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Evaluation of Auxiliary Feedwater Flow Requirements for High Pressure Safety Injection Pump Conversion
	ML18047A522
Person / Time
Site:	Palisades
Issue date:	08/11/1982
From:	; CONSUMERS ENERGY CO. (FORMERLY CONSUMERS POWER CO.)
To:	;
Shared Package
ML18047A521	List: ML18047A520; ML18047A522;
References
	NUDOCS 8208180016
	Download: ML18047A522 (78)
	v • d • e

-***---------------------------

l) -

8208180016 820811 PDR ADOCK 05000255 P

PDR EVALUATION OF AUXILIARY FEEDWAlERFLOW REQU IRB-1ENTS FOR HIGH *PRESSURE-SAFETY* INJECTION* PUMP*

CONVERSION.

Rl&UlATDRY.. DOCKET FllE COPY

~

TABLE OF CONTENTS

1.0 INTRODUCTION

1.1 Purpose 1.2 Scope

1.3 Background

2.0 REFERENCES

3.0_

SUftt'tARY OF EVALUATION 3.1 Acceptance Criteria 3.2 Assumptions 3.3 Results

4.0 CONCLUSION

S Figure A -

case 1:

Fi_gures 1-19 Case 2:-

Figures 1-19 case-3:- -

- - Figures 1-19 List of Figures AFW and HPSI Pump Curves Case 1: 300 GPM Total Flow To Both Steam Generators (150 gpm/SG)

Case 2: 400 GPH Total Flow To Both Steam Generators (200 gpm/SG)

Case 3:

325 GPH Total Flow To One (1) Steam Generator (Zero Flow to the Other SG) i Page.No.

1 1

2 2

2 3

3 4

.: 1 -

1.0 INTRODUCTION

1.1 Purpose The purpose of this report is to evaluate the Auxiliary Feedwater (AFW) flow requirements for the Palisades Nuclear Plant. This was done to detennine the capability of an existing High Pressure Safety Injection (HPSI) pump to function as an AFW pump.

1.2 Scope This anaTJsis applies only to the Palisades Nuclear Power Plant.

Speeif1cally, it addresses the auxiliary feedwater flow rate re-quired to automatically maintain decay heat removal but does not encompass subsequent plant_cooldown.

Adequate flowrate is the only criteria for acceptance of the pump conversion considered in this* analysis.

1.3 Background

As a result of TMI and subsequent studies (References 2.1 and 2.2) the importance of the Auxiliary Feedwater System (AFWS) in mitigating accidents has been highlighted. In light of this, the NRC Staff has made an assessment of the relative reliability of the AFWS at all operating plants for various loss *of main feedwater transients. The Palisades Nuclear Plant was assessed as requiring improvement in its overall level of reliability.

One of the main areas of concern was the fact that the AFW discharge lines of the two existing AFW pumps conbined into a single header through which all AFW must flow.

To improve the overall reliability of the AFWS, it has been proposed that the third existing HPSI pump be converted so as to function as an Auxiliary Feedwater pump.

Figure A shows the relative capacities of the HPSI and AFW pumps indicating the somewhat lower flow rate of the HPSI pump.

l.

I

-* 2 -

1.3 Background -- continued To detennine the capability of the HPSI pump to function as an AFW pump, an analytical evaluation of the AFWS flow requirements for Palisades, was perfonned.

2.0 REFERENCES

2.1 NUREG 0635, Generic Evaluation of Feedwater Transients and Small Break LOCA accidents in CE Designed Operating Plants, January 1980.

2.2 NUREG 0737, Post TIU Requirements, October 1980.

2.3 FSAR, Conswner Power Canpariy, Palisades.

3.0

SUMMARY

3ol Acceptance Criteria The analysis was perfonned using the CE Long Tenn Cooling (LTC) plant simulation code to detennine the NSSS response following a total loss of main feedwater. Results were considered acceptable if the secondary ~eat sink was maintained as reflected by stable prifl'IClry system temperature and pressure.

This resulted in acceptable delivery rates that are lower than the flow rates necessary to match the steam flow required to remove decay heat, as specified in Table 9-11 of the Palisades Final Safety Analysis Report (FSAR) (Reference 2.3). The flow rates described in the FSAR are conservative values which do not credit the steam generatar inventory, which is an additional source of decay heat removal.

With the lower flow rates it has been shown that the steam generator liquid volume will decrease during the initial portion of the transients but then subsequently increase as the AFW flow rate "catches up" with the decreasing decay heat. Hence, the steam generator is not drained and primary to secondary heat transfer is not degraded to a point beyond a few degrees increase in hot leg temperature.

\\,/

. 3 -

3.2 Assumptions The following assumptions were used in the analysis of the total loss of main feedwater flow:

1. The core has been operating at 2650 MW prior to reactor trip.

This maximizes the decay heat load to the steam generators (SG).

2.

The present AFW pumps (one motor driven and one turbine driven) are unavailable and that the converted HPSI pump is the only source of AFW fl ow.

3. A 120 second time delay from demand to delivery was selected for all cases.

4.

The AFW temperat"ure was 100°F and the SG secondary pressure was maintained at 900 psia.

5.

The following HPSI flowrates were analyzed:

Case 1: Auxiliary Feedwater (AFW) flowrate of 300 GPM is supplied to two steam generators (150 GPM each).

Case 2:

AFW flowrate of 400 GPM is supplied to two steam generators (200 GPM each).

Case 3:

AFW flowrate of 325 GPM to one steam generator (no flow to the other SG).

3.3 Results As can be seen in the resulting plots, the minimum secondary inventories.

(indicated by wide range level} are on the order of 8 to 20 percent of instrument span*. It can also be noted that the steam generator level is recovered so that the steam generator is not drained~

. (Although levels fall below narrow range indication, level can still be monitored due to the fact that Palisades recently installed a wide range level indication systen:i.)

Loop temperatures as can be seen, level off _gradually without increasing more than 5°F and without impacting system pressure *

NOTE: The plots prepared by the computer present secondary level in per cent of span between the WR (wide range) level instrument taps. This is not the sane as the value that would be read on the WR SG level indicator. The scale on the WR indicator reads from -138% to 0 to+100%; with 0 to +100% corresponding to the span covered by the NR indicator.

-* 4.;. -

4.0 CONCLUSION

S

/jcp.

Following a review of the results gathered in the analysis, CE concluded that the HPSI pump is capable of functioning as an AFW pump to automatically maintain a secondary heat sink following a loss of feedwater.

In functioning as such the HPSI pump must deliver at least 325 GPH to one steam generator alone or at least 300 GPM to both steam generators (150 GPM each). Available data indicates this is well within the pumps capability with suitable allowance for recirculation., wear and system losses.

.1

U*E 10 X 10 TO " INCH 1 JC 10 INCHES n

ICEUFFD.

dsER CO.....

u 1.

46 1320

!:)..

H+H+J.H~+>>H+H++H+t+H+++H+HH-+HIH+t++++HHH--H-H+++H l F1gure A

Figure 1

2 3

4 5

6 7

8 9

10 11 12 13 14

15.

16 17 18 19

---~----~-***... ***-*-**

AFWS FLOW ANALYSIS Case 1: 300 GPM Total Flow to Both Steam Generators List of Figures Description

-core Power Pressurizer Pressure Steam Generator A Pressure

Steam Generator B Pressure Steam Generator A Auxiliary Feed Flow (GPH)

Steam Generator B Auxiliary Feed Flow (GPM)

Pressurizer Level Steam Generator A Narrow Range Level Stearn Generator B Narrow Range Level Loop A Temperatures Loop B Temperatures Steam Generator A Wide Range Level Steam Generator B Wide Range Level Steam Generator A Steam Fl ow Steam Generator B Steam Fl ow Pressurizer Wide Range Pressu~

Reactor Coolant Core Flow Steam Generator A Auxiliary Feed Flow (lbs/sec)'

Steam Generator B Auxiliary Feed Flow* (lbs/sec)

FIGURE 1 PALISROES LMFW CASE 1 100 CORE F'OwER 90 80 70

~

z 1.1.J u

er:::

60 1.1.J C;...

V-u.;

3 50 0

C;...

1.1.J e:::

0 u 40 30 20 10 a

36GG 480G cs::CONSSJ

F!GURE 2 PAL I SADES l MFW CRSE. l PZR PRESSi.JRE 2500 --~~~~~~~~~~~~~~~~~~~~~~~~--.

2400 2300 2200 Cb -

en c...

2100 LLJ CZ::

(/)

(JJ 20CG.

w CZ::

C;._

~

=""

C;._

1900 180C 1700 1 SGC-

.... I*

I isac ~l~~~--1.~_;,_~~-1-~~~-~'~~~~-'-~~~-'-~~~._.

1200 2400 3600 4800 SGGG 720G

~-.. *-.*

TIME (SECCNSSJ I

. c: -

en Ci.--

LU e::

(.~

L..J Ct: "-

er' t.')

(.~

FIGURE 3 PALISADES LMFW CASE 1 S.G.

~ ~RESSURE 2000.--~~~~~~~~~~~~~~~~~~~~~~~~~~

1800 1600 1400 1200 1000 80G 4CC 200 c

1200 2*~0C 3600 4800 SCGC TIME CSECCNDSJ

~ -"'

~ -.

UJ 0:::

(.")

(.')

~

0:::

~

cc D.

en FIGURE 4 PALISADES LMFW CHSE 1 S.G. 6 PRESSURE 2000 --~~~~~~~~~~~~~~~~~~~~~~~~~~

1800 -

1600 -

1400 -

1200 -

lOOC -

8,., r.

~*

sec - 400 -

?Qt"':

0 '--~~~~*~....;.....~~~~'~~~~...1.-~~~--=-'~~~~~'~~~-'i

- -* -------.. -** G 1200 2400 3600 4800 SOGC 720G TIME CSECCNDSl

~

(!) -

~

0 -'

LL c

i.a.J LU LL

~

c: -. --

x

J c:

er.

~

(.")

FIGURE 5 PALISADES LMFW CASE 1 S.G.* ~ AUXILIRqy FEED FLOW CGPMJ 500--~~~~~~~~~~~~~~~~~~~~~~---

450 -

400 -

350 -

30G -

,., 5 r.

c.

OJ -

,.,nr C.IJOJ -

150 100....

50 I

o Ii

. *O 1200 2400 36CC 4800 60CO 720C TIME (SE.CCtlCSl

J:

~

CJ -

r 0

_J LL.

c

.w La.J LL.

Ck-: *

~ -

_j -

. --*.. X

J c::

c:i 0,

FIGURE 6 PALISADES LMFW CASE l S.G. B AUXILIARY FEED FLC~

SOG....-~~~~~~~~~~~~~~~~~~~~~~~~--,

450 -

400 -

350 -

300 -

2SO -

"On

\\J -

150 100 -

50 -

I ol_i~------~~-__._~__.__~__._~~

C

!20C 2400 3600 48CO 600C 7200 TIME (SECCNDSl

z Li.J u

V-

~

C;... --

UJ UJ

_J C'.t:

~

C;...

FIGURE 7 PALISADES LMFW CASE l PZR LEVEL.

100--~~~~~~~~~~~~~~~~~~~~~~---.

90 BC 70 60 50 40 30 20 10

, "Or.

u 2400 3600 4800 6000 720C TI ME ( SE_CCt*.J!JS l

- - -~*-

-4**

FIGURE 8 PALISADES L MFW CASE 1 5, G.

i::; NARROW RR~GE I,....V,....L 100 L. t: t:

90 r

80

~

z w u

70 c:::

~

c.. -

tLJ 60 LLJ -

LW Cl z

c:

I.

c:::

50

~

0 c:::

~

c::

z 4.0 c=

Cl) 30 20 1 Q I

-*---~----Q~i-~---,

.. --,~0-0-------~----~---6-n~~-n~-~-~~nr

~

2400 36GC 480G IC..~V TIME (SECONCSJ

. )

~

z LU u

~

l.LJ

~ -

~d l.LJ LU --

i.LJ 0 z c:

~

0

~

er.:

c::

z.

cc t,')

(,")

- ---. -~-

-~

FIGURE 9 FRLISADES LMFW CASE 1 s.c. 6 NARROW RR~GE LEVEL 100--~~~~~~~~~~~~~~~~~~~~~~---.

90 80 70 60 50 40 30 20 10 I

I 2400 3600 4800 720G TI ME CSECOf*lCS l

I.&..

t!>

UJ c -

(.")

w ci::

d I-

~

0::

LW

~-l:

~

I-I-z.

c::

I

-J 0

0 w c:.

~

0 0

-J FIGURE 10 PALISADES LMFW CRSE l LOOP R TEMPERATURES 6~0,.........~~~~~~~~~~~~~~~~~~~~~~--.

620 -

600 -

580 '""

560

~

540 5ZO -

~

s~r.

480 -

450 -

4 4 0..__ ___

_.1 ____

....._1 ___

_.1 ____

..._1 ___

__.l..__ __ ___,i

- - --*--C 1200 2400 3600 4800 6GOC 7200 TIME (SECCNSSJ

~ "

o..,;

c -

en UJ ca:::

~

a:

~

UJ

~

2::

o..,;

~

z a:

_J 0

0 u cc

~

0 0 -

FIGURE 11 P!1LISFiDES LMFW CASE. l 64Q _______

L_o_o_P_s_c_o_c_L_Fi_~_T_T_E_M_P_E_R_A_:_uR_E _____ ___,

620 600 580 560 540 520 soc 480 460

_ ___._ _______ 440 -_G ___

1_2.._0_0 ___

2_4.._0_G ___

3_6..._0_G ___

4_8..._0_0 ___

6_G..... O-C--__

7___,2GO TIME (SECCN!:Sl

z Li.J u

ca::::

~

_J

~

1J.J C) *

z c:

ca::::

. 1J.J CJ -

er 0.

(/)

FIGURE* 12 PAL I SADES L HF-W. CASE 1

.S.G. q WICE RANGE LEVEL 100--~~~~~~~~~~~~~~~~~~~~~~---..

. 90 80 70 60 50 40 30 20 10 i

~***--***. ---0 ~'-~~~~~~~~~~~~~

c 1200 24CG TIME 36GO 48CG (SECONCSJ 60CG 720G

FIGURE 13 FALI SADES L.MF~.:

CASE 1.

S-G. B WIDE RANGE l.EVEL 100.--~~~~~~~~~~~---~~~~~~~~~~~---.

90 80 I-z I.Li 70 u

c::

LU

~ -

' -w 60 LLJ I.Li

(!)

z 50 CI:

.ez:::

1.1.J CJ -

3:

c:l 40 c..:>

en 30 "0

10 I

c

, ?Qr.

c..

\\J 2400 TIME 360G 48CG (SECCNDSl

CY-

c:

2:::

cc

_J 0 :z c:

en

=>

0 :c:

I-*-

0

-~

c:

~

I-(,,")

er 0.

en FIGURE 14

PALISADES LHFW CASE 1 S.G. A STEAM FLOW 1000 --~~~~-~--~~-~-~--~--~-~--~---.

900 BOO

. 700 6GG

500

,* n ri r IJ IJ 300 I!

200 100

--*--------*-0* ____ __._ ____..__ ___ _._ ____...__ ___ __... ___

~

2~0G 3600 480G 6CCC TIME tSECCNCSJ

CY-:c cc

-J c :z c:

CIJ 0 :c

~ -

3:

0

...J

~

'1:

c:

W.J

~

(,.")

cc 0.

(,")

FI GUF:E 15 PRLIS~DES LMFW CRSE 1 s.G. 6 STERM FLOW 1000 --~~~~~~~~~~~~~~~~~~~~~~~~-,

900 BOO 700 600 Ii 5CO

, I 400 ~

I 300..

20G 100 I

I I

I

*-----*----.. __ a _L ----'-----------'~--.......

1200

~40G 3600 4800 SGGO TI ME ( SE.CCNSS l

.,~c I,;.. IJ

-1 a: -

Cf.)

~ -

UJ ez::

=>

Cf.)

C.')

LLJ a:::

~

LLJ 0 :z c:

v.

UJ 0 -

e::::

~

FIGURE 16 PALISRDES LMF~ CASE i PZR WIDE RA~GE FRESSUR!

4000 ~~~~~~~~~~~~~~~~~~~~~~~~~~-

3600 3200 2800 2400 20CG 1 5r.r vv 1200 soc 40C a

4 "On

... c..

oJ 2400 TIME 360G 48CO so cc

'72CG

!SECCNDSJ

~

z

!.IJ u

Ci::::

LU Cl.. -

2 *o

-I LU Ci:::

0 u

~

z c::

0 0 u ci::::

0

~

w c:

LU Ci::::

FIGURE 17 PRLISRDES LMFW CASE 1 REACTOR COCLRNT CORE FLOW 110 ----------~----------------------------------------.

100 90 80 70 SC 50

~

40 30 20 I

10-' ~~~_._~~--'~~-~--~~~---~~~...._~~--

c 1200 2400 3600 4800 so co 7200 TI ME r SECOtJSS J

u

~

c:J,

en co

...J

~

0

...J LL c

...J w

LL Ct.:

c:: -

x

J c::

er C.'J.

(f)

FIGURE 18 PALISADES LMFW CASE 1 S.G.

~ RUXILIR~Y FEED FLOW 500.--~~~~~~~~~~~~~~~~~~~~~~~---.

450 400 350 I 300

?5~

'"' u 20G 150 100 50 a u ___.... __ __._ _ __._ _______ ___.__ _ _____.

1200 2400 360G 4800 6COO TIME (SECONSSl

I I.

I

. ~

u i.W c.n C,")

cc

...J *-

~

0

...J LL.

c i.i..i

~

1.6..

c:::

c:::: ---

x c::

co t:J.

(/)

FIGURE 19 PALISADES LMFW CRSE 1 5.0. 6 RUXIL.IR~Y FEED FLOW 500 --~~~~~~~~~~~~~~~~~~~~~~~---

450 400 350 300 "Sr.

c.. u 20G 150 50

--~---------~ c-.~~-!-2.~o-o~~-2-4~,o-o-.~~-3-s~o-c~~-4-a~o-o~~~s-o~o-c~~-~-i2~cc TIME rsE.CCNCSJ

Figure 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 17 18 19 AFWS FLOW ANALYSIS Case 2:

400 GPt1 Total Flow to Both Steam Generators List of Figures Description

_tore Power Pressurizer Pressure Steam Generator A Pressure Steam Generator B Pressure Steam Generator A Auxiliary Feed Flow (GPH)

Steam Generator B Auxiliary Fi!ed Flow (GPM)

Pressurizer Level Steam Generator A Narrow Range Level Stearn Generator B Harrow Range Level Loop A Temperatures Loop B Temperatures Steam Generator A Wide Range Level Steam Generator B Wide Range Level Steam Generator A Steam Flow Steam Generator B Steam Flow Pressurizer Wide Range Pressure.

Reactor Coolant Core Flow Steam Generator A Auxiliary Feed Flow (lbs/sec)

Steam Generator B Auxiliary Feed Flow (lbs/sec)

~

z w u

Ct:

Lr.J t... -

ca:::

LW *

~

0 Lr.J

~

0 u

~**--*

FIGURE 1 PALISADES LMFW CRSE 2 CORE F'OhER 100...--~~~~~~~~~~~~~~~~~~~~~~-----,

90 80 70 SC SC l 40 30 20.

c 12DC SGGG

c: -

(/')

c... -

i.;

~

CJ:> *

(,")

i.;

c:::

Ca..

~

'I.I FIGURE 2 PALISADES LMFW CRSE 2 PlR PRESSURE 2500,._.------~--~---~~----~~-~---

Z400 I 2300 2200 2100 ZOGG 190G 180G 1700 16GC

-*------*-1scc.... I ____ ~ ___......... __________..__ ___ __._ ___ __.

120G 2.ioG TIME 36GG 48GG SGGG 720G (SE.CCNSSl

cc -

(,"J CL

~

)

(,')

La..i e:-:

c..

er u

(/)

FIGURE 3 FALISRDES LMFW CRSE 2

. S.G. q !='RESSURE 200C --~~~~~~~~~~~~~~~~~~~~~~~~~....,

1800 1600 1400 1200 lOCG 8CG sec 40G 200 r

!200 2*tOG 36GG 48CG 6CGG 720S TIME:

a: -

(,,')

0--

LLl

~

(,,')

LLl er.:

c...

cc 0.

(,')

F ! GURE 4 PALISADES LMFW CASE 2 S.G. B PRESSURE 2000 --~~~--~----~~~~~~~~~~~~~~~~~~~-

1800 1600 1400 120G lOGG

gnr, Ww sec 40C 200 0,__~~~

.......... ~---~~*~~~~~~~~-i...~~~~"--~~~-'

1 ".>Q'"'

"' u 2-~0C TIME 36GC 48CG.

SCGG

\\.;

(SECCNCSJ

~

c:..

t!:> -

3:

0

...J 0

..i U,,j

~

Ct:

c::

e. -

I --x

=>

er.:

c:'

t.'.)

(,")

FIGURE 5 PALISADES LHFW C~SE *2 S.G. q GUXILIA~Y FE[O FLC~ CGPMl 500,.-~~~~~~~~~~~~~~~~~~~~~~~~~-.,

450 40C 35G 30G

,.,~r.

20C 1 5r.

.I.

tJ 1 Qr"'.

.L w

SC l20G 36GG 48CG 6CGG TIME !SECf.HJSSl

I J

~

(!) -

3:

0

_J

!.L..

c

~

w Cr':

c: -_. -

x

~ --- --

I er:

cc

(.")

-FIGURE 6 PALISADES LMFW c~s~ 2.

S.G. 6 AUXILIR~Y FEfD FLCW 500.--~~~~~~~~~~~~~~~~~~~~~~~~~---.

450....

40C -

350....

30G....

,.,.. r.

'"~..; -

2CC lSC I lOC 50 I !

oli~~~_._-----~..__~___,_I~~--'-~~-'-~---'

C

20G 240G 36GG 48CG SGGO 720C TIME (SE:CCNSSl

f!GURE 7 PALISADES LMFW CRSE 2 PZR LEVEL lOG.--~~~~~~~~~~~~~~~~~~~~~~~----.

90 80 30 20 10 o I

r....

120G -

2400 36GG 48CG 6CGG 7:20G TIME (SECDNSSl

z w u

~

w C---*

w LL.i LA.l C!I c:

c:::

0 e::

Ct".

c::

z

-. -*---**--- ***c:

(.').

(.')

FIGURE 8 PALISADES LMFW CASE 2 S.G. R NA~ROW RANGE t.EVEL lOG......-~~~~~~~~~~~~~~~~~~~~~~~~---.

90 80 70 60 50 40

~

30 20 10

_J

"0'"'

\\J 2~00 36GC 480G.

6GOG TIME CSECCNSSJ

---**... ---=--~--------~------'

I-z

~

u et.:

UJ

~ -. -

LLJ LLJ -

""-i t!J

?.

c:

c:::

J:

0 c:::

Ct:

c:

---*-.:?.

a:

{.).

(JJ F!GURE 9 PRLISROES LMFW CRSE 2 5 r.

6

~~A'""RO': R,..."Jr:F= ' EV~'

10G--~~~~~~*-u_*~~*~~~-~~_n

__ -_*-~L_._. __

t._L*~~~~~~--

90 80 70 60 SG

~c 30 20 10

..... 0 llu.....: ----~--__._

_ _ _ _ _ _ _ _ _ ~---1..'. _ _j r"

1200 36GG

48CG TIME CSECGNSSl SCGG 720G

~

~.,

LW 0 -

en w

Ci:::

i c:

er:

LW ".

l::

~

I-I-

z c:

...J c

0

(..)

.a:.

~

0 C) -

-~---*----- -

FIGURE 10 PALISADES LMFW CASE 2 LCCP R :EM~E~R:URE5 640 --~~~~~--~~~~~~~~~~~~~~~~~---.

620 600 560 SSC 540 520 SGC I

480 I 460

~~o*-~-~~~~~~~--~~~~~~~~~~~~~~~~

"720C c

!200 2400 3600 48GG 6CCO TIME CSECCNCSl

L!...

c.:>

u.;

Cl -

c,-,

LW ei:::

l

~-

~

ei:::

u.;

'"-l:

.a..;

'2.

ct:

0 0 w c

~

0 0

FIGUF:E 11 PALISADES l.MFW C~SE 2 LOCP 6 COCLR~T TEM~EqRTURE 540 --~~~~~~~~~~~~~~~~~~~~~~~---.

. 620 600 560 56G

~40 5.-:-n

'-w

~*

50G

~SG 120G 2*tOG 36GG 48CG EOCC TIME rst:CCNCSJ

z LU u

Ct:

LU 0... --

LU LU -

l.i..i C!J *

z a:

Ct::

!JJ c -

ii:

c::'

(..).

en FIGURE 12 PALISADES LMFW CASt 2 S. G. q HI DE RR~JGE LEVEL 100 --~~~~~~~~~~~~~~~~~~~~~~~~--..

90.

so 70 60 50 40 30 20 10 al.___ ~--.-l'"------..1-~

-c 120G 240G 36GG 48CC SGCC 720G TIME rst.CCNSSl

7-LU u

~

u.i Ci.. -*-

w L:.i

.w CJ z

c::

C:'.:

w C.J -

a:

0.

C.l FIGURE 13 PALISADES LMFW cqsE 2 100,_. ______

s_._G_._s_w_I_D_E_R_. R_~_. o_~E_._t_.E_vE_L_. ______ __,

90 80 70 SC I

SC 40 30 20 10

--- --* 0-*~c----1-~-'o-G ___

2_.~.:...o-0 ___

3_6-'G-G ___

4_8.:...C_G ___

6_C_JC~G---. --;--"2 Q c TIME !SECCN!:Sl

t

CY.

c 2::

cc c.,

7.

c::

C.':>

0 ::c

~

0

_J

~

z::

c::

~

Cl:>

tr

(.:).

FIGURE 14 PALISADES LMFW CRSE 2 s:G. q 5TEA~ FLCH lOGO -----------------~---------....,

I 900 ~

800 700 600 Ii SGG 40G

1 30G I

20G lOG 0 ~--*-1-2_..o_o_* ---2-*~*.._o_o ___

3_6_r.._u_G ___

4_8_...C_*G ___

6_0....r.G_C_* ___

7__,20G T ' M E ( S -* r* r~ N r S '

.I.I C'......J* w J

0-:

c

~

_J c z

~

C.'J

J 0 ::c t--

~

0 *

..J

~

I:.:

~

t-C.')

a::

(,;)

(/)

F !.GURE 15 PALISADES LMFW CASE 2 s.c. 6 STEAr FLOW lOGG --~~~~~~~~~~~~~~~~~~~~~~~~--

900 BOO 70G 6GG 500 400 300 200 100 120G TIME (SE.CON!:SJ

c:: -

(IJ Ci.. -

L&J c::

~

C,,')

L&J C':

c...

i.i.i C!:J.z c:

Ct.:

u.i c -

ez::

~

FIGURE 16 PALISADES LMFW CASE 2 PZR WICE RRNGE PRESSURE 4000 -----~----~~~~~~--~~-~~~~~~~-

3600 3200 2800 2400 2000 160C 1200 800 400

____ o_.... ----"---___ _._ _____ __.. __________ __._ ___ ___.

C 1200 2400 36GG 480G TI ME ( SECCNCS l SGGG

~-.,or.

I L.

.J

I

~

z w w

er:

Li.i Ci--

0

_J

~

Li.i c::

0 u

~

z c::.

0 0 u Ci!

0

~

w c::

Li.i ti::

F ! GURE 1 7 FRLISROES LMFW CASE 2 REACTOR COCLA~T CORE f LCW 110 ----------------------------

100 90 80 70 SC r 50

~

40 30 20

n

.L.>J. -------'------'------------'--------------'

w 1200 2~00 36GG 480G TI ME ( SECOf*JCS l SCCG 720G

u Lo..i en en c::::>

_J -

x 0 _J Li..

c

~

"'-J u...

~

c: ---

'X

~

c:

c=

~.

(/')

FIGURE 18 FALISAQES LMFW CASE 2 s.G. R GUXIL.IRC\\Y FEtD FLCW SGC --~~~~~~~~~~~~~~~~~~~~~~~~~~

450.

40G 350 30G 2SG r 200 150 100 50 I --~~~~~~~~~~~~~~~~~~~~-

o*~--~~'~ ~~~~~~~~~~~~~

c

!20C 2~00 36GG 48GG 6GGG 720G TIME CSECCNSSi

u

~

c..,

en cc

...J -

3:

0

...J Li-c

~

UJ Li-r C(:

c: ---

x

J er:

co c.:>.

U')

FIGURE 19 PALISHDES LMFW CRSE 2 S.G. S GUXILIH~Y FElD FLCW 500 -------------------~~--~~---

450 400 350 30G

,,5~

-~-. -.

200

~

15C 50 0._._---~-----'-------'----..__ ___

c 1200 2~00 36GG 48CG 6GGG TIME rsECCN!::SJ

"\\..

Figure 1

2 3

4 5

6 1

8 g

10

- 11 12 13 14 15 16 17 18 19 AFWS FL0\\-1 ANALYSIS Case 3: 325 GPt1 Total Flow to One (1) Stearn Generator List of Figures Description

~re Power Pressurizer Pressure Steam Generator A Pressure Steam Generator B Pressure Steam Generator A Auxil 1ary Feed Flow (GPH)

Steam Generator B Auxn iary Feed Flow (GPM)

Pressurizer L*ve1 Steam Generator A Narrow Range Level Stearn Generator B Narrow Range Level Loop A Temperatures Loop B Temperatures Steam Generator A Wide Range Level Steam Generator B Wide Range Level Steam Generator A Steam Flow Steam Generator B Stearn Flow Pressurizer Wide Range Pressure*

Reactor Coo 1 ant Core F1 ow Steam Generator A Auxiliarl' Feed Flow (lbs/sec)

Steam Generator B Auxiliary Feed FlO\\'I (lbs/sec)

~

z i....i u

~

Cr'.

LU 0

c...

l.&..i c;::::

C' u

FIGURE l PALISADES LMFW cqsE 3 CORE PO~iE.R lOG --~~~~~~~~~~~~~~~~~~~~~~~~~-

90 BG 70 SC SC 40 3C

... *.J 10

-~--~ ~--~-~~~~~~

38CG 6CCG 2~00 A grr.

..,..,or IC..*

'oJ

~

TI MC.

"T *..,,J CSE.CCNSSl

c:: -

~

C--

LLJ Ct::

(;')

(,')

LLJ et.:

~

FIGURE 2 PALISADES LMFW CASE 3 PlR PRESSURE 2500 --~~~~~~~~~~~~~~~~~~~~~~~~~~~----.

2400 230G

""Or.

2100 20CG 1900 19CC 170C 16CC c

1200 2*~0C TIME

~

36CG 48CC

!SE.CCNCSJ 6CGC

,"J FIGURE 3 PAL.ISROES LMFW CASE. 3 S.G. R ~RESSJRE:

20CG.--~~~~~~~~~~~~~~~~~~~~~~~~~~

1800 16CC 1400

-a: -

(/)

Ci... -

~ l20C c:::

-.J en

(.")

&..I c:::

lOGC c..

er t.')

en I

I I

o~I ~--~~--~---~~---~_._~--~I c

2*10C 36GC 48CC 6CCG 72CC TIME=. (SECONSSJ

FIGURE 4 FALIS~DES LMFW CASE 3 S.G. 5 PRESSJRE

. 20CO--~~~~~~~~~~~~~~~~~~~~~~~~--.

180G 1600 6rr 40C

!200 240C TIME 36GG 48CC

! SE.CCNSS J SCCG

...., 0 f" I '-,

-.J

FIGURE 5 PAL I SADES L MF W C~SE 3 s.G. R quxILIRRY FEED FLCW CGPMJ 500 --~~~~~~~~~~~~~~~~~~~~~~~~~--

450 -

400 -

2::

~

(!)

350 0

_J

~

c 300 -

~

.~

Cl':

Ct: *-

"5r.

u -

x C!:

er 20C -

t;).

C.")

150 -

ICC 50 -

I I

- -*----* *-* - --'\\;I 120C a~

3.6GO 48GG 6GGC 720C

~** u TI ME.

rsE"~

11Jrs1

...... J',_

~

c-C!> -

c 0

_J

~

c w

~

Ct:

c: * ---

x c:

c:

(.').

'1')

FIGURE 6 PALISADES LMFW CGSE 3 S.G. 6 ~UXIL!R~Y FE~O FLOW 500,...-~~~~~~~~~~~~~~~~~~~~~~~~~~

450 400 350 30C

"'5r c..

-.I 200

, 51"

.I.

w 100 50 6CCG

'72GC TIME

~SECONSSl

FIGURE 7 FAL I SRQES l MF W CRSE 3 PlR LEVEL 100 r-----------------------------

90 80 70 I-

z

!.o.i

(..)

SC CZ::

L&J

~---.

w 50 lLJ

_J co::

"to.I

~

A ('I 30 20 10

-*--------- -- ff....__C ___

!_2_.0._r._,,.. _____ z_......

i O_G ___

3_5~C-G-* ___

4_8..._C_G ___

S_G.._G_C ___

..,-; -2 QC TIME.

fSE.CC~JSSJ

' \\

FIGURE 8 PALISADES lMFW CASE 3 5.G.

~ NR~ROW RA"*lSE l.EVEt.

100 --~~~~~--~~~~~~~~~~~~~~~~~---.

90 80 SG 40 30 20 io r I

**---.a __

ll _ __._ _____..__ ___ _._ _ _....._ _ ___.I c

!20G 2400 36CO 48CC SCCS

'7200 TIME !SECCrJSSl

... \\

~

z LLJ u

~

LLJ c...

LLJ LLJ t!>

z a:

~

z 0

Ct!

C:"'

c::

z cC C.').

(,')

FIGURE 9 PALISADES LMFW CASE 3 S

G

6 NA!:\\ R 0 ~l R A t..J GE L E VE l.

100...---------------------------.

90 80 70 60 50 40 3C 20 I -

10 1!

~

____ Q_....

_ ----""'----"-----~-----'------'"-----

i20G

!20G 2400 360G 4BCG 60GG TIME (5E.CDNSSl

'l FrGURE 10 PALISADES LMFW CASE 3 LOCP A TE~~ERA!URES 640--~---~~~~~~~~~~~~---~~~~~~~~--

620 SCG

~

c 560

. en LW c:::

ct:

56C Ct:

LW l:

~

7.

.54'0

c:.

0 0 w a:

520

~

0 c -'

sac 480 460

~---~m.~1 ~~~~~~'

~~~I

~

C

!200 2~0G 36GC 48CG SCCG 720G TIME rSECCNSSJ

.l.i c -

(,,")

IJ.J Qi::

c::

CZ::

IJ.J 0...

~

?.

a:.

0 0 u CJ

~

0 0

..J FIGURE 11 PALISADES LMFW CRSE 3 LOOP B CCCLR~T TEM~ERRTURE 6~0 --~~~~~~~~~~~~~~~~~~~~~~~---.

620 -

sec - 560...

560 ~...

~ ~

540 --

s"'n

'- "..J --

5r.r ww..._

48C i-460 -

I I

-*--- -- -;r~*o._ ____,i._ ___

"""'1 ____

1 ____

..__1 ____

..__1 ___

...... i 0

120C 240C

,35GC 48GG 6CGC

7200 TIME fSECCNCSl

FIGURE 12 PALISR!JES LMFW Cr:iSE. 3 S.G. q t~IDE RRt...JGE LEVEL.

100 --~~~~~~~~~~~~~~~~~~~~~~~~~--.

90

so z

i.W 70 u

Ct.:

w a.. ---

L6.J 60

> w

.w CJ 7.*

5G er

~

u.i c -

x c:

40 0.

(,)

30 10 c

1200 240C 36CC 48CG 6CGG 720C TIME. (SECCNSSJ

~

z UJ u

~

LL.;

Cl.. --w L:.,;

i.iJ 0 z c:

Ct.:

~

c -

co t;').

FIGURE 13 PALISADES LMFW C~SE 3 s.G. s* l.JIDE RA"JGE LEVEL IOC..-~~~~~~~~~~~~~~~~~~~~~~----.

90 80 70 SC I 50 40 30 20 10 n

u

!20G 2400 36CC 48CC SCCG

~-..,or I '-

.J TIME f SECCNSSl

~

2::

CD c :z

~

Cf.)

0

~

0

_J

~

z:

a:

..J.....

C."J er

. (/)

FIGURE 14 PALISRDES LMFW CASE 3 S.G.

~ STER~ FLOW 1000.-----------------------------------------------------

900 800 70C sec 5rf"'

i.JoJ 400 '

3CC "On c..

100 f ~t4J~

1

~.Jt~. L~,:.

. * *1 *.*. ~;.~-... ~

'~ **..

I 0.__ ______ _._ ______ __.. ________..__~--~-1...~--~~'--~~--~

---. -***-*--*-*-- -- -f"I*

1200 2400 36GC 48GC 6GGG 720G llJ TI Mt. 'SE.COMCS l

er=

c

~

cc

...J Cl

7.

a:

en 0 :::c I--

0

...J.

LL c::

J..i I-C."J =

t:>.

(,)

FIGURE l 5 PALIShDES LMFW CASE 3 S.G. B STEAM FLCW lOOC --~~~~~~~~~~~~~~~~~~~~~~~~~~~

90C BOG 70G 5r.r.

uu 5CC 400

~*

300 200 100

__________ Q_ c 720G 1200 2400 6CCO

.TI ME

er -

(f.)

CL. -

UJ Q:::

=>

(f.)

(,")

UJ 0::::

~

1J.J C!>

z c:

V-t.i.J c -

~

e:::

~

c..

FIGURE 16 PALISADES LMFW CASE 3 PZR WIDE RR~GE PRESSURE 4000 --~~~~~~~~~~~~~~~~~~~~~~~~--.

3600 3200 2800 2-~0G 20GO 1500 1200 BOG 400 0

120G 240G 36CG 48CG 600G TI ME ( SE~CCtJCS J

z l.i.i u

Ct:

l.i.i

~ -

~

0

_J

~

LU CZ::

0 u z c:

_J 0

0 u e:::

0.....

L~

c:

LU Ct:

FIGURE 17 PALISADES LMFW CRSE 3 REACTOR COCLRNT CORE FLCW 110.--~~~~~~~~~~~~~~~~~~~~~~--

100 90 80 70 6G SC 40 30 20

---*------*--*-LO 0 1200 2*~00 3500 sccc 72~G

48GG TI ME r SECCtlSS l

- ~..

I I.

I u w Cl)

C.)

cc

_J -

~

0

_J

~

0 :.u

~

LL.,_

v.

c:: ---

x c::

c:"

(.:).

(,')

.FIGURE.18 FRLISHOES LMFW CMSE 3 s.G. A quxILIRSY FE~D FLCW 500.--~~~~~~~----~~~~~~~~~~~~~~~~~-

450 400 350 300

,,-r.

'"'~""'

20C 15G 100 50

---*--*--*--n.&..,Ol li,.._ __ _._ ___,__ _____ _...., ___ _._ ___

.J..., ___

....J C

120C 240G 3600 48CG 6GOG 7200 TIME f SECCNSSJ

u 6.W Cll en cc

_J -

0

_J

~

0

~

U,J u..

Cr' a: ---

x er. =

0.

en FIGURE 19 PALISADES LMFW CRSE 3 5-G. 6 quxILIR~Y FE~D FLOW 500.---~~~~~~~~~~~~~~~~~~~~~~~~~---

450 400 350 300

"'5,.,

c... "'

c..Uv lSG lOG 50

~20C 2400 36GO 48CG TIME (SECCNSS~

6GOO 720C

ATTACHMENT 2 Bec!1tel Associates Professional Corporation 777 East Eisenhower Parkway Ann Arbor, Michigan M*1tAddross:P.O. Box 1000, Ann Arbor, Michigan 48106 Mr. Nate Haskell Plant Modifications and Miscellaneous Projects Dept.

Consumers Power Company 1945 West Parnall Road Jackson, Michigan 49201 CPCO PM & ~.{? DEF'ARTMENT June 15, 1982 JUN l 7 1982 ENGINEERING Consumers Power Company Palisades Plant CPCo-GW0-8343 Bechtel Job 12447-059 AUXILIARY FEEDWATER PHASE II MODIFICATIONS File:

0275.

82-12447/059-36 tt

Reference:

CPCo letter 8343-057 dated May 7, 1982 tt

Dear Mr. Haskell:

The following discussion and.the attached diagram illustrates the pump start sequence logic as a function of initiation (AFAS) and AFW flow.

Pump P-8A is actuated by the AFAS left channel where as pump P-8C is actuated by the AFAS right channel.

P-8A starts immediately, the P-8C start signal is "blocked" by the *time-delay relay.

If AFW flow to at least one SG does not increase to a value above the flow switch set point, and the time delay relay has timed out, th~ pump P-8C will start.

If during the operation of pump P-8C flow to at least one*sG is not achieved and AFAS left channel is present, pump P-8B will start.

Bechtel has reviewed CPCo comments regarding auxiliary feedwater pump and isolation valve logics JLG-14l(Q) through JLG-145(Q), all Rev B.

Each comment has been addressed and is resolved as follows:

~*,

~ :

}-~

t wd r:

~'

r I

J l ' I I

! t I

i Bechtel Associates Professional Corporation Mr. Haskell June 15, 1982 Page JtG-143(Q), Rev B.

The two time delay relays, in conjunction with the "not" and "and" gates develop a pulse with a duration of five seconds.

The start signal, therefore, goes to zero after five seconds.

This is done to prevent ~ntipump lock out and enables manual pump restart.

JLG-144(Q), Rev B

The start command signal for pump P-8B is developed on JLG-143(Q) and includes AFAS "A".

P&ID M-9207(Q), Sheet 2, Rev 0 "LOW-FLOW" instead of "NO-FLOW" is correct.

The next revision of M-9207 will be changed accordingly.

All timing intervals indicated on Logic Diagrams JLG-143(Q),

144(Q), and 14S(Q), are approximate.

These timing values will be revised and shown on logic diagrams and system functional descriptions accordingly.

If you have any additional questions regarding these drawings, please advise.

NB/DV/PKS/lac Enclosure Very truly yours, y._Q/17~ _-/\\

/q~t_-!s~Ut-t.ic?-J

~roject Engineer

l I

I j... lN~lSASI.

~3~~~a3j3 *xnv :aJsodoad I

I 1~-- ----.

-**** -1 **-.... -

I I.

I I I

--:---:.. ___, -I ~")OJ I

~ - - - -(-:>".>O.:fj I

I

- I ~<.>03 1- -~..! - **- - f..... :

I "J~oj }-- -

i I

4 (:!j I

I fQ... IJQ r

'f0-4.~U I

~8d..... ---~

r'_,~V(l

-,i:c*cpn,t

~H~d I

! i

. I t'.:IAllQ:

H*t°M, vs~!

I t--=2=v.,..,s,....,..:r

.lb'lll"' !

d'""'\\1.

i i.,,;xi i

....... 1 ~ -

. W> ;

"1~0*.....,,.

iMl.1

,\\~f

. ! 'V.il'f..

I.

I.,

i I

I

,~1"~I~

ca'SI I

- - - - -******-****-~

I *-*.. -*--*..

J'i-bSO I L.'1h 7,/

..,..,*.. *.*.... ---~

.. * "....... ~.. *:~*-....**

.::.;*.~ ;

.,.,*~*--*------------------ -- --------**

+

OPEN HS-0737 B'OPEN' HS-0737 8 'AUTO'*

G) )JLG-1 50SH. 2) FOGG '8' CH RIGHT (NOTE 5)

VALVE FULL CLOSED HIGH OPENING TORQUE VALVE* NOT' FULL OPEN CLOSE HS-0737 B 'CLOSE' HS-0737 B 'AUTO' LG-150SH.2 FOGG 'B' CH RIGHT (NOTE 5)

@) )JLG-150SH. 2) FOGG,'A' CH RIGHT (NOTE 6)

@ )JLG-150SH. 2) FOGG 'A' CH LEFT (NOTE 6)

.)

VALVE FULL OPEN HIGH CLOSING TORQUE (NOTE 3)

Cbo)

~1--1

~--1 OPEN ISOLArlON POS-0737 B VALVE cac) r~ c 01 M0*0737B c 33 CLOSE ISOLArlON POS-0737 B VALVE.

M0*0737 B C01 Cbo)

Cbo)

C 33 (be)

/JLG-141 SH 2 )@

iM0-0737 BJ

.c 33

REFERENCES:

I MANUAL I HS-0737 B C01 MAINTAINED CONTACT

1. P&ID:M-9207SH. 2

2. ELECTRICAL SCHEMATIC:

E-1174(Q.l

3. VALVE VENDOR PRINT NO.: lnr<1*

4. LOGIC DIAGRAM: JLG-150 SH. 2 NOTES:

1. THE VALVE HAS AN IMMEDIATE REVERSAL FEATURE.

2. FOR ADAPTER TABLE SEE SH. 2.

3. HIGH CLOSING TORQUE STOPS VALVE WITH NO POSITION SWITCH BACKUP.

ICA.ll NT5 DlllGHID N.O. BVfJOI\\

DU.WM MCW BECHTEL

.,wu-e;14 3 HS-0737. B IN 'AUTO' POSITION

~

...:.:._:__:_::..:.....=..:::::.___ _

__j~I--- A PALISADES PLANT CONSUMERS POWER COMPANY LOGIC DIAGRAM

5. FOGG B =FEED SGB, ISOLATESSG/\\ AUXILIARY FEEDWA'TER SIE/\\M GENERATOR I

8 C01 FOGGA=FEEDSGA.ISOLATESS:OR ISOLATIONVALVES

/

61SOLATIONOFSG"B"NOTPER~

1'1]

JOIHo.

DlAWIHOHo.

UV.

MITTED IF SG"A" HAS BEEN 1i*c11r£L la.h~r ISOLATED.

\\B.t, iJ 12447-0 JLG-1Ll1CQlSH 1of 2 B

M0-0737 B MOTOR OVERLOAD

'i' ALARM COMMON FOR 4 VALVES AUXILIARY FEEDWATER PHASE II

+

J *i-i~ ~ ~

~*

-~ ~~

(!j)

P05-0737 B (be)

I_

)JLG-141 5H I')

r: }-

CR E-50 A E -"i*J B E -:-,C.' J\\

[ - '10 F.>

'* I ~

POS-0737 c (be)

ISOLAl[O I '*)f JL/I T lrl I"> c) 1.1\\1 [0 nOLATED

@)JLG-141 SH I')

J S/G am

[ 33 c '13

. [ IJI c 01

~

I I

n 1-J E-50 A A

POS-0721 B (be,) *,_

1150LATED

/

I~O~~l~D* 1 I

( @) )JLG-141 5H I,.

I I

[ )--

'A/ LCP F-~.op, I POS-0721 *C (be)

J =iOL_/\\l L[)

-~

)JLG-141 SH I~

/ '

d I

f c J.r.-1;,.

i'nl:n 1* E

/11\\l~ir.IN[ IJITOn

/INNUNC 11\\TCJI.\\

WINDOW* NO.:f~t;.,..

Wil\\J[*~"IV l\\lfl.: l'n f;..

P05-073~ B (be)

I

s

@lJLG-141 SH 1>

9'"

I I I I

[_}-

Leo; POS-073~ C (bd I-J -- @;>JLG-141511 IJ

~i 1*1 1-1 I I

11 S/G

/CR I

VG I

,_ ~

I

.1-.J E-50 B Ti'.JLl\\-HJN VLll POS-0720 B (be) l1soLA1rnl u_ci*_-.1* 11 *

@2JLG-1415H 1>

I I I I I I n-

/ LCP POS-0720 C (be)

A c J'rit;,;,/

CD )JLG-141 SH I~

/

/11\\JNUNC I Ill (JI' I

I WINl><.lW NO.:.f,,t;, *

+

I

!'\\

CR 3:;;

,;!:lLl

~ ~~

Z1-

~I I

,..rd

'-'1Jl ADAPTER !ABLE KALI t\\IT'.1 J DlllGMID r,* !* *-I,. I OU.Wit M* vv

~rr

'-'rJ ISOLATION HAND POSIT 101~

150L /\\T[5 150LATION EL[CTRICl\\l AU)( r:w CS *t UC.I-IT l/Cl-IT AFr.HTF.l LL t'~

MATCH ISOLATION ALARM

~~-: i V/\\LVE SWITCH SWITCH

,5TEl\\M PERMISSIVE 1-'Wl'l Sl-'LY PUMP LOCllT/ON UIC!JTION (I! ( J *J:..,-:.

l\\JUMBER NUMBER NUMBEH NllMBEI" GENERATOR COMM/\\ND roGG-C 1-11\\/\\INE L l\\/UMl'\\ER CR LCP LOCATION PALISADES PLANT n..,

M0-0721B 1*15-072 I B POS-07215

/0 E-50 A roGG B A

RIGHT P-B C COi

[33 CONSUMERS POWER COMPANY

~~ M0-0721 C HS-0721 C P05- 0721 C 9

E-50 A fCOGC, B

/\\

LEr-T P-13 C COi c 33

~

(in. hr)

L(J(,I*-- l>-/1*:,:.,.\\M

1'{ ~ M0-0*137 E*

f-15-07375 POS-07.Cl7B

'1 E-50 /\\

FCJ(,G B A

fW.IH P-5 A/B COi c 33 i\\lt.XIL//\\llY lrLUW/\\l; :< '.ill_f\\:.1Cl1 l[RllV)f<

~ M0-0737C f-1$-(J737 c P0'5-0737C II

[-50 /\\

r:OGt-; B A

UYT P-B A/B COi c 33 l'"->L.l\\'fl11N \\ii\\I \\II:*

M0-07205

~IS-07CO B PIJS-072013

2.

E-50 B

~OG6 A B

l11GHT ro*-p, c COi c 33 ft.~')~L] I JO* No.

I ouw1HG H..

1 uv.

)~

I M0*07i'.OC HS-0720C POS-0720C I

E -'..J<J B rOCG A B

LffT P-8 C COi c 33 (lo.hr)

[ll.~Jl I 12447-0~nln*-,-1.q 1((;)~;11.2"'; 8 M0-0731:. B HS-07.30 E\\ POS-0730 B 5

E-::>O 6 rc1GG A B

P.IGHl P--8 A/B COi c 33

)

M0-073,, C HS-0730C P03-073b C

.3 E-50 B For:.G A B

l.EFT P-5 A/P, COi c 33

/\\IJX Ill /IP,, I I 1.1 "/.Jl\\T:,. l°'.'I*!.:\\ ::-.:_ Ji

+

12447-123

START

+

H~-P-BA 'AUTO' C 01 I. I ~

-\\

~

STATION POWER TR.ANSFORME.R

.INCOMING ACB 152-105 CLOSED STARTUP TRANSFORMER INCOMING ACB IS2-100 CLOSED 01; 1-1 NO/lM. 5HUTOOWN 5ErWENCrn C.OMPLUCO CYLLE DG 1-.1 DEiA 5EQUENCrn COMPLETED C 'tCLE CD )_TLG-1505H 1) AFAS CHANNEL A SS-I P-5A

'TEST' C 11 f

STOP c 01

/ MDAFPP

~-----1/ W, P-BA AUTO j l'uMP P-N". I jPuMP P-SA I ITE'5T PUMP P.ul I r-*uMP P-R11 I 0 )rn'5 owo.)I ACO '52-~'4 I c 33

'i

<C' ;

\\!_,/ -

TRIP I

A

"'~ l o..

c

.f.r,_t;.,,, '.=iEC.

~

C f/dJ~1

'('

..;:-0 \\

tC'O-C'.OO)

MDAFPP P-8A CD lo2-l/P-8A Fllll_ED TO

~ AUTO ST/\\ln 5 SEC (1.5-15) lo2.-8/P-8A CS 152-104- 'CLOSE'

/,

C OI f---l--,-----.--------<w TEST Auto START

/ '

C 11 FRONT

/

'-------i/ W, TEST AUTO START C 11 REAR CLOSE I 2400 V ACE.

IS2-104 I STARI I MDAl"PP P-8A

/ '

/

C 33 R R C 01

/

' / '

P-8A ACB 1~*2-104 CLOSED c 01 cs 152-104 SR TO NCUTRllL

(

11 55 l/P-f;A

'JR 10 NOkM/11_

TEST SELECTOR SWITCH KEY '<EQUIP.ED TO TUllN 1 0 lTST RffEPENCE'.J:

I. Pl ID: M-"1207 SH. 2 L 01 HS P-8A MAll~TAll\\ll::D MODE 5Wl1CH MDAl"PP P-8A

/\\UTO STAIH SELECTOH JU-' - lo:t<r-CD 2*. [L LCTR IC/\\L SCHEMATIC: E-late"

3. LOGIC Dl/\\GW1M:JLG-1r,o SH. I JLG-II\\ 5 l\\IOTE5:

I. MDAFPP =MOTOR DRIVEN l'UXIL 1/\\RY FEEDWATER PUMP.

CD '--J"--L=-G-=----1 4-'-5

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ML18047A522: Difference between revisions

Latest revision as of 10:02, 6 January 2025

Contents

Text

1.0 INTRODUCTION

1.3 Background

2.0 REFERENCES

4.0 CONCLUSION

1.0 INTRODUCTION

1.3 Background

2.0 REFERENCES

SUMMARY

4.0 CONCLUSION

Reference:

Dear Mr. Haskell:

REFERENCES:

REFERENCES:

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ML18047A522: Difference between revisions

Latest revision as of 10:02, 6 January 2025

Text

1.0 INTRODUCTION

1.3 Background

2.0 REFERENCES

4.0 CONCLUSION

1.0 INTRODUCTION

1.3 Background

2.0 REFERENCES

SUMMARY

4.0 CONCLUSION

Reference:

Dear Mr. Haskell:

REFERENCES:

REFERENCES:

Navigation menu

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