 AIa COMPR CASE NO. 2N2301B 0.975 SIMILAR TO CASE NO. 2N2332 SU XFMR N/A " EXCEPT 2 SU XFMR 00XO3 - SOURCE TAP e ' 1.0338 1.0504 1.0398 VOLTAGE 0.975 PU 1.1393 AIR COMPR CASE NO. 3N2301E 1c SIMILAR TO CASE NO. 2N2332 EASE N A. =
'EXCEPT 3 SJ XFMR 00XO5 - 0.941 SU XFMR 1.0323 1.0488 1.0379 PU ON A 14.1KV BASE - TA' TAP c AIR SETTING RUN 1.1683 COMPR t~
CASE NO. ON23010 SIMILAR TO CASE NO. 2N2332 0.934 SU XFMR h N'A. EXCEPT 343 SU XFMR 00X11 - TAP TAP c 1.0295 1.0459 1.0345 SETTING RUN
- 1.1891 AIR COMPR CASE NO. 3N2332C 1.042 ON .
SIMLAH TO CASE NO. 2N2332 .1KV c g4 EXCEPT THAT SOURCE VOLTAGE SU XFMR 1.0332 N/A 1.0497 1.0389 b AT MAXIMUM OF 1.042 AND ] ct MAXIMUM BUCK TAP TAP c AIR i j.0414 COMPR l e 5 S SI s APERTURE
- CARD i 8
~
0 Also Available On j Aperdure Card 8 I I 'l _ _ NOTES: N/A
p , p .o -
'l
- l. i JOB NO. 18247-026 : COMPUTER RESULT; TABULATION -
$0Y-APPENDIX C; hTING A!'O ONE.13.,2KV' UNIT 3- AUXILI ARY BUS NORMAL' LOAD ~ SHEET NO. 3 0F. g > c o ..,+ n,w fc LIMITING CASE !' VOLTAGE AT EQUIPMENT - MOTORS . LISTED ARE ACCELERATING !.s
- 4.0KV . . 480V -l .460V : 400V 460V 480V ~460V- 480V' :460V 480V 460V-is ' MOTOR MCC . MOTOR MCC' MOTOR MCC- MOTOR MCC MOTOR MCC- MOTOR.
=
NfA , i l i b L - N/A = l N/A '= . ' r N/A = i 1
'i e N/A = ')
1 l 1
! ?
ra h m -- _ . _ __ _ f
PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST C' CONFIGURATION: UNIT 2 ANO UNIT 3 IN NORMAL OPERATION - ZERO COOLINO TOWER 2 1 i i f LIMITING CASE VOLTAGE AT
! OPERATING (NON-ACCELERATING)
S0URCE EO M ENT
! CASE NO.& yoLraoE ! DESCRIPTION 23c KV .
i 13.2KV 4.0KV 4.16KV 460V 13.2 2 i BUS MTR/ BUS EUS MOTOR MTR/3 CASE NO. 23N23428 j 2 SU XFMR 00X03 - TAP SETTING fb MR
- RUN 1.0324 N/A 1.0540 1.0437 TAP c 3 1.1125 AIR
' COMPR I CASE NO. 32N23428 0.941 SIMILAR TO CASE NO. 23N23428 EXCEPT 3 SU XFMR 00X05 - 0.941 & gy BA*g f 1,0307 N/A 1.0522 1.0417 g [U,0N A 14.1KV BASE - TAP gg XFMF AIR
- >c.iING RUN TAP AT COMPR Fj 1.1015 j CASE NC. 32N2342C h.]75
..i SINILAR TO CASE.NO. 32N23425 14.IKV 1*033"* "
U.. EXCE;T 0.9975 PU ON A 14.1KV BASE N/A 1.0551 1.0451 (~ 2ASE - MAXIMUM BUCK TAP SU XFMR AIR Ji TAP AT COMPR 1.0414 CAS:. NO. 02N23428 SIMILcR TO CASE NO. 23N23428 0.934 SU XFMF hh h 1.0420
-! EXCEOT 343 SU XFMR 00X11 TAP c 1.0310 N/A 1.0525 =
1.1107 AIR COMPR 4 3 CASE NO. 02N2342C . 1,g4q4 , i SIMILAR TO CASE NO. 02N2342B SU XFMF d EXCERT 1.0494 PU WITH MAXIMUM TAP c 1.0334 N/A 1.055 1.045 = b BUCK TAP 0.9931 AIR I COMPR 4 N - ] u. CASE NO. 23N2342D SIMILAR TO CASE NO. 23N23428 y,g4g SU XFMF
@ @. @ =
i % EXCEPT 1.048 PU WITH MAXIMUM TAP c 1.0337 N/A 1.0553 1.0453 f z BUCK TAP 0.9918 AIR COMPR r 8 g SI ll a APERTURE [ CARD .
\
{l 0 o ( $ Atsu avaitatue On i ' O Arwrture Card A j 8 4 NOTES: N/A _ _ _ _ _ _ _.
tv- -~-- - c,
' ^
NDY. - -JOB NO. 18247-026' COMPUTER RESULT TABULATION
- APPENDIX C -
AVAILABLE -' BOTH OFFSITE POWER SOURCES AVAILABLE SHEET NO. 4 0F g n:! 3 : ;;n p. e I LIMITING CASE - j.;^ VOLTAGE AT EQUIPMENT -
.- MOTORS LISTED ARE ACCELERATING
) .4.0XV- 480V .460V 480V 460V- ' 480V 460V 480V 460V 480V 460V. JS MOTOR. ~MCC MOTOR MCC MOTOR. MCC MOTOR MCC MOTOR MCC MOTOR .. N/A =
.q N/A =
N/A = [ 2 m tM M N/A =- L. N/A ,
=
' :s N/A = O 8 90 3 s o o rsi _ og_ _ ,
t PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST l CONFIGURATION: UNIT 2 AND UNIT 3 IN NORMAL OPERATION - FOUR COOLING TOWS i LIMITING CASE VOLTAGE AT ! OPERATING (NON-ACCELERATING) S0URCE EQUIPMENT
- CASE NO.& yoL qgE DESCRIPTION 230Kv 13.2KV 4.0KV 4.16KV 460V 13.2%
BUS MTR/ BUS BUS MOTOR MTR/3 l l i CASE NO. 23N2345A 2 SU XFMR 00XO3 - TAP SETTING 0.934 SU XFMR h 1.0319 N/A h 1.0532 h 1.0444 ~
- RUN TAP c 479 l-1.1259 COMPR CASE NO. 02N2345A SIMILAR TO CASE NO. 23N2345A SU XFMR.1*0304 N/A 1.0516 1.0426 EXCEPT 343 SU XFMR 00X11 TAP c AIR 1.1238 COMPR
- CASE NO. 02N23458 1.054 g N/A 1.0530 -
(~1 C S R 0 b0 1.0317 1. 04g42 ~ MAXIMUM OF 1.054 AND NAXIMUM COMPR BUCK TAP l CASE NO. 32N2345A g l SIMILAR TO CASE NO. 23N2345A BASE N/A 1*0540 1 0453 EXCEPT 3 SU XFMR 00X05 1* AIR SU XFMR TAP e COMPR 1.1148 CASE NO. 32N2345C . N/A 1.0536 1.0451 ~ t E SO R 0 k0 A lh E FR 1.032? g 1.005 AND MAXIMUM BUCK TAP TAP c COMPR td 1.0414
- 5 9
l 8 . e 81 l APERTURE l 6 CARD
- a m >
" O l Aho Available Ori !
@ ,\porture Card O
- - NOTES: N/A -
g ,
. v .
s hDY.? ' IJOBl NO. 18247-026 COMPUTER: RESULT ' TABULATION E' APPENDIX . C
~
hS0PERATING-BOTH'0FFSITEPOWER,COURCESAVAILABLE. SHEET'NO. 5 0F. 50. lo .. .1* Ji . - . LIMITING CASE-VOLTAGE AT EQUIPMENT - jr MOTORS LISTED ARE ACCELERATING . D "4.0XV . 480V 460V- 480V. 460V -480V. 460V. .480V 460V 480V 460V. S . MOTOR MCC- MOTOR MCC . MOTOR- 'MCC- ' MOTOR. MCC- MOTOR MCC MOTOR
=
- N/A N/A =
N/A = N/A = l " N/A = i: p 8 9 0 3 2 0 01911oj _
,y 1 +
t , -
-. y.. 7 ; PROJECT :PBAPS ' UNITS 2 J&: 3 - .SUBJECTE VOLTAGE' REGUL ATION:- ST
-(7 .
. CONFIGURATION: UNIT 2 IN NORMAL'OPERAT10N'AND UNIT.'3. SHUTDOWN ~ZERO COOL!
.I
. LIMITING CASE VOLTAGE A.T' OPERATING ' (NON-ACCELERATING)
S0 CASE NO.'& EQUIPMENT VOLTAGE
=0ESCRIPTION 230KV . . .
13.2KV 4.0KV 4.16KV 460V- 13.2K'
. BUS MTR/ BUS BUS MOTOR MTR/BI CASE NO. 2N2302 2 SU XFMR 00X03 - TAP. SETTING gh* h N/A 1.0309 c RUN TAP c 1.031 1.0419 AIR 1.1393 COMPR , l 1
CASE NO.~3N2302 r SIMILAR TO' CASE NO. 2N2302 0.941 ON A 14.1KV h h h ~
-l EXCEPT-3 SU XFMR 00X05 BASE SU 1.0288 1.0396 If $
XFMR TAP ~ o 1.1215 COMPR CASE NO 3N2302C ' SIMILaR 70 CASE NO. 3N2302' 1.002 ON n 14.igy - @ @
..hm ), . NAX. BUCK TAP. BASE SU 1.0328 N/A 1.0493 Ifk25 h
=
XFMR TAP COMPR-c 1.0414 CASE NO. ON2302 0.934 SIMILAR TO CASE NO. 2N2302 EXCEPT 343 SU.XFMR 00X11 S yFMR N/A- 1.0412 1 0
.0303 1.1368 COMPR' CASE NO. ON23029 Q W
Q U SIMILAR TO CASE NO. 3N2302C 1.054 EXCEPT 343 SU XFMR 00X11 SyFMR 1.030 N/A 1.0409 1.0297 " g 0.9997 COMPR 5 5 L'. 9 8 SI 1 I i APERTURE .
- ; CARD u g i N Also Avaitable On l y Aperture Card ;
I 9 a 1 Mi __=-__NOT ES: N/A
i L [' hDi. , JOB NO. - 18247-026 COMPUTER 1 RESULT TABULATION l' , APPENDIX C . j WG T0dERS OPERATING - ONE OFFSITE POWER SOURCE AVAILABLE SHEET-NO, 6 OF'50. i
..: C G. .j i
LIMITING CASE' l
' VOLTAGE AT EQUIPMENT -
MOTORS LISTEO. ARE ACCELERATING ~ 'S 4.0KV .
- MOTOR-
'480V MCC 460V MOTOR
/480V MCC
. 460V' MOTOR-
- 480V MCC' 460V
. MOTOR 480V MCC
~460V MOTOR-480V.
MCC 460V-
. MOTOR --
c N/A = H N/A = 1 N/A = N/A r
=
N/A ; i j e 8 90 3 20 019hjo -
I i S ,.__. PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION S l- /. i (
; CONFIGURATION: UNIT 2 IN NORMAL OPERATION AND UNIT 3 SHUTDOWN - FOUR C00LI 1
LIMITING CASE VOLTAGE AT OPERATINO (NON-ACCELERATING) CASE NO.& S0URCE V0tTarE O "
, DESCRIPTION 230KV U '
13.2KV 4.0KV 4.16KV 460V 13.2K 4 BUS MTR/ BUS BUS MOTOR
,e MTR/q q
CASE NO. 2N2063 2 SU XFMR 00XO3 - TAP SETTINO 0.934 SU XFMR h N/A h h 1.0338 ~ TAP c 1.0334 1.0444 AIR RUN 1.2063 COMPR s CASE NO. 3N2063 0.941 ON SIMILAR TO CASE NO. 2N2063 A 14'IkV v , EXCEPT 3 SU XFMR 00X05 BASE . N/A 1.0281 SU XFMR 1.0287 1.0394 AIR TAP c COMPR 1.1683 CA9E NO. 3N2C63C 1.042 ON 12 15 SIMI'_AR TO CASE NO. 3N2063 A 14.IKV s J f; Vk
~
EXCE T. THAT SOURCE VOLTAGE IS 1.042 PU AND XFMR WITH MAXIMUM BASE SU XFMR 1.0315 N/A 1.0423 1.0315 AIR 1 l BUCK TAP TAP 0 COMPR i k'i 1.0414 j CASE NO. ON2063 l N- 0.934 343 S') XFMR 00X11 - TAP SETTINO SU XFMR h N/A h h 1.0285 : I r: RUN , TAP e 1.0290 1.0398 AIR q 1.1957 ,COMPR pq i
; CASE NO. ON20639 .
, I SIMILAR TO CASE NO. ON2063 1.054 "U XFMR l
- l EXCEPT THAT SOURCE VOLTAGE N/A 1.0328 =
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. MOTORS LISTE0 ARE ACCELERATING h- 4.0KV .' 4 80V 460V 480V 460V 480V 460V 480V 460V 480V ~460V WS MOTOR .MCC MOTOR' MCC MOTOR MCC MOTOR MCC MOTOR MCC . MOTOR I
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*'o- CONFIGURATION: ' UNIT.2.IN NORMAL-OFERATION AND UNIT:3 SHUTDOWN ZERO C00LI NORMAL LOAO. SUPPLIED BY THE ONLY AVAILABLE OFFSITE POWER SC
'l LIMITING CASE VOLTAGE - AT OPERATING ' (NON- ACCELERATING)-
S0URCE
.EOUIPMENT, CASE NO.& V0tTaoe
. 0ESCRIPTION KV 13.2KV 4.0KV ~4.16KV '460V ~ 13.2K' BUS ~ MTR/ BUS BUS MOTOR MTR/Bl CASE NO. 2N2363 : '
0.934' 2 SU XFMR 00X03 - TAP SETTING S FMR N/A' 1.0279 -*---- RUN 1(0136 R 1.2063 1.0177 COMPR: CASE NO P.N2364 SIMILAR TO CASE NO. 2N2363' EXCEPT THAT SUPPLY VOLTAGE AT. O.975~ SU XFMR h .N/A
' h' -
1.0440-
~h.'
O.975 PU - TAP SETTING RUN TAP c 1 0332 140323 1.1594
~
'COMPR
.0* 4l CASE NO..:3N2364-SIMILAR-TO CASE N0;'2N2363 0
14.1KV-A.
.Q' h-(: ?'wl EXCEPT 3 SU XFFR 00X05.- SUPPLY > BASE- .N/A 1.0388 1.0263 ~
. A lh .
VOLTAGE 0.941' PU ON A 14.IKV SU XFMR 1.0282
' TAP c .COMPR BASE + TAP SETTING RUN 1.1817 052 .
CASE NO. 3N23648 10 'N g . 14.1KV SAME AS CASE NO. 3N2364 BASE' N/A 1 0436 1.03l9 EXCEPT WITH 1.052 PU.ON A 1.032g R 14.1 KV BASE - tao AT MAXfiIUM SyFMR BUCK POSITION 1.0414 CASE NO. ON2364 . 0.934 .
.SAME AS CASE NO.-2N2363 SU XFMR' N/A 1 32 g334- _
u, EXCEPT 343 SU XFMR 00X11 - TAP c 1.0324 3' AIR y TAP SETTING RUN 1.2153 .COMPR
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hDY.o JOB NO. 18247-026 COMPUTER RECULT- TABULATION - ;
. AT i ^' DIX: C .
-j MG.TOUERS_0PERATING AND:0NE 13.2KV UNIT 2 AUXILIARY BUS.. SHEET 8 ' OF 50 )
URCE. , ,
;,w ,
t LIMITING CASE VOLTAGE AT--EOUIPMENT - MOTORS LISTED .ARE. ACCELERATING )- 4.0KV ' .480V 460V- 480V 460V 480V 460V- 480V 4 60V 480V 460V: MCC , MOTOR MCC MOTOR MCC; MOTOR- .MCC MOTOR MCC. MOTOR. QS ' MOTOR: a N/A = 'I l s i-N/A ,
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- ) L '
CONFIGURATION:' UNIT-2'IN' NORMAL OPERATION.AND UNIT'3 SHUTDOWN.- 'ZERO C00LII
- LIMITING CASE VOLTAGE' AT' OPERATING 1NON- ACCELERATING)
S0URCE- EQUIPMENT: CASE NO.&. voLraoe
' DESCRIPTION 230KV .
13.2KV- 4.0KV 4.16KV 460V . 13.2X
. BUS- MTR/ BUS BUS. .. MOTOR MTR/@
CASE NO. 23N2322A U XFMR 00X03 - TAP SETTING 0.934- ~@. . @' SU XFMR N/A '1.0412 -= TAP 1.0337 1.0517' AIR 1.1259 COMPR CASE.NO. 02N2322A
-SIMILAR TO-CASE NO. 23N2322A O.934 SU XFMR h N/A
@ 3
'l'.0399 =
TAP c EXCEPT 343 SU XFMR 00X11 1.032G 1.0506 AIR.
'1.123G COMPR:
CASE;NO. 02N23228 SIMILAR TO-CASE NO. 02N2322A 1.054 SU XFMR-( 2)
' gjf 4
.h h. 1,g419; e
% EXCEPT. SOURCE' VOLTAGE AT MAXI-TAP'c 1.0342 1.0522 .~ AIR
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' MUM OF'. l'.054- AND MAXIMUM BUCK TAP 0.9931 COMPR CASE'NO. 32N2322A 0'N A SIMILAR TO CASE NO. 23N2322A g4g- N/A 1.0347 '
EXCEPT.3 SU XFMR 00X05- SU XFMR 1.0283 1.0461 AIR TAP. c . 'COMPR 1.1082 1.004 CASE NO. 32N2322C SIMILAR TO CASE NO. 32N2322A ON:A 14 1 KV g43-g Q tpt w EXCEPT SOURCE VOLTAGE.AT 1.004 SU XF R 1.033G 1.0516 ' AIR y AND MAXIMUM BUCK TAP TAP c 'COMPR j 1.0414 ! e 5 c? s 5 SI s APERTURE
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1 UDY JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C 10 TOWERS OPERATING - BOTH CFFSITE POWER SOURCES AVAILABLE SHEET NO. 9 0F @ j ,, . 3 i ',3 M l LIMITING CASE VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING 4.0KV 480V 460V 480V 460V 480V 460V 480V 460V 480V 460V J JS MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR
- N/ A a l
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OPERATING (NON-ACCELERATING "RCE EQUIPMENT CASE NO.&~ v$tTaog
, DESCRIPTION 230KV .-
13.2KV 4.0KV. 4.16KV - 460V 13.2K; BUS MTR/ BUS BUS MOTOR- MTR/BL CASE NO. 23N23258 "
'2 SU XFMR 00XO3 - TAP SETTING fy fgg RUN TAP c '
1.'0529 1.0443- " 1.0333 AIR-1.1393 COMPR 9jl CASE NO. 32N2325A- - 14.1KV SIMILAR:TO CASE NO. 23N23258-EXCEPT 3 SU XFMR 00XO5-TAP. BASE - 1.0676 1.0333 SU-XFMR 1.0271 COOLING 1,0449 SETTING RUN c 0.941 PU ON A TAP c TOWER AIR 14.lKV BASE COMPR 1.1349 PUMP CASE NO. 32N2325C. g0g3-SIMILAR TO CAEE NO. 32N2325A 14.IKV _ EXCE;T 3 SU XFMR 00X35- 1.023 8ASE 1.090 1.0393
- (b'.' SU XFMR 1.0321 COOLING 1.0501 PU CN'A 14.1KV BASE TAP c TOWER
. AIR COMPR 1.0414 PUMP CA9E=NO. 02N2325A u
SIMILAR TO CASE NO. 23N23258 !$ fgg - - 1;0490 -'1.0381
'EXCEPT 343 SU XFMR'00X11* TAP TAP c '
.pgg SETTING RUN -
1.1565
- I kh PUMP COMPR
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=
N/A = N/A r N/A = i i i 1 [ 1 ( l O90'S20.0~1Dn_-9h__-__ Li
e, PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST l . CONFIGURATION: UNIT 2 AND 3 IN NORMAL OPERATION OR UNIT 2 IN NORMAL OPERA' START OF 2 AIR COMPRESSORS WITH OTHER 460V LOAOS ( ASSUMING CFFSITE POWER SOURCE ' LIMITING CASE VOLTAGE AT OPERATING (f JN-ACCELERATING) S0URCE EQUIPMENT OURING LOCA SEQUENCE CASE NO.& voLraog ' DESCRIPTION 230Kv 13.2KV 4.0AV 4.16KV 460V 13.2k BUS MTR/ BUS BUS MOTOR MTR/E CASE NO. 2L2337Al 2 SU XFMR 00X03 - UNIT 2 & 3 fb MR 0.9966 N/s NORMAL OPERATION - 0 COOLING 1.0011 N/A : TAP Q TOWERS IN OPERATION 1.1125 BUS S CASE NO. 2L2337A2 g v SIMILAR TO CASE 2L2337Al EXCEPT 0.934 XFP4R 4 C00 LINO TOVERS IN OPEFATION N/A 6 a N/$ P
.0006 1.1259 BUSES CASE NO. 2L23922
.934 c SIMILAR TO CASE 2L2337A2 EXCEPT gUXFM,n 0.9962 -:
UNIT 2 IN NORMAL OPERATION N/A N/f I
~
AN O UNIT 3 SHUT 00WN
*P0 CLASS 1E 1.1393 BUSES CASE NO. 2L2392Z1 0.934 SIMILAR TO CASE 2L2392Z EXCEPT SU XFMR 1.0462 N/$
THAT 2 AIR COMPRESSORS ARE .0092 N/A 4 TAP c CLASS 1E OELAYED 15 SECONDS BGFORE 1.1393 BUSES STARTING l ib x Ci s 5 R
$ SI APERTURE U CARD R
0 Also Available On A Aperture Card
'O I - -- NOTES: N/A - -
er > j '- 2 0$DYl JOB NO. 18247-026- COMPUTER RESULT' TABULATION ~ APPENDIX C ' 0N'ANDLUNIT 3 SHUT 00WN LOAD CENTER BUSES TRANSFERRED < SHEET NO.11 0F ;50 $yTHER U 2/ AIR. COMPRESSORS RUNNING) FOLLOWINO LOSS OF.ONE . . LIMITING CASE LOCA SEQUENCE . VOLTAGE AT -EQUIPMENT - . ; MOTORS LISTED ARE ACCELERATING ! Y 4.0KV 480V- 460V 480V 460V 480V 460V 480V .460V 480V .460V 4 ljs MOTOR- MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC- MOTOR. 1
@ @ @ @ '@ 0.q)715 <
'O.7495 -. 0.8951 0.8835 0.7646 INTAKE
= N.'A -
0.7648 AIR MCC STANOBY MCC STRCT i COMPR 20B59 OAS TR 00861- g QY l
'= I O.7490 0.8945 O.8829 0.7643 fN N : N.'A 0.7843 AIR. MCC STAND 8Y MCC STRCT COMPR- 20859 OAS TR 00961 ggt y .
0.7712 l'l 0.7492 0.8947. 0.8831 0.7644 INTAKE N.'A - 0.7845 . AIR MCC STANDSY MCC STRCT COMPR 20859 OAS TR 00861 ggt > @ @ @ @ @ O.7793 > 0.8925 0.7722 = N.'A
'0.9059 0.9042 INTAKE 0.8692 AIR. MCC STANDBY MCC STRCT H COMPR 20B59 OAS TR 00861 g yLYT I
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- 1. }
l l 1 l L 89032001g3_1Jy_________-___,j
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y I PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION S1
CONFIGURATION: UNIT 2 AND UNIT 3 IN NORMAL OPERATION - ONE 13.2KV UNIT E
- ZERO COOLING TOWERS OPERATING - ONE OFFSITF POWER SOURC LIMITING CASE . VOLTAGE AT OPERATING (NON-ACCELERATING)
S0URCE EQUIPMENT DURING LOCA SEQUENCE CASE NO.& yoLTa0E DESCRIPTION 230kV 13.2KV 4.0KV 4.16KV 460V 13.2F BUS MTR/ BUS BUS MOTOR MTR/E CASE NO. 2L2337K . 0 2 SU XFMR 00XO3 - LOCA c 13 S ' FF R U.9266 SECONOS (2 CORE SPRAY PUMPS N/A 0.8881 0.8602 N/$ AND MISCELLANEOUS 460V STANOBY l'1192 GAS TR LOAD $ START) l CASE NO. 2L2337U SINILAR TO CASE NO. 2L2337K g g g SU XFMR g
- q.17 7 0.9614 0.9254 0 8763 j EXCEPT LOCA e 48 SECONDS TAP c gSW & LINC (DIESEL OENERATOR BUILDING 1.1192
~
ECW DISCH VENT START) oUMPS v4Lyg p L. tb cc d SE 5 cd -
- Cf y SI
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NOTES: N/A
UDY JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C US OF THE LOCA UNIT TRANSFERS AT 12 SECONDS SHEET NO.12 0F 50 1 AVAILABLE 4 LIMITING CASE LOCA SEQUENCE VOLTA 0E AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING NJ 4.0KV 480V 460V 480V 460V 480V 460V 480V 460V gS MOTOR 460V 460V MCC MOTOR kCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR 4 0.9205 a N/A r 0.8476 0.8695 0.8650 0.889'2 N/A N/A CORE MCC CORE MCC CORE SPRAY PUMP 20833 SPRAY 20838 SPRAY FAN FAN N/A = 0.8023 0.8255 = N/A = 0.8154 0.8374 MCC 00 8 LOG MCC 00 BLOG 00853 VENT 00855 VENT
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PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: UNIT 2 AND UNIT 3 IN NORMAL OPERATION - TWO 13.2KV UNIT AUj TRANSFER AT 12 SECONDS - FOUR COOLING TOWERS OPERATINO - Of 1
- LIMITItiG CASE VOLTAGE AT OPERATING (NON- ACCELERATING)
S0uRC EQUIPNENT' DURING LOCA SEOUENCE CASE NO.& vctra]E DESCRIPTION 230 KV 13.2KV 4.0KV 4.16KV 4 GOV 13.2K BUS MTR/ BUS BUS MOTOR MTR/B CASE NO. 2L2335K 2 SU XFMR 00XO3 - LOCA c 13 0.934 SECONDS (2 CORE SPRAY PUMPS AND SU XFMR 0*9209 h N/A h 0*8823 h 08532 N/A MISCELLANEOUS 460V LOADS START) TAP c STANDBY 1.1728 GAS TR CASE NO. 2L2335U SIMILAR TO CASE NO. 2L2335K EXCEPT LOCA c 48 SECONOS 0.934 h SU XFMR 0.9449 h 0.9583 0.9224 h 0.8728 RECIRC (DIESEL GENERATUR BUILDING TAP c ESW & LINC VENT START) 1.1728 ECW OISC'H PUMPS VALVE C
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APPENDIX C
,j
,fARY BUSES OF THE LOCA UNIT SHEET NO.13 0F-- 50 ' l 0FFSITE POWER SOURCE AVAILABLE , j LIMITING CASE LOCA SEQUENCE VOLTAGE AT EQUIPMENT - 4 MOTORS LISTED ARE ACCELERATING
'4.0KV 480V 460V 480V 460V 480V 460V '480V 460V 480V 460V LMOTOR MCC ' MOTOR MCC MOTOR MCC MOTOR MCC- MOTOR MCC MOTOR.
t 0.9145- 0.8412 0.8629
= N/A = 0.8588 0.8828 CORE ,
MCC CORE NCC CORE-20836 . ' SPRAY 20838 SPRAY l PUMP ' . SPRAY- FAN FAN i @ @ @ @. N/A = 0.799 0.8222 0.8124 0.8343 MCC 00 BLOG NCC - DG BLOG 03S53 VENT. 00855 . VENT. s .. h 1 1 1
. 1 1
1 1 lu d 1 1 1
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1 M '
. CONFIGURATION: UNIT 2 AND 3 IN-NORMAL OPERATION - ONE 13.2K
' AUXILIARY _ BUS OF THE LOCA UNITLTRANSFERS e.12 SECONOS - ZE8 ;
AVAILABLE J - . . LIMITING CASE VOLTAGE AT -
' OPERATING (NON-ACCELERATING)
S0u CE EQUIPMENT DURING LOCA SEQUENCE CASE NO.& VoLTAog DESCRIPTION 230kV. - 13.2KV 4.0KV 4.16KV ~460V 13.23 BUS MTR/ BUS , BUS MOTOR- MTR/$ CASE NO. 2L2332 2 SU XFMR 00XO3 LOCA c O 0.934 SU XFMR h N/A-h TAP c 1.0345 -1.0464 = N/( '
- SECONOS' ( 460V LOADS ST ART )
't 1.1996 ,
p CASE.NO. 2L2332A- g SIMILAR TO CASE NO. 2L2332 SU XFMR N/A { EXCEPT THAT LOCA c 2 SECONOS TAP c :0.895g - 0.8193 4 N,'A a { (2.RHR PUMPS START. 460V LOADS 1.1996 l g -- STILL ACCELERATING) j. j i CASE NO. 2L23329 SIMILAR 10 CASE NO. 2L2332A 0.934 SU XFMR h h 1.065
'h NN EXCEPT THAT LOCA e > 2 SECONOS TAP c 1.0217 RHR 1.0259 i
(2 RHR PUMPS RUNNING.AND 460V 1.1996 PUMPS .
. LOADS STILL ACCELERATING)'
-CASE NO. 2L2332C q SU XFMR ri SIMILAR TO CASE NO. 2L23329 EXCEPT LOCA c 8 SECONOS (2 TAP c 0.9797 N/A 0.7945 0.7324 RHR NM
) OTHER RHR PUMPS START AND 1.1996 FAN STAN09Y GAS STILL ACCELERATING) CASE NO. 2L23320 SIMILAR TO CASE NO. 2L2332C 0.934 SU XFMR h h 1.0417 h' h9728 ~ EXCEPT LOCA e > 8 SECONDS TAP c 1.0074 RHR 1.0035 3'RHR j b (2 OTHER RHR PUMPS RUNNING AND 1.1996 PUMPS FAN j-> a; g STANOBY GAS STILL ACCELERATING) CASE NO. 2L2332K 0.934 SU XFMR h h- h M u.
- SIMILAR.TO CASE NO. 2L23320 EXCEPT LOCA c 13 SECONOS (2 TAP c 0.8949 N/A 0.8553 0.8210 STANOBY N/<
d'. ' 1.1996 j z CORE SPRAY PUMPS AND 460V CAS TR 8 LOADS START) h CASE NO. 2L2332L ($, *SIMILAR TO CASE NO. 2L2332K 0 SU XFMR 20 O.9708 h h 0.9215 m
> TAP c 0.9451 CORE 0.9344 C0 E S- EXCEPT THAT LOCA c > 13 SECONDS 1.1996 SPRAY gpp y j;p r, (CORE SPRAY PUMPS RUNNING AND 460V LOADS STILL ACCELERATING) PUMPS FAN e
1
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, D.M 2 '. 1;39 LIMITING CASE LOCA SEQUENCE VOLTA 0E AT EQUIPMENT -
MOTORS LISTE0 ARE ACCELERATING 17 4.0XV 480V 460V 480V 460V 480V 460V 480V 460V 480V 460V US MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR y 0.9755 0.9628 0.9880 0.9747 1.015 1.025 0.9839 0.9672 1.0019 1.0125 RHR S?Y
~
MCC STANOBY MCC RHR MCC RHR MCC RHR MCC 20859 GAS TR 20839 FAN 20837 FAN 20836 FAN 20838 SY ASS vLg
@ @ @ @ @ @ @ @ 1D 1
- 0. 374
. O.8423 0.7402 0.7306 g,,4 - O.7786 0.7864 0.7470 0.7343 0.7830 RHR MCC STAN08Y
~ ~
MCC RHR MCC RHR MCC RHR SPY-A33 PUNPS 20859 OAS TR 20837 FAN 20836 FAN 20838 (4yg =
~- O.9546 'O.942' -
N,'A -- O.9938 1.0037 0.9630 0.9466 1.CO21 1.0381 RHR SPY
' ~
MCC STANOBY MCC RHR MCC RHR MCC 20859 GAS TR 20837 FAN 20836 FAN 20838 ([gy{ A3 , O.8168 0.7209 0.7115 = N.'A = RHR MCC STAN08Y , PUMPS 20859 GAS TR , l
- N.'A =
0.9417 0.9295 e N.'A = MCC STANOBY 20859 OAS TR 0.8865 = N/A = 0.8112 0.8322 0.8298 0.8530 CORE . MCC CORE MCC CORE SPRAY
- 20836 SPRAY 20838 SPRAY FAN FAN 3
N/A = L i L i l l L - _ __ __
PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: SEL SHEET 14 LIMITING CASE VOLTAGE AT OPERATING (NON- ACCELERATING) ! S0URCE EQUIPMENT DURING LOCA SEQUENCE ! CASE NO.& VOLTA 0E DESCRIPTION 230KV l 13.2KV 4.0KV 4.16KV 460V 13.2K BUS MTR/ BUS BUS MOTOR MTR/8' l k CASE NO. 2L2332M2 ). j SIMILAR TO CASE NO. 2L2332L SU XFMR N/A 0 7993 EXCEPT LOCA C 23 SECONOS (START TAP c 0.831 0.8348 ST"ANOBY j 2 OTHER CORE SPRAY PUMPS AND 1,1996 OAS TR 460V LOADS) i CASE NO. 2L2332N2 ' 0.934 ' SIMILAR TO CASE NO. 2L2332M2 X 9490
- EXCEPT LOCA c > 23 SECONDS (2 hp{MR 0.9312 0;0RE 0
0.9135 l OTHER CORE SPRAY PUMPS RUNNING 1.1996 SPRAY ! AND 460V LOADS STILL PUMPS ACCELERATING) CASE NO. 2L2332M6 0.934 (, SIMILAR TO CASE NO. 2L2332M2 EXCEPT LOCA e 23 SECONDS (RHR 1NJECTION VALVE STARTED, AU XFMR inp e 3,39g3
= N/A OISCHARGE VALVE CLOSING)
CASE NO. 2L2332Mi g SIMILAR TO CASE NO. 2L2332M6 Sb XFMR = N/A EXCEPT THAT LOAD CENTER TAP c
> TRANSFORMER IMPEDANCE IS 1.1996 t
0.0512 PU (SPECIAL STUDY) CASE NO. 2L23323 @ 0.8281 SIMILAR TO CASE NO. 2L2332N2 su xpMR N/A N/A EXCEPT LOCA C 36 SECONOS ( 2 TAP e 0.8961 0.8585 RECIRC EVERGENCY SERVICE WATER PUMPS LINE b e AND 1 EMERGENCY COOLING WATER g,1999 DISCH F3 PUMP STARTING) VALVE w
% CASE NO. @L2332T SIMILAR TO CASE NO. 2L2332S 0.934 SU XFMR 0.9484 0.6928 a
- RECIRC C EXCEPT LOCA e > 36 SECONDS TAP c 0.9310 ESW & 0.9129 z (EMERGENCY SERVICE VATER AND 1.1996 ECW LINE pyMPS DISCH g EMERGENCY COOLING WATER PUMPS VALVE
, RUNNING) to g
CASE NO. 2L2332U SIMILAR TO CASE N3. 2L2332T 0.934 SU XFMR h N/A h g,qgg4 a N/A
> EXCEPT LOCA c 48 SECONDS TAP c 0.9245 - ,, (DIESEL GENERATOR VENT 1.2063 g FANS START) i C $ Si m
APERTURE Also Available On CARD Aperture es,a a _n NOTES: SEE SHEET 14
_m e s0 i ' JOB Wo. 18247-026 -COMPUTER' RESULTu TABULATION ' APPENDIX' C. SHEET NO.15 OF 50 di? . , . ,ajd LIMITING' CASE LOCA SEQUENCE VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING (- - 4.0KV 480V 460V 480V- 460V 480V 460V 480V 460V 480V ' 460V ' )S MOTOR MCC MOTOR MCC' MOTOR- MCC MOTOR MCC MOTOR . MCC MOTOR. = 0.8653 N/A N/A 'O.7555 0.7761 0.7691 0.7755 ' N/A -
~
CORE- MCC CORE MCC RHR INJ
. SPRAY' 20B39- SPRAY 20937 VALVE
- PUMPS FAN N/A 0.8378 0.8606 0.8498 0.8569 -= N/A =
MCC CORE. MCC RHR INJ 20839 SPRAY 20837 . VALVE FAN' 0.7602 -@ - 0.7786 0.7883 N/A : INJ & - DISCH N/A- INJ VALVE VALVE BUS ~ . rr O 0.7599 0.7783 0.7880 N/A
= INJ & OISCH N/A INJ DISCH VALVE VALVE VALVE .
BUS
@ =
0.8895 c N/A ESB & *-
.ECO
. PUMPS
[ > N/A r-1 L @ @ @ @
= 0.7907: 0.8121 0.77G9 0.7993 = N/A =
MCC DO BLOG MCC DG BLOG 00855 VENT 00853 VENT H l-L 8903200191-l3
I PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION S7 r CONFIGURATION: SEE SHEET 14 LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING) S0URCE EQUIPMENT DURING LOCA SEQUENCE CASE NO.& yoLTacE DESCRIPTION 230Kv 13.2KV 4.0KV 4.16KV 460V 13.2K' BUS MTR/ BUS BUS MOTOR MTR/BI CASE NO. 2L2332W SIMILAR TO CASE NO. 2L2332U SU XFMR 00 BLOG
.0.9370 N/A 0.9202 VENT EXCEPT LOCA > 48 SECONOS TO TAP c 10 MINUTES (OIESEL GENERATOR 1.2063 xx@
VENT FANS ACCELERATING) 0.8697 _ 20853 xx Q 0.6986 LOAD CENTER 2CB10 s, . CASE NO. 2L2332Y
-(.~ SIMILAR TO CASE NO. 2L2332W SU XFMR 0.9322 0.9430 0.6866 N/A EXCEPT LOCA e > 10 MINUTES TAP e ESW O'* 33 ELDG (HPSW PUMP START) 1.2063 PUMP VENT CASE NO. 2L2332Z SIMILAR TO CASE NO. 2L2332Y 0.934 SU vrMa h h 0.9698 =
Tr 1.0168 EXCEPT LOCA e > 10. MINUTES ; o3 0.9769 ESW OG SLOG (STEADY STATE) 1. VENT PUMP CASE NO. 2L2332C6 SIMILAR TO CASE NO. 2L2332C 1.054 SU XFMR h h
- u. EXCEPT 2 SU XFMR 00XO3 - LOCA TAP c 0.9183 N/A 0.8317 e N/A y e 8 SECONDS 1.03876 M
g _ C CASE NO. 3t_2332C 4 BASE y h h' SIMILAR TO CASE NO. 2L.2332C SU XFMR N/A 0.8268 e N/A z EXCEPT 3 SU XFMR 00X05 - LOCA 0.9133 8 c 8 SECONOS 63 l d h 5 CASE NO. OL2332C SIMILAR TO CASE NO. 2L2332C 0.934 hp " h N/A h) e N/A
- 0. 8%6 0 6250
- EXCEPT 343 SU XFMR 00X11 - LOCA 3,1997 g e 8 SECONOS P,. s
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)Y( . JOB NO.' 18247-026L COMPUTER'~ RESULT ' TABULATION: y .. APPENDIX -C4
' SHEET NO.16' 0F : 50 -
j '3 - i33 -~ 4 LIMITING CASE LOCA SEQUENCE . . . . . .; VOLTAGE AT EQUIPMENT - '
' MOTORS LISTED . ARE ACCELERATING ,
- 4.0XV - 480V' 460V- '480V. 460V 480V 460V 480V 460V :480V 460V-
.NOTOR. - 'MCC MOTOR : MCC.
MOTOR MCC MOTOR -MCC' MOTOR MCC ' MOTOR' a 7: , N/A 'z [". L@. i N/A
=
l 9'9362
- HPSW
{-PUMP- , N/A =
;0 8 50
@ @ =
) 0.7610 0.7510 = N/A 4 R STANOBY MCC. , PUMPS 20B59 GAS TR J' j, N/A = 0.8500 0.7557 0.7459 =
- RHR' MCC STANOBY PUMPS- 20859 GAS TR
= 0.8276 0.7323- 0.7228 : N/A - RHR- MCC STANDBY ' PUMPS -20B59' GAS TR E
.) .
A 8 9 0 3 2 0 0191- go ,
l1:,, - l .i-r._ PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGEREGULATIONS% ] - CONF 1GURATION: UNIT 2 AND UNIT 3 IN NORMAL OPERATION - TWO 13.2KV UNIT AUX
- i ZERO COOLING TOWERS AVAILABLE - BOTH OFFSITE POWER SOURCES i
LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING)
? SUVRCE . EQUWENT ORNO LOCA SE0WNM CASE NO.& VOtTAcE j DESCRIPTION 230KV 13.2KV 4.0KV 4.16KV . 460V j
'13.24
- j. BUS MTR/8US BUS MOTOR MTR/G
.' i Q CASE NO. 23L2342K g @ 2 SU XFMR'00XO3 - LOCA e 13 SU XFMR N/A 0.91E9 0.8893- N/q l SECONOS (2 CORE SPRAY PUMPS AND TAP Q 0.9354 STANDBY '+ 460V LOADS START) 11.1125 OAS TR l l CASE NO. 23L2342U , h h 1.0084 h h 1 2 SU XFMR 00XO3 -'LOCA e 48 SU XFMR 0.9715 0.9705 0 9004 N/A SECONDS (DIESEL OENERATOR VENT TAP c ESW & STAND 8Y j; FANS START) 1.1125 ECW GAS TR 'A PUMPS j - I I i. 4 kh 1 i i i l j
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t 1 j{- .#',j,' i @DY : JOB') NO.. :18247-026- ' COMPUTER RESULT TABULATION: APPENDIX C- $LIARY ; BUSES-0F?THE LOCA UNIT TRANSFER AT.12 SECONDS - . SHEET / NO.17 - 0F:- 50 : - M/A ILABLE--
, .,, R I
, .x LIMITING ' CASE LOC'A' SEQUENCE :
VOLTAGE AT - EOUIPMENT - , o ' MOTORS; LISTED ~ ARE ACCELERATING' 5 . 4.0KV - :480V .460V'. 480V. .460V 480V- '460V 480V- '460V: ' 480V' 460V' JS LMOTOR MCC- MOTOR MCC . MOTOR . MCC ' MOTOR MCC ' MOTOR . MCC MOTOR 6 I & 0.8746 0.8916
= 'N/A
=
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bRE fbkE f6k66 ~ h Y (0836 fPAY. 20838 SP AY i l 6 8 6 8 = N/A hg .267 kC e -- N/A 00853 VENT 00855 VENT. ,
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=
8 9 0-3 2 0 019 t- gl -
i i PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST( CONFIGURATION: UNIT 2 AND UNIT 3 IN NORMAL OPERATION - TWO 13.2KV AUXILI6 FOUR C00 LINO TOWERS OPERATINO - BOTH OFFSITE POWER SOURCE @ l LIMITING CASE VOLTAGE AT OPERATING (NON- ACCELERATING 4 80U" EQUIPMENT DURING LOCA SEQUENCE CASE NO.& v0tTAcE
. DESCRIPTION 230kV 13.2KV 4.0KV 4.1GKV 460V 13.2KR BUS MTR/ BUS BUS MOTOR MTR/8) i j CASE NO. 23L2345K 2 SU XFMR 00XO3 - LOCA c 13 0.934 SU XFMR h N/A h
0.9259 N/A N/A SECONOS (START 2 CORE SPRAY TAP c 0.9481 < PUMPS ANC 460V LOADS) 1.1259
' CASE NO. 23L2345U g 2 SU XFMR 00XO3 - LOCA o 48 SU XFMR N/A N/A N/A 4
SECONDS (DIESEL GENERATOR I TAP c 0.9835 0.9827 i BUILDINO VENT FANS START) 1,1259 I e l l ,'i y .,i' CE \ Gi 5 ? ; 1 e 1 5 o i l 5
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- f. (m. m k R 1 T Also Available On Aperture Card
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.. l -, .,
LIMITI$G CASE LOCA SEQUENCE VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING 4.0KV 480V 460V 480V 460V 480V 460V 480V 460V 480V' 460V
$ MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR 0.9598 8
0.8888 0.9118 0.9054 0.9308
= N/A =
CORE MCC CORE MCC CORE SPRAY 20836 SPRAY 20838 SPRAY PUMPS FAN FAN N/A 0.8 50 0.8412 0.8656
- N/A =
0'8716 OG BLOG MCC DG BLOG 0Oh5 VENT 00953 VENT 1 I O S
- ===sme eeste O h A A h
.. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ =. k __,
8 O LoCA IN oNE UNIT, O orNea unir iN tono-Tenu sNoroowN l l 1 i O i
l' VOLTAGE REGULATION ST PROJECT PBAPS UNITS 2 & 3 SUBJECT {- ({) CONFIGURATION: UNIT 2 IN NORMAL OPERATION AND UNIT 3 SHUTDOWN - ONE 13.2KV. SECONDS - ZERO COOLING. TOWERS OPERATING - ONE OFFSITE POWER. t l-i LIMITING CASE VOLTAGE AT l OPERATING (NON-ACCELERATING) S0 " EQUIPMENT DURING LOCA SEQUENCE l1 CASE NO.& VOLTAGE ! DESCRIPTION 230Kv 13.2KV 4.0K V 4.16KV 460V 13.2X l . BUS MTR/ BUS BUS MOTOR MTR/$ 1 k j CASE NO. 2L2399 0.934 2 SU'XFMR 00XO3-LOCA c ZERO SU XFMR N/A [ 1.0303 l'N " N.
; SECONDS (460V MOTORS START) 33 1 CASE NO. 2L2399A 0.934 SU XFMR h N/A h N/A N/A
{ SIMILAR TO CASE NO. 2L2399 TAP c 0.8295
- EXCEPT LOCA e 2 SECONOS (2 0.9135 RHR PUNPS START. 4 GOV MOTORS 1.1393 i j i STILL ACCELERATING) -
j CASE NO. 2L23998 0.934 SU XFMR h 1.0576 h h I SIMILAR TO CASE NO. 2L2399A TAP c 2 RHR 1.018_: a N/A.
' {s , EXCEPT LOCA e > 2 SECONDS ( 2 1.0205
, 1.1393
~ PUMPS I '
RHR PUMPS RUNNING AND 4 GOV MOTOR ACCELERATING) CASE NO. 2L2399C 0.934 SU XFMR h N/A h h #b SIMILAR TO CASE NO. 2L23999 TAP c 0N EW EXCEPT LOCA e 8 SECONDS (2 0.9015 RHR f
?
RHR PUMPS AND STANDBY GAS FANS, 1.1393 j ACCELERATING) - CASE NO. 2L23990 0.934 SU XFMR h 1.0378 h h h SIMILAR TO CASE NO. 2L2399C TAP c 1,ga97 2 OTHER 0.9997 0.9 86 = EXCEPT LOCA e > 8 SECONDS (4 1.1393 RHR l b RHR PUMPS RUNNING AND STANDSY PUMPS i cc. GAS FANS ACCELERATING) i n h CASE NO. 2L2399E 0.934 SU XFMR h N/A h h 0.8425 N/A I tS. SIMILAR..TO CASE NO. 2L23990 TAP c 0.8733 C EXCEPT LOCA o 13 SECONOS (2 0.919 STANOBY l
- 2 CORE SPRAY PUMPS AND 460V FANS 1.1393 GAS TR g ' START) FAN
]
CASE NO. 2L2399F Ct. 93 4 SU XFMR h 0.9803 h h h 0.9254 N/A
! $ SIMILAR TO CASE NO. 2L2399E TAP c 2 CORE 0.943- ! > EXCEPT LOCA e > 13 SECONOS ( 2 0.9599 STANDBY j ,., CORE SPRAY PUMPS RUNNING) 1.1393 SPRAY OAS TR PUMPS FAN j g O
i I. . . CASE No. 2L23990 0.934 SU XFMR h N/A h h 0.7935 N/A' SIMILAR TO CASE NO. 2L2399F TAP c 0.8565 A EXCEPT LOCA c 23 SECONDS (2 0.9088 AIR MORE, CORE SPRAY PUMPS START) 1.1393 COMPR
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hDYi JOB NO. 18247-026- COMPUTER > RESULT.' TABULATIONS i^ i APPENDIX C l UNIT AUXILIARY BUS OF UNIT WITH.LOCA TRANSFERS AT 12 ' SHEET NO.19 0F 50' ~ - ! SOURCE'AVAILABLE g J A N 3 l' 1989 LIMITING CASE ' LOC'A SEQUENCE NN
.MOTO LIS EO A E ACCELERATING CARD bo Available On .
'.fA;;=h e C"A f- - 4.6XV 480V- '460V: '480V. '460V .480V 460V- '480V- 460V. 480V .'460V fS p MOTOR MCC. MOTOR MCC MOTOR MCC ' MOTOR MCC- MOTOR MCC- : MOTOR
@. @ @ @ @ @ - @. .@ @ IQ2
=
0.973'8 0.9572 0.9779, 0.9647 0.9654 0.9529 1.0048_, 1.0147 0.9918 RHR
. MCC RHR MCC -- RHR MCC STANDBY MCC RHR MCC 20836 FAN 20839 FAN 20859 FAN SPR Y' GAS TR 20837 20838 BYPASS
~ VALVE-
@ @ -@ @ @ O @ @- @
0.8189 0.8527'. 0.7578 MCC 07449 RHR 0.7893 0.7972' O.7509 RHR 0.7412 N/A N/A- 0.7945 p 2 RHR MCC MCC STANOBY MCC SPRAY PUMPS 20B36 FAN' 20837 FAN- 20B59 GAS TR 20B38~ BYPASS VALVE 0.9556 0.9394 0.9865 0.9963 0.9473 0.9350 _ N.,A _
.MCC RHR- MCC RHR MCC STANDBY 20836 FAN 20837 FAN 20859 GAS TR 08l = N.'A "
ST'ANOBY
= N.'A r 2 0THER
-RHR 20B59 GAS TR
' PUMPS N,'A , 0.9378 0.9256 : N.'A =
MCC STANDBY 20859 GAS TR ~ O.9051 0.8312 0.8527 e,9491 0.8729
=
2 600HP MCC 460V -4 N,'A ., C CORD C0RE 3pRqy 20836 gp$ Co 27338 5 Y PUMPS FAN
.N/A 0.9083 0.9318 = N,,A " 0.9243 0.9501 MCC 460V MCC CORE 20836 CORE 20838 SPRAY SPgY FAN 0.8878 N/A N/A 0.7914 0.7981 _ 0.7784 0.7997 N.,A 2 OTHER, MCC 460V - -
MCC CORE CORE 20B37 INJ 20839 SPRAY
' RA VALVE FAN gp R @ fh m a m n. m a
gm mm mmmm .7_._ __._ w m< , /z b by , {Q ; SUBJECT [ PROJECT- .PBAPS . UNITS '2- & :3' : VOLTAGE. REGULATION : ST e [q f[ # CONFIGURATION: SEE' SHEET'19 LIMITING CASE VOLTAGE AT '
- 0PERATING 'NON- ACCELERATING)
S0URCE EQUIPMENT GURING LOCA SEQUENCE CASE NO.&' VoLTacE s DESCRIPTION 230KV- .I-4.0KV 13.2KV - 4.16KV ~460V- - 13.2Ki BUS MTR/ BUS BUS. MOTOR - MTR/B( g CASE NO. 2L2399H SIMILAR TO CASE NO. 2L23990 0.934-SU XFMR
'h 0.9622 h- .h-EXCEPT LOCA e > 23 SECONDS 2 OTHER 0.9262 =0.8744 (4 CORE SPRAY PUMPS RUNNING TAP c 0.9494 ANO 460V LOADS;STILL 1.1393 CORE SPY AIR-
- ACCELER AT ING ) - PUMPS .COMPR' CASE NO.'2L23991 SIMILAR TO CASE NO. 2L2399H' EXCEPT LOCA e 36 SECONDS O.934' SU XFMR h N/A.
h. 0.9736 0* RECIRC 59
-N/A (2 ESW PUMPS AND 1 ECW PUMP TAP c. 0.9187 L START --NO DIESEL GENERATOR 1.1393 D ,IgCH-NE
' FAN) VALVE CASE NO. 2L2399J.
h SIMILAR TO' CASE NO. 2L23991 0.934 0. 74 0.9614 SU XFMR _ EXCEPT LOCA e > 36 SECONDS O.9254 .RECIRC. A.. TAP c 0.9492' ESW &- LINE 1.1393 ECW .DISCH-PUMPS VALVE-CASE NO. 2L2399K b SIMILAR TO CASE NO. 2L2399J EXCEPT LOCA e 48 SECONDS 0.934 SU XFMR h 0.9456 h= 0.9102 N/A e (ESV PUMPS RUNNING-START TAP Q 0.9402 ESW & l' DIESEL GENERATOR FAN) 1.1393 ECW PUMPS g- - CASE NO. 2L2399L ?- y: SIMILAR TO CASE NO. 2L2399K EXCEPT LOCA e > 48 SECONDS 0.934 SU-XFMR h h 0 9629 h 0 9269 h 0 9091 h L FAN R I 1.1393 P S VENT 008S: g c cc CASE NO. 2L2399M j' [ cc SIMILAR TO CASE NO. 2L2399L EXCEPT LOCA c > 10 MINUTES 0.934 SU XFMR h . 0.9466 h h 0.9112 0.8906 h- .N/A (1 HIGH PRESSURE SERVICE WATER TAP c 0.9423
.f PUMP STARTING) 1.1393 phg DO BLOG CASE NO. 2L2399N 4
SIMILAR TO CASE NO. 2L2399M EXCEPT LOCA e > 10 MINUTES-0.934 SU XFMR h h 1.0124 h 0 9743 h LONG TERM STEADY STATE TAP c 0.9789 ESW DG BLDG
] ,
PUMPS VENT [' g o
> l, $i CASE NO. 2L23990 l U SIMILAR TO CASE 2L23990 0.934 EXCEPT THAT RHR INJECTION SU XFMR -__ N/A
$ STARTED AND DISCHARGE VALVE TAP c o CLOSING 1.1393
@ NOTES: .SEE SHEET 19
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$DYi 3 JOB NO. L18247-026: -
. COMPUTER 3 RESULT TABULATIONS L APPENDIX C' '
1 . SHEET NO. 0F' 50 ; l .gy Wl m-I
. LIMITING CASE LOCA SEQUENCE Al'ERTURE. . .
VOLTAGE AT EQUIPMENT - MOTORS LISTED 'ARE ACCELERATING - @@ '- ' Alm LM1e On
. fA n..s -. n. _ .i
~
O 14.0KVi 480VJ '460V2. 480V 460'V 480V 460V- 480V 460V. =N80V- '460V? QS : MOTOR. .MCC ., MOTOR .MCC MOTOR MCC' MOTOR MCC- MOTOR' MCC- MOTOR' , w 0.8626 0.'8699 %.- N/A' =- 1: N,'A = 0.8509 'O.8741 MCC .RHR- MCC- CORE < 20837 INJ '20839 SPRAY. I VALVE FAN
}Q' O.9046' = N/A =-
' ESU & -
ECW' PUMP: L
- N/A :-
l
@ @ O @
-- N/A, ;- 08004 0.822 0.7867 0.8095. = N/A' = l MCC DG BLOG MCC DG BLDO
'00855 VENT 00853 VENT .
1
-= N/A =
I. 0.9476 = N/A *
=-
HPSW , PUMP. 1 N/A * 'l l, x x l 0.8025
= 0.7836 RECIRC N/A 0.8177 N/A N/A RHR INJ LINE RHR .
l VALVE DISCH INJ l BUS VALVE. VALVE 1 A 9 0.0 cD(A(A n ca a _ an/
.w ~. .
Dz:Q a. . = . .. ,.. =:. , . _f 1
+ t n
p j PBAPS: UNITS':2 & 3 - SUBJECT. : VOLTAGE, REGULATION ST I PROJECT
~ '
CONFIGURATION: SEE SHEET 19 i
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i
, LIMITING CASE ' VOLTAGE- AT ' . l
. OPERATING (NON- ACCELERATING
- l 80URC EQUIPMENT DURING- LOCA SEQUENCE =-
CASE.NO.& v0tTarE
- DESCRIPTION 230KV. . .
, 13.2KV ' 4.0KV - 4.1GKV . 4 GOV t 13.2$
BUS MTR/ BUS BUS MOTOR MTR/d,- CASE NO. 2L2399R i 0.934 SIMILAR TO CASE NO.'2L2399R SU XFMR N/ EXCEPT THAT.RHR INJECTION VALVE < TAP c - STARTED AND DISCHARGE VALVE AT 1.1393 STANDSTILL-CASE NO.~ 2L2399T 0.934 L SIMILAR TO CASE NO. 2L2399G SU XFMR -" N/ ! EXCEPT THAT RHR-INJECTION ANO TAP e DISCHARGE VALVES AT. STANDSTILL 1.1393 4 l O !
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,., c .. @ YI JOB ;NO. 182'47-026 ' COMPUTER RESULT TABULATION' 4 7 APPENDIX ' C-SHEET NO. ' 21 ~ OF; 50 - j ,4 . . c.
, q ,3 ;
' LIMITING CASE -LOCA. SEQUENCE ~ s -
---; VOLTAGE AT EQUIPMENT -
MOTORS LISTE0- ARE ACCELERATING -
- d. ~' 4.0 K V 480V- 460V- 480V 460V '480V. 460V. 480V 460V' 480V.' .-460V MS ' MOTOR- MCC MOTOR. MCC. MOTOR MCC MOTOR MCC MOTOR MCC .' MOT OR .
x .
= 0.8092 0.8394. = N,'A' RHR.INJ RHR VALVE- -INJ BUS VALVE.
z 0.8236 -c N,'A- = RHR INJ VALVE-BUS-
'l
.i 1
i 1 1 1 ___---..___._____..._m_.___ . _ __m_-- - - _ - _ - - _ . _ - - _ - - - - _ - - - - - - - _ - - - - - - - - - - - - - - -
A -. I PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION STd n (i CONFIGUiiATION: UNIT 2 IN NORMAL OPERATION AND UNIT 3 SHUTDOWN - TWO 13.2KV SECONDS - FOUR COOLING TOWERS OPERATING - ONE OFFSITE POWER LIMITING CASE VOLTAGE AT - OPERATING (NON-ACCELERATING) S0URCE EQUIPMENT DURINCr LOCA SEQUENCE CASE NO.& VoLTAoE DESCRIPTION 230Kv 13.2KV 4.0KV 4.16KV 460V 13.2Kt BUS MTR/ BUS BUS MOTOR MTR/Bk CASE NO. 2L2398A 2 SU XFMR 00XO3 - UNIT 2 LOCA - fb MR LOCA c ZERO SECONOS (460V TAP c- 1.0898 N/A 1,gg79 = N/Ae LOADS START) 1.2063 CASE NO. 2L23988 SIMILAR TO CASE NO. 2L2399A fbXFMR EXCEPT LOLA e 2 SECONOS (2 TAP c 0.9531 N/A 0.6668 N/A N/A RHR MOTORS START. 460V MOTORS 1.2063 STILL ACCELERATING) CASE NO. 2L2398C SIMILAR TO CASE NO. 2L2.3988 !O Ma I*I c N/A< EXCEPT LOCA c > 2 SECCNDS ( 2 TAP o 1.0803 1.0809 RHR MOTORS RUNNING AND 460V 1.206'- PUMPS MOTORS STILL ACCELERATING) CASE NO. 2L2398D 0.934 2 3 15) SIMILAR TO CASE NO. 2L2398C EXCEPT LOCA e 8 SECONDS ( 2 SU XFMR N/A 0.7934 N/A OTHER RHR LOADS START AND TAP c- 0.9408 0.8462 RHR STANOBY GAS MOTORS 1.2063 . FAN ACCELERATING) CASE NO. 2L2398E SIMILAR TO CASE NO. 2L23980 0.934 h h h h EXCEPT LOCA e > 8 SECONDS (2 hp xFMR C .0692 1.1033 RHR 1.0627 1.0389 RHR N/A OTHER RHR LOADS RUNNING AND 1.2063 E STANOBY GAS MOTORS PUMPS FAN y ACCELERATING) g CASE NO. 2L2398K1 LS. SIMILAR TO CASE N0' 2L2398E fbXMR 0.8334 Z. EXCEPT t.0CA e 13 SECONDS (2 0.9121 N/A G 8656 STANDBY N/A TAP c z CORE SPRAY PUMPS AND 460V LOADS 1.2063 g STARTING) GAS TR CASE'NO. 2L2398L1 h SIMILAR TO CASE NO. 2L2399K1 0.934 XFMR h h 0.9834 h h 0.9288 a
> EXCEPT LOCA e > 13 SECONDS (2 pg 0.9630 0.9465 CORE SPRAY PUMPS RUNNING ANO RHR STAND 8Y m
460V LOADS STILL ACCELERATING) 1.2063 PUMPS OAS TR g o -
$ CASE NO. 2L2398M2 SIMILAR TO CASE NO. 2L2398L1 fy)gg N/A N/A N/A F) EXCEPT LOCA e 23 SECONDS TAP c 0.8983 0.8450
$ (START 2 OTHER CORE SPRAY PUMPS 1.2063 AND 4E3V LOADS)
_ ._ NOTES: x RHR INJECTION VALVE MOTOR VOLT"AdE IS ASSUMED TO BE 0.5% LESS THAN TH{
DY ' JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C bNIT AUXILIARY BUSES OF THE LOCA UNIT TRANSFER AT 12 SHEET NO. 22 0F -50 508)RCE AVAILABLE ~~ S1 L ! LIMITING CASE LOCA SEQUENCE Al'ERTURE VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING GRD !Also Available On
, gg I
l 4.0KV 480V. 460V 480V 460V 480V 460V 480V 460V 480V 460V S MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR
- 1. 56 1.0279 -1.0146 1.0404 1.0264 1.068 1.0786 1.0368 1.0191 1.0545 RHR MCC STANDBY MCC RHR MCC RHR MCC RHR MCC SPRAY 20959 GAS TR 20839 FAN 20B37 FAN 20B36 FAN -20838 BYPASS VALVE
- 0. 11 0.8911 0.7902 0.7799 N/A N/A 0.8285 0.8388 0.7973 0.7838 0.8339 RHR RHR MCC STANOBY MCC RHR MCC RHR MCC SPPAY MOTOR 20859 GAS TR 20B37 FAN 20836 FAN 20B38 BYPASS VALVE
- 1. 86 1.0107 0.9975 N/A N/A 1.0505 1.0610 1.0195 1.0021 1.0597 RHR MCC STANOBY MCC RHR MCC RHR MCC SPRAY f
20859 GAS TR 20B37 FAN 20B36 FAN 20838 BYPASS l VALVE l @ @ @ l 0.870 0.7765 O.7664 : - N,'A - l RHR MCC STANOBY i MOTOR 20859 GAS TR -
@ @ l N/A 1.0030 0.9899 : N,'A r 1 l
MCC STANOBY 20859 GAS TR t l @ @ @ @ @ 0 8973 N/A :- 0.8227 0.8440 0.8409 0.8642 CORE COR;. - CORE MCC MCC S Y SPRAY 20836 20838 Sf.R I @ @ @ @ r - N/A -- 0.9115 0.9351 0.9275 0.9534 MCC CORE CORE S 20B36 S Y 2she 0.8759 N/A N/A 0.7G63 0.7872 0.7796 0.7862 0.8035 0.8371 N/A N/A CORE MCC CORE MCC RHR MCC CORE SPRAY 20B39 SPRAY 20837 INJ 20836 SPRAY FAN FAN BUS VOLTAGE Otl A 460V BASE x x MCC VOLTAGE ON A 480V BASE 890@p.,ooygy. 4 _
, - ~
F-SUBJECT VOLTAGE REGULATION STUC PROJECT PBAPS UNITS 2 & 3 CONFIGURATION: SEE SHEET 22 LIMITING CASE VOLTAGE AT OPERATING (NON- ACCELERATING) S0URC,c. EQUIPMENT DURING LOCA SEQUENCE CASE NO.& v0LTa0E 230KV DESCRIPTION 13.2K V 4.0KV 4.16KV 460V 13.2KV BUS MTR/ BUS BUS MOTOR MTR/BUt CASE NO. 2L2398-U MR 0.9615 " - N/A - SIMILAR TO CASE NO. 2L2398M2 TAP c 0.9492 CORE 0.9255 EXCEPT LOCA o > 23 SECONOS ( 2 1.2063 SPRAY OTHER CORE SPRAY PUMPS 3UNNING PUMPS
& 480V LOADS STILL ACCELERATING:
CASE NO. 2L2344N8 g SU XFMR _ N/A - SIMILAR TO CASE NO. 2L2398M2 TAP c
~
EXCEPT LOCA o 23 SECONDS (RHR 1.2063 INJECTION AND RECIRC OISCHARGE VALVES AT STANDSTILL) f CASE NO. 2L2344M6 g,q3, f gf4_ SU XFMR SIMILAR TO CASE NO. 2L239SM2 TAP c EXCEPT LOCA o 23 SECONDS (RHR l.2063 IN ECTION VALVES STARTED ANO RECIRC DISCHARGE VALVES CLOSING CASE NO. 2L2344M4 0.934 SU XFMR N/A-SIMILAR TO CASE NO. 2L239SN2 EXCEPT LOCA e 23 SECONDS (RHR TAP c - INJECTION VALVES STARTED AND ~1.2063 RECIRC DISCHARGE VALVES AT STANDSTILL) CASE NO. 2L2342$ 0.934 SU XFMR h N/A h N/A N/A SIMILAR TO CASE NO. 2L2398M2 0.9097 0.8651 EXCEPT LOCA e 36 SECONDS (2 TAP e w ESW PUMPS AND 1 ECW PUMP 1.2067~ C; STARTING) fa CASE NO. 2L2342T 0.934 SU XFMR h h
- 0. E 6 h "
SIMILAR TO CASE NO. 2L2342S 0.9452 0.9208 C EXCEPT LOCA c' > 36 SECONDS ( 2 TAP 0 z ESW PUMPS AND 1 ECW PUMPS 1'2063 RUNNING) P $ m CASE NO. 2L2342U SIMILAR TO CASE NO. 2L2342T 0.934 SU XFMR h N/s. 0.9039
= N/A a
> TAP e 0.9344 EXCEPT LOCA e 48 SECONDS e - (DIESEL GENERATOR BUILDING 1.2063 g VENTILATION STARTING) f( 8 R SI
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.18247-028- COMPUTER RESULT. TABULATION .
iY. JOB.NO.~ APPENDIX : C SHEET NO. 23' 0F 50
. 4 ~ '
LIMITING CASE LOCA SEQUENCE - j VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING 460V 480V 460V~ 480V 460V 480V 460V- 480V 460V 480V MCC- MOTOR
. 4.0KV MCC MOTOR. MCC MOTOR g
- MOTOR MCC. MOTOR MCC MOTOR I
y .
- j
= N/A l
" .0.8733 0.8619 0.8692 0.8502 CORE J NCC 3ppqy MCC . RHR INJ 20839 20837 VALVE FAN i
+ @ =
0.8079 -N/A -- = INJ & = DISCH VALVE BUS
@ g- g' r 0.7675 N/A -: N/A l
- r- INJ & 0.7861 0.7959 ~4 DISCH DISCH RHR INJ VALVE VALVE. VALVE BUS 1- % r 0.7931 ' N/A- l
& INJ & N/A N/A 0.8226 OISCH RHR INJ
- k VALVE . VALVE l BUS I
@ N/A-r 0.8964 =
ESV & ECW-PUMPS T
-N/A-
@ @ @ @ " N/A-
" 0.8156 0.7803 0.8030
~ 0.7942 DG BLOG MCC DG BLDG MCC 00853 VENT {l 00855 VENT - l r i i;
~
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F*e. W' PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: SEE SHEET 22 LIMITING CASE VOLTAGE AT SC AC OPERATING (NON-ACCELERATING) CASE NO.& VOOTArE EQUIPMENT DURING LOCA SEQUENCE DESCRIPTION 230KV 13.2KV 4.0KV 4.16KV 460V 13.2Ki BUS MTR/ BUS BUS MDTOR MTR/B. CASE NO. 2L2342W-SIMILAR TO CASE NO. 2L2342U 0.934 EXCEPT THAT LOCA e > 48 SECONDS SU XFMR 0.9441 N/A 0.8947 - - - - - (DIESEL GENERATOR BUILDING TAP e 0.9192 OG BLOG VENTILATION RUNNING) 1.2063 VENT CASE NO. 2L2342X o LOCA AT 10 MINUTES - STEADY STATE 0.934 SU XFMR h h 0.9599 h 0.9058 DG VENT , TAP c 0.9473 ESW 0.923o xx 1.2063 pugpS 014 MCC 0.8729 CASE NO. 2L2398Y I SIMILAR TO CASE NO. 2L2342X EXCEPT LOCA e > 10 MINUTES - 0.934 SU XFMR h h 09451 h h (- I HPSW PUNP STARTING TA 0.9408 ESW 0.9097 Dd BLOG PUNPS VENT CASE NO. 2L2398Z LOCA c > 10 MINUTES - STEADY 0 934 XFMR STATE yp 9 0.4858 1.020 ESW 0.9817 0.9733 OG BLOG 1.2063 PUMPS VENT CASE NO. 2L2399Z1 ' 0.975 2 24 3 20 SIMILAR TO CASE NO. 2L2398Z EXCEPT THAT SOURCE VOLTACE SU XFMR 1.0737 I.0329 -= 1.0345 b AT 0.975 PU TAP o ESW 1.03321 00 BLOG a; la 1929 PUMPS VENT C
$ CASE NO. 2L2398Z2 '
5 SIMILAR TO CASE NO. 2L2398Z 1.054 '- O
" EXCEPT THAT SOURCE VOLTAGE XFMR 1.0671 1.0258 =
Z AT 1.054 PU hP e 1.0294 ESW 1.0269 DG BLOG g 1.07226 PUMPS VENT J g SI APERTURE E CARD '
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By. J0s J No.:.. L 18247-026 i
' COMPUTER. RESULT TTABUL ATION..
APPENDIXi C :-
. SHEE1. NO.,24 0F ~ 50-'
~"
- J ti 3 ugsg' LIMITING CASE LOCA SEQUENCE-VOLTAGE AT EQUIPMENT -
MOTORS: LISTED ARE ACCELERATING ?
' 4.0KV: 480V~ 460V. 480V 460V 480V. 460V '480V :- 460V - 480V- 460V' e
MOTOR MCC. . MOTOR - MCC MOTOR MCC MOTOR MCC. MCTOR MCC MOTOR: r-I l N/A = 1- y ( 1 l N/A = f s
- - (
- l:
"0.9461 c' N/A = l HPSW. p
' PUMP i
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-- N/A = ,
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r" w - - A u Q.-i-; gg w.
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' PROJECT :PBAPS UNITS 12?& SUBJECT VOLTAGE REGULATION!ST
> fr A CONFIGURATION: UNIT 2'IN' NORMAL' OPERATION AND UNIT 3 SHUTDOWN - ONE 13.2Kt e,< OF LOCA UNIT' TRANSFERS AT 12 SECONDS -.ZERO COOLING TOWERS LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING) -
S0URCE C A S E 'N'O. & . VoLTacE EQUIPMENT DURING LOCA SEQUENCE DESCRIPTION 230KV - .
' 13.2KV 4.0KV 4.16KV 460V 13.2K BUS MTR/ BUS BUS MOTOR- MTR/BI CASE NO. 2L2394A' 2 SU XFMR 00XO3 - LOCA c 0 SECONDS (460V LOADS START) 0.934 gP XFMR h N/A =
.0499 1.0565 .N/A 1.2063-CASE NO. 2L23948 -
f SIMILAR-TO CASE NO.-2L2394A- fu)MR EXCEPT THAT LOCA c 2 SECONDS TAP c N/A I (2 RHR PUMPS START, 460V iN/A 0. 82 M N/A 1.2063 LOADS STILL ACCELERATING) CASE NO.'2L2394C - SIMILAR TO CASE NO. 2L23948 EXCEPT THAT LOCA C > 2 SECONDS 0.934 SU~XFMR
.h -
.1.0754 h r N/A (2 RHR PUMPS RUNNING AND 460V TAP c 1.0371 RHR 1.035q LOADS STILL ACCELERATING) 1.2063 PUMPS CASE NO. 2L2394D h
SIMILAR TO CASE NO.2L2394C-EXCEPT THAT LOCA e 8 SECONDS 0.934 SU XFMR Njg h' h .N/Aj (2 OTHER RHR PUMPS START'AND TAP Q- 0.8931 0.0000 0.'7389. STAN08Y GAS STILL ACCELERATINOj 1.2363 . CASE-NO. 2L239401 . O.975 , SAME AS CASE NO. 2L23940 SU XFMR i TAP c 0.9161 N/A
- u. LOCA c 8 SECONDS EXCEPT 0.975 0*8223 y PU VOLTAGE 1.1594
.j j
cc CASE NO. 2L2394E d
'I E
SIMILAR TO CASE NO. 2L23490 EXCEPT THAT LOCA c > 8 SECONDS 0.934 SU XFMR TAP.c
@- 1.0520 RHR
@ h N/A ,
I (2 0THER RHR PUMPS RUNNING AND 1.0229 1.0134 0.9840
- 5. STANDBY OAS STILL ACCELERATING) 1.2063 PUMPS RHR !
9 FAN ! N l 8 E SI
" 20R ALL JTHER LO :A SEQUENCE RU APERTURE AND GREA TER THAT 10 MINU FES SE E CARD
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' COMPUTER L RESULT E T ABUL ATION APPENDIX C-SIT-A'XILIARY U BUS NORMAb LOAO - OTHER 13.2KV UNIT BUS - SHEET NO. 25 0F 50
)ERATING M- ONE OFFSITE" POWER SOURCC AVAILABLE-
, . j f.M. 3 - 1 U03 LIMITING CASE' LOCA SEQUENCE ~
VOLTAGE ' AT EQUIPMENT -
.. MOTORS LISTED. ARE ACCELERATING
' 4.0XV 480V 460V '480V 460V 480V ~460V 480V .460V '480V 460V
~ MOTOR' ,MCC. MOTOR MCC MOTOR' MCC- MOTOR MCC -MOTOR MCC MOTOR 1.
29
" RHR SPY 1 0.9858- 0.9730 0.9983. J.9849 1.0254 1.0356 0.'9944 0.'i775' 1.0123 MCC. STANDBY MCC. RHR NCC. RHR MCC RHR MCC BYPASS 20859 GAS.TR 20839 FAN 20B37 . FAN 20836 FAN 20838 VALVE N/A O @ @ @ @ @
0.8445 0.74!1 0.7314 N/A 0.7806 0.7882 0.7479 0.7352- 0.7847 i-! Y
-RHR MCC STANDBY MCC MCC - MCC- 8YPASS RHR RHR PUMPS 20859 GAS TR. 20837 FAN 20836 FAN 20838 VALVE
=
0.9649 0.9523 N/A N/A 1.0492 ., l- MCC 1.0042 1.0142 0.9733 0.9567' 1.0126 RHR SPY STANDBY MCC .RHR MCC RHR MCC BYPASS l 20859 GAS TR "20837 FAN 20B36 FAN 20838 VALVE
@ @ -@ a 0.8224' O.7268 0.7174 N/A =
RHR' NCC STAND 8Y PUMPS 20B59' GAS TR LL@. ;@ @: @ .@ @ @ @ @ 0.84S4 N/A N/A 0.8206 0.7509 0.7412- O.7983 0.8188 0.7601 0.7654 0.7956 RHR SPY MCC STAN08Y MCC RHR MCC RHR MCC BYPASS
. PUMPS' 20B36 20859 GAS TR 20837 FAN FAN 20838 VALVE N/A- 0.9520 0.9396 = N/A =
MCC STAND 8Y 20859 OAS TR 'INCLUDIllG LOCA 0 10 MINUTES 1 CONFIGURATION Wl"H 4 COOLING TOWE:RS - SHE ETS 22.E3 & 24 j 2
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O ~ ;-V ' CONFIGURATION:'.' UNIT '2- IN NORMAL OPERAT10N = AND UNIT 3 SHUTDOWN L TWO 13.2KV
, ', SECONDS - ZERO COOLING-TOWERS OPERATING:-.B0TH'0FFSITE POWE L!MITING CASE' VOLTAGE AT ^
d'
.' CASE NO.&~
S0URCE voLTAcE EOLI MEN Di tb UEN E! DESCRIPTION -230Kv w.
- 13.2KV 4.0KV 4.16KVI -.460V' 13.2K i,<: BUS MTR/8US BUS' . MOTOR. - MTR/B l_ '
CASE NO. 23L2322K ,
'h r
0.934 h'
- 2 SU XFMR 00XO3 - LOCA c 13 SU.XFMR
' SECONOS (START 2 CORE SPRAY- Tgp g N/A- . -
.N(A- N'/A PUMPS AND 460V: LOADS)- j.1259 * *
^
CASE NO. 23L2322U.
?
;~
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2 SU XFMR 00X03=- LOCA e 48 fb MR SECONDS (START--OIESEL GENER4 TOR TAP c N/A - = N/A BUILDING VENT FANS) 1.1259
- 0. 93 L. 0. 96N
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i UDY JOB NO. 18247-028 COMPUTER ' RESULT TABULATION [i , APPENDIX C [ UNIT AUXILifRY BUSES OF THE LOCA UNIT TRANSFER AT 12 SHEET NO. 26 0F -~50 4 SOURCES AVAILA9LE , I LIMITING CASE LOCA SEQUENCE i VOLTAGE AT EQUIPMENT - j' MOTORS LISTED ARE r, ACCELERATING 1 4.0KV 480V 460V 480V 460V 480V 460V 480V 460V 480V 460V /S MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR 0.9456 0.8738 0.8965 0.8908 0.9158 = CORE CORE N/A = MCC MCC CORE SPRAY 20836 SPRAf 20838 SPRAY PUMP FAN FAN 0.8569 0.8801 0.8256 0.8496 -- : N/A r-MCC 00 BLOG MCC 00 BLOG 00855 VENT 00853 VENT i
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. PROJECT > PBAPS- UNITS 2 ' & 3.
SUBJECT VOLTAGE;' REG LATION' S1 ij 1
' CONFIGURATION: UNIT /2 IN' NORMAL' OPERATION.AND UNIT 3: SHUTDOWN'.- TWO 13.2KV i l
-.FOUR, COOLING: TOWERS OPERATING,- BOTH OFFSITE POWER"; SOURCE' a .
4 [' ~' .- ' LIMITING CASE' VOLTAGE AT . 2 i ~ - OPERATING (NON-ACCELERATING)1 80URCE.
. CASE NO.'& y0Lrace . EQUIPMENT DURING LOCA SEQUENCE ,
DESCRIPTION 230 Kv- ., .
. 4
- 13.2KV '. 4.0 K V -- 4.16KV ' '460V 13.2k BUS MTR/ BUS BUS: MOTOR MTR/B CASE NO. 23L2325K .
i 0.934 2 - l-2 SU XFMR- 00XO3 ' LOCA e 13 SU XFMR
~ ' '
SECONDS (2 CORE SPRAY PUMPS TAP c. 0.9497 N/A giggt4_ , N/d AND 460V-LOADS START)' 1.1393- -0*9232 STAND 8Y GAS TR:
. CASE'NO. 23L232SU z
'2 SU XFMR 00XO3 LOCA c 48 !b MR
'SECONOS:(DIESEL GENERATOR TAP e- .0.9846 0177- 0.9111 N/A LVENT-FANS START) 1.1393 1'SW E & 'O'9794 STAND 8Y ECW GAS TR PUMPS -
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2 3J- ,I L psDYf JOB .NO. 18247-026 COMPUTERL RESULT TABULATION-L" APPENDIX C i THE LOCA' UNIT > TRANSFER AT 12 SECONDS
' SHEET NO. '27 - 0F.' 50 .
) AVAILABLE BUSES: Of: ,,~~-
, . 'p< , s a s,,n.
LIMITING CASE LOCA SEQUENCE. VOLTAGE AT EQUIPMENT - MOTORS LISTED ARE ACCELERATING Ei .. 4.0KV - '480V '460V ~480V 460V- 480V' 460V 480Vi 460V 480V 460V JS .. MOT OR .-
.MCC. MOTOR MCC' MOTOR.l MCC MOTOR -MCC. MOTOR MCC MOTOR h
O.9569 'O.8858 h h 0.9088 0.9025 h'. 0.9279 m' N/A
=
-CORE MCC : CORE MCC CORE JSPRAY 20836 -SPRAY- .20B38 SPRAY l MOTOR FAN FAN !
l N/A 0.8381 MCC 0.8624 DG BLOG 0.8687 MCC 0.8922 DG 3LDG
= N/A = '
l 00853 VENT '00855 VENT i I l f i
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PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: UNIT 2 LOCA AND UNIT 3 CONTROLLED SHUTDOWN - FOUR COOLING 7 i LIMITING CASE VOLTAGE AT OPERATING ' (NON- ACCELERATING) S0URC E0'JIPMENT DURING LOCA SEQUENCE CASE NO.& ycLTa g DESCRIPTION 230kv 13.2KV 4.0KV 4.16KV 460V 13.2X BUS MOTOR BUS MOTOR MTR/3
- CASE NO. 2L2335W 2'SU XFMR 00X03 - LOCA e 10 0.934 SU XFMR h
0 8694 h 0.8183 h 0~7792 MINUTES (START ONE RHR PUMP TAP c N/A DO BLDO N/A AND ASSOCIATED COOLING FAN OF 1.20G3 VENT UNIT 3) CASE NO. 2L2335P l AIR i SIMILAR TO CASE NO. 2L2335W SU XFMR 0.9457 0.9388 N/A C EXCEPT RHR PUMP AND ASSOCIATED TAP Q COOLING FAN HAVE STABILIZE 0 1.2063 h*OMPR 0.8114 MCCO2953 C l l r ib e l ? i z 8 g e SI
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.. ,.i. ,14 , _ ,
2 1 LIMITING . CASE LOCA SEQUENCE . 1 VOLTAGE AT.- EQUIPMENT - MOTORS LISTED ARE ACCELERATING-REMARKS T ~ 4.0KV 480V. 460V- . 480V -- '460V 480V 460V ., AS . MOTOR'- 'MCC MOTOR- MCC- ' MOTOR' MCC MOTOR i
^"
.h -h . h- RHR~ FAN VOLTAGE MARGINAL-0.'8412 - 0.7862 0.7935 N.'A
=
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MCC VOLTAGE MARGINAL
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o .u a.a e m ~._ ~ - _ , _ _ _ - - - _ PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGEREGULATION'S 3 V CONFIGURATION: UNIT 2 TRIP AND UNIT 3 NORMAL OPERATION - ONE 13.2KV UNIT Ad
- ONE 13.2KV UNIT AUXILIARY BUS OF UNIT 2 TRANSFERS AFTER Us POWER SOURCE AVAILABLE I LIMITING CASE VOLTAGE AT O' SOURCE OPERATING (NON-ACCELERATING)
CASE NO.& VOLTAGE EQUIPMENT t N DESCRIPTION 230KV 13.2KV 4.0XV 4.16KV 460V 13.2K BUS MOTOR BUS MOTOR MTR/B CASE NO. 2L2382C 2 SU XFMR 00XO3 - START ONE M-G SET BEFORE STARTING RHR PUMP hp XFMR 0.7136 N/A 0.7166 N/A 'N/A AND ASSOCIATED FAN 1.2063 CASE NO. 2L2382H _ 0.975 SIMILAR TO CASE NO. 2L2382C SU XFMR EXCEPT 0.975 PU VOLTAGE ON A 0.7837 N/A 0.7901 N/A N/A' i TAP c i 230KV BASE - TRIP 1 CONDENSATE 1.1661 i PUMP AND 1 CIRCULATING WATER l PUMP g CASE NO. 2L2382F1 l 1.0 l SIMILAR TO CASE NO. 2L2382C SU XFMR 0.7833 0.7896
- c' ~ , EXCEPT 1.0 PU VOLTAGE ON A TAP c N/A N 'A N/A' l ( , .j 230KV BASE 1.1527 CASE NO. 3L2382C k9h 4 l 3 SU XFMR 00XO5 - SIMILAR TO 14.1KV
- CASE NO., 2L2382C EXCEPT 0.941 BASE 0.8031 N/A 0.8103 N/A 'N/AI PU VOLTAGE ON A 14.1KV BASE X MR
{P 1.2083 CASE NO. OL2382C 343 SU XFMR 00X11 - SIMILAR TO CASE NO. 2L2382C EXCEPT TRIP 1 0.934 SU XFMR h 0.7793 N/A h 0.7855 N/A N/A! I u CONDENSATE PUMP AND 1 TAP c
$ CIRCULATING VATER PUMP I'2216
] i l C CASE NO. 2L2382A l T 0.934 2 1 y 2 SU.XFMR 00XO3 - SIMILAR TO SU XFMR 0.8894 0.8528 CASE NO. 2L2382C EXCEPT START TAP c N/A N/A N/A i z 1 RHR PUMP AND ASSOCIATED FAN 1.2063 BEFORE START]NG M-G SET CASE NO. 2L2382D j e SIMILAR.TO CASE NO. 2L2382A SU XFMR g,q687 1.0126 0.9756 0.9374
> EXCEPT RHR PUMP AND ASSOCIATED TAP Q
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$YE IJOB NO. . .18247-026: - COMPUTER RESULT TABULATION-- - APPENDIX C: ' !.IARY BUS' NORMAL LOAD OF UNIT 3 SUPPLIED BY'OFFSITE' POWER SOURCE SHEET NO. 29 0F .
. TRIP - ZERO COOLING TOWERS' OPERATING .ONE OFFSITE .
iIN'G CASE VOLTAGE AT LIMITING CASE VOLTAGE AT . l0UIPMENT - MOTORS . . OPER ATING' (NON- ACCELERATING) TED ARE ' ACCELERATING EQUIPMENT REMARKS-4,0K V 480V 460V 480V 460V 480V 460V 2.3KV l MOTOR'MCC l- MOTOR MCC MOTOR MCC MOTOR MOTOR <l j: @l @ @. .@ @ @. Ms.H"$5!88T!Wa5 1 0.6559 N/A 'N/A; 0.6405 0.6312 0.5943 0.6072 0.7171 WATER PUMP VOLTAGE j
'RECIRC MCC AIR ' MCC AIR CIRC <75.6% j M-G. SET 00850 COMPR. 20818 COMPR WATER R PUMP O .@ -@ @ .@. E ? E RESSOR R TAGE i 0.7208 ~ N/A. N/A 0.7278 0.7272 0.6858 0.7045 N/A l RECIRC MCC: AIR . MCC AIR M 0 SET 00850 COMPR 20818 COMPR iPRESSOR VOLTAGE' O.7203 N/A N/A O.7273 0.7266 0.6853 0.703G N/A LRECIRC MCC AIR MCC AIR M-U SET 00850 COMPR 20818 COMPR g VOLTAGE SATISFACTORY 0.7385 N/A N/A, 0.'7572 0.7527 0.7096 0.7297 N/A RECIRC MCC- AIR MCC AIR M-G SET 00850 COMPR 20816 COMPR-0.7186 g MPRESSOR VOLTAGE N/A' N/A 0.7225 0.7213 0.6803 0.6987 N/A RECIRC MCC AIR MCC AIR M-G. SET 00850 COMPR 20818 COMPR RHR FAN VOLTAGE <e0%
0.8768 0.8002 0.7815 ; N/A = RHR- .MCC RHR
-PUMP. 20B39 FAN VOLTAGE SATISFACTORY N/A r 8903200191-n
___________._-__m.________ --
;m n, . , , - - - - - -
PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION SY A
- TWO 13.2KV UNK CONFIGURATION: UNIT 2 TRIP ANO UNIT 3 IN NORMAL OPERATION -
COOLING TOWERS IN OPERATION - ONE OFFSITE POWER SOUR LIMITING CASE VOLTAGE AT y SOURCE OPERATING (NON- ACCELERATING) CASE NO.& VOLTAGE EQUIPMENT ( DESCRIPTION 230Kv 13.2KV 4.0KV 4.16KV 460V 13.2X BUS MOTOR BUS MOTOR MTR/$ CASE NO. 2L23271 2 SU XFMR 00X03 - TRIP 1 0.934 SU XFMR h 0.7903 N/A h 0.7971 N/A N/A' CONDENSATE PUMP AND CIRC 1).AT. t WATER PUMP ANO ST @ . M-G ]82 i CASE NO. 2L23270 0.979 g2 v 1 ! SIMILAR TO CASE NO. 2L23271 SU XFMR 0.7999 N/A 0.8071 N/A N/A i~ EXCEPT NO MOTOR TRIPPED BEFORE TAP c i STARTING OF M-G SET AND 0.975 1.146 - PU VOLTAGE ON A 230KV BASE 4' ' 0.941 CASE NO.'3L2327I ON A g K BASE 0.8291 N/A 0.8376 N/A N/A A i .2 OE . 1 PU VOLTAGE ON A 14.1KV BASE SyFMR 1.175 CASE NO. OL2327I 0.934 SU XFMR h 0.7972 N/A h 0.8043 N/A N' /S 343 SU XFMR 00X11 - SIMILAR TO CASE NO. 2L232'O EXCEPT 0.934 TAP c PU VOLTAGE ON A 230KV BASE 1.2022 , A (Q U CASE NO.2L23270 2 SU XFMR 00XO3 - STEADY STATE 0.934 W SU XFMR 1.0070 1.0544 1.0156 0.9835
, CONDITION AFTER RHR AND HPSW TAP c RHR AIR PUMPS HAVE ACCELERATED - ONE M-G 1.2063 PUMP COMPR g SET ON BUS, ALL CONDENSATE PLUS l
,j ALL CIRC WATER PUMPS RUNNING 1-E, d $
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$0Y. JOB NO. '18247-026 COMPUTER RESULT TABULATION L APPENDIX C-SHEET ; NO. 30 0F -50 IAUXILIARY BUSES OF UNIT 2 TRANSFER FTER UNIT TRIP-'- FOUR' ABLE; , I
'd MITING- CASE VOLTAGE: AT - LIMITING. CASE VOLTAGE AT
' EQUIPMENT - MOTORS OPERATING (NON-ACCELERATING) }STED ARE ' ACCELERATING EQUIPMENT . REMARKS 9- l 4.0KV - 480V 460V- 480V' 460V 480V- 460V ' 2.3KV JS ' MOTOR MCC MOTOR MCC MOTOR MCC. MOTOR MOTOR VOLTAGE SATISFACTORY- f 0.7273 N/A' N/A 'O.73GC 0.7361 0.6945 0.7137 N/A t RECIRC MCC' AIR MCC . AIR l M-G SET. 00950' COMPR .20818 COMPR g
@ g g ~ VOLTAGE SATISFACTORY
-0.7359 .N/A N/A 0.7475 0.7497 0.7061 0.7260 N/A RECIRC '4CC AIR MCC AIR M-O SET. 00350 .COMPR 20818 COMPR L
VOLTAGE SATISFACTORY
'O.7629 N/A- N/A 0.7825 0.7867 0.7419 0.7639 N/A RECIRC MCC AIR MCC AIR M G SET 00850' COMPR 20918 COMPR VOLTAGE SATISFACTORY-0.7334 N/A N/A 0.7443 0.7452 0.7029 0.7225 N/A RECIRC MCC AIR MCC AIR M-O SET 00850 COMPR 20B10 COMPR VOLTAGE SATISFACTORY 1
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' . CONFIGURATION: UNI *T 2 TRIP AND UNIT 3 IN' NORMAL OPERATION-TWO'13.2KVIUNIT;)
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- ZERO C00 LINO. TOWERS OPERATINO-ONE OFFSITE POWER SOURCE At.;
J LIMITING CASE VOLTAGE AT q lJ r < CASE N'O.& SOURCE VOLTAGE OPERATING - (NON-ACCELERATING) * -- EQUIPMENT l DESCRIPTION 230KV I 13.2KV . 4.0XV - 4.16KV ~ 460V: 13.2:: ! BUS- MOTOR BUS' MOTOR' MTR/$ ! ;r L [ ' , .,
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1 JDY. JOB NO. '18247-026 COMPUTER . RESULT TABULATIDN APPENDIX C WXILIAhY' BUSES OF UNIT 2 TRANSFER AFTER UNIT TRIP. SHEET. NO. 31 0F 50 SLABLE ' L GE,y, AITING CASE VOLTAGE AT LIMITING CASE VOLTAGE AT
'EOUIPMENT - MOTORS . OPERATING (NON-ACCELERATING) lSTED ARE ACCELERATING EQUIPMENT REMARKS b 4.0KV 480V '460V~ 480V 460V 480V 460V 2.3KV JS . MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MOTOR-e b
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h e-w PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION S PROJECT
UNIT 2 TRIP AND UNIT 3 SHUTOOWN - ONE 13.2KV UNIT AUXIL CONFIGURATION: THE OTHER 13.2KV UNIT AUXILIARY BUS OF UNIT 2 TR !
POWER SOURCE AVAILABLE VOLTAI LIMITING CASE VOLTAGE AT - MOTC SOU CE OPERATING ELERATING) CASE NO.& VoLTAog DESCRIPTION 230KV 13.2KV 4.0KV 4.16KV 460V 13.2k BUS MOTOR BUS MOTOR MTR/E CASE NO. 2L23920 2 SU XFMR COXO3 - START M-0 g.934XFMR h 0.7429 h 0.7391 SET BEFORE STARTING RHR PUMP hp N/A N/A N/A AND ASSOCIATED FAN 1.2063 CASE NO. 2L2392H SIMILAR TO CASE NO. DL23920 !O MR 0.7888 N/A 0.7877 N/A N/A EXCEPT TRIP OF 2 CONOENSATE TAP c PUMPS AND 2 CIRCULATING WATER 1.1929 PUMPS BEFORE START OF M-G SET CASE NO. 2L23921 SIMILAR TO CASE NO. 2L2392D U MR 0.7809 0.7794 N/A N/A TAP e N/A EXCEPT SUPPLY VOLTAGE OF 0.975 PU ON A 230KV BASE 1.1661 O.941 i' CASE NO. 3L23920 PU ON A (3 (3 U i 14*1KV U SIMILAR TO CASE NO. 2L23920 BASE 0.8166 N/A 0.8170 N/A N/A EXCEPT 3 SU XFMR 00XO5 VOLTAGE FMR j AT 0.941 PU ON A 14.1KV BASE yP 1.1951 - l CASE NO. OL23920
' 0.934 SIMILAR TO CASE NO. 2L23920 SU XFMR 0.7905 0.7895 N/t EXCEPT 343 SU XFMR 00X11 TAP c N/A N/A -}
1 VOLTAGE AT 0.934 ON A 230KV 1.2022
! $ BASE AND TRIP 1 CONDENSATE PUHF 1 E i
C kcc CASE NO. 2L2392P 2 SU XFMR 00XO3 - START ONE 0.934 SU XFMR
.h 0*9016 h
0.8583 N/A N/ e RHR PUMP AND ASSOCIATED FAN . TAP c N/A z ONE M-G SET RESTARTED AND ALL 1.2063 1 o CONDENSATE AND CIRC WATER PUMPS l 9 RUNNING.
$ CASE NO. 2L23920 SIMILAR TO CASE NO. 2L2392P 0.934 SU XFMR 0.9799 1.0185 0.9812 0.9511 __
j $ EXCEPT ALL MOTORS HAVE TAP c RHR AIR t - ACCELERATED. 1.2063 PUMP COMPR j g
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THE RESULTS W ILL BE THE SAME FOR OPER/ CARD Aperture cara y NOTES: N/A
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WDY, : JOB . NO.- 18247-026 . COMPUTER RESULT TABULATION APPENDIX C-SHEET NO. 3210F 50 lRBUSUNIT' OF. TRIP. UNIT'2' ZERO COOLING' NORMAL TOWERS LOAD SUPPLIED OPERATING - ONE.0FFSITE BY OFFSITE POWER SOURCE , LIMITING CASE' . MS AT EQUIPMENT TERMINALS LIMITING CASE VOLTAGES AT-RS: LISTED ARE ACCELERATING OPERATING (NON ACCELERATING) EQUIPMENT . REMARKS 0 . 4.0KV - . 480V- 460V. 480V 460V 480V 460V- 2.3KV JS MOTOR- MCC MOTOR MCC- MOTOR MCC MOTOR MOTOR 0.6833 h h. 0.6677 0.GG12 0.6338 h 0.6492 0.7477 WATER PUMP VOLTAGE-LT , RECIRC N/A- .N/A MCC' AIR MCC AIR CIRC <75.6%
- M-G SET 00850 COMPR 20818 COMPR WATER $
PUMP g - g VOLTAGE SATISFACTORY 0.7259 0.7250 0.7242 0.6927 0.7118 N/A RECIRC N/A- N/A MCC AIR MCC AIR M-0 SET 00850 COMPR 20B18 COMPR MPRESSOR VOLTAGE 0.7183 0.7153 0.7135 0.6824 0.7008 N/A RECIRC N/A N/A MCC AIR MCC . AIR M-G SET 00850 COMPR 20B18 COMPR ; 6 g 0.7476 VOLTAGE SATISFACTORY s 0.7512 0.7590 0.7612 0.7265 N/A l RECIRC. N/A N/A MCC AIR MCC AIR
. M-G' SET 00B50 COMPR 20B10 COMPR -l l
VOLTAGE SATISFACTORY
.0.7273>. 0.7272 0.7265 0.6946 0.7138 N/A RECIRC N/A N/A MCC AIR MCC AIR f
M-G SET 00850 COMPR 20818 COMPR l' Q' . U U .. RHR FAN MOTOR TERMINAL VOLTAGE < 80% 1 0.8925 0.8062 0'.7874 N/A =
-RHR. MCC- RHR-PUMP 20839 FAN ;
w __ VOLTAGE SATISFACTORY N/A > i
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' ION OF THE PLANT WITH 4 COOL [NG TOWERS. M k __ 89 0 3 2 0 0191_3L
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; 1 PROJECT .PBAPS UNITS 2 & ~ 3.
- SUBJECT . VOLT GE REGULATION S n% ' .
3., SHUTDOWN - TWO ,13.'2KV UNIT AUXILIAR O CONFIGURATION: UNIT 2'. TRIP AND. UNIT
~ TOWERS OPERATING - ONE OFFSITE POWER SOURCE AVAILABLE.
' - LIMITING CASE VOLTAGE AT -
SOURCE OPERATING (NON-ACCELERATING)
. CASE NO & VOLTAGE EQUIPMENT DESCRIPTION - 230KV
' 13.2KV 4.0KV 4.16KV 460V . 13.2 BUS .. MOTOR ' BUS MOTOR MTR/
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.i i ~ THE I ASES AND RESULTS'SHOWN'ON.' 3HER ); y . .) - { .: ( 1 i Lt . g 1 }l; } r 1 3 1 I I. .5a .tL -n a n y( $ a S1 -
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$ODN ' JOB NO.: 18247-026- COMPUTER RESULT TABULATION. APPENDIX C l BUSES OF. UNIT'2 TRANSFER-AFTER UNIT TRIP '- ZERO COOLING SHEET NO. 33 0F" 50-~ k LIMITING CASE ' VOLTAGE AT LIMITING CASE VOLTAGE AT LEQUIPMENT - MOTORS OPERATING (NON-ACCELERATING) (ISTED ARE ACCELERATING EQUIPMENT REMARKS V' 4.0KV 480V 400V 480V 460V -480V. . 460V 2.3KV (A)S MOTOR g MCC MOTOR .MCC MOTOR 'MCC MOTORL MOTOR a T' 32 ~:ARE ALSO-AP 3LICABLE TO TH IS CONTIGURAT ION. \ . L - - - - _ ----- -- _ _ ,----- - _ - 8818 2MA19 t-31C
r r _; r,u- - .... m . _ . .- . . ii i' VOLTAGE REGULATION ST PROJECT PBAPS UNITS 2 & 3 SUBJECT
.t[, 4 j CONFIGURATION; UNIT 2 TRIP AND UNIT 3 IN NORMAL OPERATION - ONE 13.2KV UNI i SOURCE - ZERO OR FOUR COOLING TOWERS OPERATING - BOTh .0FFSI!
r j LIMITING CASE VOLTAGE AT 4 SOURCE OPERATING (NON-ACCELERATING) g t. CASE NO.& VOLTAGE EQUIPMENT -g DESCRIPTION 23eKv i, ' ! 13.2KV 4.0KV 4.16KV 460V 13.2s' BUS MOTOR BUS MOTOR MTR/@ t CASE NO. 23L2342F 2 SU XFMR 00XO3 - ZERO COOLING TAPXFMR O. 34 SU h 0.8123 h 0.8205 j c N/A N/A N/A TOWERS OPERATING - START ONE a 1.1527 j RECIRCULATING M-G SET i
) CASE NO. 23L23928 0.934 j SIMILAR TO CASE NO. 23L2342F SU XFMR 0.7875 0.8035 TAP c N/A N/A N/A
) EXCEPT 4 COOL ING TOWERS OPERATING 1.1795 j 1 i { .y (.? ' a f,i i s b 2
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)Y . . JOB NO. 18247-026 COMPUTER RESULT TABULATION-APPENDIX- C .' UXILIARY BUS-OF UNIT 2 TRANSFERS TO EACH 0FFSITE POWER'
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SHEET NO.- 34 OF . 50 ' POWER' SOURCES AVAlLABLE . J MI 3 1. 339 TING CASE VOLTAGE AT - LIMITING CASE VOLTAGE AT LOUIPMENT - MOTORS - OPERATING (NON-ACCELERATING) RED,ARE-ACCELERATING' EQUIPMENT. REMARKS 14.0KV 480V 460V 480V 460V -480V- 460V 2.3KV -
' MOTOR MCC MOTOR MCC MOTOR MCC ' MOTOR' MO TOR '- -
h
'O.7477 h -h h h 0.7705 0.7737 0.7219 0.7428 VOLTAGE SATISFACTORY
'RECIRC N/A N/A MCC . AIR MCC . . AIR:
N/A M 0 SET 00850 COMPR 20818 :COMPR
@' Q @ -@ 'g VOLTAGE SATISFACTORY:
0.7247 N/A O.7407 0.7412 0.6911 O.7101 RECIRC !.1/ A . .MCC AIR' MCC AIR N/A M-G SET 00350 COMPR 20818' COMPR N i l e W
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PROJECT PBAPS UNITS 2 & 3 SUBJECT VOITAGE REGULATION ST , (M CONFIGURATION: LONO-TERM SHUTDOWN OF UNIT 2 AND UNIT 3 - BOTH OFFSIT STEADY STATE VOLTAGE S0URCE CASE NO.& voLracE DESCRIPTION 230KV 13.2KV 4.16%V 480V 2.3KV 4609 BU$ BUS LC BUS MOTOR MOTO' l CAGE NO. 23L2333 0.9?4 2 SU XFMR 00XO3 - LOAD OF 17.11 SU XFMR h h *h 1.0481 1.064S h 1.e4ee h 1.082 MVA 0342 CLASS 1ECLASS 1E AIR
- 57 BUS LOAD O[h PUMP COMPF CENTER 2000HP CASE NO. 23L2334 -2 12 x 13 6 10
.!. 0.975 2 SU XFMR 00XO3 SU XFMR 1.0473 1.0637 1.0472 1.081 TAP c 1.0334 CIRC gyg i CLASS 1ECLASS 1E *^ j 1.0991 BUS LOAD PUMP COMPF CENTER 2000HP j 1 CASE NO. 23L2335 2 x 13 6 le 1.054 12) e 2 SU XFMR 00XO3 SU XFMR 1.0653 1.0499 1.082 1.0349 1.0488 j e TP0 CLASS 1Ef' LASS 1E S[ER AIR l g g BUS LOAD PUMP COMPf CENTER 2000HP
?
I
; CASE NO. 23L2336
- 2 SU XFMR 00XO3 - LOAD OF 6.94 SU XFMR 1.045 1.0613- 1.0499 1.07<
MVA TAP c 1.0312 C 1 1.1259 CLASS 1ECLASS 1E Sfga AIR j $ BUS LOAD PUNP COMP l
; q CENTER 2000HP 4
g
) m CASE NO. 23L2337 2 SU XFMR 00XO3
- 0. U5 h h *h h 1.Os2s h
1.0a C efghFMR 1.0339 1.0478 1.0642 C CLASS 1ECLASS 1E @[ER AIR j z 1.079 BUS LOAD COMP
, g CENTER PUMP 2000HP j
j m CASE NO. 23L2338 I l 2 $U XFMR 00XO3 gy'XFMR - 1.049 1.071
> SI TAP c 1.0303 1.0441 1.0604 i C'As8
- i APERTURE 0.9918 guS *5S L D CENTER
'"b 2000HP C0$$
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~ ' - NOTES: _x MOTOR TERMINAL VOLTAGE MAY BE HIGHER THAN 1.10 PU DEPENDING ON MCC
L _ )Y ' JOB NO. 18247-026' COMPUTER RESULT TABULATION APPENDIX C SOURCES AVAILABLE SHEET NO. 35 0F 50
.) ,, . 3 i S M REMARKS 4.0KV 2.3KV 4F0V 13.2KV 4.0KV 2.3KV 460V MOTOR MOTOR MOTOR MOTOR MOTOR MOTOR MOTOR =: N/A :-- = N/A -
a N/A = I e b
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V *si a l PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST s CONFIGURATION: SEE SHEET 35 STEADY STATE VOLTAOE SOURCE CASE NO.& VOLTAOE DESCRIPTION 230KV I 13.2KV 4.16KV 480V 2.3KV 460W (. BUS
- BUS LC BUS MOTOR MOTOs l
CASE NO. 32L2337
- l 0.975 ON .
1.0436 f 2 SU XFMR 00XO3 - LOAD OF A 14 1 KV 1.0298 1.0436 1.0599 1.077 CIRC l 17.12 MVA B^ xFMR TAP c 1.0882 CLASS 1ECLASS 1E CENTER g gR PUMP M 2000HP CASE NO. 32L2339 1.017 ON l h 1.0611 *h @ 1 0447 1.0786 2 SU XFMR 00X03 A ksi sf g 1.0310 1.0448 CLASS 1ECLASS lE CIRC A[R XFMR TAP WATER COMPS; e 1.0414 BUS LOAD CENTER PUMP l 2000HP a CASE NO. 32L2338 1.054 ON h h) xxh h xrh i L""
- 3 SU XFMR 00X05 I
Ag dli s[ XFMR TAP 1.0728 1.0882 CLASS 1ECLASS 1E .yp7gg 1.1061 Ih5 1.12d Ain c 1.0414 BUS LOAD CENTER PUMP 2000HP CASE NO. 32L2340 c.975 ON
- 3 SU XFMR 00X05 - LOAD OF I
Ag jgg s[ 1.0334 1.0473 1.0521 g, ggt I 1.0637 CI C gggi 7.04 MVA XFMR TAP CLASS 1ECLASd IE g g 4 c 1.0748 BUS LOAD COMP 5 CENTER 2 P J CASE NO. 3L2341 1.047 ON 6 [ SIMILAR TO CASE 32L2340 BUT 1 0FFSITE POWER SOURCE
#ksES B
XFMR TAP 1.0338 1.0340 CLASS 1ECLA$$ 1E 1 05 1 6 (4 1.0814 i g u, VATER AVAILABLE - LOAD OF 33.14 MVA e 1.0414 BUS PUMP COMP @ CE R c.a 2000HP CASE No. 32L2342 1.005 ON. I
) @ *@ -@ @
1 SIMILAR TO CASE 32L2340 BUT WITH SUPPLY VOLTAOE AT g si s$ XFMR TAP 1.0331 1.0470 CLAkg341E CLASS 1E 1 IM8 WATER 1.081 1.005 PU AND MAXIMUM BUCK TAP e 1.04t4 BUS R 4P CE [gHP i $ ll s> si 1 APERTURE j E CARD ] g i b' S Also Available On p A Aperttire Card 1 8 i gy NOTES: SEE SHEET 35 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ - _ _ _
)Y JOB NO. 18247-026 COMPUTER RESULT TABULATION , APPENDIX C SHEET NO. 36 0F 50
^
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= REMARKS 4.0KV 2.3KV ' 460V 13.2KV 4.0KV 2.3KV 460V MOTOR MOTOR MOTOR MOTOR MOTOR MOTOR MOTOR
= N/A =-
- N/A z
" N/A e = N/A =- " N/A = = N/A -
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1 i PROJECT PBAPS UNITS 2 & 3 ' SUBJECT VOLTAGE REGULATION Sif q i CONFIGURATION: SEE SHEET 35 i ?. STEADY STATE VOLTAGE SOURCE
- l CASE NO.& voLracE DESCRIPTION 23ekv l 13.2KV 4.16KV . 480V 2.3KV 460%
j' BUS BUS LC BUS MOTOR MOTG l I CASE NO. 02L2337 343 SU XFMR 00X11 - LOAD OF SU XFMR 1.0336 1.0475 x 1.0639 6 1.0475 h 1.088 17.12 M /A ClR AIR 1 TAP c CLASS 1ECLASS 1E wq ER 1.0977 BUS LOAD pugp COMPC CENTER 2000HP CASE NO. 02L2338
! 343 SU XFMR 00X11 1.054 SU XFMR 1.0602 Oe 9
1.071 TAP e 1.0301 1.0439 1[0 AIR, CLASS 1ECLASS 1E ATER 1.0062 BUS LOAD pggp COMPS CENTER 2000HP j j- ( CASE NO. 02L2342 1.054 SU XFMR h *h h6 1.0513 h
.1', eSg 343 SU XFMR 03X11 - LOAD OF TAP c 1.0326 1.0465 1.0628 CIRC- AIR L 7.03 MVA CLASS 1ECLASS 1E y ER 0.9931 BUS LOAD pugp COMP?
CENTER 2eegse i i Y ib , cc [ d 5 j $ i 5 c3 1 - l E i $ SI I 2 APERTURE 1 a g E CARD 1 m O Also waitatile on 5 Aperture Card O 'I Im3 ----- _. NOT ES: SEE SHEET 35_
C 1 ; i . )fDY... JOB NO. 18247-026 COMPUTER RESULTE TABULATION 4 i ; APPENDIX C SHEET ' NO.- 37 0F 50. 4 h. REMARKS' 4.0KV - 2.3KV .4 GOV- 13.2KV 4.0KV 2.3KV 460V ( . MOTOR- , MOTOR- MOTOR. MOTOR MOTOR- MOTOR MOTOR N = N/A = F $= N,/A 6 m N/A = 4 m 4 w u__ _ _ - - - - - _ _ - - - - _ - - _ - _ _ _ _ - - - __ _ _ - - _ -890_S200191 3).
f 1 O UNIT AUXILIARY SYSTEM SUPPLIED 1 O BY THE TURBINE-GENERATOR l l I I l l l O l_ .
m , . - m . m .. , - - - - - ----- - - V ee, SUBJECT VOLTAGE REGULATION STU I PROJECT PBAPS UNITS 2 & 3 _ i CONFIGURATION: UNIT AUXILIARY SYSTEM SUPPLIEO BY THE TURBINE-GENER LIMITING CASE VOLTAGE AT- L{ AT OPERATING (NON-ACCELERATING) lit 8UURcE EOUlPMENT CASE NO.& v0Lracg DESCRIPTION 22 Kv 4.0KV 2.3K V - 460V 13.2KV-13.2KV MOTOR BUS MTR/ BUS MOTOR MOTOR CASE NO. 2020018 - PLANT AT NORNAL LOAD AND UNIT 1.0089 1.0211 0.9867 1.0000 1.0347 CASE NO. 2020028 PLANT AT NORMAL LOAD AND MINI- 0.954 0.9617 0.9211 MUM VOLTAGE 0.9500 0.9768 4
=
3 CASE NO. 2020038 - J
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- /
PLANT AT NORMAL LOAD AND VOLT- N/A [.. 0.9694 0.9930 0.9784 0.9396
** AGE SET TO ACHIEVE 90% VOLTAGE 0.964 AT MOTOR CIRCUIT CONTACTORS (LOCAL) -_
CASE NO. 2020048 g g Q PLANT AT NORMAL LOAD AND GEN-N/A
! g,qgg 0.9870 1.0116 'O.9974 0.9607 ERATOR VOLTAGE 0.98 PU - OPER-ATING MINIMUM (NORMAL) i CASE NO. 2020058 l
PLANT AT NORMAL LOAO AND GENER- N/A. ATOR VOLTAGE 1.02 PU - OPER- 1.02 1.0343 1.0622 1.C446 1.0125 t y ATING HIGH (NORMAL)
; c.
A Gi g CASE NO. 2G20068 ~ t7. PLANT AT NORMAL LOAD AND 1.0669 1.0797 1.0509 C MAXIMUM VOLTAGE 1.05 1.0964 '] b $ R CASE NO. 2020078 3 l SIMILAR TO CASE NO. 2020020 N/A = =- N/Aj 1 @ 0.8412 '
> EXCEPT STARTING OF STARTING 0.950
)j e, OF 9000HP MOTOR AT BUS (4)
~
A?~ Q a g"'- CASE NO. 2020088 I } " SIMILAR TO CASE NO. 2G20026 0.8621 N M -= r NM 4 0*950 a 5 EXCEPT STARTING OF 4500HP j @ MOTOR AT BUS @ l l I d - _ _ m _ _,
m -- --- s . 51 JOB NO.~ 18247-026~ ' APERTURE COMPUTER ~.RESOLT1 TABULATION . Y. P e t 'C AR D x . APPENDIX ~ C ,
' SHEET NO. 38. OF: 50 H
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NITING CASE VOLTAGE LIMITING CASE VOLTAGE AT m
- EOUIPMENT - MOTORS . OPERATING - (NON- ACCELER ATING) .(
EOUIPMENT - YED ARE. ACCELERATING REMARKS j
.?
460V ll 4.0KV ' . 2.3KV 460V-' 13.2KV 4.0KV 2.3KV MOTOR MOTOR MTR/8US MOTOR MOTOR -MOTOR MOTOR i VOLTAGE SATISFACTORY
- = N/A 7 ,
l CANNOT MAINTAIN 90% VALTAGE ON A 480V BASE AT BUSES Qq AND 0 r N/A _7_ SATISFACTORY IF GENERATOR. VOLTAGE. 0.964 PU ? BUS Q LOCAL MOTOR STARTER AT U - r- N/A ggy, VOLTAGE ON A'4(3V 7 BASE VOLTAGE SATISFACTORY
= N/A f
~
l VOLTAGE SATISFACTORY l a :-- N/A VOLTAGE SATISFACTORY
=- N/A l VOLTAGE SATISFACTORY
- N/A > 0.7819
.0.7755 0.9557 0.8572 0.8388 (BUS)
J VOLTA 0E SATISFACTORY
-* N/A =
.'O.7914 0.9557 0.9014 0.8836 0.8332 (BUS) 8903200194-4;L
go.s. cre* PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST ! CONFIGURATION: SEE SHEET 38 i
' LIMITING CASE VOLTAGE AT a OPERATING (NON- ACCELERATING) d SUU"CE EQUIPMENT L8
, CASE NO.& yoLTAoE DESCRIPTION 22Kv
~
13.2KV 4.0KV 2.3KV - 460V 13.2Kt BUS MTR/ BUS MOTOR MOTOR MOT 0@ CASE NO. 2C20098 , SIMILAR TO CASE NO. 2G20028 EX- N/A --_ CEPT S TING OF 2000HP MOTOR 0.950 0.9255 - AT BUS CASE NO. 2G20108 SIMILAR TO CASE NO. 2020028 EX- N/A CEPT STARTING OF 285HP MOTOR 0.950 0.9489 AT BUS -ORYWELL CHILLER i CASE NO. 2G20118 SIMILAR T2 CASE NO. 2020028 EX- .s CEPT STATING OF 175HP NOTOR (_)s ATBUS@CONTROLROOMCHILLER 0.950 0.9510 1 CASE NO. 2020128
, SIMILAR TO CASE NO. 2020028 EX- N/A -_-
1 CEPT STARTING OF 100HP MOTOR 0.950 0.9521 5 ATBUSQAIRCOMPRESSOR 1 i CASE NO. 2020138 i SIMILAR TO CASE NO. 2020028 EX- N/A j CEPT STARTING OF 100HP MOTOR 0.950 0.9522 b ATBUSQSTATORCOOLANTPUMP x.
~
m CASE NO. 202?148 1 u. SIMILAR TO CASE NO. 2020028 EX- N/A
! [ CEPT STARTING OF 750HP MOTOR 0.950 0.9432 g ATBUSQ i .
! CASE NO. 2G20158 h
$ SIMILAR TO CASE NO. 2020028 EX- N/A - _. - N/A, i > CEPT STARTINO OF 9000HP MOTOR 0.950 0.8466 .
{ 7 ATBUSQ i 8
/ CASE NO. 2020168 h h h h PLANT AT NORMAL LOAO TO INCLUDE 0.950 0.9540 0.97G8 0.9617 m
U FIRE PUMP WITH GENERATOR AT MINIMUM VOLTA 0E Q 0.9451
' y"_ __ _
N0TES: SEE SHEET 38
l l
._ . \
> SI. 1 i 3Y JOB NO. 18247-026' APERTURE COMPUTER RESULT TABULATION -
< ('ARD i APPENDIX C Ih k SHEET NO. 39 0F 50 Also AvanaMe On ,,
i Aperture Card 41TINO CASE VOLTAGE LIMITING CASE VOLTAGE AT 20UIPMENT - MOTORS OPERATING (NON-ACCELERATING) 'ED ARE ACCELERATING EQUIPMENT REMARKS 4.0KV 2.3KV 460V 13.2KV 4,0KV 2.3KV 460V MOTOR MOTOR MOTOR MTR/9US MOTOR MOTOR MOTOR VOLTAGE SATISFACTORY b N/A "^ 0.8259 0.9557 0.9466 0.9300 0.8886 (BUS) VOLTAGE SATISFACTORY
"#^
C.8083 0.9557 0.9713 0.9562 0.7907 (BUS) CONTROL ROOM CHILLER MOTOR OSA O11 O5 O12 C10i STARTINO VCLTAGE 77.12% < 80% N/A REGUIRD 0.7712 0.o557 0.9736 0.9565 0.8455 (BUS) f VOLTAGE SATISFACTORY N/A 0.8277 0.9557 0.9747 0.9597 0.9030
. (BUS)
VOLTAGE SATISFACTORY
^
0.8124 0.9557 0.9748 0.9597 0.9040 (BUS) . 12') 1 1, . 0 6 10 SERVICE WATER PUMP MOTOR START-INO VOLTAGE 74.59% < 75% RE- > N/A 0.7459 0.9557 0.9653 0.9551 0.9081 (BUS) VOLTAGE SATISFACTORY
"^
0.7805 0.8439 0.9768 0.9617 0.9211 (BUS) CAN'T MAINTAIN 90% /0LTAGE ON A 480V BASE '~ := N/A BUS @-89.10% BUSH-89.52%
~ . . ~ ~ -
e , _ , i t LI d- $ PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION S1 , n 1 (-- CONFIGURATION: SEE SHEET 38 / LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING) d SUURCE a CASE NO.& VOtTacE h DESCRIPTION 22 xv 13.2KV 4.0KV 2.3KV 460V 13.2H BUS MTR/ BUS MOTOR
- MOTOR POTS 1'
CASE NO. 2020178 1 I l SIMILAR TO FIRE PUMP CASE NO. 2020168 EXCEPT STARTING OF 50 h 0.9804 M - ] HP FIRE PUMP MOTOR AT BUS 15 0.975 1i l CASE NO. 2020219
' PLANT AT MAXIMUM LOAD AND MCC I VOLTAGE 2.90% 0.963 0.9629 0.9860 0.9712 0.9316 CASE NO. 2020228 PLANT AT MINIMUM LOAD ANO GENERATOR SET TO MAINTAIN < N/A 1.015 1.0444 1.0822 1.0592 1.0536
.j i ((' 110% VOLTAGE AT EOUIPMENT
?
l CASE NO. 2020238 , l PLANT LOAD IS SUCH TO MAINTAIN 90% VOLTAGE AT MCC WITH MINIMUM N/A GENERATOR VOLTAGE 0.950 0.9020 0.9852 0.9704 0.9308 l 1 I CASE NO. 2020268 f PLANT LOAD AT MAXIMUM RATING OF UNIT AUXILIARY SYSTEM
@ h N/6 ! 1.0745 1.0735 I w WITH GENERATOR VOLTAGE AT 105% 1.0520 1.0616 1.0909 E
4 g c CASE NO. 2020288 PLANT AT NORMAL LOAD AND t GENERATOR VOLTAGE SET TO N/6 MAINTAIN 90% AT MCC 0.957 0.9617 0.9849 0.9701 0.9304 z O CASE NO. 2020308
, $ ONE UNIT AUXILIARY BUS SUPPLIED
> BY GENERATOR ANO GENERATOR VOLTAGE SET TO MAINTAIN APPROXIMATELY 103.35% AT 13.2 KV BUS - OTHER AUXILIARY DUS h h N/s N SUPPLIED BY OFFSITE POWER 1.023 1.034 1.0612 1.0481 1.0162 m SOURCE 5
l
~"
NOTES: SEE SHEET 38 -
-_- _ _ = _ _
UDY JOB NO. 18247-026' 8I COMPUTER . RESULT TABULATION APERTURE APPENDIX C SHEET NO. 40 0F 50 k ' w Aho Avanabic On
^
IMITING CASE VOLTAGE LIMIMyaiug G CASE Gard VOLTAGE AT
' EQUIPMENT - MOTORS OPERATlNG (NON-ACCELERATING)
STE0 ARE ACCELERATING EQUIPMENT
- - - REMARKS
'I 4.0KV 2.3KV 460V 13.2KV 4.0KV 2.3KV 460V MOTOR MOTOR MOTOR MTR/ BUS MOTOR MOTOR MOTOR SATISFACTORY IF80.14gVOLTAGE "**-
@ .@ @ @ @x 2 C5 EEi"'unb' '" "'"M BOX LOAD CENTER TO SPLI lQ @g2 g g gMg g ASE 0.8014 0.9780 1.0053 0.9915 0.8492 BUS) 2-1/C 500 kCMIL/ PHASE 2-1/C 1000 KCM1L/ PHASE SATISFACTORY IF GENERATOR VOLTAGE > 0.963 PU 4 := N/A SATISFACTORY IF GENERATOR VOLTAGE f 1.015 PU
-<: =- N/A l
SATISFACTORY IF LOAD ON UNIT AUXILIARY TRANSFORMER < 30.3 _
= -=- N/A 1
VOLTAGE SATISFACTORY
=: : =- N/A VOLTAGE SATISFACTORY
=:
- N/A VOLTAGE SATISFACTORY l
BUSO3atte3.40xorsareo l VOLTAGE
.=: :=- N/A 8 9 0 3 2 0 0191_ .qt
i i O a) I i 1 UNIT STARTUP FROM THU , OFFSITE POWER SUPPLIES O O 4 __ ________.._____________________.__.___________m.___m______. _ _ _ _ _ _ _ _ _ _ _ _ _ _
m - i s _ -Q ; @ ,i P " N 1 hf J
' PROJECT PBAPS : UNITS 2 &' 3 SUBJECT VOLTAGE REGULATION-S1
- ' r k
- CONFIGURATION STARTUP OF UNIT :- UNIT '2 IN NORMAL OPERATION ANO UNIT .3' IN
[:2 i . WITH.ONE.OR BOTH OFFSITE POWER. SOURCES AVAILABLE i d ic M i iLIMITING CASE VOLTAGE AT' OPERATING .(NON- ACCELERATING) . .A 80URCE. EQUIPMENT .
.L CASE NO.& v0traoE DESCRIPTION 230KV N .
13.2KV ' 4.0KV 2.3KV ~460V .- ~ 13.2K BUS MTR/ BUS " MOTOR MOTOR MOTC
$ CASE.NO. 23S2301 .
2.50,XFMR 00XO3 UNIT 2'STARTUP- .0.975 h. 0.97s2 UNIT 3 SHUT 00WN . BUS @ MAIN- SU XFMR 1.0565 1.0434 Mcc teus) TAINE0 o 1.0334-PU'ON A 13.2KV TAP c* '1.0299 @
~
?q .,. CONO. CIRC hi BASE-TWO OFFSITE POWER SOURCES 1.1125 PUMP WTR PP 1.0109 AVAILABLE - TAP SETTING RUN 4500HP 2000HP gg a CASE NO.,23S2302 SIMILAR TO CASE'NO. 23S2301 0.975 = N/ A ---- - M. EXCEPT STARTING A 9000HP M SU XFMR 9' SET TAP c 0.8050- 0.8145 - 1 1.1125 (BUS) 1 l CASE NO. 23S2303 { /*9 SIMILAR TO CASE NO. 23S2301
.EXCEPT STARTING A 4500HP.
0.975 SU XFMR h' . c N/A TAP o 0.9090 .0.9225 9 1 L*T CONDENSATE' PUMP 1.11'25 (BUS) 1 CASE NO. 23S2304 ls SIMILAR TO CASE NO. 23S2301 EXCEPT STARTING A 2000HP 0.975 SU XFMR h h* _ N/A-CIRC WATER PUMP . TAP c 0.9923 1.0088 - 1.1125 ( BUS.i T}l b -CASE NO. 23S2305 j' T SIMILAR TO CASE NO. 23S2301 EXCEPT STARTING A 285HP 0.975 SU XFMR h pf4 ORYVELL CHILLER TAP o 1.0205 ] . u. j c. y 1.1125 1
% CASE NO. 23S2305A SIMILAR TO CASE'NO. 23S2301 EXCEPT STARTING A 175HP 0.975-SU XFMR
*h = N/A TAP c 1.0242
{ -2 CONTROL ROOM CHILLER 1.1125 7 CASE NO. 23S2306-h S?MILAR-TO CASE NO. 23S2301 EXCEPT STARTING A 100HP AIR 0.975 SU XFMR h = N/A' e 9' COMPRESSOR ON A NON-CLASS 1E TAP c 1.0274 il MCC 1.1125
'8
{l ._ Lt ./% $ CASE NO. 23S2306A 3 j U A SIMILAR TO CASE NO. 23S2301 EXCEPT STARTING A 100HP STATOR 0.975 SU XFMR h = N/A Lt m COOLANT PUMP TAP o 1.0276 T C 1.1125 . j k. l NOTES: xBuS v0LTAGE ON A 4160% BASE : ** BUS VOLTAGE ON A 480V BASE - _- _ - ---_ _ D
,p I
UDY JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C LONG-TERM SHUTOOWN OR UNITS 2 ANO 3 IN NORMAL OPERATION SHEET NO 41 0F 50 SI - IMITING CASE VOLTAGE LIMITING CASE VOLTAGE AT T EQUIPMENT - MOTORS OPERATING (NON-ACCELERATING) o STEO ARE ACCELERATING ~ EQUIPMENT tARD REMARKS
/ 4.0KV 2.3K V 460V 13.2KV 4.0KV 2.3KV 460v Alao Available On MOTOR MOTOR MOTOR MTR/ BUS MOTOR MOTOR MOTOR Aperture Card ALL BUS VOLTAGES SATISFACTORY N/A &
ALL BUS VOLTAGES SATISFACTORY 0.7268 N/A N/A 0.8007 0.8120 0.7331 RECIRC ADMIN 0.8173 CIRC Arp l M-G SET BLOG CONO WATER COMoR _ _SWOR PUMP pyyp ALL BUS VOLTAGES SATISFACTORY
-*- 0.9147 N/A N/A 0.9005 0.9399 C 9191 0.9649 CONO ADMIN RECIRC CIRC AIR PUMP BLOG M-G SET WATER CCMPR
_ SWG3R PUMP l ALL BUS VOLTAGES SATISFACTORY _ , 0.8851 N/A 0.9895 1.0315 N/A 0.9661 1 CIRC ADMIN COND AIR ' WATER BLOG PUMP COMPR PUMP SWOR ALL BUS VOLTAGES SATISFACTORY
-
- 0.8770 1.0178 1.0466 1.0338 0.8642 ORYWELL ADMIN COND CIRC AIg CHILLER BLOG PUMP WATER COMPR SWG,R PUMP ALL BUS VOLTAGES SATISFACTORY
- i 0.8386 1.0216 1.0505 1.0377 0.9255 CONTROL ADMIN COND CIRC AIR ROOM BLOG PUMP WATER COMPR CHILLER SWGR PUMP -
ALL BUS VOLTAGES SATISFACTORY
- =
0.9233 1.0248 1.0539 1 0409 0.9176 AIR ADMIN COND CIPC MCC BUS COMPR BLOG PUMP WATER 20818 SWGR PUMP ALL BUS VOLTAGES SATISFACTORY r 0.9066 1.0250 1.0541 1.0412 0.9193 STATOR ADMIN CONO CIRC MCC BUS COOLANT BLOG PUMP WATER 20B18 __ PUMP SWOR PUMP 8903200'191-45 .
+
e~~ .. 44 PROJECT' PBAPS UNITS. 2; & 3 SUBJECT VOLTAGE REGULATION ST j- % CONFIGUR ATION: . ME1 SHEET 41 - _ t [ li L LIMITING CASE VOLTAGE AT l OPERATING ~ (NON- ACCELERATING) A S0URCE EOUIPMENT L: CASE =NO.& l y0tTa0E T DESCRIPT. ION 230KV 13.2KV 4.0KV - 2.3KV 460V -13.2X [ BUS MTR/ BUS MOTOR MOTOR MOTO' [: I CASE NO. 23S2307 '
.SIMILAR TO CASE 23S2301' EXCEPT 0.975 SU XFMR h
STARTING A 100HP AIR COMPRESSOR TAP c -1.0266 : N/A O 1.1125'- j; ON A CLASS-1E MCC CASE NO.. 2352308 5 Os @"
-SIMILAR TO CASE 23S2301 EXCEPT
.THAT'0FFSITE POWER SOURCE h
TAP c gp 1.0343 1.0611 1.0480 0.9811 MCC (eus. - VOLTAGE IS.O.934 PU ON A 230KV COND CIRC . -1 BASE - TAP SETTING RUN. 1.1728 WATER PUMP PUMP J1.0161 l 41R COMPR i Q, i CASE NO. 23S2309 -
.SIMILAR TO CASE 2332308'EXCEPT 0.934 SU.XFMR
'h' h* c N/s.
E
, STARTING A 9000HP MO SET TAP c 0.7872 0.7959 1.1728 (BUS) b CASE NO. 23S2310
'SIMILAR TO CASE 23S2301 EXCEPT 1.054 2
. .. sO 08 6" 0.9745 SU XFMR 1.0419 MCC (BUS )
THAT.0FFSITE POWE9 SOURCE 1.0284 1.0549 = VOLTAGE IS 1.054 PU ON A 230KV - CIRC y 3l66 CONO - (0) BASE - TAP SETTINC' RUN PUMP hT R - 1.0091 41R COMPR p j CASE NO. 23S2311 1.054 SIMILAR TO CASE 23S2310 EXCEPT SU XFMR h h* i STARTINO A 9000HP MG SET TAP c 0.8358 0.8465 : N/A (BUS) j- y 1.01866
, cc*
3' l' h t". CASE NO. 23S2312 0.934 SIMILAR TO CASE 23S2311 EXCEPT SU XFMR h h h 1.0453' McC'YBus)
- j. CC 'THAT UNIT 3 IS IN NORMAL . TAP c 1.0316 1.0584 CIRC c
OPERATION - TAP SETTING RUN 1.1594 CONO 10 !- z WATER
- g. g PUMP PUMP 1.013 4IR COMPR h
g y CASE NO. 23S2313 0.934 SIMILAR TO CASE 23S2312 EXCEPT SU XFMR h h*
-c N/A
> STARTINO A 9000HP MG SET TAP c 0.7941 0.8075
- 1.1594 (BUS) gG . h V
N CASE NO. 32S2301 0.975 @xx U SIMILAR TO CASE 23S2301 EXCEPT 1 1V 1.0562 1.0432 ACC' BUS) = 5, 3 SU XFMR 00X05 - TAP SETTING BASE SU 1.0296 CIRC m XFMR CONO 1 - l RUN PUMP WATER I .. TAP c pump ' 1.0106 j 1.1015 41R COMPR v x n m a; - - n a
e DY JOB NO. 18247-028 COMPUTER RESULT TABULATION APPENDIX C SHEET NO. 42 OF 50 SI m3: Im IMITING CASE VOLTAGE LIMITING CASE VOLTAGE AT f EQUIPMENT - MOTORS STED ARE ACCELERATING OPERATING (NON-ACCELERATING) EQUIPMENT Q*g l REMARKS / 4.0KV 2.3K V 460V 13.2KV 4.0KV 2.3KV 460v 'Alao Available On t MOTOR MOT 0i; MOTOR MTR/ BUS MOTOR MOTOR MOTOR Aperture Card - '- ALL BUS VOLTAGES SATISFACTORY _ 'O.8649 f6h0 1.0531 , hjf[02 0.9236 AIR COND MCC BUS BLOG PUMP WATER 00850 COMPR SWOR PUMP ALL SUS VOLTAGES SATISFACTORY N/A = l ALL SUS VOLTAGES SATISFACTORY 6 & C.7107 RECIRC N/A N/A D 0.7982 COND fi[C 0.7096 AIR ELDO PUMP WATER COMPR NG SET gweg PUMP ALL BUS VOLTAGES SATISFACTORY N/A = ALL BUS VOLTAGES SATISFACTORY
0.7546 N/A N/A bII 0.8500 fi[ jiR RECIPC BLDO CCND WATER PUMP COMPR MO SET SWOR PUMP ALL BUS VOLTAGES SATISFACTORY N/A -
~ ALL BUS VOLTAGES SATISFACTORY , O.7898 0.8057 0,8008 0.7189 N/A N/A ADMIN COND CIRC AIR k .R BLDG PUMP WATER COMPR MG SET SWOR PUMP ALL BUS VOLTAGES SATISFACTORY N/A : 8903200191-c6 . .
i l ]'- l PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION Si i: f",
- . CONFIGURATION
- SEE SHEET 41 L
j LIMITING CASE VOLTAGE AT -l i OPERATING (NON-ACCELERATING) d S0URCE EQUIPMENT Ll i CASE NO.& ycLTacE s DESCRIPTION 230KV l - 13.2KV 4.0KV 2.3KV 460V 13.2X ! BUS MTR/ BUS MOTOR MOTOR MOTQ i CASE NO. 32S2302 f' SIMILAR TO CASE 32S2301 EXCEPT BASE t STARTINO A 9000HP M-G SET SU XFMR 0.8430 N/A i TAP c 1.1015 CASE NO. 02S2301 SIMILAR TO CASE 23S2301 EXCEPT 0.975 ) h 1.0121 4 $U XFMR 00X11 - TAP SETTING SLbXFMR 1.0576 T 1.0309 CIRC 3 1.1107 COND WATER g,977l
- PUM. PUMP Mcc <eus) _
e CASE NO. 02S2302 SIMILAR TO CASE 02S2331 EXCEPT 0.975 SU XFMR h . h _
~~ "'A
, STARTING A 9000HP M-G SET TAP c- 0.8219 0.8320 1.1107 (BUS) m
+
Ltl T. I G - 5 $ i hk I ' 5 a 4 3 S1 y APERTURE
! - . CAPD E !
o
, M Also ,\vtiittible Ori a O Aperttire Card A
O e 1 NOTES: SEE SHEET 41
I q UDYe -: JOB NO. 18247-026 # COMPUTER RESULT TABULATION- l APPENDIX .C-SHEET NO. 43 .0F 50- i J A., 31 C A l ( ilMITING 'C'ASE VOLTAGE LIMITING CASE VOLTAGE AT ! k EQUIPMENT '- MOTORS OPERATING (NON-ACCELERATING) 'f $TED ARE ACCELERATING . EQUIPMENT
. REMARKS a I. ,
h, 4.0KV . 2.3KV 460V' 13.ZKV 4.0KV 2.3KV ' 460V 4 6 MOTOR MOTOR- -MOTOR MTR/ BUS MOTOR- MOTOR MOTOR b . .
; ALL BUS VOLTA.GES SATISFACTORY
- '- 0.7611: N/A N/A 0. O.8576 0.7818 DMIN. CIRC RECIRC BLOG CONO WATER AIR 1 M-G SET gygg PUMP PUMP COMPR ALL BUS VOLTAGES SATISFACTORY.
N/A = l
'ALL BUS VOLTAGES SATISFACTORY 0.7421 'N/A N/A 0.8176 0.8352 0.8292 0.7549 ADMIN CIRC RECIRC COND AIR M-G SET $ FUMP TER yUMp COMPR i
i i l ssi?S200,197-47 _
- y
;-- - e .
' PROJECT- PBAPS UNITS 2 & ' 3 SUBJECT' VOLTAGE REGULATIONESTl
( ibO) f: CONFIGURATION:: SEE SHEET 41 l L y
~
~'
. LIMITING ' CASE ' VOLTAGE AT .L b
. 0PERATING ' (NON- ACCELERATING) . '
A' 80URCE- EQUIPMENT . LE CASE NO.'&- V0tTaoe DESCRIPTION 230KV 13.2KV 4.0KV 2.3KV 460V 13.2Ki BUS MTR/ BUS MOTOR MOTOR; _ MOT 0f 1-
- CASE NO. 235314 ~
[: 2 SU XFMR 00XO3 - UNIT 2 NORMAL 0.975 - OPERA ON. UNIT 3 SHUT 00WN SU XFMR
- BUS MAINTAINED AT APPROXIMATELY 0.9585 4 1.0334 PU ON.A 13,2KV BASE . TAP c 0.9438 1.07896 (BUS)
TWO FFSJTE POWER SOURCES '
, bh NbO'W[R l -
CASE NO.~23S2314A 0.975-
'SIMILAR TO' CASE 23S2314 EXCEPT if X 4 BOCST THE LTC TO START THE 5000HP hpFMR 1, 47 = N/A MOTOR (75% MOTOR TERMINAL. VOLTAGE) 1,346 *
(BUS) ( CASE NO. 23S23148 - d.
.% SIMILAR TO : CASE 23S2314 EXCEPT 0.975 SU XFMR 1.1643 v 9 j.1268 1.1185
?' . J4 5002HF COOLING TOWER PUMP TAP Q C00 LINO SCREEN I #
' MOTOR HAS. ACCELERATED 1,gq83 AIR c: l.14e TOWER WA3H- COMPR' .
J. PUMP PUMP CASE NO. 23S2315 w SI'4ILAR .TO CASE 23S2314 EXCEPT oU XFMR 0.934- - j OFFSITE POWER SOURCE VOLTA 0E IS
.9345
.N/A j- AT 0.934 PU ON A 13.2KV BASE 29 (BUS) .
i! h j CASE NO.-23S2315A x ' 0.934 SIMILAR TO CASE'2352314A EXCEPT oU XFMR 0FFSITE POWER SOURCE VOLTAGE IS 1*0007 = N/A AT 0.934 PU ON A 13.2KV BASE ]gy3 0.9844 gBUS) 5 E > h t CASE NO. 23S23158 . 0.934 0~
-[c: SIMILAR TO CASE 23S23148 EXCEPT SU XFMR OFFSITE POWER SOURCE VOLTA 0E IS TAP e 1.1718 1.1343 1.1269 2 SOURCE VOLTAGE IS AT 0.934 1.1053 C00WR LINO AIR 1.2063 COMPR-PU ON A 13.2KV CASE s h.
CASE ~NO. 32S2314 0.975 ON *
- j. A I4*I KV
[ $ SIMILAR TO CASE 23S2314 EXCEPT s 3 SU XFMR 00XO5 - TAP SETTING 0.9737 - N/A FMR 0.9584 (BUS) r TAP c e 1.0748 1 E a a 3 y) M CASE NO. 32S2314A 0.975 ON
- SIMILAR TO CASE 23S2314A EXCEPT BA N/A i
j 3 SU XFMR 00X05 SU XFMR 0.9912 1.0077 TAP 0 (BUS) o 1.1215
. .m .
h NOTES 8 SEE SHEET 41 _ __ ____ _ _ _ _ _ __ _
OY JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C , SHEET NO. 44 0F 50 SI t 3.7 A Dl?DTI TDI? kMITING CASE VOLTAGE LIMITING CASE VOLTAGE AT EQUIPMENT - MOTORS OPERATING (NON-ACCELERATING)
~
EQUIPMENT CARD LTEO ARE ACCELERATING REMARKS l 4.0KV 2.3K V 460V 13.2KV 4.0KV 2.3KV 460V liso AvaIIable On MOTOR MOTOR MOTOR MTR/8US MOTOR MOTOR MOTOR Aperture Card 0.7160 h h 0.9317 COOLING TOWER PUMP MOTOR TERMINAL VOLTAGE LESS THAN 75% N/A > ~
~
ON A 4KV BASE COOL.ING AIR TOWER COMPR PUMP { COOLING TOWER PUMP MOTOR , 0.7499 " N/A ;- 0.9863 TERMINAL VOLTAGE SATISFACTORY COOLING AIR TOWER COMPR PUMD OVERVOLTAGF. IN MANY BUSES N/A , r h h COOLING TOWER PUMP MOTOR AGE LESS THAN 75% > 0.7090 COOLING
" N/A + 0.9202 AIR hR.I -
TOWER COMPR PUMP s0.7469 h - h 0.'9815 COOLING TOWER PUNP MOTOR AGE LESS THAN 75% COOLING
= .N/A .,
tAIR hRMI - TOWER COMPR PUMP OVERVOLTAGE IN MANY BUSES N/A = 0.7271 h h 0.9496 COOLING TOWER PUMP M0 TOR
! AGE LESS THAN 75%
COOLING a pjfA = AIR hRMIf " TOWER COMPR PUMP COOLING TOWER PUMP MOTOR 3 0.7521 - N/A r- 0.9998 TERMINAL VOLTAGE SATISFACTORY COOLING AIR TOWER COMPR PUMP _____ - -_ _ - - - - - - - -_ - - - - - - - - 8908200191-JQ
p< g- =
- - - - - - - - -~
----------7------
t 7 y o ] -'. PROJECT - PBAPS UNITS 2 & 3) SUBJECT-- . VOLTAGE REGULATION Si 4 ta CONFIGURATION: SEE' SHEET 41 j 1. t
- d. ,
-
- LIMITING CASE. VOLTAGE- ATJ d OPERATING - (NON- ACCELERATING) 9 SOURCE i CASE NO.& voLTacE DESCRIPTION 230KV- ,
g h . 13.2KV 4.0KV 2.3KV - 460V- 13.2d MTR/ BUS MOTOR BUS MOTOR. MOTk [ CASE NO. 32S23148 0. 75 ON g A 14; iky . 25 1 SIMILAR TO CASE 23S2314B BASE.'
- 7. EXCEPT 3 SU XFMR 00X05 1.1420 11.1049 1.0939 :
SU XFMR 1.0776 COOLING SCREEN ' AIR J: TAP c TOWER. WASH - COMPR 1.1215 PUMP PUMP. I CASE NO. 32S2315 0.941 ON
- A 14.1KV 2 1 t SIMILAR TO CASE 2GS2315 j EXCEPT 3 SU 'XFMR 00X05 SU XFMR O'.9530 9682 a f- N/A.
TAP c O '8U g 1.1148 ~ CASE NO. 3252315A 0.941 ON * ' A 14.1KV . 2, 1 -
~,
.SIMILAR TO CASE 23S2315A
~ -
EXCEPT 3 SU XFMR 00XO5 FR 0.98S8 I E053 - .N/A' S gBUS 1.1683 CASE NO. 32S23158 0.941 ON ' 25 SIMILAR TO CASE 23S2315B A 14.1KV / .
]
EXCEPT 3 SU XFMR 00X05 BASE 1,14G3 1.1096 -1.0992 c
^
] SU XFMR 1.0821 4 COOLING SCREEN -AIR ! TAP c TOWER WASH GOMPR l
! 1.1683 q PUMP PUMP 2 CASE NO. 02S2314 x 0.975 2 1 SIMILAR TO CASE 23S2314 S FMR
#' EXCEPT 343 SU XFMR 00X11 0.9G57 = N/A 0.9507 g 1.0781 I Gi T
- j. CASE NO. 02S2314A 0.975 2 - 1 x J -k SIMILAR TO CASE 2352314A S FR
- a EXCEPT 343 SU XFMR 00X.11 1 00 0 N/A 1- 3 1.1369 h 9 IL E CASE NO. 02S23148 0.975 h- h h h SIMILAR TO CASE 23S2314B SU XFMR e $ EXCEPT'343 SU XFMR 00X11 1.1550 1.1176 1.1082 a TAP Q 1.0996 COOLING SCREEN AIR j- " 1.1369 TOWER WASH COMPR
$- g PUMP PUMP l '
$ CASE NO. 02S2315 i
U SIMILAR TO CASE 23S2315
'EXCEPT 343 SU XFMR 00X11 .
0.934 SyFMR 0*9412 h h* 0.9558 c N/A A
.g TAP SETTING RUN 1.1238 (BUS) j! l .
4
. NOTES: SEE SHEET 41 b u~, _ _ - - _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ - _ _ _ -
- 1: hCY ; JOB NO. 18247-026- COMPUTER RESULT TABULATION APPENDIX C lD SHEET NO. 45 0F' 52 , gy ; mos L. IMITING CASE VOLTAGE LIMITING CASE VOLTAGE AT - A GL(1URL ~~ h EQUIPMENT - MOTORS . OPERATING (NON-ACCELERATING) $TED ARE ACCELERATING EQUIPMENT CsARD- ,' REMARKS
.: 4.0KV ' 2.3KV 460V. 13.2KV 4.0KV 2.3KV 460V Alao Available On .. MOTOR. MOTOR MOTOR MTR/ BUS MOTOR MOTOR MOTOR Aperture Card OVERVOLTAGE ON SOME BUSES N/A =
t COOLING TOWER PUMP MOTOR ( @. TERMINAL VOLTAGE LESS THAN 75% ON A 4KV BASE 4- 0.7231 " N/A = 0.9431 l' COOLING AIR'
-COMPR
"?WER l NMP
- COOLING TOWER PUMP MOTCR' TERMINAL VOLTAGE SATISFACTORY h* 0.7503 = N/A
- 0.9869 COOLING AIR '
.T0W R COMPR pU P OVERVOLTAGE'ON SOME BUSES -l N/A 1
CCOLING TOWER PUMP MOTOR i
. TERMINAL VOLTAGE LESS THAN N/A
-*- 0.7213 0.9402 COOLING s AIR l TOWER COMPR g PUMP-Q COOLING TOWER PUMP MOTOR
@ U TERMINAL VOLTAGE SATISFACTORY 0.7515 = N/A =
0.9889 COOLING AIR T0WER C0MPR _ pump OVERVOLTAGE ON SOME BUSES L N/A :-
~Q U.
COOLING TOWER PUMP MOTOR TERMINAL VOLTAGE LESS THAN N/A " 75% ON A 4KV BASE -* 0.7141 : 0.9285 COOLING AIR T0WER CDMPR pump 8903200191-f { _
PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION STl CONFIGURATION: SEE SHEET 41 LIMITING CASE VOLTAGE AT L OPERATINO (NON- ACCELERATING) A~ S0URCE EQUIPMENT LI CASE NO.& VoLraoE DESCRIPTION 230KV 13.2KV 4.0KV 2.3KV 460V 13.2K\ BUS MTR/ BUS MOTOR MOTOR MOTOF CASE NO. 22S2315A SIMILAR TO CASE 23S2315A EXCEPT 343 SU XFMR 00X11 0.934 SU XFMR h* 1.0072 N/A TAP c 0.9907 (BUS) 1.2022 CASE NO. 22S23158 SIMILAR TO CASE 23S23158 EXCEPT 343 SU XFMR 00X11 0.934 SU XFMR h h 1.1682 h 1 1307 h 1 1229 - TAP c 1.1020 C00 LINO SCREEN AIR 1.2022 TOWER WASH COMPR PUMP pygp CASE NO. 2S2316 e 2 SU XFMR 00x03 - UNIT 2 NOFN'A' OPERAT10N )
- SU O*934 XFMA h' hs 1 MA[NTAINED UNIT 3 SHUTDOWN AT APPROXIMATELY 1.0 E'JS*W~334 1AP c 0.9242 0.9303 L N/A (G PU ON A 13.2KV 8ASE - ONE OF; SITE 1.146 (BUS)
POWER SOUF:CE AVAILABLE - STARTINO 3RD 5000HP C00Lih3 TOWER PUMP CASE NO. 2S2316A SIMILAR TO CASE 2S2316 EXCEPT BOOST THE LTC TO START TM 0.934 SU XFMP h h* 0.9680 - N/A ! 3RD 5000HP C00 LINO TOWER TAP c 0.9603 (BUS) PUMP (75% MOTOR TERMINAL 1.2063 , VOLTAGE) CASE NO. 2S23168 SIMILAR TO CASE 2S2316A EXCEPT 0.934 ' 3RD 5000 MOTOR HAS ACCELERATED SU XFMR 1,1493 1.1109 1.0930 TAP c 1.0834 COOLINO SCREEN AIR u. g 1.2063 TOWER WASH COMPR PUMP PUMP
;h CASE NO. 3S2316 0.941 ON 2
4 1, 1_ A 14.1 Ky SIMILAR TO CASE 2S2316
^$E 0.9509 N/A
$" EXCEPT 3 SU XFMR 00X05 SU XFMR 0.9440 c
TAP c 3 1.1292 a O CASE NO. 3S2316A 0.941 ON A 14.1 KV X
$ SIMILAR TO CASE 2S2316A
@ EXCEPT 3 SU XFMR 00X05 "^
SU XFMR 0.99 U
- TAP 0 E 1.195 s
{e , $ CASE NO. 3S23168 0.941 ON J
$ SIMILAR TO CASE 2S23168 A 14.1 KV EXCEPT 3 SU XrMR 00X05 BASE 1.1560 1.1186 1.1017 =
Q SU XFMR 1.0906 C00 LINO SCREEN AIR o TAP c TOWER WASH COMPR 1.195 PUMP PUMP l
~~ NOTES: SEE SHEET 41 l _ _ _ _-____
s I k DY JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C SHEET NO. 46 0F 50 gy hu31 a MITING CASE VOLTAGE. LIMITING CASE VOLTAGE AT N
$ I l EOUIPMENT - MOTORS OPERATING (NON-ACCELERATING) D A I) n TED ARE ACCELERATING EQUIPMENT Ltinu REMARKS 4.0K V 2.3KV 460V 13.2KV 4.0KV 2.3KV 460V MOTOR MOTOR MOTOR. MTR/ BUS MOTOR MOTOR MOTOR no AVailable On UAPert=_re Cud
- COOLING TOWER PUMP MOTOR 0.9892 TERMINAL VOLTAGE SATISFACTORY
> P.7517 = N/A r AIR C00 LINO COMPR TOWER PUMP OVERVOLTAGE IN MANY BUSES N/A = COOLING TOWER PUMP MOTOR
- - ' TERMINAL VOLTAGE LESS THAN 0.8901 75% ON A 4KV BASE
> 0.7013 = N/A - COOLING AIR TOWER COMPR PUMP C00 LINO TOWER CUMP MOTOR
- TERMINAL VOLTAGE LESS THAN N/A = 75% ON A 4KV BASE
> 0.7286 = 0.9430 COOLING AIR TOWER COMPR PUMP OVERVOLTAGE IN SOME BUSES N/A r s COOLING TOWER PUMP MOTOR J TERMINAL VOLTA 0E LESS THAN
= 0.9227 75% ON A 4KV BASE
> 0.7162 = N/A COOLING AIR TOWER COMPR PUMP COOLING TOWER PUMP MOTOR TERMINAL VOLTA 0E SATISFACTORY
@J SATISFACTORY
> 0.7512 -= N/A = 0.9797 COOLING AIR TOWER COMPR PUMP OVERVOLTAGE IN MANY BUSES N/A =
.. - _ _ _ . . . . . . _ . . . _ . . . . .. . . . . . . . .. . .. . 8 80 3 2 0 019 x - ST)
% 1:- .
+ 9A.. .
L y p.
.PBAPS UNITSc2 '& 3 VOLTAGE' REGULATION STI PROJECT = SUBJECT .
'Q~ h. ~
CONFIGURATION:[SEE SHEET 41 0
' LIMITING CASE VOLTAGE ATi .L i: OPERATING (NON-ACCELERATING)~ 'A' S0URCE EQUIPMENT. Lt
[, CASE.NO.& VOLTA 0E 1: DESCRIPTION 230Kv I - 13.2KV 4.0KV - 2.3KV '460V 13.2K\ BUS MTR/ BUS MOTOR .' MOTOR M0T0f CASE NO. OS2318 ~ 2
- L SIMILAR TO CASE NO. 2S2316 0.934 1 XF R 3 EXCEPT 343 SU XFMR 00X11 yP 0.932 0.9394 : N/Ac =
.1, , ; 3 4 (BUS)
{ CASE NO. OS2316A
- 0.934 ' 2 - I SIMILAR TO CASE NO.'2S2316A XFMR EXCEPT 343 SU XFMR-00X11 hP 0.9881 a N/A =
0.9795 (sus) 1.22 8 y CASE NO. OS2316B
- a. SIMILAR.TO CASE NO. 2S23163 0.934 ~ " .
EXCEPT 343 SU XFMR'00X11 XFMR N/A }. P 1Q20 i 1.2218 TOVER COMPR ?- PUMP l i- CASE NO. 2S2316S - 2 2 SU XFMR 00XO3'- UNIT 2 AND 3 0.934 1 !' SU XFMR
- 1. NORMAL OPERATION - 1 OFFSiTE .
N/ TAP c
- POWER SOURCE AVAILABLE - 0.9785 (BUS) f' ' START 1NG THE 3RD 5000HP COOLING 1.2063 .
TOWER PUMP - MAX. LTC BOOST Y . l l: CASE NO. 2S2316V SIMILAR TO CASE NO. 2S2316S 0.'934 SU XFMR h h* 0.9462 = N/A- $ l EXCEPT NO BOOST OF LTC ]3j6 0.9334 (BUS) J , .cc A 1 f [ A 1 T"3$HUTbON 0.934 hp e" h h* 0.8 b b 3b4 N ofI Y b.2 b hs N 0.8131 N/A N/A- (BUS)] ART O H LN PUMP }-
. LIFT PUMP
!'
- CASE NO. 2S2321 2 12 * !
$ SIMILAR TO CASE NO. 2S2320 0.934 XFMR 9 EXCEPT STARTING 450HP SCREEN 1.0160 " N/A E WASH PUMP S{pj2 f,gg 1.0062 (euS> !
E i 1; $ CASE NO. 2S2322 p2 j 0.934 9v 1
- l 0 SIMILAR TO CASE NO. 2S2320 XFMR v j 4
A EXCEPT STARTINO 250HP COOLINO hP 1.0234 m N/A> j; g TOWER FAN 1.0133 (BUS) 1.18 2 ll: \ t j 1:g NOTES: SEE SHEET 41 L
__ 1s% i Y JOB NO. 18247-026 COMPUTER RESULT TABULATION APPENDIX C SHEET NO. 47 0F 50
" ~ '
.n SI kITINt> . 'SE VOLTAGE LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING)
Al'ERTURE , l EQUIPMENT - MOTORS IED ARE ACCELERATING L EOUIPMENT . CARDREMARKS l ' 4.0KV 2.3KV 460V 13.2KV 4.0KV 2.3KV 460V 'Also Available On MOTOR MOTOR MOTOR MTR/ BUS MOTOR MOTOR MOTOR Aperture Card COOLING TCWER PUMP MOTOR TERMINAL VOLTAGE LESS THAN 75% ON A 4KV BASE
- 0.7072 ~- N/A ,
CDOLINO 0.9078 TOWER AIR PL'MP COMPR COOLING TOWER PUMP MOTOR
@ TERMINAL VOLTAGE LESS THAN 75% ,
0.7132 ., N/A = 0.9664* CCCLING ' TOWER AIR PUMP COMPR , p OVERVOLTAGE IN MANY BUSES
- N/A >
COOLING TOWER PUNP MOTOR
@ @ TERMI WL VOLTAGE LESS THAN 75%
0.7425 c N/A r GN A 4KV BASE COOLING 0.o726 TOWER AIR ~ PUMP COMPR COOLING TOWER PUMP MOTOR , O25 . 1 TERMINAL VOLTAGE LESS THAN 75% 0.7082 "
.: N/A r COOLING 0.9171 ~
TOWER AIR PUMP COMPR ALL BUS VOLTAGES SATISFACTORY
- N/A =
0.7445 AIR COMPR .
- 0.8703 Q Q ALL BUS VOLTAGES SATISFACTORY SCREEN c N/A = 0.9995 WASK AIR '
PUMP COMPR Q " NA (} ALL BUS VOLTAGES SATISFACTORY 0 0 1.0082 TOWER AIR FAN , COMPR f' 8908200191-5) .
u~ it PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLTAGE REGULATION ST CONFIGURATION: SEE SHEET 41 LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING) A S RCE EQUIPMENT L CASE NO.-& VopTaoE - DESCRIPTION 230xv 13.2KV 4.0KV 2.3KV 460V 13.2K BUS MTR/ BUS MOTOR MOTOR MOT 0! SIMILAP TO CASE NO. 2$2320 0 934 XFMR
@* N/A 1.0112 T ARTING 200HP COOLING P .0 58 .1, 0259 1.1862 8 COMPR CASE NO. 252324 2 SU XFMR COXO3 - UNIT 2 NORMAL 0.934 O2 01' OPERATION- UNIT 3 SHUTDOWN- FMR N/A N/A (' BUS 1 OFFSITE POVIR SOURCE AVAIL- PQ 0.8026 0.8025 7000 ABLE 4 COOLING TOWERS OPERAT- 1'1962 SWOR BlJS (BUS)
ING STARTINO A 7000H C OOl. I NG LIF TOWER LIFT PUM FU .i g. t i-L tb L 5 g L
? ~
5 9
?
8 g SI
; APERTURE g CARD _________
2 T Also Available On On Aperture Card i
- m. NOTES: SEE SHEET 41
l ! c
'18247-026- : COMPUTER ': RESULT .TABULAT10N:
%D :: JOB ' NO.- APPENDIX C-
' SHEET NO. 4 8 0F " 50 -
, w j. [cc -
1IMITING CASE VOLTAGE LIMITING CASE VOLTAGE AT I-' EQUIPMENT - MOTORS ' OPERATING (NON-ACCELERATING)- BTED: ARE ACCELERATING EQUIPMENT
, REMARKS 4.0KV 460V 4.0KV '. 2.3KV -. 460V 13.2KV ' 2.3KV- :)
MOTOR - ' MOTOR' MOTOR MTR/ BUS . MOTOR- MOTOR MOTOR (f ALL BUS VOL' AGES SATISFACTORY-N/A = 0.8961 ~
- N/A * ,
COOLING 1.0112 TOWER AIR FAN COMPR ALL DUS VOLTAGES SATISFACTORY 8
~
N/A = 0.7412 P AIR COMPR 4 O E'- I
^
1 l b J
'4 f
l 890:8200191
-- - - - 51_ 1
, , m' ~ * * *
- PBAPS UNITS 2 - & 3 SUBJECT VOLTAGE REGULATION STU PROJECT CONFIGURATION: SEE SHEET 41 LIMITING CASE VOLTAGE AT L OPERATING (NON-ACCELERATING) AT SUURCE EQU]PMENT LIQ CASE NO.& VOLra0g
.i DESCRIPTION 230Kv 13.2KV 4.0KV 2.3KV 460V 13.2KV BUS MTR/8US MOTOR MOTOR MOTOR CASE NO. 2S2363CD 2 SU XFMR 00XO3 - UNIT 2 NORMAL SU XFMR -
0.934 hx -4 N/A OPERATION - UNIT 3 SHUTOOWN TAP e 0.7922 0.7916 ONE 13.2KV UNIT AUXILIARY BUS 1.1862 (SUS)
; NORMALLY LOADED - 1 0FFSITE POWER SOURCE AVAILABLE -0 COC ING TOWERS OPERATING -
5 STARTINO MO SET AFTER IT TRIPPED j CASE NO. 2S2363F C 934
- 2 SU XFMR CGXO3 - UNIT 2 NORMAL SU XFMR b -N/A -
[W 3 OPEPATION - UNIT 3 SHIJTDOWN - TAP c i.0043 ONE 13.2KV UNIT AUXILIARY SUS I.2063 NORMALLY LOADED - ! OFFSITE ) POWER SOURCE AVAILABLE - 0 C00 LINO TOWERS OPERATINO - STARTING FIRE PUMP FPOM CLASS j IE LOAD CENTER 20811 4 4 CASE NO. 2S2300F1 J-2 SU XFMR 00XO3 - UNIT 2 START- 0.934 UP - UNIT 3 SHUTDOWN - 2 OFF- SU XFMR h =: N/A SITE POWER GOURCES AVAILABLE - TAP c 1.0212 ! a i p STARTING FIRE PUMP FROM 1.1661
,.i NON-CLASS 1E LOAD CENTER 20802 i $ - ADDITIONAL 1000 KCHIL CABLE
?
- e i
5 g
?
19 S1 s APERTURE
, E CARD 4
( j !. . g R A150 Available On j j Acerture Card i I 8 j MClTFSA SEE SMKET 41
[ , . v- -
, t
'\L!
1 $Ys ? JOB' NO. . 18247-026 COMPOTERL RESULT: TABULATION l
-APPENDIX C SHEET NO. 49 0F 50~
{l a .
'n , -~:
- z,: !l t- - -
j
- l NITINGLCASE VOLTAGE LIMITING CASE VOLTAGE AT OPERATING (NON-ACCELERATING).
~ -
.N
. EDUIPMENT - MOTORS - h TED ARE ACCELERATING EGUIPMENT " REMARKS ..
'.4.0KV . 2.3KV 460V' 13.2KV 4.0KV 2.3KV 460V-MOTOR MOTOR MOTOR MTR/B}JS ' MOTOR MOTOR' MOTOR g
VOLTAGE SATISFACTORY
; . 3 AIR COMPR
.gjg s'.7291 l-' O 0.7163 RECIRC" l AIR COMPR MG SET
= . FIRE PUMP ~ MOTOR TERMINAL:
VOLTAGE IS LESS THAN 85% ON A
'=-
@ = -N/A =
0.9835 460V BASE g,7944 FIRE- AIR PUMP CONPR
/Eh FIRE PUMP MOTOR TERMINAL U VOLTAGE IS LESS THAN 85% ON A r-C8* NA 0.9933 6 BE H 0.8406 AIR FIRE COMPR PUtiP 2
4
~
__m.__ 8.903200191~53 ___.m m_..m____m__.__.______,.,___m_____._.___.m__.-_-m_m___-_______mmmmu
O l ESTABLISHMENT OF THE DEGRADED O VOLTAGE RELAY SETPOINTS O s
g%. . , L PROJECT PBAPS UNITS 2 & 3 SUBJECT VOLT AGE' REGULATION S1 ([1 CONFIGURATION: MILLSTONE EVENT - UNIT 2 AND UNIT 3 IN NORMAL OPERATION OR C00 LINO TOWERS OPERATINO LIMITING CASE VOLTAGE AT i- OPERATINO (NON-ACCELERATING) s0u"CE EQUIPMENT CASE NO.& v LrA0g DESCRIPTION 230KV
.13.2KV 4.CKV 4.16KV .460V 13.2B BUS MTR/ BUS BUS MOTOR MTR/$
CASE NO. 2N2302M1 2 SU XFMR 00XO3 S 0.8005 FR h N/A h 0.8900 h 0,8532 0 h 0.8793
- COMPR CENTl 2083 CASE NO. 2N2332M q g g g rg 0.8275 SU XFMR W 0 87 v v 0.8531 V
2 SU XFFR 00X03 - ONE 13.2KV CIRC WTR 0.8398 0.8s UNIT AUXILIARY BUS LOAD TAP c 0.8790 PUMP AIR LOAl s 1.1996 2.3KV COMPR CENTl MOTOR ~ 2081 l I CASE NO. 2N2363M
> 2 SU XFMR 00XC3 - ONE 13.2KV 0.8495 SU XFNR N/A h
0*889^ h8528 m 86 h l # TAP c 0,8852 0'A I R TOA
- (j UNIT AUXILIARY BUS LOAD 1.2063 COMPR CENT
I 228] 0.806 CASE NO. 3N2302M 4 Iky 3 SU XFMR 00X05 gASE N/A 0.8901 0.6532 0.8s g,g793 AIR LOA i SU XFNR TAP AT COMPR CENT (' 2001 1.1082 0.8414 CASE NO. 3N2364M
!"e @ O @ G N/A 0.8900 0.85 3 0 g N L Bb5 A 0.885'7 SU XFMR TAP AT COMPR CENT i E 2081 j 1.1817
[ g CASE NC. ON2302M . 1 E 343 SU XFMR 00X11 SU XFMf3 0.8794 N/A 0.8902 0.8533 0.86 TAP o AIR LOA j [3 1.1173 COMPR CENT C. 208! e Ii US CASE NO. ON2364M 0.8379 343 SU XFMR 00X11 - ONE 13.2KV SU XFMP 0.8857 h h 0,8901 h 0.8533 0.86 ] g TAP o N/A UNIT AUXILIARY BUS LOAD AIR LOA
) m 1.2153 COMPR CENT 20Bj 4
j (~. m 51 ii E m APERTURE 8 CARD 1.ho Available On
- Aperture Card NOTES: N/A _ _ _ _ _ _ _ _ __
f - JDY JOB NO. 18247-026 COMPLITER RESULT TABUL ATION APPENDIX C UNIT 2 IN NORMAL OPERATION AND UNIT 3 SHUT 00WN - ZERO SHEET NO. 50 0F 50 m-LIMITING CASE VOLTAGE AT EQUIPMENT - MG FORS LISTED ARE ACCELERATING I 7 4.0KV 480V 460V 480V 460V 480V 460/ 480V 460V 480V 460V iS MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR MCC MOTOR I P 0.8441 < N/A = MCC 9 00850 6 0.8439 : N/A = l MCC R 00850 2 0.9436
- N/A =
MCC i a 00850
--* r 7 2.8441 N/A l MCC R 00850 l I
=
l 3 0.8441 - N/A 1 MCC ! R 00850 l 3 3 9.8442 -" N/A = l MCC R 00950 B S 0.8441 -= N/A t-MCC . R 00850 i _ _ ttw o 3 2 0 0 1 5t1 _ g
l- g O 1 1 APPENDIX D u I
.O l ELECTRIC LOAD TABULATION O
V ,
.... ,, _. l' ,
, :.. .: j
-j
&, l ,
, r ti ;l h TABLE OFLCONTENTS n.
l: L t 9
' TAB TITLE '
SHEET (SF 1l - Switchgcar Loads 1-34 l l; 2 -: Non-Class 1E Load Center Lo' ads 35-60 g [ '! 3 ' Class 1E Load Center Loads . 61~-82 i l? 4 l ll , l l ,
,i
. 'l
'{.':
.c -1 4
y l
.]
I 1 I 1
~
,1 1 VOLTREGAPP 1/31/89 ' D-i brIIIIII ll
(C ES E( HO 12345678901 SN 66666666677 D E 1 i x 45601230123 d S S 99911111111 R S BBBBBBBBBBB n E A 00000000000 e p T L 00022223333 N C ~ p E - A C r D o A . f O T ) L ES 5678 8012345 6789012 345678 90 i x E ( 3333 3444444 4444555 555555 56 r HO ' t a SN M o E ~- N 1 ABAB ABABABA B67ABAB ABABAB AB
- 3355 6677884 4001122 441122 44 t NS 0000 0000001 1110000 000000 00 e OS BBBB BBBBBBB BBBBBBB BBBBBB BB e NA L
0000 0000000 0000000 000000 00 h 0000 0000000 0002222 223333 33 S C - g s v
.,U o T)
-. 7890 1234 2223 3333 ES N E( ,, , , , , , ,
r HO 0123 4567 e SN 1111 1111 t n e C E 1 d 5678 5 6 7.8 a S 1111 1111 - 4 o R A S A AAAA AAAA 0000 0000 L E L 2222 3333 r G C o H C r T a I 90 e g W . 1 2'1 2 3456 S T) 22 2222 h ES , , c E( 34 , , , , , , t HO 56 7890 i SN , , 1 w 12 S E 1 BC
- 33781212 NS 00000000 OS AAAAAAAA NA 00000000 L 00002233 C ,)'(
- p. j . - - .
4 l i SWITCHGEAR LOADS O
l / W;,dp . 11, t ..2: ,6 - :; .s ' < n -. :N-L jpn L i; I'1 ,
- \ u x; i (j;: yyg , :A P 0 E N D I,X;;
,i 3- n MQ: -E L'E C T R I C: L 0 A'D TC y: ;,. C h -;.e p w y <; 1 j
p jf : SWITCH GEAR: 00A038- (NON CLASS 1E)- p -13800V 2000AL _. m -DRAWING No: E1 & E10 h,
RATED LOAD.
[ : REY. EQUIP NO .BRKR NO LOAD HP - RPM' EFF lPF 'l: KW 'KVA 4 $l '
..... .... . ....... ..........s l ,
0 00A07 1252-0302 CLG TWR SWR A
' O.99 l '826&.74- 8368.22 34
, . . I
.j 0 0AP88 252-0303 CLG.TWR PP 5000.0 260 0.97 1.00 -l .38&5.36 3845.36.. 16 1 b i l.
.O?,06P88- 252-0304: CLG TWR PP! 5000.0 260 0.97- 1.00 .l- 3845.36 3845.36: 16; 3
3 0.91'.l: 1673.48?1838.99 -7 l' 0,'20P07 252-30$A SCN WH P & LC 85A 6A -
- 0, l
0 B7A & SA 252 305B CL TWR LC,MCC 657,63 - - - 0.90' i 1718.19: 1909.10 7 f . ,
) TOTAL KW; KVA 193&7.13 1954&.74 'l l i S'
2772.27 l j 101AL KVAR t .0.99 AVERAGE P0"ER FACTOR. )5 g
- y. $17.69-3 TOTAL LOAD CURRENT--
31 - j; i 10.41 - AMPACITY FACTOR 3 . t 4 li ' E { a ) : i 1;
-j i'.l '
l T -- ,.
..)
d NOTES:
- APPLICABLE WHEN ONLY ONE OFFSITE POWER SOURCE IS AVAILABLE.
ii. lN la It.o di:Q ' i y
w& i
+
r
- D B 4 L'A T I O N Sheet 1 of 82 J AN 3 i 1983 NORMAL CPERATION STARIUP UNIT TRIP NORMAL SON LA l LF OC KW XVA l LF OC KW KYA l LF OC KW KVA l LF OC KW KVA
... .... .. ....... ....... l .... .. ....... ....... l l l l l l l '. 26 - l 1.00 1 8251.74 8348.22 l 1.00 1 826&.74 8348.22,l 1.00 0 0.00 0.00 1 1.00 0 0.00 0.00 l l 'l l
.19 l 1.00 1 3845.36 3845.36 l 1.00 1 3845.36 3845.36 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l .19 l 1.00 1 3S&5.36 3845.36 l 1.00 1 3845.36 3845.36 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 i ! ' l l
'.94 l 0.71 1 1183.17 !!05.68 .! 0.71 1 1188.17 1305.68 l 0.14 1 231.29 257.46 ! 0.1& 1 23&.29 257.46
-l l l l
!.87 l 0.97 1 1666.64 1851.82 l 0.97 1 1666.61 1851.82 l 0.05 1 85.91 95.46 l 0.05 1 85.91 95.46 18810.27 18979.14 18!10.27 13979.11 320.20 352.90 320.20 352.90 2526.18 2526.18 148.36 148.36 0.99 0.99 0.91 0.91 l 79&.03 794.03 14.76 11.76 0.40 0.40 0.01 0.01 SI - APERTURE CARD i Also avaoable on h e Card 8908200191-55 _
. . ,t
, - g_ _ ,. . - , .
. . :; . . x . _ , I k's . .:.. . + : .-
c-u b .[ gg. t < 1). a e- .
- A P P E N D-l'X'iD
.i
.%v [/W-..: . J :.
E L E C T'R I C L'0 A D;-T'A B s I.
' $41TCH GEAR: 00A03C'iNON CLASS 1E) 13800V - 2000A' DRAWING No: El~& E10
^'
4< l b.
=li i RATED LOAD i
.................... ................................................................................... 9 REV EQUIP NO ERKR NO LOA 0 - HP RPM , Eff- Pf l- KW KVA ' FLs
... ........ ....... . . . . . . . . . . . . . . . . . . . . . . . . - . . . . . . - ..../ .... .... l .......;....... .....e I O ' '0CP88- 252 0315 CLG TWR PP 5000.0- 260 0.97 1.00 l 3845.36 3845.36; 163 1
. ;. ., v t
0- XfMR 5. -: 252-0316 L 8 P XfMR S 5
- 0.85-l ~ 425.00 500.00 20.'
- i. 0 00A08 252-0317 CLG TWR SWR B - - -
.0.99 l':8263.08' 8351.60 349.
- l. -
; O .P07,5B5B 252-314A SCN WH P &LC B5B.566. . - -
' O.91'l 1222.3l 13&3.23- '56.4 l
~ . 0 -878,8B 252 3148 CL TWR LC MCC 00558- - - - 0.90 l 1992.9672214.40 92 - ! .........................................................................................................b- _93 TOTAL KW; KVA- 15753.74 16030.09 3 i
...Q 3 TOTAL KVAR <
2963.70
' AVERAGE POWER FACTOR 0.98
! TOTAL' LOAD CURRENT 670.65'- 1' I' AMPACliYFACTOR -0.34 f; . 4- $l 3 3. s= k -: }: 1 i I) lb l 1: Li-y! , _qy"s,
--', NOTES:
- SEE SHEET 1 h
n b-q c ArrE___ _ _ _ - _ _ _ ________.___ _ _ _ ___z________ __________ _ _ _ _______ _ _ _ ,
- 1
[ ) $LATION Sheet 2 of 82 J M131 IM9 NORMAL OPERATION STARTUP VNIT TRIP NOR.9AL 5HDN s............................................................................................................. .......... l LF 00' KW KVA l LF OC KW KVA l LF CC KW KVA l LF OC TW KVA i l l ... .. ....... ....... l .... .. ....... ....... l
'l' l l l fl 1.00 1 3845.36 3845.36 ! 1.00 1 38&5.36 38&5.36 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l l 9: 0.50 1 212.50 250.00 0.50 1 212.50 250.00 l 0.50 1 212.50 250.00 ! 0.50 1 212.50 250.00 l l l l
) l 1.00 1 8268.08 8351.60 ; 1.00 1 8268.08 8351.60 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l t! 0.80 1 977.87 107&.55 l 0.80 1 977.87 1074.58 l 0.15 1 133.35 201.48 l 0.15 1 183.35 201.&B l : l l $ 0.99 1 1973.03 2192.26 ! 0.99 1 1973.03 2192.26 l 0.03 1 59.79 66.43 l 0.03 1 59.79 66.43 v.... .................................................................................................................. 15276.84 15515.52 15276.84 15515.52 155.64 516.94 455.64 516.91 2710.98 2710.98 2&&.13 214.18 0.98 0.98 0.88 0.88 6d.12 6&9.12 21.63 21.63 0.3. 0.32 0.01 0.01
'! SI APERTURE CARD Also Available On Aperture Card i
I I l 89,03200192-5/o
'I s
o
i-I3 APPENOIX- ' 4
"- ELECTRIC L0AD TA
-j I i f
} SWITCH CEAR: 00A03B (NON CLASS 1E) 13800V 2000A DRAWINO No: E1 & E10 RATED LOAD j
3
,! REV EQUIP NO BRKR NO LOAD HP RPM EFF PF l KW KVA FLA
.. ........ ....... ..................... ...... ... .... ....j....... ....... .,....
, I
) 0 00A07 252-0302 CLG TWR SWR A - -
0.99 l 8264.74 8348.22 349.26 1 8 i 6 0 OAPS8 252 0303 CLG TWR PP - 5000.0 260 0.97 1.00l3845.36 3845.36 168.19 i l
} O 03P83 252 0304 CLC TWR PP 5000.0 260 0.97 1.00l3845.36 3845.36 163.19 l
1 0 0,20P07 252 305A SCH WH P & LC B5A,6A - - - 0.91l1573.43 1838.99 76.94 i l 0 87A & BA 252-305B CLG TWR LC,HCC S57,63 - - - 0.90l1718.19 1909.10 79.87 l f., (, TOTAL KW; KVA 19347.13 19544.74 TOTAL KVAR 2772.27 AVERAGE POWER FACTOR 0.99 TOTAL LOAD CURRENT 817.69 AMPACITY FACTOR 0.41 'f 9 L NOTES: APPLICABLE WHEN TWO OFFSITE POWER SOURCES AVAILABLE 66 W
--- - - _ ~ _ _ . _ . - __
f- '. b [. ~ h-kULAi!ON Sheet 3 of 82 v 73
)
I-l i NORMAL OPERATION STARTUP UNIT TRIP
- NORMAL SHDN
- s.......................................................................................................................
.!.LF OC KW KVk l LF OC. . KW KVA l LF CC KW KVA l' "L F OC KW KVA l......
.......l......
.......l......
'l. I ! ! l1.00 1- 8264.74 8348.22l1.00 1 8264.74 8348.22l1.00 0 0.00 0.00l1.00 0 0.00 0.00 ll . I l l
!1.00 1 ss4s.37 3845.37l1.00 1 3845.37 3845.37l1.00 1 384s.37 384s.37l1.0<! 1 3845.37 3845.37
<l l . i l l1.00 1 3845.37 3s45.37l1.00 1 3845.37 384s.37 l 1.00 1: 384s.37 384s.37 l 1.00 1 3845.37 3845.37 I i~ l ! l;0.71 1 1188.17 1305.68l0.71 1 1183.17 130s.68l0.71 1 1188.17 130s.68l0.71 1 1188.17 130s.6s l l l l l0.97 1- 1666.64 1851.82l0.97 1 1666.64 1851.82 l 0.97 1 1666.64 1851.82l0.97 1 1666.64
............................................................ ...................................................'18s1.82 .......
18810.29 18979.16 18810.29 18979.16 10545.55 10631.42 10545.s5 10631.42 2526.18 2526.18 1348.53 1348.53 0.99 0.99 0.99 0.99 794.03 794.03 444.79 444.79 0.40 0.40 0.22 0.22 Si APERTURE CARD Ahc muantae on amm n cua j l 1 l 8903200191-57 1 a 1 _ __ _ a
. _=, , , . - , - . , . . . - - - - - _ - - - - - _ -- - - - - - - ---
j.;"., i.
;g ' .
,j =- g p h t> N~ l' - A P P E N D'l X i
- t - .,
- j. :-
'j .-
v- 't ELECTRIC L0AD TA i-- -
- 3 i-d.
! SWITCH GEAR: 00A03C (NON CLASS 1E) a 1'800V 2000A DRAWING No: E1 & E10 j
r
' RATED LOAD l
} ..................................................................................................;
t i REV EQUlP NO BRKR NO- LOAD HP RPM EFF. PF l KW KVA FLA}
... ........ ....... ..................... ...... ... .... .... i ....... ....... .....,
1~ n I: Lj 5000.0 260 0.97 1.00l3845.36 3845.36 160.16 0 00P88 252 0315 CLG TWR FP J i a 1 . . 3 1 500.00 ~20.92 j, 0 XFMR 5 252-0316 L & P XFMR # 5 - - - 0.85l 425.00 1 - a' j 0 00A08 252 0317- CLG TWR SWR B. 0.99l8268.08 8351.60.349.41 i 1' I O P07,5668 252-314A SCN WH P & LC B58,868 - -
- 'O.91l1222.34.'1343.23 56.2@
i 4 l
) 2214.40- 92.66 O 'B78,88 252 3148 CLG TWR LC,MCC 00858 - - -
0.90l1992.96 2 YOTAL KW; KVA 15753.74 16030.09 I. ' *" % a- y,
- f
- 2963.70 .i 3 TOTAL KVAR o,
?
l')- AVERACE POWER FACTOR 0.93 'J 1 670.65
- l. TOTAL LOAD CURRENT J
0.34 f AMPACITY FACTOR
- d. a 1
't 3 t 1-A 4 1 i 9 A k a lE .] , Y i 1' .i.j: l i t 1
'i
+
+ . , .
- ) NOTES: SEE SHEET 3 I
'~ -- - - - - - - _ . - _ . _ _ _ __ . _ , _ _ _ _ , _ _ _ _ , _ _ _ _ _ _ _ _ _ _ _ _ _ _ , _ _ _ _ _ _
f u L ! _j . )- ) U L' A T ! O 'N Sheet 4 of 82 Y NCRMAL OPERAT!oN STARTUP UNIT TRIP
- NORMAL $ HON
- f............... .......................................................................................................
'l LF oC KW KVA l LF OC KW KVA l LF oC KW KVA. l LF oC KV KVA l...... .......
.......l...... .......l...... .......l......
o i i i 4 . I' i ! , .l1.00 1 ;3845.37. 3845.37l1.00 1 3845.3/ 3845.37l1.00,, 1 3845.37 3845.37l1.00 1 3845.37 3845.37 l l l l l o.50.' 1 212.50 250.00lo.50 1 212.50 250.00 l o.so 1 217.50 250.00lo.50 1 212.50 250.00
- l. l .
.! l l1.00.'1, 8268.08 8351.60l1.00 1 E268 08 8351.60 i 1.00 o o.00 0.00l1.00 o o.00 0.00
.i e i
, e i ! .
977.87 1o74.58lo.80 1 977.87 1o74.58lo.80 1 977.87 1o74.58 l o.80 1 977.87 1o74.58 l o.80 - 1 i i l l 1973.03 2192.26lo.99 1 1973.03 2192.26lo.99 1 1973.03 2192.26 lo.e9 1 1973.03 292.26lo.99 1. 15276.85 15515.53 15276.85 15515.53 7008.77 7174.42 7008.77 7174.42 2710.98 '2710.98 1532.81 1532.81 0.98 0.98 o.98 0.98 649.12 649.12 300.16 300.16 0.32 0.32 0.15 0.15 l SI APERTURE CARD Also AvaHabic On , Aperf ure Card i1 890s2001eg g
3 i i 1 1_ 1 p.+, APPEND!X I 1 (%[ ELECTRIC L0AD Td I. .
.l SWITCH GEAR: 00A07 (NON class 1E) 13300V 1200A ORAWING No: E5010 RATED LOAD
..........................----------------- .....---- .-----.------.-- ...-------------.---.----------.4 REV E0 VIP NO BRKR NO LOAD HP RPM EFF PF l KW. KVA f(
... ........ .....-- ........... ........... -- ... . . . - - ---- -- . ------- ------- ---a t b 0 OAP208 252-0701 CLG TWR LIFT PP 7000.0 260 0.97 1.00 l 5383.51 5383.51 239 0 00XL2 252-702L CLG TWR LC 003106 - -
- 0.91 l 2777.60 3052.23 127
, 0 00X&& 252-702R P.CC 00B103 - - -
0.36 l 103.63 120.50 $
................. --.-.----------- ---..-...--...---------------....---...... ----------------------- -a TOTAL KWi KVA 8261.71' !!70.59 j- TOTAL KVAR 1326.91 i- e AVERAGE POWER FACIOR 0.99 TOTAL LOAD CURRENT 350.20 AMPACITY FACTOR 0.29 I
i t i P
?
O e ll b.m . ._M _ _ __ _ ___ _ _ . _ _ _ _ _ . _ _ _ _ _ _ _ _ _ ._ _ _ _ _ _ _ _ _ _ . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ ___
== -
w 1 i 1 0 8ULATION Sheet 5 of 82 J AN 3 i C53 NORMAL OPERATION STARIUP UNIT TRIP NORMAL SHDN A l' LF OC KW KVA l LF OC KW KVA l LF OC KW KVA l LF OC KW KVA l .. .... .. ....... ....... l .... .. ....... ....... l .... .. ....... ....... l .... .. ....... ....... l l l l l 47 l 1.00 1 5333.51 5333.51 ! 1.00 1 5333.51 5383.51 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 70 l 1.00 1 2777.60 3052.31 l 1.00 1 2777.60 3052.31 l 1.00 0 0.00 0.'00 l 1.00 0 0.00 0.00 l l l l 01 l 0.63 1 70.47 81.94 l 0.68 1 70.67 21.91 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 8231.58 8331.75 8231.51 8334.75 0.00 0.00 0.00 0.00 1307.33 1307.33 0.00 0.00 0.99 0.99 0.00 0.00 318.70 318.70 0.00 0.00 0.29 0.29 0.00 0.00 St APERTURE CARD Also Available Pn Aperture Cr 890 3 20019T-69 maammmeaias
____q u 4 3 A ' . c. ' i0-i I 7
./-- APPEND!X @ i
. ELECTRIC L0AD T. A 1 4
I 1 ' 3 i 1-A A- SWITCH GEAR: 00A08 (NON CLASS 1E) J l 13800V 1200A ORAWING No: E5010 s -! RATED LOAD t
- .........................................................................................................e
[ REV EQUIP NO BRKR NO LOAD HP RPM EFF FF l KW ~ XVA FLQ i ... ........ ....... ........................ ...... .... .... .... ; ....... ....... .....) e i i 4 0 OBP208 252-0801 CLG TWR LIFT FP 7000.0 260 0.97 1.00 l 5383.51 5383.51 235.0 '3 .
. l i 0 00XL3 252-802L CLG TWR LC 003107 - . -
0.91 l 2777.60 ~ 3052.23 127.1 i 1
- 0.36 l 106.97 124.33 0 00X45 252-802R 500 008109 5.
.'. f TOTAL KW: KVA 8263.03 837&.20 1328.91 l..i TOTAL KVAR
'("0;
; > gy AVERAGE POWER FACTOR 0.99 3
i 350.35
, TOTAL LOAD CURRENT i
-t " AMPACITY FACTOR 0.29 j s a F R 1 i I i l l? l I t il lI , h o l} ll - y w ,
l m ,U L A T I O N Sheet 6 of 82 JM! 31 D69 NORMAL OPERATION STARTUP UNIT TRIP NORMAL $HDN-l LF OC ' XW KVA l LF CC KW KVA l LF OC KW KVA ! LF 00 KW KVA l l l l l l 7-l 1.00 1 5333.51 5383.51 l 1.00 1 5333.51 5383.51 l 1.00 0 0.00 0.00 i 1.00 0 0.00 0.00 l l l l 3 ! 1.00 1 2777.60 3052.31 l 1.00 1 2777.60 3052.31 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 i '. l l 3 l 0.65 1 69.53 20.15 l 0.65 1 69.53 30.85 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 8230.61 3333.73 1230.64 3333.73 0.00 0.00 0.00 0.00 1306.73 1306.73 0.00 0.00 0.99 0.99 0.C0 0.C0 343.66 313.66 0.00 0.00 0.29 0.29 0.00 0.00 f SI - APERTURE CAnn Also ,uwable On A n~4.... c! fit] g9 0 3 20 019140
# :m:. y,4 . N., . ; i c. K , ]
,[' l, 'M j g.. -
S- , o-- -
.I t
a V
- 5 '
il - -k 'A P P E N D'l X' j h py .x; ., )
#.1 E L E C T R.! C' L0AD gi Aj ,
i
~t j
d. ~. , [ SWITCH GEAR: 20A01 - (NON CLASS 1E) l
'1 5 :13800V 2000A.
i ORAWING No: E5 'l li .
- RATED LOAOL
.........................................................................................................q l REV. EQUIP NO BN R NO . LOAD hP RPM. EFF -
PF ' l KW lKVA L fj
....d si ..
v , 0.85 978.13' 1150.74 . ( 0 2AX21; 252d102GENAREALC20801A' t
'O 2AX24 '252-0103 REACT AREA LC 20B01A . - .
0.89 - 1 803.70 903.03 : 37] 0 2AP02 252-0104 CIRC WIR PP1 2000.0 '200 0.94- 1.00 l 15S7.23 1587.23 l69)
! .l 700.0 900 0.93 0.88 -l T 0 2AP04 252-0107.5VCE WIR PP 519.68 62&'66'
. 27j
, 1
'0 2AP03 252-0108 COND PP 6500.0 1200' O 95 0,90'l 1533.68. 3926.31 171j
.0 0AX31 252-0109 PLAHi 5VCE LC 005113 - - -
0.89 1203.&6.'1352.20 ' 56l 0- 2AX22 252-0110 TUA3 AREA LC 20B02A ~
.0.86 ! 1118.45 1300.52- 51 1 '0 00X523 252-0111 ADMIN & MISC BLOG
- 0.85 lL2762.50 3250.00 ~13$
l' . 4 I O 2AG01 252 0112 REACT RECIRC MG. SET 9000.0 1200 0.97 0.90 l 6921.65 7690.72 334
.......................................................................................................a
]J j TOTAL KW; KVA 19&58.48 21597.23 1 q TOTAL KVAR 9370.59 0.90 ). i. AVERAGE POWER FACTOR TOTAL LOAD CURRENT 903.56 L_ AMPACITY FACTOR 0.45 .) x 'fs v ,
- j. NOTE 3:
- THE M G SET MAY BE RESTARTED MANUALLY AND THE LOAD WILL BE APPROXIMATELY 2307.21XVA AT @
I
- _ . _ _ _ - - - _ _ _ _ - _ _ _ _ _ _ _ - - . _ _ - - _ _ _ - _ - - - . . . ~
+'+1 Sheet 7 of 82 fLATION JAN311%3 NORMAL OPERATION STARTUP UNIT TRIP NORMAL 5HDN i
! LF 00 KW KVA l LF 6C Ku KVA l LF OC KW KVA l LF CC KW XVA
.... .. ....... ....... .... .. ....... .... .. .... .. ....... ....... l .... .. ....... .......
l l l l l l 1 l 0.57. 1 557.53 655.92 ! 0.60 1 586.88 690.45 0.57 1 557.53 655.92 l 0.60 1 536.28 690.&5 l l l !
! 0.61 1 0 0.26 550.!5 l 0.76 1 610.81 686.30 0.61 1 100.26 550.85 : 0.76 1 610.81 636.30 l l l l l 1.00 1 1537.21 1517.21 l 1.00 1 1587.24 1587.21 l 1.00 1 1587.21 1537.24 l 1.00 1 1537.24 1537.21
- l l l 1.00 1 519.63 624.61 l 1.00 1 549.68 621.61 l 1.03 1 549.68 221.64 l 1.00 1 519.68 624.61 l l l l l 1.00 1 3533.69 3926.32 l 1.00 1 3533.69 3926.32 l 1.0] 1 3533.69 3926.32 l 1.00 1 3533.69 3926.32
-l l l l l 0.53 1 637.53 716.66 l 0.54 1 619.37 732.19 l 0.53 1 637.53 716.66 l 0.51 1 619.37 730.19 l l l l 1 0.57 1 637.52 711,30 ! 0.61 1 682.25 7$3.31 l 0.57 1 637.52 741.30 l 0.61 1 632.25 793.31 l l ! l l 0.60 1 1657.50 1950,00 l 0.60 1 1657.50 1950.00 l 0.60 1 1657.50 1950.00 l 0.60 1 1657.50 1950.00 l l l . l l 1.C0 1 6921.65 7690.72 l 0.30 1 2076.49 2307.21 l 1.00 0 0.00 0.00 l 0.30 1 2076.49 2307.21 16572.90 18269.16 11934.11 13122.20 9651.25 10530.97 11931.11 13122.20 7689.39 5155.45 1337.09 5455.&5 0.91 0.91 0.91 0.91 761.36 513.99 442.68 563.99 0.33 0.27 0.22 0.27
) SI APERTURE CARD Ago Available On IPOWER FACTOR.
Aperttire C,ard 890320019f-Q .
NJC S ' 4,# L x . . i wi macu ww.u r f ww.--.w . w_ _ , _ , , _
' ap.nia. 'g .
c. f' L r
- h. APPENDIX
- n ELECTRIC 'l0AD 'TA h ' k _.. ' H i
\
n i 5 WITCH GEAR: 20A02 (NON CLASS 1E) g 15800V 2000A 0 ORAWING No: E5 I. - RATED LOAD i
- 1. ........................................................................................................-
REV E0 VIP NO BRXR NO LOAD HP RP.1 EFF FP l KU KVA .F q ...... .... .... .... l ~ ... ........ ....... ........................ !! l 0 OAX37 252-0201 PLANT $VCE LC.003033 0.88 l 941.16 1069.50. it! ' 4 0 2300& 252-0203 EEACT RECIRC t'.G-SET 9000.0 1200 0.97 0.90 l 6921.65 7690.72 336 1 23X22 252-0204 TURS AREA LC 205028
- - - 0.89 1057.01 1137.6$ . '49
- 0 i.
0 23P04 252-0205 SVCE WTR PP 700.0 900 0.93 0.!! 561.51 633.01 27; q' 4500.0 1200 0.95 0.90 ! 3533.63 3926.31 171 j 0 2E?03 252-0206 CO.1D PP ' 1 t 4500.0 1200 0.95 0.90 l 353!.63 3926.31 171 1 [,ii 0 2CF03 252-0207 C0:10 PP . i
? %g . j
.j 0 23P02 252-0203 CIRC WTR PP 2000.0 200 0.91 1.00 l 15B7.23 1537.23 ' ed 1 ' ,s , ' 0 2CP01 252-0209 SVCE WTR PP 700.0 900 0.93 0.83 l 561.51 638.05 2q 1 '. ( 6t 252-0211 CIRC WIR PP 2000.0 200 0.91 1.00 l 1587.23 1537.23 ) 0 2CP02 l l! 0 2EX24 252-0212 REACT AREA LC 20B043 0.48 ! 954.83 1085.03 . a( j , o i 2 0 2BX21 252 0213 GEN AREA LC 20B015
- - - 0.86 l 1066.82 1210.49 52 1
................................................................................ .......................s 22306.'1 3 24276.17
> TOTAL KW: KVA
) 9579.19 TOTAL KVAR 3 i a 0.92 Ti AVERAGE POWER FACTOR 1015.64 TOTAL LOAD CURRENT y 0.51 d' AMPACITY FACTOR
-I
- 4 y .
'~l ; NOTES: SEE SHEEf 7
- i
,x. - _ _ - - = . - -
.z__
mv m - a - . , -, r 7 u, [ s ' < n , 1. l' Il t- $UL'AT--ION Sheet 8 of 82
- J AN 3 1 1989 l
[ 4 h0RMAL'0PERAT!0N- STARTUP- UNIT TRIP- NORMAL-5HDN b......................................................................................................................... E ! ' LF OC XW :KVA ! LF OC KW KVA i 1.F ' OC KW. KVA t LF OC KW KVA
.l
- a. ' l 7 l .... ... ..y... .
!! !: l l .! 54 - .!: 0.32 ' 1- 101.17 342.2&..lu0.32 1 301.17 342.24 : 0.32 1 301.17- '342.2& ! 0.32 1 301.17 342.24 l- , $8 L 'l 1.03 1 6921.65 7690.72 l 0.30. 1 2076.&9 2307.21 l 1 00 0 0.00 0.00 l 0.30 1 2076.49 2307.21
't i ! !
L49.'l 0.57 1 602.50 .676.97 l 0.60 1 63&.21 '712.60 1 0.57 IL 602.50 676.97 l 0.60 1.~ 634.21. 712.60
.! l ! !
561.51 638.03 l.l.00 1 561.51 633.03 l 1.00 -1 561.51. '633.08 31l!:1.00 561.51 :633.03 : 1.00.1 l l ! l l73rT 1.00; 1 3533.68 3926.31 l 1.00 1 3533.68 3926.31 ~l 1.00 1 '3533.68' 3926.31 l 1.00'"1 3533.63 3926.31
.! - l l~ !
- 73
- l? 1.00 1- 3533.69 3926.32 l 1.00'0- 0.00 0.00 1.00 1 3533.69 3926.32 l 1.00 0 0.00 0.00-
' ' l l l
i&2 l 1.00 1: 1587.24 1537.21 l' 1.00 1 1537.2&. 1537.2&' ! 1.00 1 1537.24 1537.24 l 1.00 1 1537.24 1537.24 L91E! .1.00 0- 0.00" 0.00 ! 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00.l 1.00 1 561.51 -638.'08. l l' . ! l l 12 :: 1.00' 1 1537.24 1557.2&- l l.00 1'1587.24 1587.21 l 1.00 1 1587.24 1587.24 l 1.00 1 1537.24 1587.2&
! l l . .
j39ll=0,36 1 343.74 390.61 : 0.36 1 343.75 390.61 l 0.36 1 343.7& 390.61 l 0.36 1 313.7& 390.61
! ! l l . .
690 l:0.46 1 490.74 570.63 l 0.45 1 480.07 558.22 l 0.46 1 490.74 570.63 l 0.46'1 490.74 570.63 u............................................................................................................. ............ ;
-19463.16 21053.13 11105.35 11796.35 125&1.51 13384.13 11677.53 12&39.74 3 '
8016.20 3978.06 4673.90 4287.47
-0.92 0.94 0.94 0.9&
- ] l l
880.60 193.52 559.95- 520.44 d, 0.41 0.25 0.28 - 0.26- 4 y
;f SI APERTURE CARD Also Available On !
Aperture Card 890'S200191- A 1
+ d' 3 h . APPENDIX D s s - ;; a.4 + " ELECTRIC L0AD TAB
}. ,
^
J ,. 1 SWITCH GEAR: 30A01 (NON-CLASS 1E) }- 13800V 2000A
-}
$$ ORAWING No: E7 4 RATED LOAD ! )1 - 3
)' REV EQUIP NO LRKR NO LOAD HP RPM EFF. PF j KW KVA FLA , lf q ... ........ ....... .. .................. ...... ... .... ....;....... .......
......[
]'j 0 3AX21 252 0102 GEN AREA LC 30801A - - - l 0.84l 952.02 1141.69 47.76jf lI a i i
'nl -j L 0 3AX24 252 0103 REACT AREA LC 30B04A - - -
0.89j803.68 903.01 ' 37.78 lj h' I il 1 0 3AP02 '252-0104 CIRC WTR PP 2000.0 200 0.94 1.00l1587.23 1587.23 69.42ll i 4 s i i 8 j 0 3APO4 252 0107 SVCE WTR PP 700.0 900 0.95 0.88j549.68 '624.64 27.32l
' t i I <
i l' 0 3AP03 252 0108 COND PP 4500.0 1200 0.95 0.90 l 3533.68 3926.31 171.73l i i .j i I d 0 OBx34 252-0109 PLANT SVCE L.C 00814A - - - 0.89l1113.97 1251.65 52.37!. d h i i ( ,q ; j 0 3AX22 252-0110 TURB AREA LC 30802A - - - 0.86l1037.92 1206.88 50.49j
-d l [
d 0 00X515 252-0111 ADMIN & MISC BLOG - - - 0.85l2762.50 3250.00 135.97
..i l t. .
0 3AG04 252 0112 REACT RECIRC HG SET 9000.0 1200 0.97 0.90l6921.65 7690.72 336.38] 1
....................................................................................................a TOTAL KV; KVA 17269.33 21391.94
. v. )
TOTAL KVAR 9290.22 ,
l 1
l l 0 3CP03 252 0207 CCND PP 4500.0 1200 0.95 0.90l3533.68- 3926.31 171.73
!(
0 3BP02 252 0208 CIRC WTR PP 2000.0 200 0.94 i
. 1.03l1587.23 '1587.23 69.42lj l
. I; l
i ! O 3BX24 252-0209 REACT AREA LC 30B048 0.89l.986.25 1108.15 46.36ll
! ll 0 3CP02 252 0211 CIP.C WTR PP 2000.0 200 0.94 1.00l1587.23 1537.23 69.42l l !;
O 3CPO4 252 0212 SVCE WTR PP 700.0 900 0.93 0.83l 561.51 638.08. 27.9) ll
' l .!:
252 0213 GEN AREA LC 30B018 0.86 l 1047.56 .218.09 50.96j' 0 3Bx21
.....................................................................................................s TOTAL KV; KVA 22385.90 '24349.95 i
9580.79 TOTAL KVAR 0.92 AVERAGE POWEt FACTOR 1018.73 1 TOTAL LOAD CURRENT
-{
1 l' 0.51 ] AMPACITY FACTOR J' 1 NOTES: SEE SHEET 7
- i. 1 a
1
' * =
b_______________.__________.____.___________________ _ _ _ _ _ _ _ __ ___ _ _
t/ i I AT!ON Sheet 10 of 82 J M 3 1 1989 i STARTUP UNIT' TRIP NORMAL SHDN
' NORMAL OPERATION LF OC KW KVA l LF CC KW KVA l LF OC KW KVA l LF OC KW KVA
.......l......
.......l...... ...._..l......
l l l 49 1 429.39 493.55l0.49 1 429.39 493.55j0.49 1 429.39 493.55l0;49 1 429.39 493.55 l l , l y 2076.49 2307.21
.00 1 6921.65 7690.72l0.30 1 2076.49 2307.21l1.00 0 0.00 0.00l0.30 1 l l l 392.47 436.08l0.30 1- 356.79 396.43l0.33 1 392.47 436.08 .30' 1 356.79 396.43l0.33 1
- l l 638.08j1.00 1 638.08l1.00 1 561.51 638.08l1.00 1 561.51 638.08
.00 1 561.51 561.51 l l l
.00 1 3533.68 3926.31l1.00 1 3333.63 3926.31l1.00 1 3533.68 3926.31 3533.68 3926.31l1.00 1 l l i 3533.69 3926.3: l1.00 0 0.00 0.00 0.00l1.00
.00 1 3533.69 3926.32l1.00 0 0.00 l ! l 1587.24 1537.24l1.00 1 1587.24 1587.24
.00 1 1587.24 1587.24 j 1.00 1 1587.24 1587.24l1.00 1
! l l 305.74 343.53l0.31 1 305.74 343-53l0.31 1 305.74 343.53 L31 1 305.74 343.53l0.31 1 l ! I 1587.24 1587.24l1.00 1 1587.24 1587.24l1.00 1 1587.24 158' 24 1.00 1 1587.24 1587.24l1.00 1 l l l 0.00l1.00 0 0.00 0.00l1.00 1 561.51 638.08 1.00 0 0.00 0.00l1.00 0 0.00
! l l 3.45 1 471.40 548.14l0.44 1 460.93 535.97l0.45 1 471.40 548.14j0.45 1 471.40 548.14 19288.33 20855.12 10934.69 11603.93 12366.68 13186.99 11506.67 12246.84' 3833.78 4578.43 4193.05 7930.73 0.42 0.94 0.94 0.94 872.52 485.47 551.70 512.37 0.44 0.24 0.28 0.26 i Si
! APERTURE CARD
/
Also Availabic On j Apertbre Card 8003200191-h -
i q i; h A P.P E N 0 1 X 8 ' [V
.( ELECTRIC -L0AD- TA It i
i 4 9 l 5 WITCH GEAR: 20A15 (CLA$$ 1E) 1160V'1200A y ORAWING No: E3 RATED LOAD i EFF PT l KW KVA . FLi REV EQUIF NO ERKR N0 LOAD hP RFM i ... ........ ....... ........................ ...... .... .... .... ; ....... ....... ......a I
! 0 -2AP39 152-1502 CR0 WiR FF 250.0 1800 0.83 0.90 l 211.93 235.43 '33.9 l
0 2A?37 152-1501 CORE SPRAY PP 600.0 3600 0.93 0.27 l 481.29 553.21 79.8: 0 20X30 152 1505 CL 1E LC 20513
- 0.89 l 1175.57 1351.79 137.s 1
- 0 2AF35 - 152 1506 RHR FUM? 2000.0 !!00 0.93 2.91 l 1601.30 1762.97 254.4 i
l 1 2A?42 152 1537 H? 5VCE WiR PP 1000,0 1300 0.93 0.90 l 802.15 891.23 123.a 0
.........................................................................................................a i' TOTAL KW: KVA 4275.21 4"90.92 4
w TOTAL KVAR 2162.23 l !' AVERAGE POWER F.*CTOR 0.30 -l 1 ( TOTAL LOAD CURRENT 664.91 l l ) 0.55 i AMPACITY FACIOR 1> 4 n 3 ( I x l s
i i l 4 l I ULAV10N Sheet 11 of 82 J AN 31 1989 NORMAL OPERAi!0N STARTUP UNIT TRI? NORMAL SHON e....................................................................................................................... . LF OC XW KVA l LF CC KW KVA l LF OC KW XVA l LF OC KW KVA
- : l l
) l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
, i i a
I f : 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l L : 0.33 1 337.91 135.89 l 0.33 1 387.91 135.89 l 0. 3 /. 1 399.69 119.0) 0.31 1 399.t9 119.09 l l l ) : 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 1 1601.30 17t2.97 l 1.00 1 It01.30 1762.97 ) l -1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
!!7.9i 135.39 337.91 135.19 2303.99 2111.ti 2^03.19 2211.t!
193.75 193.75 935.72 935.72 0.39 0.89 0.91 0.91 60.50 60.50 306.95 306.95 0.05 0.05 0.26 0.26 Si APERTURE CARD Mso M3h?'ard p.perture L j . 1 I l 890320019{_gg _ E - - - - - - - - .- . - _ . - - _ _ _ _ . _ _ _ _ _ - _ _ . _ _ _ _ _ _
yqq- - ( l
'i l i
l A P P E N D 1 X. "N s ELECTRIC- L0AD iAG SWITCH GEAR: 20A16 (CLASS 1E) 4160V 1200A t DRAWING No: E8 ) t RATED LOAD i t REV EQUIP N0 ERKR NO LOAD HP FPM EFF FF l KW KVA FLA i- ! 0 2EP35 152-1602 RHR FUMP 2000.0 1800 0.93 0.91 l 1604.30 1762.97 254.0 f 0.35 : 0 0A?57 152-1603 EMERG SVCE WTR FF 250.0 1200 0.91 206.95 241.12- 34.9 0 2BF37 152-1606 CORE SPRAY PP 600.0 3600 0.93 0.L7 l 481.29 553.21 79 t I I - - - 0.36 : 1041.10 1206.86- 167.2 l 0 20X31 152-1605 CL 1E LC 20S11 ! 0 2BP&2 152-1607 h? SVCE WTR F? 1000.0 1800 0.93 0.90 ; 202.15 591.23 123.G 152 160) EMERG SVCE W 505is F 250.0 1200 0.71 2.55 201.95 241.12 314 0 CAF!t3 ll [i ........................................................................................................./ TOTAL KW: KVA 1339.04 4890.56 f s 2256.18 TOTAL KVAR 1 0.39 l 4 AVERAGE P0WER FACTOR
$. 678.74 TOTAL LOA 0 CURRENT 3
1 0.57 , s AMPACITY FACTOR q. I
\
l. I 1 3 i l 4
.i i
i g men. =2*
, Dw p L A T'i 0 N Sheet 12 of 82 J Mt 3 1 1989 NOTt,1AL OPERAi!ON SIARTUP UNIT TRIP NOR!1AL 5HDN c...................................................... ............................................................... ! - LF 00' KW .KVA l LF 00 KW KVA I LF OC KW KVA : LF 00 KW KVA ; .... .. ....... ....... ; .... .. ........ ....... l .... .. ....... ....... ; .... .. ....... .......
l l l 1.00 0 0.00 .0.00 l 1.00 0 0.00 0.00 t 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l 'l'
! ' 1. 00 0 - 0.00 0.00 1 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 l - 00 0 0 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 0.!: '
. 333..: 3!7.50 : 0.31 1 !!i.03 411.71 l 0.31 1 356.0! 411.72 l 0.31 1 35&,03 111.72
, 1.03 0 0.00 0.00 i 1.00 0 0.00 0.00-l 1.00 0 0.00 0.00 l 1.00 0 0.00 0,00
; l ;
; 1.0 0 0.00 0.00 1.00 0 ').00 0.00 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 p.....................................................-................................. ...............................
333.25 337.50 354.03 411.72 354.03 411.72 354.03 411.72 197.74 210.10 240.10 210.10 0.36 0.86 0.56 0.36 53.78 57.11 57.11 57.14 0.01 0.05 0.05 0.05 1 SI APERTURE i l CARD 4 Also Avaib,bic On l Aperture Card i 1 l l l l 8 9 0 3 2 0 0191 - GG u a
- b. %, 1 1' 1 t
I APPENDIX {D g %, j e u
-J ELECTRIC L0A0 i &.
Il, i }. i i j !W!iCH GEAR: 20A17 (CLASS 1E) f 4160V 1200A ORAWING No: E3 .)
)
j 3ATED LOAD
........................................................................................................c h REV EQUIP NO ERKR NO LCAD HP RPM EFF FF l KW KVA- FL
... ........ ....... ........................ ...... .... .... .... ; ....... ....... ....a d :
1 0 2CP35 152 1702 RHR PUMP 2000.0 1800 0.93 0.91 l 1604.30 1762.97 251; 1 0 20F37 152-1703 CORE $ FRAY FP 600.0 3600 0.93 0.37 l &!1.2) 553.21 79. i' ' 0 20X32 152-1705 CL 1E LC 20312 - - - 0.86 1019.67 1212.22 168; . i l 0 CEF57 152 1706 ENERG SVCE WIR FF 250.0 1200 0.91 0.35 ; 201.95 241.12 31;
. 1
-) . i j 0 2CP42 152-1707 H? SVCE WTR PP 1000.0 1800 0.93 0.90 : 802.15 391.23' 123) i l l 0 03F163 152-1709 Eit'RG $VCE W B03fR P 250.0 1200 0.91 0.85 ; 204.95 241.12 30
. {+h .................................................... ....................................................e j- TOTAL KW; KVA 4317.31 4396.26 i
TOTAL KVAR 2252.62 i i j AVERAGE POWER FACTOR 0.39 s I 4 TOTAL LOAD CURRENT $79.53 j AM?ACITY FACTOR 0.57 i i
}
s 1 '} a l b i 4 i i M L_-_.-.._-. _ _ _ . __ _ ._
.r-1 l
O ;
@ULATION Sheet 13 of 82 l J AN 3 1 198; i
NORMAL CF5RAi!CN STARIUP Udif TRIP NORMAL SFDN l 3......................................................................................................................... 3 !~ LF 00 KW KVA l LF OC KW KVA : LF OC K'J KVA l LF OC KW KVA 3 , ; ,.... .. ....... ....... .... .. ....... ....... ; .... .. ....... ....... ; .... .. ....... ....... j
, , i !
M l 1.00 0 0.00 0.00 ; 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 I
, 1 i
B5. l 1.00 0 0.00 0.00 ! 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 1 I i t la ! 9.62 1 440.36 512.63 l 0.42 1 u0.36 512.63 ! 0.42 1 440.36 512.63 l 0.42 1 410.86 512.63
-l l l M ! 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 , 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 j
; : : )
65 l- 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 1 302.15 $91.21 1.00 1 802.15 391.23 l ; ; 80 l 1.00 0 0.00 0.00 l 1.00 'O 0.00 0.00
- 1. 0'; O 0.C0 0.00 1.00 0 0.00 0.00 n.........................................................................................................................
440.36 512.63 440.!t 512.53 12:3.01 1t02.75 1213.01 1402.75 l 261.60 261.60 650.10 650.10 0.16 0.86 0.39 0.89 71.15 7'.15 194.68 191.68 0.06 0.06 0.16 0.16 5 e i SI APERTURE CARD 1 l Also Available On l Aperture Card L . _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . . . . _ _ _ _ _ _ _ . . _ _ _ _ .- _ . . . _ . _ 8903200191-(, - j
J 'mt . *- eew, APPENOIX ELECTRIC L0AD TA
! WITCH GEAR: 20A13 (CLASS.1E) 4160V 1200A ORAWING No: E3 RATED LOA)
.......................................................................................................q REV EQUIP NO BRKR NO LOAD HP RPM Eff PF l KW KVA @
... ........ ....... ........................ ...... .... .... .... ....... ....... ...q
) l l
0 20P35 152-1802 RHR PUMP 2000.0 1500 0.93 0.91' l 1604.30 1762.97 256 l 0 2DP37 152 1303 CORE SPRAY PP 600.0 3600 0.93 0.87 ; 181.29 553.21 7f U 20P&2 152-1801 HP SVCE WTR PP 1000.0 1100 0.93 0.90 ! 102.15 391.23 12 i l f' 0 2BP39 152-13C5 CRD WIR PP 250.0 1800 0.83 0.90 l 211.93 .235.43 3l
. l !
0 20X33 152 1106 CL 1E LC 20213
- 0.87 l 900.95 1042.32 14(
.......................................................................................................)
i TOTAL KW: KVA 4000.62 4431.67 TOTAL KVAR 2020.00 i.
! AVERAGE POWER FACTOR 0.89 l ! TOTAL LOAD CURRENT 621.99 AMPACliY FACTOR 0.52 I
i .t A - i ! l. 1 I i-i f A I g . i
'W M il_______.______ _. __._ _
p m. D 8ULATION Sheet 14 of 82 J AN 31 1989
'I N0L ' OPERATION STARTUP UNIT TRIP NOR.".AL $ HON A ! LF CC KW KVA l LF OC KW KVA l LF OC KW KVA l LF 00 KW KVA
, , i 46 . l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 o .
. I l 1 0
.85 l 1.00 0 0. C's 0.00 l 1.00 0 0.00 0.00 . 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 l .65 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 . 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 .99 l 1.00 1 211.93' 235 &! l 1.00 1 211.93 235.43 l 1.00 1 211.93 235.48 l 1.00 1 211.93 235.48' l ; l l .73 : 0.52 1 463.49 53!.49 l 0.52 1 463.49 533.19 : 0.52 1 463.49 538.19 l 0.52 1 663.&9 538.49 1 c30.12 73.63 1 0.42 U3.t3 630.42 773.63 630.42 773.63 363.15 363.15 368.15 363.15 0.!! 0.88 0.88 0.88 107.37 107.37 107.37 107.37 0.09 0.09 0.09 0.09
! SI APERTURE CARD ,
Also Available On Aperture Card 8903200191-/A -. -
v'm
'8
~6 APPEND 1X .6 4 ?./ ELECTRIC L0AD TA
)
l
.f 5WIICH cEAR: 30A15 (CLASS 1E) l 4160V 1200A I
'ORAWING No: E12 RATED LOAD
.........................................................................................................si I
?EV EQUIP NO BRKR NO LOAD HP' RPM EFF FFL : KW KVA FL(
l ....... . . . . . . . . . . . . . < ) . ........................ l h 0 OAX26 152 1502 EMER CL TWR LC 00394 0.19 l 173.03 200.09 27.1 i .: E O 3AP37 152 1504 CORE 5 FRAY PP 600.0 3600 C.93 0.37 l 431.29 553.21 71. ( O 3CX30 152-1505 CL 1E LC 30310 0.37 l 565.31 644.86 39.1 L - 0 3AF35 152-1506 RHR FUMP 2000.0 1800 0.93 0.91 l 1604.30 1762.97 254. l 0 3AF42 152-15C7 HP.SVCE WTR FP 1000.0 1800 0.93 0.90 l 802.15 191.23 123. jr TOTAL KW: KVA 3631.13 4050.00 TOTAL KVAR 1793.72 AVERAGE POWER FACTOR 0.90 TOTAL LOAD CURRENT 562.08 AMPACITY FACIOR 0.47 7,
/ _j
~
h.
-m
q M.L A T I O N Sheet 15 of 82 i J AN 3 1 1909 ! 4 t I 1 N0fdAL OfERATION STARTUP UNIT TRIP NORMAL 5 HON 2.. ....................................,................................................................................. LF CC kW KVA LF OC .< W KVA : LF OC KW KVA l LF GC kW KVA e : .... .. ....... ....... ; .... .. ....... ....... .... .. ....... ....... ; .... .. ....... ....... h
, . s j
. . . i 16.01 : 0.01 1 16.01 l 0.08 1
? l 0.03 1 14.25 11.25 16.01 O.C3 1 14.25 14.25 16.01
; ; i 8 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 1.:0 0 0.00 0.00 l 1.00 0 : 00
. 0.00 li
, . . i S
. . . a r
0 , 0.46 1 218.74 2!$.fi 0. a 1 213.74 255.91 . 0.47 1 065.70 305.40 l 0.47 1 2:5.70 305.40 ;
. . . . t
. . . . y 6 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 1.00 1 1601.30 17'2.97 l 1.00 1 It01.30 1762.97
{o s a: 1.c0 0 0.00 0.c0 : 1.00 0 0.00 0.00 l 1.00 0 0.00 0.c0 l 1.00 0 0.00 0.00 j
- 32.n 3:1.91 252.99 3:1.91 13 1.:5 m 3.36 138. 25 2083.36 l<
iss.27 148.27 388.32 383.32 F W 0.37 0.s7 0.90 0.90 ;. 41.90 41.90 239.14 2!9.14 ! l n' 0.03 0.03 0.24 0.24 O 4
- l q
a
. -l
! SI 0 APERTURE N CARD l H
- ^?l2miable .- on ,
} nrd l l ! ! 1 1 8908200191.V7 _
]y km.__m- . . . .
l [ APPEND 1X m
.A ELECTRIC L0AD TA
[
$ WITCH GEAR: 30A16 (CLASS 1E) 4160V 1200A ORAWING No: E!2 RATED LOAD 4.
.. ....................................................................................................q l REV EQUIP NO 8FKR NO LOAD HP RPM EFF FF l ,K W KVA FL 1, ; ... ........ ....... ........................ ...... .... .... .... , ....... ........ ....q y: l l; . 0 3BP35 152-1602 RHR PUMP 2000.0 1800 0.93 0.91 l 1604.30 1762.97 25&c 3l1 1,
0 3AP39 152 1603 CR0 WTR PP 250.0 1300 0.88 0.90 l 211.93 235.LSL 33j 1 O 3BP37 152 1604 CORE SPRAY FP 600.0 3600 0.93 0.87-l 481.29 553.21 79 s k 0 30I31 152-1605 CL 1E LC 305:1 . - - 0.67 l 956.95 1117.95 155) j 1000.0 1800 0.93 0.90 l l 802.15 391.23 128.
- i. 0 3BP&2 152 1607 HP $VCE WIR PP l
! g5 1.00 ! 265.40. 265.10' .36-(1 0, 03X26 152-1609 EMER CL TWR LC 00395 I
J
- I 10iAL XW; KVA 4322.02 4793.39
).
2072.85
- l. TOTAL KVAR j l AVERAGE POWER FACTOR 0.90 i
1 2 665.26 j TOTAL LCAO CURRENT AM?ACIU FACTOR 0.55 j! , a i ?< [4 2
) i f f 4- : ) $ )
1 89 V s ( q l l a j .. ~ _ _ _ _ _ _ _ _ _ . _ _ _ . _ _ _ _ . _ _ _ . . _ _ _ _ . _ . _ _ _ _ _ _ _ ].
;i; ,
IL'AT_IO' N Sheet 16 of 62 J Ati 31 1989 STARTUP UNIT TRIP NORMAL 5 HON NORMAL OPERATION n.................. ....................................................................................................
-l LF OC KW KVA : LF 0C Ku KVA- l LF OC XW KVA ! LF OC KW ?.VA
> ;i : .... .. ....... ....... : l l
- l 0.00'l 1.00 0 0.00 l 1.00 0 0.00 ; 1.00 0 0.00 0.00 i' l 1.00 0 0.00 0.00 0.00
! l l 1
)- l 1.00 1 211.93 235.s8 l 1.00 1 211.93. 235.48 l 1.00 1 211.93 235.48 : 1.00 1 211.93 235.48
; l 1 : l h , I- 1.00. 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 ; 1.00 0 0.00 0.00 w : : .
b !- 0.30 1 237.03 329.93 l 0.32 1 306.22- 351.98 ; 0.32 1 306.22 351.93 : 0.32 1 3:6.22 351.98 i l
! ! ! l
} ; 1.00 0' O 00 0.00 l 1.00 0 0.00 0.00 ; 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
; ; l .j 47.77 : 0.13 1 47.77 : 0.18 1 17.77 47.77 ; 0.18 1 17.77 47.77
$' l 0.13 1 47.77 47.77 m...... .................................................................................................................
'546.78 607.77 565.92 629.72 565.92 629.72 565.92 629.72 265.35 276.20 276.20 276.20 O.90 0.90 0.90 0.10 37.40 87.40 j 34.35 87.40 0.07 0.07 0.07 0.07
.i 1
I SI APERTURE l CARD > 3 Also Avaignble On < Aperttire Card l 890320019(-70
- g. _ .
p
%a* mw
!l l 4. .q . APPENDIX n h 3w.. . h"tj ' ELECTRIC L 0 A D . IT ( e Il 4- i o B I' B-jy $ WITCH GEAR: 30A17 (CLASS 1E) '- (160V 1200A ORAWING No: E12 RATED LOAD-
........................................................................................................g REV EQUIP NO BEKR NO LOAD HP RFM Eff Ff ! KW KVA f(
s , j. 0 3CF35 152-1702 RHR PUMP 2000.0 1800- 0.93 0.91 ! 1604.30 1762.97 -254;
' I l- 0 3CP37 152 1703 CCRE SPRAY PP 600.0 3600 0.93 0.87 481.29 553.21 79q
'l . - - - 0.89 685.28 772.01 107j L! O 30X32 152-17C5 CL 1E LC 30B12 5 j 0 3SP39 152-1706 CR0 WTR F? 250.0 1500 0.83 0.90 l !!!.93 235.43 33< 0 3CF42 152-1707 H? SVCE WTR PP 1000.0 1800 C 93 0.90 802.15 891.23 123 1, . 3731.95 I.213.05 I A
-f)
TOTAL KW: KVA 1 1350.38
- TOTAL KVAR d 0.90
- AVERAGE F0WER FACIOR 1
584.71 TOTAL LOAD CURRENT 0.49 i APJACITY FACTOR 3 -j i 1
]
1
)'
5 l 1 y q
.i I .
d ., i 9 l
D. B U L'A T ! O N Sheet 17 of 82 J A tl 3 1 1S59 STARTUP UNIT TRIP NORMAL $HDN NORMAL. OPERATION s l LF OC KW KVA l LF CC KW XVA l LF OC KW TVA l LF OC KW KVA
.-l .... .. ....... ....... l .... .. ....... .......
' l l l
$ l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 1.02 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l
5 l 1.00 0 0.00 0.00 , 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 4 l 0.45 1 303.33 346.49 l 0.44 1 301.52 338.79 ; 0. h 1 301.52 338.79 l 0.14 1 301.52 3!!.7) l l l ?9 l 1.00 0 0.00 0.00 'l 1.00 0 0.00 0.00 l 1.03 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 55 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.03 1 302.15 191.28 l 1.00 1 302.15 391.22 302.33 346.49 301.52 333.79 1103.67 123C.01 1103.67 1:30.01 157.98 156.18 542.93 542.99 0.89 0.89 0.90 0.90 48.09 47.02 170.71 170.71 0.04 0.04 0.11 0.14 v. g - APERTURE CARD Also available On Anere nre Card 8903200191-7) -
w 1 APPEND 1X-
.e
%./ ELEtTRIC L0AD T Ai -
.j 1
1
'1 SWITCH GEAR: 30A13 (CLASS 1E) ,
4160V 1200A / DRAWING No: E12 RATED LOAD ) REV EQUIP NO ERKR NO LOAD HP RPM EFF PF l KW KyA fg
- ....... ....... ....b i
0 30P35 152-1302 RhR PUMP 2000.0 1800 0.93 0.91 l 1604.30 1762.97 254; O 30P37 152-!B03 CORE SPRAY PP 600.0 3600 0.93 0.27 l 431.29 553.21 ~79< l 0 30P42 152 1804 H? SVCE WTR PP 1000.0 1500 0.93 0.90 l 302.15 391.21 123; l O OCX26 152-1505 EMER CL TWR LC 00896
- - - 0.33 ; 170.16 205.01 23]
l l l 0 30X33 152-1806 CL li LC 30313 - - - 0.36 l 821.97 955.97 132) Iu'*" 0 M 136 152-1!0) EMERG CLG WIR PP
........................................................................................................)
250.0 1200 0.91 0.35 l 204.95 211,12 34 TOTAL KW; KVA 4057.82 4603.23 TOTAL KVAR 2116.59 AVERAGE POWER FACTCR 0.89- . 2 ! l l 10TAL LOAD CURRENT e38.37 . ! \ ,\ AMPACITY FACTOR 0.53 1 i i I i l l i f L , g'{ ' q Na' l. f f 4 - __.._ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ . _ _
pf
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@ L A .T l' 0 'N - -Sheet,18 of 82; 3 -. J AN 31M989 4 g
- u
' . NORMAL OPERATION $fARTUP UNIT TRIP. ' NORMAL SHDN -
e........................................................................................................................ Q: LF J OC ~ ' KW - .'KVA :' LF; OC- KW 'KVA 1 LF 00 .KW KVA ! :LF. OC KW~ .KVA - y B: ^
~
1u s il01.0010 0.00 0.00 l '1.00 'O 0.00 0.00 ; 1.00. 0 - 0.00 0.0041:-1.00 0- 0.00- -0.00. l 1
" ik , 11 l El-J l'00 . ,O. ~
0.00 - 0.00. E 1.00 0 0.00; 0.00 - l 1.00 0 'O.00- 0.00 1'1.00 0. .0.00 J0.00
;~ ;' ;- l.
} 4liliOO ! 0 ' O.00- '0.00'.l';1.00LO 0.00 0.00 l l'.00. 0 . 0.00 0.00 ! -1.00 0
-0.00; 0.00
- ,? : 'l ll :
W-l!0.31?2 1 1.70; 2.05 -'! 10.01' 1 1.70 2.05 ' 0.01 .1 1.70 2.05 ' l - 0.01 1 11.70 ' 2.05i t ! .l l P'jo 1.40 c1 '329.99 333.71' l 0.40. 1 -329.99 333.71 l' O.40 1 329.99- 313.71 ; 0.40 1. 329.99' -333.71 F .: . I b; sliOO- 0 ,0.00 0.00 : -1.00 0
~
0.00' l- 1.00 0- 0.00' O.00 .l 1.00 0-- 0.00 'O.00 - 0.00 . 3................................................................... ....................................................
~ 331.69 :325.76 331.69. '385.76 ~ 331.69 335.76' 331.69 333.76 .
196.96' .196,96 ~ 196.96- 196.96
.' 0. 36 - 0.86 0.86 0.86 53.54 53.54 . 53.51 53.54 7 0.041 -0.0L 0.04 0.04 SI APERTURE CARD g C Also available On A.neture Card u 890s200181- %
7- _- -_ - - _ - - _ - _ _- _-_ _ _ _ .
i
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APPEND 1X
. ELECTRIC' L0AD T A.
SWITCH GEAR: 00A03B (NON-CLASS 1E). 13800V 2000A DRAWING No: El i RATED LOAD q
................................................................. ......................................e REV EQUIP NO ERKR NO LOAD HP RPM EFF FF l KW KVA ft l ,
I O 00A07 252-0302 CLG TWR SWG A
- 0.99 l 8266.74 3348.22 3494 l
0 OAP33 252-0!03 CLG TWR PP 5000.0 260 0.97 '1.00 l 33&5.36 3315.36 168h l 0 OEP83 252-0301 CLG TWR PP 5000.0 260 0.97 1.00 l 3845.36 3!45.36' 163i l 0 0,20?07 252 305A SCN WH P & LC 55A.6A - -
- 0.91 l 1673.13 1832.99 . 76; O 37A.B!A 252-3052 CL TWR LC.MCC E57.63 - - -
0.90 l 1718.19 1909.10 79 TOTAL KW; KVA 19347.13 19544.71 ) TOTAL KVAR 2772.27 i. .f 1 i AVERAGE POWER FACTOR 0.99 TOTAL LOAD CURRENT 817.69 l , a
- j. AMPACITY FACTOR 0.41 c
o + k,./ NOTES: APPLICABLE FOR EITHER ONF. OR BOTH OFFSITE POWER SOURCES. w k-__,.__._____ __. .. _ _ _ _ _ _ _ _ _ _ . _ . _ _ - _ _ . _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . . . __ _ _ _ _ _ _ . _ _ _ _ . - . - _ _ . _ . - - _ _ . _ . _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - -
ULATION Sheet 19 of 82 - J AN 31 1989 1 1 ( NORMAL 0FERATION t.0CA(0-1^ MIN) LOCA()10 MIN) LONG 1ERM SHDN - . l LF OC KW XVA l LF OC KW KVA LF OC KW KVA l LF OC KW KVA p ; .... .. ....... ....... ; .... .. ....... ....... l .... .. ....... ....... , .... .. ....... ....... ) i 1.00 1 3264.71 !!48.2? l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00'l 1.00 0 0.00 0.00 9 l 1.00 1 3245.!t ?!45.36 l 1.00 0 0.00' O.00 l 1.00 0 0,00 0.00 l 1.00 0 0.00 0.00 l l , 9 1.00 1 3345.36 3845.36 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 i 1.00 0 0.00 0.00 l l l l r E l 0.71 1 11!!.17 1305.6a l 0.14 1 234.29 257.;6 l 0.11 1 234.29 257.46 l 0.13 1 217.55 239.07
.i . . . ,
7 : 0.97 1 lt66.u 1351.32 l 0.05 1 B5.91 95.16 . 0.05 1 85.91 95.16 l 0.02 1 36.36 38.15 0 13310.27 !!979.14 320.20 352.90 320.20 352.?0 251.91 277.21 2526.13 143.36 148.36 115.73 0.99 0.91 0.91 0.91 r 791.03 14.76 16.76 11.60 0.10 0.01 0.01 0.01 f f Sg , ;[ APERTURE CARD Ahnyu;lnMc Un A nc rtu r" Cu .. 8903200191 73 -
if - APPEND 1X ,? ELECTRIC L0AD TA i lj j. .j . .t. I a 1 SWITCH GEAR: 00A03C (NON Cf. ASS 1E) 13500V 2000A t ORAWING No: El ]'q RATED LOAD HP RPM EFF PF KW KVA Fi
' REV EQUIP NO BRXR NO LOAD
....... ....... ...J 1
0 OCP38 252-0315 CLG TWR PP 5000.0 260 0.97 1.00 l 3845.36 3845.36 ' 169 l
- - - 0.85 l 125.00 500.00 25 0 XFMR $ 252-0316 L & P XfMR t 5 ,
A 00A08 252-0317 CLG TWR $W3 B 0.99 : .3268.03 8351.6O 34f' P07,556B 252 314A SCN WH P ALC 353.B6B 0.91 1222.34 1313.23 5% O O B7B,BSB 252-31&B CL TWR LC f.CC 00B58 0.90 l 1992.96 2214.40 9{
......................................................................................................)
TOTAL KW; KVA 15753.7!. 16030.09 f y -
" 2963.70 TOTAL KVAR l
3 ' 0.93 l AVERAGE POWER FACTOR 2 670.65 i i ' TOTAL LOAD CURRENT i 0.34
+ AMPACITY FACTOR l f l $ 1 1
l' ' i i A. f .l
.j.
n ,
?
I A 4 5
) !
A l-j .-" l NOTES: SEE SHEET 19 i
*w
-m D
BULATION Sheet 20 of 82 J A!! 31 1989 LOCA(0-10 MIN) LOCA()10 MIN) LONG TEiiM $ HON NORMAL OPERATION LF OC KW KVA LF OC KW KVA l LF OC KW KVA A- l LF OC KW KVA l l l l 19 l 1.00 1 3!45.36 3345.36 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 ' O.00 l l l O.50 1 212.50 250.00 l 3.50 1 212.50 250.00 l 0.50 1 212.50 250.00 l 0.50 1 212.50 250.00 .92 . 0.00 0.00 l 1.00 0 0.00 0.00 ; 1.00 0 0.00 0.00 . 41 - l 1.00 1 826!.03 8351.60 l 1.00 0 ,
. . ~
.20 : 0.30 1 977.37 1074.53 l 0.15 1 133.35 201.43 l 0.15 1 133.35 201.43 . 0.12 1 146.63 161.19 l l l .61 : 0.99 1 1973.03 2192.26 l 0.03 1 59.79 e6.43 l 0.03 1 59.79 6e.13 l 0.01 1 19.93 22.14 15 m .a m 15.52 a!.a 516.x 455.a 5u.n an t1 in. 51 214.13 244.13 208.13 2710.93 0.38 0.S! 0.38 0.93 6&9.12 21.63 21.63 18.09 0.01 0.01 0.01 0.32 SI APERTURE CARD A!so avajg,q, g A nr.-% c.(f.6,
~
89032001 --
js f
,- APPEND!X s (; ,'
ELECTRIC L0AD TA SWITCH GEAR: 00A07 (NON-CLASS 1E) 13800V 1200A ORAWING No: E5010 RATED LOAD REV EQUIP NO ERKR NO LOAD HP RPM Eff PF ! KW KVA- FL
... ........ ....... .... ................... ...... .... .... .... ; ....... ....... . . . . .\
i u 0 OAP208 252-0701 CLG TWR LIFT FP 7000.0 260 0.97 1.00 l 5383.51 5383.51 235.' 0 00X42 252-702L CLG TWR LC 003106 - -
- 0.91 l 2777.60 3052.23 127.,
l 0 COXi4 252-702R MCC 002101 - - - 0.36 l 103.63 120.50 5.; 4 ........................................................................................................q t I TOTAL KW; KVA 3264.74 8370.59 I 1326.94 j TOTAL KVAR i 0.99
- (s" AVERAGE PO'4ER FACIOR 4 v j 1
1 350.20 4 TOTAL LOAD CURRENT l AMPACITY FACTOR 0.29 1 l
-l l
i f i l 1 ( 1 l u 9 i a 1 i
,! /. !
**'#' NOTES: SEE SHEET 19 n
!i l l\ l &. 1*f ow* 1
%g,.
- _ - - _ _ _ _ _ 1
F-k' )ULATION Sheet 21 of 82 J ail 31.1989 N0ftr.AL OPE.ATION R LOCAL 0-11 $!C) LOCA()11SEC) LONG TE91 SHDN 1 l LF OC .(W KVA l LF OC KW KVA l LF OC KW KVA l LF CC KW KVA 3 ; .... .. ....... ....... ; .... .. ....... ....... : l f 1 . { 1 . 17 l 1.00 1 !!33.51 5383.51 l 1.00 1 5333.51 5333.51 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 90 l 1.00 1 0777.60 3052.31 : 1.00 1 2777.60 3052.31 : 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l kl 0.68 1 70.47 31.94 l 0.68 1 70.67 31.94 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 1231.!! !!!!. 75 1231.53 3334.75 0.00 0.00 0.00 0.00 1307.33 1307.33 0.00 0.00 0.99 0.39 0.00 0.00 US.70 318.70 0.00 0.00 0.29 0.29 0.00 0.00
.<~
SI APERTURE CARD i l Also availaWe On w.~ ,,,.rord 1 890 3 zoD191- 75 _
. ~ m APPEND 1X h ELECTRIC LOAD TA{
4,_,/-
$ WITCH GEAR: 00A03 (NON-CLASS 1E)
! 138001 1200A DRAWING No: E5010 l i RATED LOAD
........................................................................................................a i' REY EQUIP NO ERKR NO LOAD HP RPM - EFF PF ! KW KVA FW
... ........ ...... ........................ ...... .... ..... .... ; ....... ....... .....e 0 OSP208 252-0E01 CLG TWR LIFT PP 7000.0 260 0.97 1.00 ; 5383.51 5333.51 235.
l 0 00X43 '252-802L CLG TWR LC 00B107 0.91 l 2777.60 3352.28 127. l 4 0- 00X45 252 802R MCC 003109
- - - 0.86 l 106.97 124.38 5.
t e ............................................- ........................................................e
! TOTAL KW; KVA 8268.03 S m .20 3
TOTAL KVAR 1323.91 0.99 l fn AVERAGE POWER FACIOR t- (,, TOTAL LOAD CURRENT 350.35 j AKPACITY FACIOR .0.29 b 'k .t
- )
1 '}, j ;
- .i -
l' s! 1 gj . Lt l5 NDTES: SEE SHEET 19 'w w . i- l d_I _ ____ _ ._ _ _ . _ _ _ -_ _ _ _ _
.j
O L A T.I o N sheet 22 of 82 i J AN 31 1989 NOR.1AL OPERATI:N LOCAL 0 11 SEC) LOCA()11$EC) LONG TERM SHON n................... ................................................................................... ................ i l LF OC KW KVA : LF OC KW KVA : LF OC KW KVA l LF OC KW XVA r l .... .. ....... ....... ; .... .. ....... ....... l .... .. ....... ....... ; .... .. ....... ....... l l l l 3 7 l 1.00 1 5333.51 5333.5! l 1 00 1 5383.51 5333.51 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
,i 4 1.00 1 2777.60 !C52.31 l 1.00 1 2777.60 3052.31 : 1.0C 0 0.00 0.00 l 1.00 0 0.00 0.00
)] l 0.65 1 r 69.53 !0.85 l 0.65 1 69.53 50.85 l 1.0C 0 0.00 0.00 l 1.00 0 0.00 0.00 i i 3......................................................................................................................... 1 3230.64 3333.73 3230.64 3333.73 0.00 0.00 0.00 0.00 l
!!06.7! 1306.73 0.00 0.00 C.99 0.99 0.00 0.C0 313.:t 348.66 0.00 0.00 0.29 0.29 0.00 0.00 1
i 1 SI 'i APERTURE - CARD Also Available On Aperture Card e i l ! 8908200191 ^f6 a
]%(b _ a . . _ ..f.:, s 4 4 , ij j ' f' " ! .;1
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4 :, t ; . , ,W 1.; , . jW C n. P; '7.-">_. APPEN01X
- c. y ELECTRlC LOAD T A:
- pq(9
,0 ) : w^, 3 ..y . - - $ ;? Li y y F -5 witch GEAR: 20A01 (NON. CLASS 1E) '7' h 13800V 2000A
'ORAWING Nor E5
},} - .7L- RATED LOAD.
,L 4
72 ; HP . RPM'- CFF FF l- KW .' KVA- FL V, REV EQUIP NO BRKR NO LOAD t . l
-0.55-l fis 0 2AX21 '252-0102 GEN AREA LC 20601A 978.13. 1150.74 ! &8.
l v ', 0 2AX2s' '252 0103 REACT AREA LC 20B0&A - -
- 0.89 l 303.70 903.03- 37. :
l 0 2AP02L 252-0104 CIRC WTR PP 2000.0 200 0.94 1.00 . l 1537.23 1587.23. : 69.} s ; e i (? f
- 9. i 0 2AF04 252-010? $VCE WiR FP, 700.0 900 0.95 0.83 l 519.63- 621.64 27.j
! .j
[ , P 1; 0- 2AP03 252-0103 CONO.FF 4500.0 1200 0.95 0.90 l . 3533.68 3926.31 171f
.i
- 1) .
T ' "r 0 '0AX34- 252 0109 FLANT SvCE LC 003143
- 0.39 l 1203.46 1352.20 5 6.'
t t ,
,. a.
3 m .,
- . . 0.86~' -1111,L5-.1300.52- 54.!
f 1 0 2AX22 252 01'10 TURB AREA LC 20302A 0 00X523 252-0111 ADMIN & MISC BLOG
- 0.85 l 2762.50 3250.00- 135.'
I- .. . f 0- 2AG04. 252-0112 REACT RECIRC MG-5ET 9000.0 1200 0.97 0.90 6921.65 7690.72' 336
- a. ........................................................................................................ '
9 19&58.48 21597.23 I TOTAL'KW: KVA l. i
' TOTAL KVAR.
9370.59- '!
-AVERAGE POWER FACTOR 0.90 y'.
i
' TOTAL LOAD CURRENT-403.56 1
!l .' , 1 AMPACITY FACTOR 0.45 L u a
- y. .-
s
)
o L , i l i I T, c s
'li aew . l
._ _.-_--- _ - _ _ _ - . _ _ _ _ . _ _ _ . _ _ _ - _ _ _ - ____ D
pm -
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py
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= Sheet 23.of 82 k A-T !)O N: -
J AN 3f119891 g if y
'ORtiALOP!RA'!0N; N LOCA (12 SEC 10 MIN)' LOCA()10 MIN)'. LONG TEM $ HON I RLF- OC ~ : XW LKVA LF : .00 - KW : kVA ~! LF'OC : XW . KVA -l. LF OC ~ KW .KVA-(j
;- l, .... .. ....... .....;...
L\* l 'l l R l0 0.57 11- 557.53 655.92 : 0.57 1 557.53655.92 -l 0.57 1 557.53 655.92' l' O.31 -1 303.22 '356.73.
;1 : ;
490.26- 550.25 ; 0.61 1 .490.26 550.81 l 0.61 1 190.26- 550.85 l 0.26 1.c202.96':234.79 F ! -0.61 1 l l- , l R;=:1.00 li1537.26 1537.21 ': 1.00 1 1537.21 1537.24 l.1.00 1 .1537.24 1517.21 l 1.00 .1 ^ 15!7.00 1537.24 2 !~ 1.00+1' 549.6! 621.61
!.00 1 549.63 624.61: 1 1.00 1 549.63 626.6L 1.00 !. !49.63 624.64 l !
- 11. ,
3 c i..1.00 ~ 1 3333.69 3926.32 ;' '!.00 .1 3533.69 3926.32'l 1.00 1 3533.69 -3926.32 l ' 1. 00 ' 0 0.00- 0.00
; !. l I. . .
1 il 0.53 11 .637.83 .716,66 ' 0.53 1 637.33 716,66 0.53 -1 637.33 716.66 ! 0.51 1. t13.76- e39.62
; ; l
>1.'t ; :0.57.<1 '637.52- 741.30 ;-0.57 1. 637.52. 741.30 l 0.57 1 637.52 711.30 '!- 0.24 .1 263.43 312.13
' l
- l 7 l 0.60 1 1657.50J1950.00 l 0.60 1 1657.50 1950.00 l 0.60 1 1657.50 1950.00 l' 0.60. 1 .1657.50 1950.00. .
f : l !- }8.;l 1.00 I 6921,66 7690.73 : '!.00 0 '0.00 0.00 l 1.00 0 0.00 0.00 l. 1.00 0 0.00 . 0.00.- 16572.91 !!269.57 9631.25 10530.97 9651.25 10530.97 5131.71-5594.87 7639.40 4337.09 4337.09 '2092.62-0.91 0.91 0.91 0.93 I n4.35 442.6e 4t2.6s 235.07 . 0.38- O.22 0.22- 0.12 SI L APERTURE ~ CARD r Also Available On Aperture Card y i 8 9 0 3 20 0191 "T7 - [c - - -- -
.m-%.
f? t
. APPENDIX n (*% ELECTRIC L _ O A D . . T Q-
} (.n.; .e e 1 .j
!' ITCH GEAR: 20A02 (NON CLASS 1E) 13300V 2000A ORAWING No: E5
. RATED LOAD REV EQUIP NO BRXR NO LOAD HP RPM EFF FF ! XW KVA FS
... ........ ....... ........................ ...... .... .... .... l ....... ....... ....i l
0 OAX37 252 0201 PLANT SVCE LC 008038 - - - 0.33 l 941.16 1069.50 ti;
~l 0 -2BG04 252-0203 REACT RECIRC MG SET 9000.0 1200 0.97 0.90 l 6921.65 7690.72 136<
l
. 0 2BX22 252-020& TURB AREA LC 208028 - - -
0.39 l 1057.01 1137.65 19: '1 - ., 0 23?04 252-0205 SVCE WTR F? 700.0 900 0.93 0.33 561.51 633.03 27< 0 2E?03 252-0206 COND PP L!CO.0 1200 0.95 0.90 l 3533.63 3926.31 171; l e> 0 2C?03 252-0207 C2ND PP 65C0.0 1200 0.95 C 90 l 353!.t! 2926.31 171-1 0 2B?02 252 0203 CIRC WTR FF 2000.0 200 0.96 1.00 l 1537.23 1537.23 64
- l
.' . 0 2CP04 252-0209 SVCE WTR f? 700.0 900 0.93 0.35 561.51 633.03 29 1 l j't 0 2CP02 252-0211 CIRC WTR F? 2000,0 200 0.94 1.00 1537.23 !$37.23 69
- j l
! 0 2BX24 252 0212 REACT AREA LC 20304B - - -
0.!! 954.33 1035.03 18
-l l 1 0 2BX21 252-0213 GEN AREA LC 205018 - - -
0.36 l 1066.!2 1240.19 51 TOTAL KW: KVA 22305.!1 21276.17 1 9579.19 TOTAL KVAR q.
! AVERAGE POWER FACTOR 0.92
'1 l TOTAL LOAD CURRENT 1015.64
- i
- . AMPACITY FACTOR 0.51 4
1
.kJ l
l l-1 l 1 i w% k
- _ - - - - - _ _ _ _ _ _ _ - - - ___ _ _ _ _ _ _ ___ _ _ _ _ _ _ _ _ _ _ _ - . _ _ _ __ u
- 4. P ,
I l 1 L A T l'O N Sheet 24 of 82 N J Ai4 3 1 1989 NORMAL OPERATION LocA (12 SEC - 10 MIN) LOCA()10n!NI LONG TERN SHON y...................................................................................................................... i; LF OC KW KVA 'F
. CC KW KVA : LF OC TW KVA l LF OC XW . LVA i
, ; .... .. . . . . . . . . ....... ; .... .. ....... ....... l '.... .. ....... ....... ; .... .. ....... v.......
; l l
1 0.32 1 301.17 342.21 : 0.32 1 301.17 342.21 O.22 1 301.17 312.21 l 0.28 1 263.52 299.15 l 1.00 1 6921,66 7690.73 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l l 0.57 1 602.50 676.97 l 0.57 1 602.50 676.97 l 0.57 1 o02.50 376.97 l 0.26 1 274.82 303.79
.l . 1.00 1 561.51 t33.03 l 1.00 1 561.5! 633.0! l 1.0" 1 561.51 633.03 l 1.00 1 561.51 t33.03 l l l l l 1.00 1 3533.69 3926.32 . 1.00 1 3533.69 3926.32 l 1.00 1 3533.69 3926.32 l 1.00 0 0.00 0.00 l l l l l 1.00 1 3533.69 !926.32 '
1.20 1 3533.69 392t.32 l 1.00 1 3533.69 3326.32 l 1.00 0 0.00 0.00 l l l l l 1.00 1 1537.24 1537.21 l 1.00 1 1537.24 1537.21 l 1.00 1 1537.21 1537.24 l 1.00 1 1537.21 15!7.21 l l l l l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 1.00 1 1537.24 1587.21 : 1.00 1 1537.21 1537.21 l 1.00 1 1537.21 1557.21 l 1.00 1 1537.21 1537.24 l l l l g l 0.36 1 343.74 390.61 l 0.!6 1 343.74 390.61 0.36 1 3A3.71 390.61 ; 0.17 1 162.32 181.15 l l l l l 0.46 1 490.74 570.63 l 0.46 1 190.74 570.63 l 0.46 1 490.74 570.63 l 0.21 1 224.03 260._50 19&53.18 21053.16 12511.52 13331.13 12511.52 13334.13 4660.68 l.729.97 8026.21 1673.90 1673.90 206.62 0.92 0.91 0.94 0.99 880.80 559.95 559.95 197.89
'S 1 0.41 0.23 0.23 O.10 APERTURE CARD Also Available On Aperture Card 3903200191-M
- yi*1.- '
y) ' g r; , 12 3.,
\
f~ t 5 A;P P E N D I-X : d; o . .tg E L' E C'T R ! C L'OAD.(.TA {!l -<. . ,$ p. 5 WITCH GEAR: 30A01 onN CLASS 1E)
-13800V 2000A ,
ll - ' DRAWING No: E7- ) 13 RATED LOA 0' I .................................................... ................................................... REV EQUIP NO BRKR NO LOAD HP- RPM . EFF PF 1 l ~KW KVA ~f V ... ........ ....... . . . . . . . . . . . . . . . . . . . . . . . . . 0 '3AX21 ~252-0102 GEN AREA LC'30801A
- 0.84 ! 959.02 11il.69 &7i '
,3AX2&- 252-0103 REACT AREA LC 30804A 0.!9 803.58 902.90 37 j- 0
{' 1 0 i3AP02 252-0104 CIRC WTR PP 2000,0 200- 0.91 1.00 -l 1537.23 1587.23- :69
- i. ,, ,
* .I j- 0 -3AP04 ,252-0107 SVCE WTR PP 700.0 900 0.95 0.83-l' 519.68 .621.61 27 l
- i. 4 3AP03: 252-0'103 COND PP 3926.314 171' 0
4500.0'1200 0.95 0.90]3533.68
- q. '
^-- -0 'CSX31 252-0109 PLANI SVCE LC 00511A
-0.39 '. 1113.97 1251.65 52 i
~
. 0.36, ; . 1037.92 1206.88' :M
- , -O. 3AX22 252-0110 TUR5 AREA LC 30302A '
,. 0 00X515 252 0111 ADMIN & MISC BLDG. ' 0.85 l 2762.50 3250.00- 1 1 ' 'i jf 0 3AG01- 252-0112 REACT RECIRC MG-5ET : 9000.0 1200 0.97 0.90 l 6921.65. 7690.72 .~33%
- 1 .......................................................................................................)
TOTAL'KW: KVA' 19269.23 21391.84 a 9290.18 TOTAL KVAR
' AVERAGE POWER FACTOR 0.90- j I
- i TOTAL LOAD CURRENT.
-894.97 U
( AMPACITY FACTOR - 0.45 l
}. .\
v t= , h l M ; 4 j i I i j_ .W !S L. , .d'W ' .. % .
Q K ' .[ :
~ ~ ~
F g , p ay , i l :l . ps ,'), + q_ s pg 1 ;y h sf u. i.*A h I o!N ' Sheet 25 of 82 b 'J AN 311989' d i l' r i l' NORMAL OPERATION- .LocA (12 SEc '10 MIN) LOCA()10 MIN)L LONG TERM 5HDN 4................
' l LF-f0C? AW 'KVA ~ 1l LF OC -KWL KVA' .l LF OC' KW 'KVA l -LF OC 'KW KVA
- f. [; .....
l .... .. ....... ....... . ; . . .. . .- - ....... ........ !. .... .. ....... ....... H :, . 4
~; .
j .l 0,57.1 '546Al?650,76 l 0.57 l' % !E0.57 ' 1 - 546.66'. 650.76 .l 546.64 650.76- l 0.29- 1 278.12 331.10 t l- ! !. 505.62-l 0.56 ;1l 450.00- 505.62 l 0.56 1 $1"0.56 l' 450.00 450.00 505.62 l 0.18 1 1&L.6L '162.52-l sn- ! q .
! -l 40lL-fl.00.1115$7.24 .1517.21 !i 1.00 'l' 1587.24 1587.24 l 1.CO .1' -
1587.24 1587.24 l 1.00 1 1557.24' 1587.24' l~ l~ ! 'l - ; 32 J!' 1.00' '1' 549.63' 621.64 l .1.00 -! 549.68 624.64 ! 1.00 1 519.68 t21.64 i 1.00 1 549.68 621.64 , l -l l l -]
- 71 J1
- 11.00-:1 3533.69 3924.32 1 1.00 'l 13533.69' 3926.32 i 1.00'l 3533.69 3926.32 l 1.00 0 0.00 '0.00
" ' J i;.
~
t l .1
- 3? d ; 0.63 1 701.10 733.5i - 0.63 1 701.80 788.54 l 0.63 1 701.20 713.51 .1 0.61 1 679.52 763.51 4 l l l ]
L&9:if0.63-1. 705.79 320.69 l 0.65 1- 705.79 320.69 l 0.63 1 705.79 120.69 l 0.26 :1 269.86 313.79 ij l' ! l 597 E: 1 0.60 '1 1657.50 !)$0.00-l 0.60 1 .1657.50 1950.00 1 0.60 1 1657.50 1950.00-l 0.60 1.165L 50 1950.00 l, l- l l l 0.00 ! 1.00 0 0.00 1 1.00 0
~
L38 cl 1.00 1 6921.66 7690.73.I 1.00 0 -0.00 0.00 0.00' O.00 p.......................................................................................................................... 16651.00 18368.30 9732.31 10679.66' 9732.34 10679.66 5166.56 5571.76-7719.65 4397.31 4397.31 20$$.95. 0.91 0.91 0,91 0.93 I 768.50 446.80 416.10 233.11 m 0.38 0.22 0.22 0.12 I r S1 L APERTURE . 1 CARD . I Also Available On Aperture Card L if , [{ ' 8903200191-y q - -- = - o
r _-__ u __ . _ _ - ' l i APPENDIX 3 l 3- .- i ELECTRIC L0AD TO
! WITCH GEAR: 30A02 (Now CLASS 1E) 133007 2000A ORAWING No: E7 RATED LOAD
). .......................................................................................................a REV EQUIP NO BRKR NO LOAD HP RPM EFF FF l KW KVA 9
... ......... ....... ........................ ...... .... .... .... ; ....... ....... ...c l
0 OBX37 252-0201 FLANT SVCE LC 00B03A - - - 0.87 l 676.31 1007.25 ($ O 33G04 252-0203 REACT RECIRC MG-SET 9000.0 1200 0.97 0.90 l 6921.65 7690.72 33@ 0 32X22 252-0201 TURS AREA LC 30E02B 0.90 - l 1189.29 1321.43 5{ l 0 33P01 252-0205 SVCE Win FP 700.0 900 0.93 0.33 l 561.51 633.03 21 l s 0 3BF03 252-0206 COND FF 4500.0 1200 0.95 0.90 l 3533.65 3926.31 17{ l ( 0 3CP03 252-0207 CCND FP 252-0203 CIRC WTR PP 4500.0 1200 2000.0 200 0.95 0.91 0.90 l 3533.65 19h.31 1.00 l 1537.23 1537.23 17{ el l 0 33P02 0 3BX24 252-0209 REACT AREA LC 3C304B - -
- 0.89 l 986.25 1103.15 0 )
0 3CP02 252 0211 CIRC WIR PP 2000.0 200 0.94 1.00 l 1537.23 1537.23 @ t :
! O 3CF04 252-0212 SVCE WTR PP 700.0 900 0.93 0.88 1 561.51 633.03 2 b
0 3BX21 252-0213 GEN AREA LC 30S01B
- 0.36 l 1047.56 1218.09 9
, ......................................................................................................a TOTAL KW; KVA 223S5.90 213&9.95 [ TOTAL KVAR 9530.79 AVERAGE POWER FACTOR 0.92 TOTAL LOAD CURRENT 1018.73 l AMPACITY FACTOR 0.51 l i I
- f- ,
w w j..i
pl, hLAT1ON Sheet 26 of 82 J M: 3 1 1989 j NORMAL Of! RATION LocA (12 sEc - 10 MIN) LOCA()10hlN) LONG TERM 5HDN l....................................................................................................................... LF 00 ll LF OC KW KVA l LF OC KW KVA l LF OC KW KVA l KW XVA l l ! l l l.0.49 1 429.39 493.55 l 0.49 1 429.39 493.55 l 0.49 1 (29.39 493.55 l 0.46 1 103.10 163.33 l l l l l 1.00 1 6921.65 7690.72 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l
. 0.30 1 356.79 396.43 l 0.20 1 356.79 396.43 ; 0.30 1 356.79 396.43 l 0.23 1 333.00 370.00 ; l l l l 1.00 1 561.51 633.08 l 1.00 1 551.51 633.03 l 1.00 1 561.51 633.03 l 1.00 1 561.51 633.08 ; ; ; l ! 1.00 1 3533.6) 3926.32 l 1.00 1 3533.69 3926.32 , 1.00 1 3533.69 392e.32 l 1.00 0 0.00 0.00 l l l l l 1.C0 1 3533.69 3726.32 l 1.00 1 3533.69 3926.32 l 1.00 1 3533.69 3426.32 l 1.00 0 0.00 0.00 l l l l l 1.C0 1 1537.21 1537.24 l 1.00 1 1537.24 1587.24 l 1.00 1 1557.24 15!7.24 l 1.00 1 1537.24 1537.21 l l l l l 0.31 1 305.74 3&3.53 l 0.31 1 305.74 3&3.53 l 0.31 1 305.74 343.53 l 0.17 1 167.66 133.!!
l l l l l 1.00 1 !!37.24 1537.24 ! 1.00 1 1537.24 1537.2& ! 1.00 1 15D.24 1537.21 l 1.00 1 1537.24 1537.24 l l l l l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l l 0.45 1 471.40 5&$.14 l 0.&5 1 471.40 548.1& l 0.45 1 471.&O 5&8.14 l 0.19 1 199.04 231.14 192!3.34 20!55.13 12366.69 13137.00 12366.69 13187.0] 4838.79 4921.19 7930.73 4573.43 4573.&3 896.73 0.92 0.94 0.94 0.93 372.52 551.70 551.70 205.89 0.4& 0.23 0.25 0.10 SI APERTURE CARD Also Availante On 8903200191-90 Aperture Card _-____.____.________m______ _ _ _ . _ . _ _ _ _ _ _ _ _
- s
.-l
, 2
. APPEND 1X ELECTRIC L0AD T.
i ;
't SWITCH GEAR: 20A15 (CLASS 1E) 4 4160V 1200A l DRAWING No: EB
'l' RATED LOAD 1 r ................ ...................................................................................... 3 REV EQUIP NO BRKR NO LOA 0 HP RPM EPT Pf f KW KVA k l ....... ....... . . .) 0 2AP39 152-1502 CRD WTR PP 250.0 1800 0.23 0.90 , 211.93 235.43 3)
-0 2AP37 152 1501 CORE SPRAY PP 600.0 3600 0.93 0.57 l 481.29 553.21 7 20X30 152-1505 CL 1E LC 20510
'O.89 1175.57 1351.79 la 0
0 2AP35 152-1506 RHR PUNP 2000,0 1300 0.93 0.91 l 1604.30 1762.97 2!! 0 2AP42 152 1507 HP SVCE WIR PP 1000.0 1300 0.93 0.90 l 802.15 391.23 12; TOTAL KW; KVA 4273.24 4790.92 f~ i TOTAL KVAR 2162.23 0.89 AVERAGE POWER PACTOR 666.91 TOTAL LOAD CURRENT 0.55 i AMPACITY FACTOR l $,
,?
1 i s I 5
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- sheet '27; of 82, ry,gir J AN 3 1 1989 c m ~
'?d MAL OPERATION LOCAf0-10 MIN) . LOCAL)10 MIN) LONG TERM $HDN--
7.................................. . 4, i p 1 ' LF"-OC: KW KVA, l' LF GC , 'KW KVA' -- l LF OC- KW KVA .!. LF- OC KW KVA- R W: 1 ; lh , -; ; :- '9d!E!00.0' O.00 - 0.00' ! 11.00 0 0.00 - 0.00'-l: 1.00 0 0.00 0.00 ! ' 1.00 : 0 0.00 0.00 g . 4- I )57! t.00.-0 '0.00 0.00 l 1.00 1- 481.29 553.21-! 1.00 0' O.00: .0.00 l 1.00 0 0.00- 0.00' o d- .: ; :- d bl $ 0.33 ' 1. 387.94 435.89 l . ' O .~4 6 i 560.76L-607.60 :!.- 0.45 1 529.01 596.39 : 0.37. 1 434.96 438.72 16 : .p 1.00 0 ~0.00 0.00': 1.00 1- 1601.30 1762.97 l 1.00 1 1604.30 1762.97 !. 1.00. 1 1604.'30' 1762.97 lz l ': ; $!! 1.00 ' 0 . - 0.00 .0.00 l 1.00'.0= 0.00 0.00 : 1.00'0 0.00- 0.00 1.00 0 0.00 0.00 n............... ......................................................................................................... 337.91 435.39. -2626.35 2922.00 2133.31 2356.39 '2039.26 2251.29' .
..L 198.75 1230.77 1001.96 953.79.
0.89 -0.90 0.91 0.91 60.50 105.53 327.10 312.15 0.05 0.31 0.27 0.26
.y 1
l SI l t APERTURE 4 CARD Af.sv> AudiaWe on Amwre Card 8908200191-2l
~ ~
M ., g i. f. jD 3 1 APPENDIX l' A. 4 SE ELECTRIC L0AD T6 h I (- 1 s [ . . ! SWITCH GEAR: 20A16 (CLASS 1E) i t 1160V 1200A } .ORAWING N6: ES 0 1
' RATED LOAD j ........................................................................................................
j EEV EQUIP NO ERKR NO LOAD HP RPM EFF FF l KW KVA 'F 4 . 7 4 0 2BP35 .152-1602 RHR PUNP 2000.0 1800 0.93 0.91 160s.30 1762.97 256 i e
- O CAP 57 '152-1603 EMERG $VCE WTR P? 250.0 1200 0.91 0.35 l 204.95 241.12 36 4 f I A 1.
0 2EP37 152-1601 CORE SPRAY PP 600.0 3600 0.93 0.37 : 451.29 553.21 ??
! '. i e
V
! 0 20X31 152 1605 CL 1E LC 20B11 0.16 l 1011.40 1206.36 161 0 2BP42 152-1607 HP SYCE WIR PP 1000.0 1800 0.93 .0.90 1 802.15 $91.23 . 12i i
I (-. .' 0 0AP165 152-1609 EMERG svCE W UJ5iR P 250.0 1200 0.91 0.35 ; 204.95 211.12 3( TOTAL KWI KVA 4339.04 1590.56 TOTAL KVAR 2:56.18 l -i AVERAGE POWER FACTOR 0.39 1
- 1. -
! TOTAL LOAD CURRENT 678.71 1
. .I AMPACITY FACTOR 0.57 I i .j j i i i I I I .i h0TES:
- EVEN THCUGH THIS PUMP IS NOT SHCWN TO EE RUNNING BEYOND 10 MINUTES, THE VO
'i' IT WAS RUNNING BEYCND 10 MINUTES $1NCE THIS IS ACTUALLY WHAT WOULD OCCUR. i * > l e
.w w
0 BULAT10N Sheet 28 of 82 J AN 31 1989 l I- ! NCRMAL OPERATION LOCA(0-10n!N) LOCAD10 MIN) LCNG TEiiM 5HDN .A l LF OC KW. KVA l LF OC Ku XVA ! LF OC XW KVA ! LF GC KW KVA c , , , 45 ! 1.00 0 0.00 0.00 l 1.00 1 1601.30 1762.97 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 30 l 1.00 0 0.00 0.00 l 1.00 1 20?.95 211.12 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
. , i
!! l 1.00 0 3.00 0.00 l 1.00 1 4S1.29 553.21 : 1.00 1 A81.29 553.21 1.00 1 4B1.29 553.21
. l l l 50 0.32 1 333.25 337.50 l 0.36 1 371.90 ~ I.35.93 ; 0.32 1 333.25 337.50 l 0.33 1 343.66 399.60
; l l l 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 1 1.00 0 0.00 0,00 65 l 1.00 0 l l l l 30 ! 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.]0 0 0.00 0.00 l 1.00 0 0.00 0.00
!!3.25 337.50 2 t 65. & t. 2939.26 314.54 910.67 324.95 952.77 197.74 1353.19 470.51 176.63 0.86 0.39 0.37 0.37 53.73 (11.87 130.55 132.23 0.04 0.35 0.11 0.11 SI APERTURE CARD Also Available On Aperture Card ON STUDY CCNst0ERED THAT 8903$00191 @
9
' L. . . es, f
e APPEND 1X L! : w
+
. :, E L E C'T R I C L0AD
,-jj T4 i.
4 SWITCH GEAR: 20A17 (CLASS 1E)
- 4160V 1200A DRAWING No
- E!
RATED LOAD 1
- j. .......................................................................................................
REV EQUIP NO ERKR NO LOA 0 HP RFM EFF FF l KW KVA-0 2CP35 152-1702 RhR FVnP 2000.0 1800 0.93 0.91 ! 1604.30 1762.97 25/ 1, 600.0 3600 0.93 0.37 ! 481.29 ~553.21 7 j' 0 2CP37 152 1703 CORE !? RAY PP 0 20X32 152-1705 C'. li LC 20512 0.86 l l'049.67 1212.22 16 4 I j- 0 CBF57 152-17C6 En!RG iVCE WIR FF 250.0 1200 0.91 0.35 l .204.95 241.12 3d 0 2CP42 152-1707 H? 5VCE WIR PP 1000.0 1800 0.93 0.00 I 802.15 891.23 12i 0 OEf163 152-1709 ENE".3 5VCE W :0STR P 250.0 1200 0.91 C.35 l 201.95 211.12 3-t
. { +-) ......................................................................................................
I- TOTAL KW; KVA 4347.31 4396.'26 i 2252.62
- TOTAL KVAR i.
I 0.89 l AVERAGE F0WER FACTOR :t
, i 1 679.53 TOTAL LOAD CURRENT 0.57 AnPACITY FACTOR ii t 1
b, i i q t f 4 l NOTES: SEE SHEET 23 O e
! WWW %me i-i__ _ m _.__ _...__ _ _ _ . _ _ _ _ _ _ _ _ _ . _ _ . . _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . _ . _ _ _ _ . _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ . _ . _ _ _ _ _ _ _ _ _ _ _ _ ______________._m._L_a
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,1 DV ,W 8 U.L A,T,l._O N , Sheet 29 of 82 e> ~J AN 31 1989 T
, ^..y,' #
' .t0RMAL 0FERA110N .LOCA(0-10 MIN) LOCAh10 MIN)-. LONG TERM SHON-p..........................................................................................................................
K ilL 'LF .00. ' KW KVA 1 LF OC .KW: 'KVA ! l.F OC KW KVA l 'LF.'0C KW :KVA p..' l;......
....... ....... l .... .. ....... ....... l .... ..;....... ....... .l .... .. ....... .......
e . ;: ; .; ; i& F ! '1.00 0 10.00' O.00 ; 1.00 1 160&.30 : 1762.97 l 1.00 0 0.00 'O.00 ; ' 1.00 0 - 0.00' 'O.00 f85- W 1.00:'O ~0.00 0.00! 1.00 1 481.29 553.21 1 1.00 0 0.00 ').00 ~l' - 1.00 0 0.00 0.00 i .i l .! ' & !' 0.62 367.35 427.19 l-0.28 1 341.76 ~ : 0.22 1 1- &&0.86 512.63 1- 0.35 -1, 293.91 230.93 263.52.. lii .i , 110'Jl?1.00O :0.00 0.00 i'1.00 1 20&,95 2&l~ 12 ; 1.00 . 0.00 ' 0.00 ~ l 1.00 0 0.00- 0.00'. '
' l. -l- !
165 1!!'1.00 0 ~0.00 0.00 i11.00 0- 0.00 0.00 l 1.00 1- 102.15 891.28 ; 1.00 1- 802.15 891.28 r :: l l
;&0.1 : 1.00 'O 0.00 0.00 l.l.00 0 0.00 0.00 ;' 1.00 0 0.00 0.00 1.00 0 0.00 0.00
&&0.16 - $12.63 2657.92 2930.5&- 1096.06 1232.15 .1033.02.L1159.06~
,_ 261.60 1348.74 562.90 525.52 0.86 0.39 0.89 0.89
,w 71.15 -413.66 171.01 160.86 0.06- 0.34 0.1& 0.13 m
'f SI i APERTURE CARD yso Avauable On kwuxccard 1
I I i '. u 1 h. P u 890 3 2001 H- D
- _-._-.--_=.L.----. _..3_.--- ._ . - - - _ . . _ - . - . . . . - -_ - -
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- b APPEND 1X I f% . ELECTRIC L0AD TA
. (j4 1
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SWITCH GEAR: 20A18 (CLASS 1E) , l 1160V 1200A DRAWING No: E3 ; i RATED LOAD ! REV EQUIP NO BRKR N0 LOAD HP RPM EFF FF ; KW KVA F 0 20P35 152-1802 RHR F'JMP 2000.0 1800 C 93 0.91 l 1604.30 1762.97 254 i l ; 0 20F37 152-1303 CCRC !? RAY FP 600.0 3600 0.93 0.!7' 481.29- 553.21 79) I 1l i 3 20P&2 152-1301 HP SVCE WTR FP 1000.0 1800 0.93 0.90 302.15 $91.23 128? l 0 2BF39 152-1805 C% WTR FF 250.0 1800 0.3! 0.90 211.93 235.43 33' 0 2CX33 152-1106 CL 1E LC 20!!3 0.17 l 900.95 1042.82 144 1 TOTAL K4; KVA 4000.62 4131.67 T w IOTAL KVAR 2020.00 0.89 k AVERAGE POWER FACTOR TOTAL LOAD CURRE!IT 621.99 AMPACITY FACTOR 0.52 i, O 5
?
m.n! l.A
Y I, 9LAT10N Sheet 30 of 82 J Ari 3 - 1 1989 NORMAL OPERATION LOCAL 0-10 MIN) LOLA()10 MIN) LONG TERM $HDN p............................................................................... ....................................... l l LF OC XW KVA l 1.F OC KW KVA l LF OC KW KVA l LF OC KW XVA --l
.... .. ...-.... ....... t l .... .. ....... ....... ; .... .. ....... ....... ; ..... .. ....... ....... :
i I 4 t, , . .
! 1.00 0 0.00 0.00 l 1.00 1 1604.30 1762.97 l 1.00 0 0.00 0.00 : .,00 0 0.00 0.00 t B f l 1.00 0 0.00 0.00 l 1.00 1 (31.29 553.21 1 1.03 1 (31.29 553.21 : 1.00 1 181.29 553.21 i . .
,i , . .
.: .1,00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l ,
211.93 235.t! l 1.03 1
' n^ 0.00 0.00 i
l 1.00 1 211.93 235.43 : 1.00 1 211.93 235.18 0 ;
, . I
, a, .
l 0 52 1 463.49 533.49 l 0.12 1 373.L0 43?.91 ! 0.37 1 333.35 333.16 l 0.34 1 306.32 352.09 e....................................................................................................................... 630.42 773.63 2$75.92 2934.11 1026.57 1171.4e 737.61 405.30 353.15 1320.81 564.34 u6.37 0.88 0.90 0.83 0.87 107.37 414.16 162.53 123.61 I 0,09 0.35 0.14 0.10 i I i a SI APERTURE i CARD .. 4 s l Also Availabk On ) Aperture Card l 4 9 i J r l l W l l 890320019b t' 3
-- g{ o
I s._ a j A P P E N D 1.X ELECTRIC L0AD T' A i i i J i ! I l -. , SWlif.H GEAR: 30A15 (CLASS 1E) l I 4160V 1200A j - DRAWING tt E12 I RAiE0 LOAD REV E0 VIP NO Blu(R NO LOAD HP RPM EFF FF : Ku KVA FL 0 OAX26 152-1502 EMER CL TWR LC 00394 0.89 17!.08 200.09 27. 0 3AP37 152 1504 CORE 5? RAY PP 600.0 3600 0.93 0.37 . 01.29 553.21 79. 0 30X30 152 1505 CL 1E LC 30B10 - -
- 0.87 : 5t5.31 6at.66 89.
0 SAF35 152-1506 RHR FunP 2000.0 1300 0.93 0.91 . 1604.30 1762.97 254.. I a 0 3 api 2 152-1507 HP SVCE WTR PP 1000,0 1500 0.93 0.90 ; 302.15 591.28 128.I
........................................................................................................q TOTAL KW: KVA 36?!.13 1050.00 l 1 1 1
TOTM. XVAR 1793.72 l l AVERAGE POWER FACTOR 0.90 j l TOTAL LOAD CURRENT 562.03 AMPACITY FACTOR 0.47 ]
'1 1
1 l l 1 1
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Sheet 31'of 82 1
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- J AU 3 1 1989 ;)
.ct ,
t 1 V'g-IORAC CF! RATION : . LOCA(0-10 MIN)- LOCAh10MINL LONG TERM $HDN
% 1LF, OC M KW .KVA l LF.- OC KW XVA - LF'OC- KW ~KVA ;l. LF>OC. KW
. KVA-
> e ; 7 .'... ..;.. .... ....... 4 .... .........;.1 ....... ,;:....'.. ....... ........ .: .... ..-....... ,
.......x
.i . ..
Pi:S 0.0!
- l'. _
14.25 -.16.01 1 0.08 1.- 1L25 - .1E01- 1 :0.06 1 14.25 16.01 . 0.03 ' .1 - 16.25' 16.01
, T: ' : .: . -l
@ !.0CJ0- 'O.00: 0.00 l'!!.00 1 L481.29 553.21 'i 1.00' 0 0.00 0.00 1.00 0 ' O.00- 0.00-
+. .
. i 237.43 - 272;91 B L.;i 0.AlJ 1 -213.741 .235.91 i10.49 1 1277.00 318.39-l 0.46 -1 271.35 311.90 1 . 0.42 1 0.00 ' '0.00 ' 1.00. I 1t04.30 1762.97 :. 1.00 1 1601.30 1762.97 ! !.00 - 1 1604.30'1762;97;
@4.'L1.00c0
.I l i.
% " l '1.00 E0 0.00 . 0.00 .;Y1.00 0 0.00 'O.00 ; 1.00 0 0.00' ~0.00 : 1.00 0 0.00' O . 00 .-
-202.99 301.91 L2376.24. 2643.32 1839.90 2"!9.85 !!55.5S .2050.97' 4 A i
- 113.27 1163.00- 192.04 '872.81 1
'0.57 0.90 0.90 'O.90:
.284.65 11.90 '367.55 290.04
' 0.24 0.03 0.51 O.21 .
e
.4
,y i SI APERTURE
.c CARD l;
y Also Available On l J s Aperture Card
.m 8908200191- %
)
-L.__-.
m m ._m .._..__...._.__.__..-,_m__.___.-___..--_._________.-________.___.__m. __-__._._.__._-_m._____-__.__.m
' 7 v w l APPENO!X-g\ k.u ELECTRIC L0AD iA SWITLH GEAR: 30A16 (CLASS 1E) 4160V 1200A l DRAWING No: E12 RATED LOAD REV EQUIP NO ERKR NO LOAD HP RPli EFF FF l KW KVA FL l 0 3CP35 152-1602 RHR PUMP 2000.0 1800 .0.93 0.91 l 160&.30 1762.97 .254. l . l 0 3AP39 152-1603 CRD WTR PP 250.0 1300 0.33 0.90 l 211.93 235.43 33.<
' ,\
0 35P'7 152-1601 CORE SPRAY PP 600.0 3600 0.93 0.87 l 481.29 553.21 79.( i 1 ' 0 30X31 152-1605 CL 1E LC 30B11 0.37 l 956.95 !!17.95 155. I 1000.0 1800 0.93 0.90 ; 802.15 191.23 128, C 3BP&2 152 1607 HP SYCE WTR PP l o O OBX26 152-1609 EMER CL TWR LC 00S95 1.00 l 265.40 2t5.60 3 6.~ i*; ........................................................................................................, ! TOTAL KW: KVA 1322.02 4793.39 i s TOTAL KVAR 2072.85 i b AVERAGE POWER FALTOR 0.90 i ' 665.26 TOTAL LOAD CURRENT i ~ AMPACITY FACTOR 0.55 i i i 4 .1 I J
- ?.
I (ci~ i 1 i. , '_4
%mma 9 x__-_-_____. - - _ - _ _
C. - i-F j i Sheet 32 of 82 HULA 7!ON i J M! 3 1 1989 N0?HAL 0?!?ATION LOCAL 0-10 MIN) LOCA()10 MIN) LONG TERM SHDN e........................................................................................................................
.l LF OC KW rVA l LF OC KW KVA l LF 00 KW KVA l LF OC KW KVA e ; .... .. ....... ....... ; .... .. ....... ....... ; .... .. ....... .. .... l .... .. ....... .......
l l l l 0 l 1.00 0 0.00 0.00 l 1.00 1 1604.30 1762.97 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l @ l- 1.00 1 211.93 235.18 l 1.00 1 211.93 235.15 l 1.00 1 211.93 235.43 l 1.00 0 0.00 0.00 l l l ! @ l'1.00 0 0.00 0.00 l 1.00 1 431.29 553.21 l 1.00 1 431.29 553.21 l 1.00 1 631.29 553.21 l l l l 6 l 0.30 1 237.03 329.93 ; 0.44 1 121.06 433.93 0.40 1 332.73 &39.93 : 0.32 1 306.22 351.93 i l l l l l 35 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 l l l l : 17.77 l 0.18 ! 17.77 l 0.13 1 47.77 l 0.13 1 -47.77 47.77 l 33 l 0.18 1 67.77 47.77 47.77 516.72 t07.77 2766.35 3075.99 1123.77 1270.33 835.28 917.01 265.35 1345.00 592.36 446.32 l 1 0.90 0.90 0.88 0.38 i
.i 31.35 426.90 176.30 131.44 0.07 0.36 0.15 0.11 l
SI i i APERTURE CARD Also Asailable On Aperture Card i l 8903200191-% . . , l U_:-._.._._.____ . - - _ _ . _ _ _ _ _ . _ _ . _ _ - _ _ _ . . _ _ _ _ _ ___ __. _. - _ . _ - . _ _ . - - - _ _ _ . _ _ __ A
+.
APPENDIX f ., t ELECTRIC L 0 A D' TA I 1 SWITCH GEAR: 30A17 (CLASS 1E) 4160V 1200A DRAWING No: E12 RATED LOAD REV EQUIP NO BRKR No LOAD HP RFM Eff ff l KW KVA 'FL
... ........ ....... ........ ............... l l
t 0 3CP35 152-1702 RHR PUMP 2000.0 1300 0.93 0.91 l 160&.30 1762.97 251.' l I i
; O 3CP37 152 1703 CORE SPRAY PP 600.0 3600 0.93 0.87 l 631.29 553.:t 79.
l ! O 30X32 152-1705 CL !! LC 30B12 0.89 l 635.23 772.01 107. i' k 0 3BP39 152-1706 CRD WTR FF 250.0 1300 0.83. 0.90 : 211.93 235.13 33. e . . a- . ; O 3CP42 152-1707 HP 5VCE L':,, rf 1000.0 1!00 0.93 0.90 '. 802.15 391.23 128. a 4, 37!i.95 4213,05 - TOTAL KW; KV! gj
- iOTAL KVAR- 1850.38
!l 1 0.90 i AVERAGE F0WER FACTOR 3 TOTAL LOAD CURRENT 53&.71 {i; . 1 fi AMPACITY FACTOR 0.49 y, Il y 4 i j .i 1
-d l +
- l. /
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. . . .9' l y. ,
KOLA 7!ON Sheet 33'of 82'.: J AN 341989 l.
?
qlY
!D- :b Y) .i ,.
3 n g 'NORMALOPERATIONj LOCAL 0-10 MIN) ~ LOCA()10 MIN).' LONG TERM $ HON ~ 7............................................... ):.l- LF-;OC' . KW - 'KvA C JLF. 0C5 KW ~ KVA : -LF 00' .KW ' KVA . l LF OC- KW XVA
- p. . [; ? - -
-l~ .... .. ....... . ....... -l. .... .. ........ ....... .:
ll-l' l l l 7 3' Vl.1.0010? :0.00 .0.00~ l 1.00 1' 1604.30 1762.97 ! 1.00 0 ' O.00 0.00,i 1.00 ' 0 . 0.00 0.00 q ,.y
- ' : .: l- 7' !
s5ct" 1.00 0: /0.00 0.00 1 .1.00 ' 1 481.29 553.21 ; :.00 0 0.00- 0.00 : .1.00 0 0.00 0.00- 1a
'_ r _. ._ . __' . .
J6 Y 0.451 1 303.38 316.&9 : 0.39 1 '267.26 300.29 l 0.22 1 150.76 169.39 l 0.20 1 137.06 154.00 l -l: ' l l- l 59'l1.00'0- - 0.00 0.00 -. : 1.00'0 0.00 0.00 ! 1.05 : 0 0.00 0.00- l 1.00 0' O.00 0.00 h5 : -l 1.00:0< 0.00. 0.00 i'.1.00 0 0'.00 0.00 l 1.00 1 802.15 891.23..!'1.00 1 .802.15 191.23 r......................................................................................................................... 302.33 346.'.9 2352.85 2614.76 952.91 1060.63- 939.21 1015.25 r 157.93 -1140.6& 465.73 453.72' i 0.89 ' .0.90~ 0.90 ' O.90
.;).
48.09- 362.39 147.20 145.07 0.04 0.30 0.12 0.12 e 1 SI-APEgrORE CARD g p Avauable on Aperture C3Y0 390 3 200191- W _ 2a-_-_.i__ .. .__.________-2___a-___m
- - - _ _ ~ _ _ _. _ . _ _ _ _ _ . . _ . .
)
APPENOIX ELECTRIC L0AD TA (U'
$ WITCH GEAR: 30A18 (CLASS 1E) 4160V 1200A ORAWING No: E12 RATED LOAD l
REV EQUIP NO BRKR NO LOAD HP RPM EFF FF l KW KVA Fl l 0 30P35 152-1802 RHR FUMP 2000.0 1300 0.93 0.91 l 1601.30 1762.97 256 l 0 30P37 152-1803 CORE 5? RAY P? 600.0 3600 0.93 0.!? l 481.29 553.21 79 l 0 30?42 152-1804 HP 5VCE WTR ff 1000.0 1800 0.93 0.90 ; !02.15 891.23 128 0 OCX26 152-1805 EMER CL TWR LC 00396 0.33 l 170.16 205.01 22 l 0 30X33 152-1306 CL 1E LC 30513 0.36 l 324.97 955.97 132 0 00P136 152-1509 ENER CLG Wis F? 250.0 1200 0.91 0.35 l 204.95 211.12 3$ (.. ......................................................................................................., TOTAL KW: KVA 6037.32 4603.23 TOTAL KVAR 2116.59 AVERAGE POWER FACTOR 0.19 TOTAL LOAD CURRENT 633.87 AMPACITY FACTOR 0.53 NOTES:
- THIS PLHP WILL BE STARTED BY THE LOCA SEQUENCE TIMER BUT WILL AUTCMATICAlt,Y TRIP WITHIN 1 FULL SPEED. BICAUSE OF THE SHORT DURATIC9 0F THIS LOAD, IT is NOT REFLECTED IN THIS
[f,
%/ CONSIDERED IN THE LOCA AUTO LOADING SEQUENCING FCR THE VOLTAGE REGULATION TTUD
-.r=
m; _ . . . .
;3 .1 .(... .
t' +
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' i j 8
s . , . cd
. 1 .k .
4 Sheet 34 of.82
+
tl l8 U L~A T'I.0 NL 4
, il AN 3' 1 1989 l 3 J t
i ( y NORMAL OPERATIONJ 'OCA(0-10 MIN)- L 'LOCA()10 MIN)' LONG TERM $ HON s.........................................................................................................................., q LA- ! -LF;'0C KW-~ KVA 'l ' LF OC. JXW 'KVA l 1.f ' 00 . KW- KVA l LF .KW XVA p.. _; - . .. .........-l .... .. ....... ....... .; .... .. ....... ....... :. .... 0,C... .. ....... . ....... j
.! l l ~l.
~
26 :. l' '1;00i 0 : 0.00- 0.00'l l'00 1 1601.30 1762.97 ! 1.00 O' O.00 ' O 00 ! 1.00. 0 - 0.00 L0.00 l T l- l l 0.00 .l 1.00' 1 181.29 '553.21..l 1.00 1 431.29 553.21'; 1.00 451.29 553.21 >85 L! 1.00- 0: 1 0.00
;. 6 '
l A5ct.1.00 0' O.00 . 0.00' 1.00' 0- 0.00 'O.00 l 1.00 0 0.00 0.00 -; 1.00 0' O.00 - 0.00'
-l l l !
2.05-l.0.01.1-. O.01- 1 1.70 . 2.05 -
'1.70 1.70 2.05: :
- 45.- l 0.01 1 1.70 2.05 .'O.01 1
,i.~ ;. ; i.
363 ::0;io 1 329.99 313.71 l ' O.36 '1. 296.99 345.34 : 0.32 .1 263.99 306.97 ~l 0.23 1- !!9.7&.'220.63
- 30.!d1.00/0 '
-O.00 0.00 - ; 1.CO 0L 0.00' O.00 1 1.00 0 0.00 .0.00 : 1.00 0 0.00 0.00-m..........................................................................................................................
331.69 :-315.76 - 1384.23 2660.79 746.98 262.19- 672.73 :775.26 :
.196.96- 1181.10 130,57 336.51' O.86 - 0,90 O.87 0.37 53.54- 369.28 119.66 107.65 0.04 0.31 0.10- 0.09 SI APERTURE CARD Also Available On perture Card DSECONDSAITERATTAINING 7ABLE EVEN THOdGH IT WAS
$90ps90191- m .
__..-_,-_-_-._--_m _ . _ . - _ _ . . . _ _ _ - - _ _ - - _ _ -
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NON-CLASS 1E LOAD CENTER LOADS 1 I 1 1 O
* . .....a
y.. _ < -_. .- - - . _ _ _ - - -- _ _ _ ---. _ ----- -- - - - - - y 7 c sa . i l APPEND 1X
, /- ELECTRIC L0A0 T jQ
. ./ )
i LOAD CENTER. 00803A (NON CLASS 1E) 480V 2000A PLANT SERVICES DRAWING No: E1610 RATED LOAD
.........................................................................................................e REV EQUIP NO BRKR NO LOAD HP RPM EFT PP l KW KVA' Fl
... ........ ....... ........................ ...... .... .... .... ; ....... ....... ....a 0 440AK19 52-0313 CONTROL RM CH1'.LER 175.0 1800 0.83 0.88 '
148.35 168.58 211; f 0 270AP67 52-0316 REFUELING WTR PP 125.0 3600 0.83 0.88 l 105.97 120.42 151; O 003!5 52-0322 MCC 002i5 - - - 0.83 l- 112.31 128.19 154s 0 20570 52-0323 500 20370 - -
- 0.32 l 104.05 126.89- 152; 0 00813 52-0331' 500 00243 - - -
0.88 405.13 460.33 553; TOTAL KW: KVA 876.31 1003.71 TOTAL KVAR 489.46 AVERAGE POWER FACTCR 0.87 TOTAL LOAD CURRENT 1207.31 AMPACITY FACTOR 0.60
%J.
e %,.
1 9 ) I
- l 9 L A 710'N Sheet 35 of 82 J AN 3 1 1989 l
l j j NORMAL OPERATION STARIUP N0RMAL 5HUTOOWN LONG TEnn 5 HON v.... ........................................................................................ . ......................
; LT 00 KW KVA l t.F OC KW XVA l LF 00 KW XVA l LF OC XW KyA
; .... .. ....... ....... ; .... .. ....... ....... ; .... .. ........ ....... l .... .. ....... ....... j l l l l l 1.00 1 143.35 168.53 l 1.00 1 113.25 168.53 l 1.00 1 148.35 163.58 l 1.00 1 143.35 163.53 l
! l l l l 0.15 1 15.39 18.06 l 0.15 1 15.59 18.06 l 0.15 1 15.59 13.06 l 0,15 1 15.39 13.06 1 1 l l l
]
l C.97 1- 109.43 121.35 l 0.97 1 109.45 124.35 l 0.97 1 109.43 121.35 0.19 1 100.40 111.09 l ! l l l 0.50 1 52.02 63.44 l 0.50 1 52.02 63.it ; 0. 53 1 52.02 63.44 l 0.32 1 33.30 10.61 j l l l l 1 i l 0.26 1 105.33 119.69 l 0.26 1 105.33 119.69 ; 0.26 1 105.33 119.69 1 0.26 1 105.33 119.69 l .......................................................... ............................................................ j 431.02 03,75 '31.02 493.75 431.02 473.75 403.27 160.7! 1
)
i 1 240.36 240.86 210 !t 222.92 i l, 1 0.37 0.87 0.37 0.85 ; i 1 593.89 593.89 593.39 554.23 i
.u.30 0.30 0.30 0.23 SI APERTURE CAllD i Also Avaihible On :
Aperture Card 8903200194- %.-.--
m: _4 - l j i
' APPEND 1X l ;
1 ELECTRIC L0AD T4 LOAD CENTER: 00B038 (WON CLAS$ 1E) I 430V 2000A J FLANT SER'.' ICE 5 ORAWING No: E1610 I RATED LOAD j
........................................................................................................q REV EQUlf N0 BRXR NO, LOAD HP RFM EFF FF ! KW XVA Fq
,....... ....... ........................ ...... .... .... .... ;........ ....... ....e 0 270BF67 52-0333 REFUELING WIR FF 125.0 3600 0.83 0.33 l 105.97 120.42 !$1.)
I 52-0331 MCC C0544
- - - 0.33 ; 429.29 137.33 53 0 O 00B&&
J
- C.37 l 140.1C 161.03 193, 0 2CEi3 52-0342 MCC 20373 l l 0 00816 32-0313 MCC 00516 0.39 l 117.15 131.97 158j l i 0 tiOSK19 52-0353 CONTROL RM CSIR FR 175.0 1800 0.E3 0.81 l 113.35 163.53 211]
TOTAL KW; XVA 941.16 1069.77 TOTAL XVAR 503.55 , AVERAGE F0WER FACTOR 0.33 1' ';236.73 TOTAL LOAD CURRENT l I ' AP.PACITY FACTCR 0.61 i, i. t I I. 1 1 i-I .t - 5 I i e%
ne a D Sheet 36 of 82 8ULATION J A N 3 1 1989 l 4 STARTU? HORMAL 5HV!00WN LONG TER.1 $ HON NORMAL OPERATION ' ; . LF GC KW KVA l LF 00 KW XVA l LF 00 KW KVA l 1.F OC KW XVA
. l,..... .. ....... ....... ! l la l 0.15 1 15.89 18.06 l 0.15 1- 15.89 18.06 ; 0.15 1 15.19 13.06 0.15 1 15.89 18.06 l l ! .
77 : 0.24 1 103.03 117.05 0.26 1 103.03 117.03 : 0.21 1 103.03 117.05 . 0.21 1 10.15 102 && l l l 69 :
- 52 1 . 72.35 33.74 : 0.52 1 72.35 23.71 0.52 1 72.85 13.7; 0.31 1 f.7. 63 51.75
- l 126.69 ; 0.?6 1 112.75 126.69 l 0.96 1 112.75 126.69 ; 0.96 1 112.75 126.69 71 : 0.96 1 112.75 l l l l 59 l 1.L0 0 0.00 0.00 l 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 : 1.00 0 0.00 0.00 204.52 315.52 304.52 345.!2 304.52 315.52 266.42 301.90
-163.25 163.25 163.25 142.00 0.83 0.33 0.34 0.33 415.59 415.59 415.59 363.13 !
0.21 0.21 0.21 0.18 SI APERTURE CARD Also Available On Aperture Card 8900200191 o6 t
~ -^- - - - . - - - _ _ _ _ _ _ _ _ mm_,______ _ _ _ , , , _ , _ _ _ _ _ _ , _ _ _ _
p ; - ~. j: l .; I f; APPEND 1.X
- h. *$ ;
ELECTRIC ..L0A0 'T (
.)
I E f. j '. F LOAD CENTER: 00605A (Non. CLASS 1E) I 410Y 2000A 1' 0 ORfWING No: E1623 . i ) C RATED LOAD .
.......................................................................................................g REV EQUIP NO BRKR NO ,
- LOAD - HP RPM EFF Ff KW KVA F
... ........ ....... ........................ ....... .... .... .... l ....... ....... ...a
- I - 0 00875 52 0513 nCC 00375 - - -
0.5L l '11.66 13.36 K $<, 0 03272 52-0514 nCC 00872 - - - 1.00 174.12 171.12 20s ;
; A j .
O 00571 52-0523 nCC 00571 - - - 0.ti . 172.81 205.76 24)
......................................................................................................4 TOTAL KW: KVA 353.60 377.33 i l-TOTAL KYAR 119.16
% ' AVERAGE F0WER FACTOR 0.95
- 'r d . i jd TOTAL LOAD CURRENT 154.52 I l.
~ AMPACITY FACTOR 0.23 i i i i-s l l l' g i' t l ! C 1 N
pm,.
...m.
2.
=. . . . -
- - - ~ - - - - - - - - - - - - - - - -- - - - - - - - - - -
k j,# j. . . 3
@4
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1 , r,.7.' , l f: , " v gsfAji!Ifo N .r. Sheet 37 of 62 ; m
., JJ AN 3 :1' 1989 '
V s NORMAL OPERATION $TAATUP. NORMAL $HUTDOWN' LONG TERM 5 HON. o........................................................................................................................ F: 1.: 'LF . CC . KW fKVA-~ l .LF OC. ; XW . KVA l LF ' CC KW XVA' -l LF CC. 'KW 4 KVA f :. .... .. .....'... ....... : .... .. ....... ....... ; .... .. ....... ....... : .... .. .......:.......
- I . . . .
'l 1~
LlT0.11.1: 1.28 1.52 : 0.11 1 '1.28 1.52 l 0.11: 1- 1.23- 1.52 ul 0.11 1 1.21 -1.52:
.- 4 4 4 L3iL0.62:.!! 73.13 73.13 l - 0.42 J 1 .73.13 73.13 0.42 1 .73.13 73.13 -l 0.42 1 73.13 - 73.13
'.l.~
j -;- l 0.2t s 1 it.94 53.50 l , 0.2E 1 L4.94 :53.50 !, 0.16 11 it.94' 53.50 ; .0.24- 1 -41.48 49.35' p......................................................................................................................... 119.35 123.03 :119.35.l123.03- 119.35 :123.03 115.39 119.13 29.15 29.85 29 E 5 -- 27.61.
- 0.97 0.97~ 0. i7 0.97 H 167.98 : L117.93 147.93 .143.30 1
0.07 0.07- 0.07 0.07 - k l 4 4 St
'~
APERTURE
, CARD 1
Aho Available On Aperture Card J: q t L 8903200)91-%_ i
' - i O__ _i _ _ - - _ _ _ . . __, _ _ _ _ _
j.. E f l 1 6 N f' APPEND 1X j' g. q .
< ELECTRIC L0AD' T'Ai Y
j: LOAD CENTER: 008058 (NON-CLASS 1E) 480V 2000A .3. ORAWING No: E1623 Q:
- 1. .
RATED LOAD k' .................................. ...................................................................... HP RPM Eff ff XW KVA FL REV EQ'JIP NO BRKR NO LOAD 0 0087L 52-0534 MCC 00374 0.80 , 156.80 196.00 235. l . l1 4 ' 0 00824 52-0543 MCC 0032L - - - 0.90 88.19 97.99 1171 9- :
- l
- 0 00373 52-0544 MCC 00373 - - .- J.99 : 133.75 185.61 123 a .........................................................................................................)
TOTAL KW; KVA 423.74 467.56 1
;. TOTAL KVAR 136.52 I <
.4 ' 0.92 ["" AVERACE F0';ER FACTOR -} . (? k, . TOTAL LOAD CURRENT %2.38 4 i AnFACITY FACTOR 0.28 f ! 4 'I 1 j 3 i 4 s I t i i
- j 1
a j g I
; 4 3
i
) .' q ; s 1 4 '! i 1
] , -j
i l l l l ) ) U L !. T I O N . Sheet 38 of 82 J M13 1 1989 NORMAL OPERATION STARTUP NORMAL SHUT 00WN LONG TERM SHDN 3.............................................................................................. ........................... 1 LF OC EW KVA l LF OC KW KVA : LF OC KW KVA : LF OC kk! KVA
- s. l . . . . . . '....... ....... ; ,.... .. ....... ....... ; .... .. ....... ....... ; .... .. . ..... ....... ;
s . v . f5'k0.13 1 23.22 35.27 0.18 1 25.22 35.27 0.13 1 23.22 35.27 $0.16 1 25.09 31.36 ( s 1 8 f4 l 0.37 1 76.7! B5.26 0.87' 1 76.73 85.26 : 0.87 1 76.73 45,26 . 0.43 1 37.92' 42.13 I 15 ; 0.65 i 12.6) 33.53 . C.45 1 32.69 S3.53 l 0.45 1 12.69 53.53 l 0.45 1 32.69 33.53 3.......................................................................................................................... 137.61 200.32 !!7.G 200.32 137.51 200.32 U.S.70 153.72 70.15 70.15 70.15 48.99 0.1? 0.94 0.94 0.95 210.95 240.95 240.95 134.89 0.12 0.12 0.12 0.09 SX APERTUgg CAyy lllf"fI0n f ra a 89032001914'A i
~' ~
4 i i' l APPENDIX i i t ELECTRIC L0AD T Al 3 . s i I i ! ', i i
- j. LOAD CENTER: 00806A -(NON CLASS 1E)
&$0V 2000A j ;
COOLING TOWER ORAWING No: E1625 RATE 0 LOAD t'
' REV EQUIP NO BRKR NO 1.0 A0 . HP RPtt EFF FF l KW KVA FL l ....... ....... .....
O 2301.K12 52-0614 CLG TWR 11 FAN 200.0 1800 0.94 0.90 158.72 176.36 221. 0- 280KK12 52-0621 CLG TWR 31 FAN 200.0 1800 0.94 0.90 l 158.72 176.36 201.- 0 2a0JK12 52-0622 CLG TWR 41 FAN 200.0 1800 0.94 0.90 l 153.72 176.36 021.#
-0 23CHK12 52-0623 CLG TWR 11 FAN 200.0 1800 0.94 0.90 l 152.72 176.36 221.'
O 230GK12 52-0624 CLG TWR 11 FAN 200.0 1200 0.94 0.90 l 158.72 176.36 221.- 0 280fK12 52-0631 CLG TWR 11 FAN '00.0 1800 0.91
, 0. 9'O l 158.72 176.36 221.:
a w ........................................................................................................) TOTAL KW; KVA 952.32 1058.!6 I TOTAL KVAR 461.23 { a AVERAGE POWER FACTOR 0.90
. TOTAL LOAD CURRENT 1272.76 i 4 Af.FACITY FACTOR 0.61 4 ' f 1
1 t
?
I
, 4 1 l 1 l i-l 4
i- 1 Li - l .i j l h
, G.
1 a l gj . 'l 9
i s i 1 I b - t 1 a ) U L A.T I O N Sheet 39 of 82 { 1 J Atl 31 1989 l I i L l q 1 i f l 1 [
- NORMAL CPERATICN STARIUP NOR?tAL 5HUTOOWN LONG TERit 5 HON l l
4........................................................................................................................ ) ! LF OC KW r.VA l LF OC XW KVA l LF OC XW XVA l LF OC KW KVA
.... .. ....... ....... .... .. ....... ....... .... .. ....... ....... l -.... .. ....... .......
4 l l l
~
l l I l l )5 l 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 l 1.05 1 158.72 176.36 l 1.00 0 0.00 0.00 l l l l j )$ l 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 l 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 ( l l : l B5 l- 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 . 1.00 1 158.72 176.36 l 1.00 0 0.00 0.00 l l l l )$ l 1.00 1 151.72 176.36 l 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 l 1.00 0 0.00 0.00 l l 1 l 35 l 1.00 1 156.72 176.36 l 1.00 1 153.72 176.36 l 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 l l l l B5 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 l 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 952, 1053.16 952.32 1053.16 952.32 1053.16 0.00 0.00 1 161.23 461.23 461.21 0.C0 0.90 0.90 0.90 0.00 l 1272.76 1272.76 1272.76 0.00 J
) 4, 1
0.61 0.6L 0.61 0.00 l 1 l l l Si i i APERTURE 1 cAno Also Available 011 Aperture Card 1
)
4 1 l
' l 890 3 200191- 9$ l 1
_ q
-m..-
l APPENDIX ELECTRIC L0AD TA ni l \ ! LOAD CENTER: 005066 (NON* CLASS 1E) ! 420V 2000A COOLING TOWER ORAWING No: E1625 i-i RATED LOAD
.........................................................................................................y 3
REV EQUIP N0 ERKR NO LOAD HP RPM. EFF FF l KW KVA FL( I ... ........ ....... ........................ ...... .... ' .... .... ; ....... ....... .....y
- l 0 280EK12 52 0641 CLG TWR 11 FAN 200.0 .800 0.94 0.90 l 158.72 176.36 221.{
- l t
1 0- 2800K12 52 0642 CLG TWR 11 FAN 200.0 1800 0.94 0.90 l 158.72 176.36 221.;
> 0 230CK12 52-0643 CLO !"R 11 FAN 200.0 1300 0.91 0.90 l 153.72 176.36 221.)
(' P 0 2305K12 52-0611 CLG Th!R 11 FAN 200.0 1800 0.91 0.90 l 153.72 176.36 221. 0 230AK12 52-0654 CLG TWR 81 FAN 200.0 1300 0.94 0.90 l 153.72 176.36 221. j f.+ TOTAL KW; KVA 793.60 231.!0 k_s 3!?.10 TOTAL KVAR AVERAGE POWER FACTOR 0.90
! 1060.64 j TOTAL LOAD CURRENT AMPACITY FACTOR 0.53 1-t i
i i' (e I s k i 1 r~. , 1 j
^
r_ D Sheet 40 of 82 )ULATION J A N 3 1 1989 STARTUP N]RMAt.5 HUT 00WN LONG TERM 5 HON NORMAt.OPERAi10N c........................................................................................................................ l LF OC KW , KVA l
- LT OC KW KVA l LF OC KW KVA l (F 00 KW KYA i
.... .. ....... ....... l e ; ; .... .. ....... ....... .... .. ....... ....... :
l l ! l @ l 1.00 1 153.72 176.36 l 1.00 1 153.72 176.36 l 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 i l l
-l 3l 1.00 1 153.72 '76.36
. 1.00 1 153.72 176.36 1.00 1 15 72 176.36 l 1.00 0 0.00 0.00
. l l ,
I 3 l-1.00 1 153.7; '76.36 1.00 1 153.72 176.36 . 1.00 1 153.72 176.36 . 1.00 0 0.C0 0.00 !
- i l . i 3 l 1.00 1 153.72 176.!6 . 1.00 1 153.72 176.36 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 l I
l l l- l
)
176.36 l 1.00 1 176.36 : 1.C0 0 0.00 0.00 15 l 1.00 1 153.71 176.!6 l 1.00 1 153.72 153.72 793.60 231.30 793.60 331.10 793.60 331.30 0.00 0.00 331.40 334.40 334.40 0.00 1 0.00 i 0.90 0.90 0.90 1060.64 1060.61 1060.64 0.00 0.53 0.53 0.53 0.00 ; { SI APEllTURE CARD i Also Available On Aperture Card a l t . 4 l l l 89~03200191- % t
f l APPENOIX f l. ELECTRIC LOAD TA I LOAD CENTER: 00807A (NoN-CLASS 1E) 480V 2000A . l COOLING TOWER ORAWING No: E1625 4 ~ RATED LOAD 1 i ........................................................................................................c REV EQUIP NO BRKR NO LOAD HP RPM EFF PF ! KW KVA F } l 0* 280AK13 52-0721 CLG TWR 82 FAN 200.0 1300 0.94 0.90 l 153.72 176.36 221.' I { 0 2808K13 52-0722 CLG TWR 12 FAN 200.0 1800 0.9& 0.90 l 158.72 176.36 221.- l 0 280CK13 52-0723 CLG TWR 12 FAN 200.0 1B00 0.94 0.90 l 153.72 ;76.36 221q> 0 2300K13 52 0724 CLG TWR 12 FAN 200.0 1800 0.94 0.90 l 153.72 176.36 ~221e l 0 280EK13 52-0731 CLG TWR 12 FAN 200.0 1800 0.96 0.90 l 158.72 176.36 221q
........................................................................................................d TOTAL KW; KVA 793.60 !!1.80
, . i-TOTAL KVAR 33&.40 I AVERAGE POWER FACTOR 0.90 4 4 4 1 TOTAL LOAD CURRENT 1060.64 ; i AMPACITY FACTOR 0.53
.,j 4
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l ) ! )ULATION Sheet 41 of 82 J At! 31 1989 i 1 NORMAL OPEEATION STARTUP HORMAL $HUIDOWN LONG TERM SHDN 3......................................................................................................................... 1 ! LF OC KW KVA : LF 00 KW KVA l LF 00 KW KVA l LF 00 KW XVA
.... .. ....... ....... ; .... .. ....... ....... ; .... .. ....... ....... l .... .. ....... .......
3 l l l l s5 l 1.00 1 153.72 176.36 1.00 1 153.72 176.36 ! 1.02 1 153.72 176.36 l 1.00 0 0.00 0.00 I : l l 35 l 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 . 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 l l l l l B5 : '!.00 1 158.72 176.26 : 1.00 1 153.72 175.36 l 1.00 1 153.72 176.36 l 1.00 0 3.00 0.00
; . . f.
35 l 1.00 1 158.72 176.36 1.00 1 158.72 176.36 l 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 35 l 1.00 1 153.72 176.!6 . 1.00 1 158.72 176.36 l 1.00 1 158.72 176.36 l 1.00 0 0.00 0.00 e......................................................................................................................... 793.60 !!1.30 793.60 381.80 793.60 281.80 0.00 0.00
!!1.40 334.?0 334.40 0.00 l'
0.90 0.90 0.90 0.00
/'
1060.64 1060.64 1060.6L 0.00 2.53 0.53 0.53 0.00 i l l 4
,1 51 !
APERTURE ) CARD 1 1 f & Aperture C3rd , l 4
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8903200,19 O %- ,
.m_am- - - - . _ - . . - - - - - - - - - - - - - - - -
v n, l l APPEND 1X l
'[
%_< ELECTRIC L0AD T A; LOAD CENTER: 00B07B (NON CLASS 1E) .
l 480V 2000A COOLING TOWER DRAWING No: E1625 RATED LOAD l ..........................................................................................................< RdV EQUIP NO BRKR NO LOAD HP RPM EFF FF l KW KVA FLl l I O 280FK13 52-0734 CLG TWR 12 FAN 200.0 1800 0.91 0.90 l 158.72 176.36 221.; O 280GK13 52-0741 CLG TWR 12 FAN 200.0 1800 0.91 0.90 l 158.72 176.36 221e 0 280.w.K13 52 07&2 CLG TWR 82 FAN 200.0 1800 0.91 0.90 l 158.72 176.36 221. O 2!0JK13 52-0743 CLG TWR 32 FAN 200.0 1800 0.96 0.90 l 158.72 176.36 221. 0 280KK13 0744 CLG TWR 12 FAN -200.0 1800 0.91 0.90 ! 158.72 176.36 221.' l. 200.0 1800 0.96 0.90 ! 158.72 176.36 221 200LK13 52-0754 CLG TWR 82 FAN {,*~* , 0
........................................................................................................e TOTAL KW; KVA 952.32 1058.16 TOTAL KVAR 461.28 AVERAGE POWER FACTOR 0.90 TOTAL LOAD CURRENT 1272.76 AMPACITY FACIOR 0.64 I
m g . E g@%s W#%
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Sheet 42 of 62 ULATION J AN 3 1 1989 1 1 1 STARTUP NORMAL SHVIDOWN LONG TERM SHDN NORMAL 0FERATION
! LF 00 KW KVA : LF 00 KW KVA l LF 00 kW KVA ! LF OC KW KVA l l l l
5 l 1.00 1 158.72 176.36 l 1.00 1 153.72 176.36 l 1.00 1 155.72 176.36 1.00 0 0.00 0.00
' ; l 5 l 1.00 1 153.72 176.36 1.00 1 153.72 176.36 l 1.00 1 153.72 176.36 ! 1.00 0 0.00 0.00 l l l
5 . 1.00 1 158.72 176.36 : 1.00 1 158.72 176.36 l 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 5 : 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 1.00 1 153.72 176.36 1.00 0 0.00 0.00
; l l 5 1.00 1 158.72 176.26 l 1.00 1 153.72 176.36 : 1.03 1 153.72 176.35 l 1.00 0 0.00 0.00 l l l l
'5 l 1.00 1 158.72 176.36 l 1.00 1 158.72 176. 6 1.00 1 153.72 176.36 l 1.00 0 0.00 0.00 952.32 1058.16 952.32 1053.16 0.00 0.00 952.32 1053.16 461.23 461.23 461.23 0.00 0.9G 0.90 0.90 0.00 1272.76 1272.76 1272.76 0.00 0.6L 0.64 0.6L 0.00 SI APERTURE CARD Also Availabic On Aperture Card 890320019b % -
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. LOAD CENTER: 00808A (NON* CLASS 1E)
..l3 F 480V 2000A )g . -= COOLING TOWER ORAWING No: E1625 n 2 [. V. .................................... ..................................................................
' RATED LOAD REV EQUIP NO BRKR NO LOAD HP RPM EFF 'PF l- KW KVA;
... ..........,....... ..............:.........- ......, .... .../. .... : ....... ....... ..c O,
280AK14 . 52-0821 CLG TWR'83 FAN '200.0 1800 0.94 0.90 -l 158.72. 176:36 , 28
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t . . , 0 2808K14 52-0322 CLG TWR 13 FAN 200.0 1800 0.94 0.90 i 158.72 176.36 2d J-. : 0 '210CK14 52 0323- CLG TWR #3 FAN. 200.0 1800 0.91 0,10 :: -153.72 .176.36 . 25 b ' O 2800K14 . 52 0321 CLG TWR 13 FAN 200.0 1300 0.91 -0.90 -l 158.72-- 176.36 ~ 2j ), .-- I ) 0 280EX14- 52 0331 ..CLG WTR 13 FAN 200.0 .1800 0.94 . 0.90 .l 153.72 176.36. 2$ f p 793.60 381.!0 p S 'f0fAL KW: KVA ]'41 (3' \
.f01Al KVAR 331.60' L,
t ) i AVERAGE POWER FACTOR 0.90 1.
- .1 - . .
1_ TOTAL LOAD CURRENT 1060.64 . 4 1 3 ! l-r AMPACITY FACTOR 0.53 '! .l-
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; E J S1 0'B'U'L'A 7 1 0'N Sheet 43 of 82 J AN -3 l'1989 l, #.
F 1 1 L LONG TERM $ HON
. NORMAL CPERAi!0N $fARTUP NORMAL $HUIDOWN p..........................................................................................................................
ft.A - : LF OC KW KVA' I t1 -00 'KW- -KVA -; LF100: KW - KVA ! LF'OC KW - KVA-j... '::' l .... .. ....... .......- .... .. ....... .......:l .... .. ....... ....... .. ,. r '
.!, l'
{.35-'!.'t.00 1 158.72 '176.36 l 1.00 1' 153.72 176.36 F 1.00 1 '158.72 '176.36- l 1.00 0 0.00 0.00 h.351: 1.00 1 158.72 176.36 1.00 1 153.72 '176.36 i 1.00 1 152.72 176.36 l 1.00 0 0.00 0.00 g .!; l. l l j.351 ; 1.00 1 158.72 176.36 l -1.C0 1- 158.72 176.36 l' 1.00 1 158.72 176.36 l- 1.00 : 0 0.00 :0,00
- . ~
).35 : 1.00-.1' 153.72 176.36 lJ1!00 1 158.72 176.36 ! .1'.00 1 158.72 176.36 l 1.00 0 0.00 0.00 1l l l' .! . 3' ) 35 - l '!.00 1 158.72 176.36 -l 1.00 1 153.72 176.36 ! 1.00 1 153.72 .176.36 '! 1.00. 0 0.00 -0.00.. p........................................................................................................................... 793.60 .881.80 793.60 381.80 793.60 !!1.80 0.00 'O.00: ..
.p 334.40 384./.0 334.40' 0.00-0.90 -
0.90 'O.90 0.00 1060.64 1060.64 1060.66 0.00 0.53 0.53 0.53 0.00 i d t SI APERTURE CARD A.lso Available On Aperture Card 1
/J 890 s soo te W .-.----l__- __---._a___a__ _ . . _ - - - . . - . - - . - - - - - - _ . - .o - . . - - - - - - _ _ - _ _ . - _ _ . - - - - _ _ _ _ _ . . _ _ . _ _ _ _ _ - - - - _ _ _ - . - _. -- ..a--______
__7___-_-_ ___1 q A P P E N D.I X s
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I LOAD CENTER: 0060!B (NON.Ct. ASS 1E) 480V 2000A COOLING TOWER DRAWING No: E1625 3 RATED t.AD .l REV EQUIP NO BRKR NO LOAD HP RF!! Eff PF l KW KVA T'
... ........ ....... ........................ l
' f 0 210FK11 52-0334 CLG TWR 13 FAN 200.0 1800 0.9& 0.90 1 158.72 176.36' 2'21) 0 280GK14 52-03&1 CLG TWR 13 FAN 200.0 1200 0.'91 0.90 158.72 176.36 221 0 280HX14 52-08&2 CLG TWR 13 FAN 200.0 1800 0.94 0.90 : 153.72 176.35 2'21
( 0 2803K14 52 0!i3 CLC TWR 13 FAN 200.0 1800 0.94 0.90 153.72' 176.36 221i f 0 280KK14 52-0844 CLG TWR 33 FAN 200.0 1800 0.94 0.90 153.72 176.36 '221!
- I
- 0 280'.K14 52-0854 CLG 1WR 13 FAN 200.0 1800 0. M 0.90 153.72 176.36 221!
Q .....................................................................................................f ! TOTAL KW: KVA 952.32 '105B.16 l TOTAL KVAR 461.23 0.90 i AVERAGE POWER FACTOR TOTAL LCAO CURRENT 1272.76 ! I MPACITY TACTOR 0.64 l l 1 i i .W Q L-_______________________ _ _ . _ . _ _ _ _ _ __ _ . _ _ _ _ _ _ _ . , _ . _ _ _ _ _ _ _ _ _ _
s. p' Sheet 44 of 82 hOLA'T. ION u
' J AN 31 1989 NCRfAL 0FERATION OTAR7LP NORMAL HiUTDOWN LONG T!RM EHON 3 :. Lf (. f. tW KVA l LF GC KW KVA l LF OC KW KVA l LF OC KW XVA p_; .... .. ..... . ...... ; .... .. .,..... ....... ; .... .. ....... .......
l l l l S5 1.00 1. 158.72 176.36 ! 1.00 1 ' 158.72 176.36 l 1.00.1 158.72 176.36 l 1.00 0 0.00 0.00
. f I 85 l 1.03 1 15t.72 176.36 l 1.00'1 153.72 176.36 l 1.00 1 153.72 176 36 l 1.00 0 0.00 0.00
; ! l l 35 l.1.00 1 158.72 176.36 l 1.00 1 156.72 176.36 l 1.00 1 158.72 176.!6 : 1.00 0 0.00 0.00 e
3, , , 35 ! 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 l 1.C0 1 158.72 176.36 .' 1.00 0 0.00 0.00 i
, . , . g 35 ! 1.00 1 158.72 176.36 l 1.00 1 153.72 176.36 l 1.00 1 158.72 176.36 ', 1.00 0 0.00 0.00
,i . ,. , .
- 35. ! 1.00 : 15!.72 176.36 1.00 1 1!!.72 176.36 l 1.00 1 158.72 176.36 l 1.00 0 0.00 0.00 n... ............ .... .......... ............................................................... ........................
952.32 1058.16 0.00 0.0; 952.32 1053.,0 152.32 1053.16 461.23 161.23- 461,25 0.00 0.90 0.c0 0.10 0.00 1272.76 1:72.76 1272.76 0.00 0.66 C.54 0.64 0.00 i l 4 SI 1 APEp3URE CARD i Also y y.t.crA".S3*Ccfd j 1 1 l 8 9 o.3 2,0 0191- 99> _ n --
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LOAD CENTER: 00Bl&A (NON-CLASS 1E) 480V- 2000A-DRAWING No: E!612 -.
.)
3
- RATED LOA 0f n . ........................................................................................................;
REV EQUIP NO BRKR NO LOAD HP RPM EFF FF : ll KW KVA - Ej
.... ;'.......,,........y.....j i i. .
l- . 0 '00651 '52-!A21 NCC 00B51 .-- -
- 0.92 ('J322.73 -350.79' '
421l l
- - - 0.85 .65.51- 77.07 92; 00B301 52-1423 PL 120L & NCC 008301 0-i-
0 00629- . 52-142( NCC 00329 .- - . 0.38 ; 1183.90 21&.56L 255
'1 0 00B23' 52-1431 MCC 00E23 * - . - 0.90 7 l 237.69 -25&.10 '317 I- - - -
0.89 i .299.14 '336.11 .406
- i. 0- :00647 52-1433 MCC 00547 l
....... ...............................................................................................q l.
l' 1113.97; 12&1.66 T-- TOTAL W: KVA '
.-d TOTAL KVAR 5&S.40 : ,
AVERAGE POWER FACTOR .0.90 TOTAL LOAD CURRENT !&93.46 L . AMPACITY FACTOR 0.73 l I i k' f-NOTES:
- FOR DETAIL, AEFER TO BUS CCNNECTION REPORT, DATED 12/3/87, PAGE 10.
l(J) I 3 e w t m____ ____ .__-_____.________.m . . _ . _ _ . _ _.-_.'__-_______._____.__.-_-_____..___._ _ _ _ _ . _ _ _ _ _ _ . . _ . _ _ -._1- _ _ . _ . . _ _ - _ _ . - - _ . - . . - . _ _ - _ _ _
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lPI t ' B O' L 'A %I' 0 N , Sheet 45,of'82
- J At! 31 19891
~
S.e L-NORMAL CPE.5ATION STARTUP NORMAL 5HUTDOWN. LONG TERM 5HDN' r; k .!' LF OC KW KVA ! , , LF OC KW K4 il 'LF '0C KW ;
....... ...... 1 .
KVA l " LF OC- KW ' . .KVA
-l .- .: .... ..
L.' .' ( l . . . . . . . . . . < l- l- ! '; .. . l03 1! 0.21 1 67.77 73.66 .; 0.21 1.: 67.77 73.66 -l 0.21 -1 67.77 73.65-l 0.21 1_ 67.77 73.66
- !' -l '
.. 1 70 U 1.00 1 e5.51 77.07 l- 1.00 1 65.51-. 77.07 l 1.00 1 65.51- 77.07. 1.00 1 .65.51 77.07
- 4 - , , - ., ,
120.20- j' O.51 1 96.34 :109.48
~
30 ! 0,56 1 105.73 120.20- l' O.56 :1 105.78 '120.20 - l 0.!6 1 105.73 lL .l l l 46-l. 1.00 '.1 237.69 261.10 l 1.00 1- 237.69 264.10 l 1.00 1 237.69 264.10 l 1.00'1 237.69 -266.10
\~ .
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^
28';!i0.77'l 230,31 255.81-l-0.77 1- 230.3?. 258.!1- l 0.77 1 230.31 258.81 l 0.70 1 209.40 235.22 7 ........................................................................................................................... 707.09- 793.31 '707.09- 793.!1 707.09 793.31 676.71~ 759.06 , 3!9.67 .- 359.67 359.67 313.86 0.39 0.89 0.89 s0.89 954.20 95&.20 .954.20 913.01-0.13 0.48 C.48 0.46 S1 APERTURn CARD , , Also Availabtr On Aperture Card
-{
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-l l
APPENDIX ,k ELECTRIC ' l O t. D TA
'l l
1 J 1 LOAD CENTER: 00B14B (NON CLASS 1E) 480V. 2000A
ANT SERVICES ORAWING No: E1612 l'
4 I RAlED LOAD' j l [- ........................................................................................................d !' REV EQUlf NO BRKR NO- LOA 0 HP RFM EFF FF l KW KVA ,. Fs
* ...... .... .... .... ; ,...... ....... ....c l . - ,
- l, 0 00833 52-1451 MCC 00833 * - . - -
0.90 l 211.23 234.70 282 3 I
> 4 l 0 00B3& 52 1453 MCC 00E36 0.88 l 169.85 193.01 232J ] l j 0 00B48 52-1654 MCC 00848 0.88 l 292.14 331.93 399; i 0 00840 $2-1461 MCC 00S40 0.37 l 83.83 96.36 115),
l O 00S52 52-1462 MCC 00E52
- 0.88 l 273.91 311.26 374l ; 1 t
170A,EH9 52 1473 TB CRANE 17]A.BH09 - - - 0.75 ! 172.50 230.00 276;
..' O 1 1
........................................................................................................e i TOTAL KW; KVA 1203.46 1391.81 i
699.15 TOTAL KVAR l AVERAGE POWER FACTOR 0.86 q l TOTAL LOAD CURRENT 1674.03 AP.PACITY FACTOR 0.8& i \ j i 1 -i s k,- s NOTES:
- FOR DETAIL, REFER TO BUS CCNNECTION REPORT, DATED 12/3/87, PACE 11.
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U l. A T 'l 'O N Sheet 46 of 82'
. J MI 3 1 1989 -
7r U ' NORMAL OPERATION STARTUP h0RMAL SHUTDOWN . LONhTERn$HDN iii:li LF J OC- ' KW KVA ! LF' OC , KW XVA' l LF OC KW KVA ! l.F 00- i KW -XVA ' r.,:c....s.. . ....... . . . . . . . - : ..... .. ....... ....... :
'(l :. : :.
30 ?l- 1.00 -1 '
'211.23 '234.70- l' 1.00 1 211.23 234.70 l 1.00 1 211.23 234.70 l 1.00 1 211.23 234.70
'! l : !
154 l L O.53 L 1- 10.02 '!02.30 l 0.53 1 90.02 102.30 ; 0.53 1 90.02 -102.30 : 0.50 1 14.92 16.50: w. 7 N Y 030 .1- 175.23 199.12 0.61 1 178.21 202.51 : 0.6L i 173.21 '202.51 : 0.59 1 172.36 195.36 y l' ; ; DO3lL0.79:1- 66.25 - 76.13- ' 0.79 1 66.23 76.13 ! 0.71 1 66.23 76.13 0.77L1 6&.55 76.20
- !L 1 l !
39hE0.36-1 13.61 112.06-!-0.36 1 98.61 112.06 l 0.36 1 98.61 112.06 l 0.30 1 32.17 93.37 k !. -l l-N l 1.00- 0 - 0.00 0.00 1. 1.00 0- 0.00 0.00 : 1.00-'0 0.00- 0.00 - l 1.00 0 0.00 - 0.00 e............................. ........................................................................................... 641.37 724.13 644.30 727.51 6LA.30 727.51 615.23 69&,41 336.27 337.85 337.85 322.08' 0.89 0.89 0,89 O.89 371.05 $75.05 375.05 535.28 L 0.LL 0.LL 0.il 0 L2 1 1 li ..~ SI APERTURE CARD 4-Also Available On A norture Card L p
.o 3903200191- @
__m _ m_ , _ __ __m_ _ . _ . _ . _ _ _ _ _ . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ w
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- - . - - - - ,r.-- - - , - - , - ,.. - - - - - - - - - . . - - . - , . - - - - - - - - . - , - - - . - - - . - , - - .
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' LOAD CENTER: 005106 (NON CLASS 1E) ..
&a0V 5000A COOLING TOWER . DRAWING No: E5010 -
-RATEDLOAD[
........................................................................................................q
,. REV EQUIP N0 BRKR NO LOAD HP RFM .Eff- FF l 'KW KVA - FG l....'.. . ..........<
. -l
- 2 80AE177A-52-10631 CLG TWR D FAN 250.0 1800 0.91 0.91 l '193.40' 218.02- 273; n 0- 200AE17B 52 10632 CLG TWR D FAN 250.0 1300 0.91 '0.91 ' ,198.40 218.02 : 273; l
m ;' 0 -30AE1770 52 10633 CLG TWR D FAN ' 250.0 1600 - 0.94-'O.911 l '193.10 218.02 273;
' 0'! SOAE177D 52-10631 CLG TWR D FAN 250.0 1800 0.94 0.91 l '193.40: -218.02 -273<
l L 0 -30AE177E 52 10641 CLG iWR D FAN- 250.0'1800 0.91 0,91 l '191.40 213.02-- 273;
~ .0 10A!!77f 52 10612 CLG TWR D FAN
^
' 250.0 .1500 0.91 0.91' l 193.40 ' 213.02 -273<
) 0 20AE1776 52-106&3 CLG TWR D FAN - 250.0'1800 0.9& 0.91 - l 193,40 '218.02'.273 l
4
- l
- 0' 20AE177H 52-106&& CLG TWR D FAN - 250.0.-1300 '0.9& 0.91 1 198.10 218.02:.!273; 0 80AE1771 .52-10651 CLG TWR D FAN 250.0 1800 0.9& 0.91 l 198.&O.218.02 273; O 10AE177J 52 10652 CLG TWR D FAN 250.0 '1800 .0.94- 0.91 l 198.10 213.02'.271 0 80AE177K~ 52-10653 CLG TWR D FAN 250.0 1800 0.94 !0.91 l 198.40 218.02- 278i O 80AE177L 52 1065& CLG TWR D FAN 250.0 1800 0.94 0.91 ! 198.40 218.02 ~ 278; l
0 iOAE177M 52-10661 CLG TWR.D FAN 250.0 1800 0.94 0.91 l 198.40 218.02 278, l 0 80AE177N 52-10662 CLG TWR D FAN 250.0 1800 0.94 0.91 l' 198.40 218.02 ~27e
.......................................................................................................w TOTAL KW; KVA 2777.60 3052.29 i i
1
. TOTAL KVAR 1265.&6 AVERAGE POWER FACTOR 0.91 TOTAL LOAD CURRENT 3671.33 l l
{n.' . AMPACITY FACTOR 0.73 ) I l
-)
, 1 i
-w j
S U'L A T ! O N Sheet 47 of 82 J AN 3 1 1989 L l NORMAL 0?! RATION STARTUP NORMAL 5HUTDOWN LONG TERM SHON l $ :. LF 00 KW KVA l LF OC KW KVA l LF 00 KW KVA l LF 00 KW KVA L. ; ; .... .. ....... ....... .... .. ....... ....... .... .. ....... ........ l l l l . 64 l 1.00 1 191.40 213.02 l 1.00 1 198.40 215.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l ei l 1.00 1 lia.&O 213.02 1.00 1 198.&0 211.02 l 1.C0 0 :.00 0.00 , 1.00 0 0.00 0.00 l l . . H l 1.00.1 193.40 213.02 l 1.00 1 193.40 213.02 . 1.00 0 0.00 0.03 l 1.00 0 0.00 0.00 l l . l 64 l 1.00 1 198.&O 212.02 l 1.00 1 193.40 218.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 64 l 1.00 1 193.10 213.02 l 1.00 1 193.40 213.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l
- 64. l 1.00 1 191.40 21!.02 l 1.00 1 193.40 213.02 l 1.:0 0 0.00 0.00 l 1.00 0 0.00 0.00 l l : l 64 l 1.00 1 193.40 218.02 l 1.00 1 19B.40 213.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l : .
64 l 1.00 1 193.40 213.02 l 1.00 1 198.&O 213.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 64 l 1.00 1 198 &O 211.02 l 1.00 1 198.40 218.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
. . l 64 l 1.00 1 193.40 211.02 l 1.00 1 198.&O 218.02 l 1.00 0 0.00 0.00 1.00 0 0.00 0.00 l l l l 64 l 1.00 1 198.40 213.02 l 1.00 1 198.40 213.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l l l 64 l 1.00 1 193.40 213.02 l 1.00 1 198.&0 213.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00
; l l l 64 l 1.00 1 193.40 218.02 l 1.00 1 193.40 218.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 l l 64 l 1.00 1 198.40 2*:.22
. 1.00 1 193.40 218.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 2777.60 3052.29 2777.60 2052.29 0.00 0.00 0.00 0.00 1265.46 1265.&6 0.00 0.00 0.91 0.91 0.00 0.00 l 3671.33 '3671.33 0.00 0.00 SI l
0.73 APERTURE 0.73 0.00 0.00 CAllD also Avaiiagic on 890 8 20019 g - /D l r aperture Lard
- l. . .
g71m - u - ~ , - - - - - - . r
- ; ==.u ._4 p s
~
A P P E N.D l X-u. ELECTRIC.3L0AD' --T A'
+-. j
~ Ny- ;
, LOAD CENTER: 00S107f (NON+ CLASS'1E) .
4 480V15000A.
/ '. : COOLING TOWER .ORAWING No:.E!0!G -
v
- h. . RATED LOAD; E JREV EQUIP NO BRKR NO .* ' . LOAD. HP - RPM 'Eff PF l KW: KVA. .f4
- .......; ....... n ....<
p.; 0' SOBE177A 52-10731 CLG TWR E FAN- 250.0' 1800 0.94 'O.91 ! :198 LOL 212.021, 27 (g
. o $y 0 80BE177A 52 10732 CLG TWR E FAN 250.0 1800 0.91~. 0.91 l :198.40 213.02.-5273l t
l ?[ 250.0 1800 0.94- 0.91'; 193.40: 213.02 273, [*
~
;O 60BE177C 52-10733 CLG TWR E FAN -
~ 250.0 1800 0.94 .0.91 'l
$b .193.40 218.02 =27& d y
' 0 '30SE1770 52 10734 CLG TWR E FAN ,
I y 0.91 -l' 198.40 212.02^?27F 250.0 1800 0.9&' a.b 0- 10BE177E 52-107&1 CLG TWR E FAN. , .l pr ifpg s1 0 "80!E177f - $2-107&2 CLG TWR E f)N .250.0 1300' O.94 0.91 198.~ 10 l218.02 27 p/ 250.0 1300 ,0.94 0.91 l .192.40. 218.02 . .. -'278 Wui. 0 80BE177G 52 10743 CLG TWR E FAN e
, 1
,s- 0.94 0.91 !' 193.10 218.02.:273 250.0 1300 b
- v.
0 80EE177H 52-10744 CLG TWR E FAN. ., r 1 l:p 250.0 1800 -0.94 0.91 j '193.40 218.02 272 LU .0 30BE1771'52-10751 CLG TWR E FAN . : i - m _ 250.0 !!00 0.94. 0.91 198.40 '213.02. :27$ e -V 0 30BE1773 52-10752 CLG TWR E FAN ih .v 250.0 1800' 0.94 0.91 l-198.40 215.02 27( }@ -0 80EE177K 52-10753 CLG TWR E FAN C
~
50BE177L $2-10756 CLG TWR E FAN 250.0 1800 0.94 0.91 198.40 218.02. 27{ h,) 0 Oy
- R '
O. 80BE177M 52 10761 CLG TWR E FAN 250.0 1800 0.94 0.91 l. 198.40 218.02 12 7{
~
g% 0 20BE177N 52-10762 CLG TWR E FAN 250.0 1800 0.94 0.91 . 193.40 ' 218.02 27] n: ............................................................................. ! I TOTAL KW; KVA 2777.60 3052.29 1265.46 TOTAL KVAR i 0.91 ,
, AVERAGE F0WER FACTOR I
3671.33 b TOTAL LOAD CURRENT
%)'
' 0.73 l AMPACITY FACIOR 1 1
~.
T . , ~ . , .
4 . L- . n i < V
'l
.N
] , V Sheet 48 of 82.- hUL'AT!0N. l ' s J AN' 3 '1 1989 73 <3 NORMAL OPERAi10N STARTUP %RMAL SHUTDOWN- LONG TERM $HDN s....'..................................................................................................................... 2! .'.l } LF OC' KW - KVA : LF OC ' KW KVA. '; LF UC KW KVA .l . .LT OC KW KVA s :.
. ........: .... .. ....... ....... : .... .. ........ ....... r ~....... ....... .......
1l l l -l' N5::.1.00 1 '193.40- 218.02. ; 1.00 1 193.40 213.02 l'1.00 0 .0.00 .0.00 -l 1.00 0 0.00 0.00'
- l. ;,
S&' A .1.00 1 198.40 ' 21!.02 1.00 1- 193.40 213.02 l 1.00 0' O.00 0.00 '1.00 0- .0.00 0.00
- l l l 66? l:'1.00 l' 198.40 211.02 : .1.00 1' 198.40 213.02 : 1.00 0 .0.00 0.00-l 1.00 '0 -0.00 . 0.00 -
.: l l .
46 ' - l 1.00 1 .193.40 .213.02-- l 1.00 1 193.40 213.02 l 1.00 'O 0.00 0.00 l 1.00 0 0.00 'O.00 6&c l L1.00 .1 198.40 218.02 l 1.00 1 .198.40 218.02 1.00 0 0.00 0.00 l 1.00 0 - :0.00 0.00
!~ l l l .'
44,lL1.00 1 .'198.40' 218.02 l:1.00 1 '198.40 21!.02 l 1.00 0 0.00 0.00 '! 1.00 .0 0.00 0.00 i.
,i 6
64 :: 1.00 1 198.40 218.02 : 1.00 1 198.40 218.02 l 1.00 0 0.00. 0.00 l 1.00 0 0.00' O.00 l' l 641 ! .1.00 1 192.40 213,02 l 1.00 1 198.40 218.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00: l~ i46 -l. 1.00 1 198.40 218.02. 1,00 1 ,192.40 218.02 ! 1.00 . 0 0.00 0.00 -l 1.00 0 ' 0. 00 . ' 0.00. . l' . ! 264 -l 1.00 .1 - 193.40 '213.02 l 1.00 1 191.40 213.02 l 1.00 0 0.00 0.00 l.1.00 0 10.00 - 0.00 i l l ! l 366 1.00 1 198.40 218.02.l 1.00 1 198.40 ~ 218.02 l 1.00 0 0.00 0.00 l- 1.00 0 0.00- 0.00
;. l l l 2 64 -! 1.00 1 -198;&O 21,!.02 1.0011 198.40 218.02 l 1.00 0 0.00 0.00 1 1.00 0 0.00 0.00 l l l
~l ,
'O.00 l 1.00 0 0.00 0.00=
e66 l 1.00il '198.40 215.02 l 1.00 1 193.10 218.02 l t.00 0 0.00 l l "l l 404 l. l.00- 1 198.40 '218.02 : 1.00 1 193.40 213.02 l 1.00 0 0.00 0.00 l 1.00 0 0.00 0.00 0.......................................................................................................................... 2777.60 3052.29 0.00 'O.00 0.00 0.00 2777.60 3052.29
\
12b5.46 1265.46 0.00 0.00 4 0.91 0.00 0.00 ; 0.91 ; 3671.33 SI 3671.33 0.00 0.00
. APERTURE 0.73 0.00 0.00 0.73 CARD Also Avakble On Aperture ~nra p.. 8903200191-JOR .
/ .
A P P E N D 1.X s ELECTR!C L0AD TA a ir 1 LOAD CENTER: 20301A (NcN CLASS kN)
/
, 480V 2000A J GENERATOR AREA ORAWING No: E1602 p- RATED LCAD
,s
~ ~ ~ ~
REV EQUIF NO ERKR NO LOAD H? RFM EFF FF l KW KVA Fi.. l ... ........ ....... ........................ ...... .... .... .... [ 0 20B19 52-0121 MCC 20B19 - - - 0.23 -271.34 303.34 370. 0 20S30 52-0122 nCC20!!$ - - - 0.31 l 310.93 . aa2.63 510.
].
0.36 l 0 20564 52-0124 nCC 20564 - - - 91.01 105.33 127. l . 0 20B11 52-0131 nCC 20541 - - - 0.38 l 224.35 255.51 307. TOTAL KW; KVA 978.13 1150.01 TOTAL KVAR 601.25 t AVERAGE F0WER FACTOR 0.35 TOTAL LOAD CURRENT 1353.23 AMPACITY FACTOR 0.6f 1 - 6 P. e.f '. 7 3.- g s I .8*. e.T:
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LATION- Sheet 49 of 82 J A N 3 1 1969 I
^
NORMAL OFERATION STARTUP. NORMAL SHUTDOWN LONG TERM 5 MON LF 00 i LF OC KVA LF , OC XW KVA l LF CC Ki; XVA !l XW XVA KW l a j; .... .. .... .. ....... .... .. ....... ....... ;
...) .. ....... ....... ; ... .. ....... .......
I 1 : : : !! 0.46 1 .12&.82 141.34 ; 0.16 1 121.87 141.84 l 0.48 1 b 124.82 141.84 ; 0.10 1 27.13 30.33 f l: : : : s
- 0.55 '
215.01 265.44 : 0.t! ! 216.29 304.06 l 0.6} 1 246.29 304.06 .' O.16 1 62.55 7.22
- l l l 4 l
{ .; 0.66 1 e0.07 69.85 l 0.te 1 60.07. 69.15 : 0.66 1 60.07 69.35 ; 0.36 1 60.07 :9.85
; l .
O.63 1 152.90 173.75 0.61 1 152.90 173.75 . 0.65 1 152.90 173.75 l 0.66 1 148.40 163.64 ......................................... .........................x............. 552.30 649.62 534.03 638.15 ,- 534.03 63!.15 293.15 346.06 341.21 363.26 F 363.36 175.63 0.65 0.25 0.15 0.86 f L
- I 731.35 827.71 -
827.71 416.24 0.39 0.41 0.41 0.21 i u t e t i.. r S1 , [
,4cG*
o op I
.p . sp 0" k 'i
-; m, h
6 4 4 890G200191-
t
%= .: e.,,,
L. 4PPEN0iX t EL5CTP1C L0AD TA r~ s ? qu
' LOAD CENTER: 20B012 (NCN CLASS 1E) , 430V 2000A GENERATOR AREA DRAWING No: E1602 RATED LOAD ) ' HP RPn (FF PF , KW K5/A ?:
REV (QUIP N0 3RKR NO LOAD i ... ........ ....... ........................ t i 0 20B31 52-0141 nCC 20!31 0.34 l 493.88 593.90 714 j 0.88 . 261.63 297.3; 257 0 20S20 52-0142 nCC 20E20 1 0.33 136,14 211.52 251 0 20542 52 0113 500 20512 , 0 20B65 52 0146 nCC 20!65 3.15 120.17 141.38 170 TOTAL KW; KVA 1066.32 1213.25 o33.40 TOTAL KVAR h %. / 0.36
- i AVERAGE POWER FACTOR o
1495.39 TOTA'. LOAD CURRENT 0.75 1 AMPACITY FACTOR 1 .1 i, t ls u I.
.V.'
a> l
')
ens. m.e
Sheet 50 of 82
~
b V' L' A 7 1 0 N . J A N 3 1 1989 i i i NORMAL 0? ERAT 10h $TARTUP NORMAL SHUTDOWN LONG TERN 5H?N .c.. ..................... ....................... ......................................................................... , Q~ ! LF' OC XW UA J OC KW KVA l LF OC KW KVA .l LF OC KW KVA
- o. l .... .. ....... ....... .... .. ....... ....... ; .... .. ....... . . . . . . . l .... .. . . . . . . . . . . . . . . .
A5 ' l 0.66 1 219.51 26!.32 l 0.42 1 209.53 249.44 l 0.45 1 224.50 267.26 0.22 1 109.75 130.65
,, i i Jet l 0.43-l' 112.50 127.14 , 0. e 3 .1 112.50 127.34 : 0.13 1 112.50 127.!1 l 0. W 34.01 33.65
. 1 B i 6, , . . ;
!42 O.39 1 72.59 52.19 0.39 i 72.59 82.49 : 0.39 1 72.59 32.49 l 1.00 0 0.00 0.00 I
. , , 1
, , s l05 l 0.70 1 8. 22 93.96 l 0.70 1 84,12 98.96 l 0.70 1 34,12 98.96 , 0.69 1 32.92 97 55 p..................................... ....................................................................................
118.72 570.21 478.74 553.36 193.71 576.17 226.63 266.75 i 293.!1 287.36 297.23 U.2. 52 ! t 0.36' O.36 0.!6 0.35 i i 685.39 671.60 693.03 320.36 0.31 0.34 0.35 0.16
*I i 1
si w l
'#an c 3
i
.1 m'o v s b' _O. ' c lu.
OGMA A r'd\ N n OA _ _ _ _ _ _ _ _ _
r- ' , 4, . . q: , 3j u . ar . .. h~ l
) )
c ,k Q~ APPEND 1X i l1
.). L.s ELECTRIC L0AD 'T ' A
- 4 4 a 5 j .
as y o 1
- 1
]l LOAD CENTER: 20B02A (NON* CLASS 1E) 480V 2000A [ 1 TUR3INE AREA ORAWING flo: E1600 l 3 RATED LOAD y' FF ! REV EQUIP NO SkKR NO LOAD HP R?M EFF- - KW XVA F jj . ... ....... ....... ........................
........ ...... ....)
3 ,. l 0 20B15 52 0221 MCC 20B15 - -
- 0.88 - l 401.37 459.51 552l 3
q ..
] 0 20B17 52-0223 .100 20517 - - -
0.88 l 102.98 117.02 '160i l ; ]s O 2720?321 52-0221 TOR DiUTR F? 125.0 1300 0.38 0.38 l 105.97 120.42- 151) L: . 1 t
- - O 3620K11 52-0231 LOW FRES5 AIR BLOWER 200.0 900 0.92 0.93 l ,
162.17 180,19 226 i l 0 502A!!5 52 0232 150 PH BUS COOLER 125.0 1800 0.92 0.85 101.36 117.86 147/ l I 0 442AK18 52 0234 ORfWELL CHILLER 285.0 15C0 0.33 0.!! l 211.60 .274.55- 34t; m e ........................................................................................................+
# TOTAL KW; KVA 1118.15 1269.29 !
1 A TOTAL KVAR 600.13 ij AVERAGE POWER FACTOR 0.38 n
- j. TOTAL LOAD CURRENT 1526.71 j ti !
j AMPACITY FACTOR 0.76 i-1 l'. f .; a i i
.:t .
I i i i S # 9 . w w
.N !ON Sheet 51 of 82 J AN 3 1 1989 l
l lNORMALOPERATION STARTUF NCAMAL SHVfDOWN' LONG TERM 5HDN p............................ ............................................. ........ ............................ i ' 00 KW K/A I LF 00 KW KYA : LF 00 - KW KVA 1 LF 00 XW KVA , .. ........ .....-: .... .. ....... ....... ; ... e ....... ....... ; .'... .. ....... ....... l l l
~
5 .1 222.40 252.73 l 0.55 1 222.60 252.73 l 0.55 1 222, ,. 252.73 ! 0.50 1 202.18 229.75 l l C1 24.72 23.09 l 0.71 1 76.21 36.60 l 0.71 1 76.21 26.30 . 0.18 1 13.54 21.07 l l l l' 0 '0.00 0.00 l 1.00 : 3.00 0.00 , 1.03 0 0.00 0.00 l 1.00 0 0.00 0.00 l l : 51 40.5& 45.01 ! 0.25 1 10.51 45.04 0.25 1 40.54 15.04 l 0.25 1 10.54 45.04 l . l } l 101.36 117.16 l 1.00 1 101.36 117.16 ; 1.00 1 101.36 !!7.!6 l 1.00 0 0.00 0.00 e l
. , t, 31 211.60 271.55 l 1.00 1 211.00 274.55 1.03 1 211.60 274.55 ; 1.00 0 0.00 3.00 630.62 718,13 632.11 776.64 t32.11 776.61 261.2d 295.82 343.55 371.34 371.34 138.76 0.83 0.83 0.S$ 0.83 863.77 934.15 934.15 355.22 0.43 0.47 0.47 0.18 SI '%
APERTURE CARD i tdSO liYdj}'.]}}}e ()[] A pero: r* rd 8903200193 - 106' -
a-- . i~ , f ~- <,; ;
- q. ~
s i~ t '> . n t APPEND 1X l '\
' - ELECTRIC L0AD T Ai l
y.
, . (t..
ll ' j l LOAD CENTER: 206028 (NON CLASS 1E) ] &$0V 2000A . ? TURBINE AREA ORAWING No: E1600 l ! a .I s RATED LOAD
........................................................................................................e REV EQUIP NO BRKR NO LOAD HP RPM EFF FF i KW KVA F( , ... ........ ....... ........................ ...... .... .... .... ....... ....... ....e 0 20816 52-0251 MCC 20216 - - .
0.83 l 113.19 469.53 564. 0 20818 52-0251 MCC 20B18 .
- 0.89 l 150.36 109.51 203.
I O 502EE15}}