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Results of Test of Interim Auxiliary Bldg Secondary Containment Encl & Auxiliary Bldg Gas Treatment Sys.Includes Test Background & Summary,Portion of Surveillance Instruction 149 & Data Package
	ML19331C722
Person / Time
Site:	Sequoyah
Issue date:	08/01/1980
From:	; TENNESSEE VALLEY AUTHORITY
To:	;
Shared Package
ML19331C719	List: ML19331C718; ML19331C722;
References
	NUDOCS 8008190438
	Download: ML19331C722 (36)
	v • d • e

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4 ENCLOSURE 1 SEQUOYAH NUCLEAR PLANT

SUMMARY

OF ABGTS TEST The interim Auxiliary Building Secondary Containment Enclosure (ABSCE)

System is being used for isolation of the unit 1 Auxiliary Building for Sequoyah Nuclear Plant. The ABSCE System supplies the following pump rooms: Residual Heat Removal Pumps lA-A and 13-3, Containment Spray Pumps lA-A and 1B-3, Centrifugal Charging Pumps lA-A and 1B-B, and Safety Inj ection Pu=ps lA-A and IB-B.

The interim ABSCE will be re=oved from service when the secondary containment for unit 2 is established and tested.

The requirements of surveillance instruction SI-149 are:

1.

To verify that the Auxiliary Building filter train starts on a high radiation signal from the fuel pool radiation monitoring system and the Auxiliary Building ventilation monitoring system 2

To verify that the system maintains the spent fuel storage area and ECCS pump rooms at a pressure equal to or more negative than minus 0.25 inches of water gauge relative to the outside atmosphere during a vacuum relief flow greater than 2000 cfm and a total system flow of 9000 cfm +10:

3.

To verify that the filter train will pull 0.25 inches of water vacuum in the Auxiliary Building within 9.5 minutes while maintaining the same vacuum relief flow and system flow mentioned above During the performance of Surveillance Instruction SI-149 on June 10, 1980, it was discovered that all of the test requirements could not be met alth the system configuration at that time.

The problem was the inability of the system to maintain the ECCS pump rooms at a pressure equal to or more l

negative than minus 0.25 inches of water relative to the outside at=o' sphere l

during system operation.

All other test requirements were met satisfactorily (see data package, Enclosure 3).

Because of ths failure of the ABSCE system to maintain the required i

vacuum in the ECCS purp rooms, the system was modified such that instead l

of one duct for all pump rooms with only a ventilation window for each l

room there is now an individual ventilation duct running to each pump room from the Auxiliary Building Gas Treatment System (ABGTS) inlet.

Also, a thorough inspection of all door seals and hatchways was performed, and any problems that were discovered were corrected.

In conjunction with the door seals inspection, a preventative maintenance program on the door seals is being i=plemented.

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The Surveillance Instruction SI-149 was perfor=ed again on July 14, 1980.

During this perfor=ance all of the test require =ents were =et.

The test results were reviewed and approved as meeting all necessary acceptance criteria.

The results obtained are contained in the data package for SI-149.

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Sequeyr.h ::aclear Pl.nt W

DISTRIBUTION 1C Plant Master File SURVEILLA'!CE INSTRUCTION Superintendent Assistant Superintendent (Ope r. )

Assistant Superintendent (Maint.)

!j SI-149 Administrative Supervisor I's Maintenance Supervisor (M)

AUXILIARY SUILDING CAS TREAIMENT Assistant Maintenance Supervisor (M I

SYSTEM AUICMATIC START ON HIG9 haintenance Supervisor (E)

PADIATION SIGNAL AND PRESSURE TEST

~ Assistant Maintenance Supervisor (E Maintenance Supervisor (I)

IU Results Supervisor Units 1 & 2 1C Operations Supervisor JU G.ulity Asstirance Supervisor Health Physics

}

Public Safety Services Supv.

5 Chief Storekeeper Preop Test Program Coordinator 3

1C Cutage Director g

Chemical Engineer Radiochem Laboratory y._.

~ Instrument Shop 3

1C Reactor Engineer t9 Instrument Engineer -

IC MechanicaLIngineer 2

IU Staff I'adustrial Engineer IC Training Center Coordinator g

PSO - Chickarnauga Engrg Unit - SNP Prepared By:

R. W. Fortenberry Public Safety Services - SNP 1C Shift Engineer's Office l 'M Revised By:

G. L. Terpstra IQ Unit Control Roora i

/ [. M QA&A Rep. - SNP

g Submitted By:

m 4

Health Physics Laboratory 3

upervisor IU Asst Dir NUC PR (Oper), 727 EB-C M/3 /dO n

IU Nuclear Document Centrol Unit, 606 EI PORC Review:

in Superintendent, WBNP bate 9 Superintendent, BFNP

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Superintendent, BENP

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__.1H_ NE3, W9C174C-K k

Q Approved Dy:

i 0 h ) (d Supv., NPHPS ROB,'MS

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p Supe 41ntendent NRC-IE:II Power Security Officer;~ 620 CST 2-C 1

f Nuclear Materials Coordinater-1410 Cl Date Approved:

b\\ND Manager. OP-QA&A Sta ff Resident NRC Inspector - SNP.

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NSRS, 309 GB-K Technical Support Center g

'Rev. No.

_D,te Revised Pageq Rev. No.

Date Revised Pages W

4 2/11/00 All u k,/ m c.1 3

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. The last page.of this instruction is Number 12

sQsp SI-149 I,

Punchlist Page 1 of 1 Rev. 5 The SI vill need to be revised shen secondary centain=ent is established for unit 2 (Interiuar ADSCI is removed).

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SQ?.~P SI-149 l

Page 1 of 5 W

Rev. 5 1.0 SCCPE 1.1 Description The Auxiliary building gas treatment system (ABGTS) will be started auto-matically frem a high radiation signal from both the spent fuel pit (STP) area radiation monitors and the total gas radiation cenitor en the Auxi-liary building exhaust vent. The high radiation signal will be pr:duced frca the readout =edule in the main control recs.

In conjunction with the autecatic starts this test will verify the ability of each auxiliary building gas treatment system to mai.-tain the required negative pressure in the Auxiliary Building.

1.2 Obj ectives 1.2.1 Verify that the Auxiliary building filter train starts en a

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high radiation signal frem the fuel pool radistica =enit: ring d

system and the Auxiliar/ building ventilation monitoring system (portions of Tech. Spec. 4.7.3.1.d.2 and 4.9.12.d.2).

1.2.2 Verify that the system =aintains the spent fuel storage area and ECCS pu=p reces at a minimum of.25 inch of water negative pres-sure relative to the outside atmosphere during system cperation while maintaining a vacuum relief flev greater than 2000 efs and u

a total system flow of 9000 cfm 210%.

1.3 Requirenents 1.3.1 Both trains of auxiliary building gas treatment shall be desen-g strated operable if either unit is in rode 1, 2, 3 or 4 by IJ performing the following at least once per 13 =enths:

1.3.1.1 Verify that the filter trains start en a high radia-tion signal frem the fuel p ol radiatica ::nitoring system and the auxiliary building ventilation nonitoring i

system.

(portion of STS 4.7.S. I.d.2 and 4.9.12.d.2).

1.3.1.2 Verifying that th-system maintains the spent fuel storage area and ECCS psp room 2.25 inch 'J.G., neg-ative pressure relative to the outside atmosphere during system creratics (poition of SR 4.7.3.1.d.3)1 1.3.1.3 Verify that the filter train will pull 0.25" W.G.

vacuum in Auxiliary Building within 9.5 minutes and maintaining a vacuum relief flev greater than 2000 cfm and a total system flow of 9000 cfm : IC". (portion of SR 4.7.3.1.d.3)1 i

NOTE: This test may be perferred in any =ede and shall be ic required frequency prior to entering Mode 4.

.I This SI does fulfill all of SR 4.7.3.1.d.3 s,

I.

N SQNP

+

SI-149 i

Page 2 of 5 Rev. 5 5

2.0 REFERENCES

2.1 TVA Drawings 47W866-8, 10, 11 2.2 TVA Drawings 47W610-30-8, 10 l

2.3 TVA Drawings 47W611-30-5, 6 3.0 PREREQUISITES 3.1 Receive permission frcm the Shif t Engineer to perform this test.

3.2 The Auxiliary Building heating, ventilation and air conditioning system shall be aligned per SOI-30.5.

3.3 The Auxiliary Building gas treatment system shall be aligned per SOI-30.6.

4.0 PPECAUTICNS 4.1 In order for the auxiliary building gas treatment train to pull 0.25" V.G.

negative pressure relative to the outside atmosphere, the doors (air locks) between the following spaces must be closed.

4.1.1 Containment building and Auxiliary building 4.1.2 Control building and Auxiliary bui' ding 4.1.3 Cutside and Auxiliary Building 4.2 Ensure that the system is aligned per SOI-30.5 and SOI-30.6 4.3 Check the operation of FCO-30-148 and/or FCO-30-149 if the Auxiliary j;

building is not 2 0.25" W.G. negative pressure and verify that the wind g

speed is n 5 mph.

5.0 INSTRt'CTICN 5.1 Spent Fuel Pit Area Radiation Monitoring System 5.1.1 Place the function switch for RM-90-102 (Panel M-12) to the

" trip adj" position.

/

W.4. W 5.1.2 Increase the output signd, as indicated by RI-90-102, by adjusting the " trip ref" adjustment per SI-83 until a high radiation trip is obtained.

5.1.3 Place the function switch for RM-90-103 (Panel M-12) to the

" trip adj" position.

l 5.1.4 Increase the output signal, as indicated by RI-90-103, by 0,

E adjusting the " trip ref" adjustment per SI-83 until a high radiation trip is obtained.

SQNP SI-149 Page 3 of 5 Rev. 5 5.1.5 Verify on data sheet I that both ABGTS trains started (1-M-9).

check that the suction and discharge dampers (FCV-30-146A, FCO-30-146B, FCO-30-157A, and FCO-30-1573) are open.

5.1.6 Stop fan B-B of the ABGTS and place its control switch to P-Auto.

HS-30-157A (Panel 1-M-9).

5.1.7 Verify the proper operation of the auxiliary building system on data sheet 1.

5.1.8 Record the pressure of the spent fuel pit area (PDIS-30-148 and PDIS-30-149) on data sheet 1.

NOTE: Acceptance criteria 5

.25" WG 5.1.9 Place the function switches for RM-90-102 and RM-90-103 to the operate position and reset the alann by depressing the trip reset buttons. Readjust " Trip Ref" per SI-83.

5.1.10 Realign the ABGTS for standby status per SOI-30-6.

5.1.11 Realign the Auxiliary building HVAC per SOI-30.5.

5.2 Auxiliary Building Ventilation Monitoring System 5.2.1 Place the function switch for RM-90-101B (Panel M-10) to the 3

" trip adj" position.

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5.2.2 Increase the output signal, as indicated by RI-90-101B by adjusting the " trip ref" adjustment per SI-83 until a high l

radiation trip is obtained.

i S

5.2.3 Verify on data sheet 2 that both ABGTS trains started (1-M-9).

i l

Check that the suction and discharge dampers FCO-30-146A, FCO l 1468. FCO-30-157A and FCO-30-157B are open.

5.2.4 Stop fan A-A of the ABGTS and place its control switch in P-Auto.

HS-30-146 (1-M-9).

5.2.5 Record the pressures of the spent fuel pit area (PDIS-30-143 and PDIS-30-149) on data sheet 2.

NOTE: Acceptance Criteria 5

.25" WG

5. 2. 6 Place 'the function switch for RM-90-101B to the operate position g'

and reset the alarm by depressing the trip reset buttons.

s Readjust the " Trip Ref" setting per SI-83.

5.2.7 Realign the ABGTS for standby status per SOI-30.6.

t

SQNP SI-149 Page 4 of 5 Rev. 5 5.2.8 Realign the Auxiliary building HVAC per SOI-30.5.

5.3 Auxiliary Building Air Inleakage and Time Test 5.3.1 Pull and lockout (stopped) D-B ABGTS.

5.3.2 Stop all Auxiliary building general supply fans.

5.3.3 Stop ill Auxiliary building general exhaust fans.

5.3.4 Stop all Fuel Handling Exhaust Fans.

5.3.5 Allow the pressure on the spent fuel floor to go to O psid.

Record the pressure on data sheet 3.

5.3.6 Initiate Auxiliary building isolation using HS-30-101A and HS-30-1013 and start stop watch.

5.3.7 Stcp stopwatch when the differential pressure between spent fuel area and outside is 0.25" WG vac.

Record time on data sheet 3.

ACCEPTANCE CRITERIA: Time 5 9.5 min. to establish 0.25" vac.

I 5.3.8 Measure flowrate of A-A ABGTS using TI-50.

ACCEPTANCE CRITERIA:

9000 cfm + 900 cfm 5.3.9 Measure the flower.te in the vacuum relief duct for ABGTS A-A using TI-50.

ACCEPTANCE CRITERIA:. Vacuum relief duct flowrate i: 2000 cfm.

3.4.9.1 Measure the differential pressure in the ECCS pu:cp rooms below by connecting a manometer between the ECCS pump room and auxiliary building.

5.3.9.1.I 1A-A RHR pump room 5.3.9.1.2 13-D RHR pump room 5.3.9.1.3 1A-A CS pump room 5.3.9.1.4 13-B CS pump room 5.3.9.1.5 1A-A CC pump room 5.3.9.1.6 IB-B CC pump room 5.3.9.1.7 1A-A SI pump room 5.3.9.1.8 IB-B SI pump room ACCEPTANCE CRITERIA: Differential pressure 5.25" I

SG vac witn respect to AB 5.3.10 Realign the ABGTS for standby status per SOI-30.6.

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SQNP SI-149 l-Page 5 of 5 Rev. 5 i

5.3.11 Realign the auxiliary building HVAC per 50I-30.5 except as noted below:

5.3.11.1 All Auxiliary building General Supply Fans shutdovn.

5.3.11.2 All Auxiliary building General Exhaust Fans shutdcwn.

5.3.11.3 All Fuel Handling Fans shutdown..

5 5.3.12 Stop A-A ABGT3 and pull to lock out.

d 5.3.13 Allow the pressure the spent fuel floor to go to O psid. Record the pressure on data sheet 3.

5. 3.1 '.

Initiate Auxiliary building isolatica nsing HS-30-101A and HS-30-1013 and start the stop watch.

5.3.15 Stop stopwatch when the difierential pressure between spent fuel area and outside is 0.25" WG vac record ti=e on data

,9 sheet 3.

1 ACCEPTANCE CRITERIA: Time 5 9.5 minute to establish 0.25" vac.

5.3.16 Measure flowrate of B-3 ABG~S using TI-50.

ACCEPTANCE CRITERIA: 9000 cfm + 900 cfm.

a d

5.3.17 Measure the flowrate in the vacuum relief duct for ABGTS 3-3 using TI-50.

ACCEPTANCE CRITERIA: Vacuum relief duct flowrate 12000 cfm.

5.3.17.1 Measure the differential pressure in the ECCS pu=p room below by connecting a manoeeter between the ECCS pump rocm and auxiliary building:

l 5.3.17.1.1 1A-A RI:R pump re se 5.3.17.1.2 1.'-B RHR pu=p rocm 5.3.17.1.3 1A-A CS pump room 5.3.17.1.4 13-3 CS pu=p room 5.3.17.1.5 1A-A CC pu=p roca 5.3.17.1.6 IB-B CC pu=p roem 5.3.17.1.7 1A-A SI pump roca l

5.3.17.1.8 13-3 SI pu=p roem

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ACCEPTANCC CRITERIA: Differential pressure $.25" WG e

vac with respect to A3.

g, 5.3.13 Realign the A0GTS f.4 standby status per 50I-30.6.

. 5.3.19 Realign the Auxiliary building HVAC per 50I-30.5.

5.3.20 Notify the shift engineer at the conclusion of the test.

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a SaNP SI-149 Data Package Cover Sheet gAsTa EE COM Al1X. Ilf.DC. CAS TREATt!ENT SYSTEtt AUTO START ON 1110l! HADIATION SIGNAL Unit 0

Performed By u, M okJ bJM

~I Date Unit / Operator '- Instrument tiech. - Results tiechanical Engr. Aide List of data sheets attached.

Instruction Po.

Data Sheet No.

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b Vere technical specification criteria satisfied?

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Was a limiting condition for operation violated?

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No (explain in remarks)

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Reason for Lcst:

Required by schedule

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EO Date Asst. Shift Eng.

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Date k QA Review of Test Results QA Staff

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. t-Data Sheet 3 Page 1 of 2 Rev. 5 Auxiliary Building Air in cakage and Time Test 7 /I @

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1.

it-6 ABGTS Pull and Locked out stopped) 2.

All Aux. Bld. Gen. Supply Fans shutdown J M

3.

All Aux. Bld. Gen. Exhaust Fans shutdown 4.

All Fuel Handling Exh. Fans shutdown f 5.

PdIS-30-148 O

"W.G.

PdIS-30-149 0

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6.

Aux. Bld. Isol. initiated

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Time to reach 0.25 "W.G. + 0.c5" on PdIS-30-148 and PdIS-30-149.

! minutes 33,7 seconds Acceptance Criteria 5 9.5 minutes

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A-A-ABGTS Flawrate 9/O 8 cfm h

e7 [G NA Acceptance Criteria: 9000 cfm + 900 cim Oc-3

'f flowrate 2 3f5.f. 4 D

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A-A- ABGTS vacuum relief Juct Acceptance Criteria: Vacuum relief flowrate > 2000 cfm 10.

a.

lA-A RHR pump room

,'YO "WG vac b.

IB-B RHR purnp room

. Q [ "WG vac c.

lA-A CS pump rocm

_3jP "WG vac d.

1B-B CS pump room

,4df "WG vac e.

lA-A CC pump room

,74 "WG vae f.

IB-B CC pump rocm

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"WG vac g.

lA-A SI pump room

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_ "WG vac h.

1B-B SI pump room

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_ "WG vac ACCEPTANCE CRITERIA:

Dif ferential pressure 5 0.25" WG with respect to AB

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,- t SI-149 Data Sheet 3 Page 2 of 2 Rev. 5 11.

ABGTS realigne<l per SOI-30.6 6

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AB IfVAC realigned per SOI-30.5 o r[/

a.

All AB Generator Supply Fans shutdown _

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All AB Generator E:<haust Fans shudown J' 99_,,,

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All Fuel ilandling Exhaust fans shutdown N'l/f /

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A-A-ABGTS stopped and pulled to locked oi.t I jb

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PdIS-30-148 O

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PdIS-30-149 U

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15.

AB isolation initiated

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16.

Time to reach 0.25" WG + 0.05" on PdIS '30-148 and PdIS-30-149 h minutes M,[

seconds Acceptance Criteria 5 9.5 minutes sv PdIS-30-148

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17. -fMJ ABGTS floweste 6//s /'

c fm gAcceptanceCrit;'.a:

9000 cfm + 900 cfm y g o I

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18.

ABCTS vacuum relief duct flow cfm Acceptance Criteria: Vaccum relief flow rate 12000 cfm.

19.

a.

lA-A Rl!R piunp room N

"WG vac f

b.

1B-B RifR pump room

,4L "WG vac l

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lA-A CS pump room

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Dif ferential pressure i G,25" WG with respect to AB l

20.

ABGTS realigned per SOI-30.6 d

21.

AB llVAC realigned per S01-30.5 22.

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S!-149

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Parse 4 >r 5 Rev. 5 5.2.8 Realian the Auxiliary buildin/, ifVAC per 301-30.5.

5.3 Aux i lia r y lin i li!i o ; A i r i n l ea k vge a nd T i r: e Te s t(IT s f E-T e-'<'" ~~ * < led r-m <.

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5.3.1 Pull and lockout (r. t o ppe.3 ) fi-Is APGTS.

5.3.2 Stop cil Auxiliary builstiny general supply fans.

5.3.3

' top all Auxiliary building acneral exhaunt faas.

J 5.3.4 Stop all Fuel !!andling Exi.au.t Fa r.s.

5.3.5 A11cw the pressure on t!.c spent f6et floor to go to O psid.

Record the pressure on data sheet 3.

5.3.6 Initiate Auxiliary buildiny. isolatien using IIS-30-101A and 11S-30-1013 and start stop watch.

5.3.7 Stop stopwatch when the < lit t erential pre:s::ure bet.cen spent fuel area and nut side is 0.2>" WG v3e.

kr. cord tia.e on data sheet 3.

ACCEPTANCF. C:11T GIA: Tf :ne 5 9.5 min. to c::tah tish 0.25" vac.

5.3.8

.'!ca su re f l ou ra t.- of A-4 AliSTS asia: TI-50.

ACCE?TA.NCE C31TERIA:

9000 et.a + 900 cf.n 5.3.9

!!ca:.u r,: the t it. wit e in ! e vacutmi. el ici due t tur ABGTS A-A

n i TI-50.

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5.3.9.:.4 til-ti CS pomp ron.a 5.3.9.1.5 1A-A CC pump ronn 5.3.9.1.6 111-14 CC pump roo.a 5.3.9.1.7 1A-A Si p na.i. ro u.a 5.3.9.1.8

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SQNP SOI-30.5D - Units 1 and 2 Page I of 4 Rev. 5 Recovery From Auxiliary Building Isolation 7 lf f Date

/

I. PURPOSE To provide the conditions for operations, precautions, and instructions for returning the following equipment back to normal operation af ter an auxiliary building isolation.

A.

Auxiliary Building General Supply and Exhaust Fans B.

Fuel Handling Area Exhaust Fans C.

Safety Feature Coolers NOTE: The space coolers may or may not have started from the A.B.I.

signal.

II. CONDITIONS FOR OPERATIONS

'/f72)

An auxiliary building isolation his been initiated from one of A.

the following actuation signals:

1.

Phase A containment isolation 2.

Radiation detection in the refueling area 3.

Auxiliary Building General Exhaust Vent High Radiation v'4.

Manual III. PRECAUTIONS A.

Prior to returning the auxiliary building general supply and exhaust fans, fuel handling area exhaust fans, and the safety feature coolers to normal operation, ensure that the condition that actuated the auxiliary building isolation is corrected.

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r SQNP SOI-30.5D - Units 1 and 2 Page 2 of 4 Rev. 5 7'lf~~h Date IV. INSTRUCTIONS A.

Auxiliary Bui ding General Supply and Exhaust Fans

,J f Ensure that the auxiliary building isolation actuation 1.

signal is reset.

2.

dd/dl / Open ABSCE (interim) dampers from local controls.

EL 734 ABSCE Damper Handswitch Location FCO-30-36 Southeast corner of spent fuel pit vFCO-30-41 Southeast corner of spent fuel pit

'FCO-30-49 South wall behind "B" surge tank vFCO-30-55 South wall behind "B" surge tank v'FCO-30-112 South wall behind "B" aux air compressor 6'TCO-30-114 South wall behind "B" aux air compressor FCO-30-98' South wall behind "B" aux air compressor

,FCO-30-113 South wall behind "B" aux air compressor

FCO-30-34 734 pent. roem unit 2 reactor bldg access vFCO-30-35 734 pent. room unit 2 reactor. bldg access

.FCO-30-60 Emergency gas treatment room

./?CO-30-69 Emergency gas treatment room EL 714 ABSCE Damper Handswitch Location

-FCO-30-28 North wall of unit 1 penetration room just before entering west steam valve room

-f'C0-30-29 North wall of unit 1 penetration room just before entering west steam valve room i

FCo-30-119 North of elevator on column T A6

/FCO-30-120 North of elevator on column T A6 FCO-30-115 North of elevator on column T A6

-FCO-30-117 North of elevator on column T A5 sICO-30-116 North of elevator on column T A5 vfCo-30-118 North of elevator on column T A5

/TCO-30-79 South of elevator by column T All

~ ~[^ ~

vfCO-30-96 South of elevator by column.T All

'FCO-30-76 South of elevator by column T All FCO-30-91 South of elevator by column T All

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SOI-30.5D - Units 1 and 2 Page 3 of 4 Rev. 5 Cate 7

/

N

/

El 690 AESCE Da.cer Handsvitch Location

-FCO-30-13 North wall of CC'J pu=ps vFCO-30-13 North wall by CC'4 pu ps c.

6 e..,y A35CE Da ter Handsvitch Locaties

?CC-30-3 East of pipe chase door by cc::ai:=ent surp valve rocs M CO-30-6 East of pipe chase d:or by ecstai:=ent su=p valve rec =

s IC9 ASECE De=rer Handsvitch Locatics dCO-30-132 Cutside unit I fuel transfer valve :::=

,FCO-30-121 Outside unit I fuel transfer valve :::=

< FCO-30-125 Outside unit 1 fuel transfer valve rc =

- FCO-30-131 Outside unit I fuel transfer valve' rec =

-TCO-3C-33 Outside unit 1 fuel transfer valve recs

' M O-30-120 Outside unit 1 fuel transfer valve rec = _

M CO-30-123 Outside unit I fuel transfer valve reo=

TCO-30-32 Outside uni I fuel transfer valve rec =

~

FCO-30-296 Scuth vall of dru==ed vaste storage ares

'TCO-30-297 South vall of dru==ed vaste storage area 4 C0-30-293 South wall of dru==ed vaste storage area

700-30-299 South wall of dru =ed vaste storage area 3.

A Retur: the auxiliar/ building general supply and exhaust fans

/

fffvf to nor=al operstics per sectics 30.5A beginning with step V.A.4 4

/if /h Shutdeva the auxiliarf building e=ergency gas treatment syste

'.S" M. per SCI-30.6C.

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SQNP SOI-30.5D - Units 1 and 2 Page 4 of 4 Rev. 5 Date 7

/

B.

Fuel Handling Area Exnaust fans 1.

/

Ensure that the auxiliary building isolation actuation

/ 5/ /vt' signal is reset.

2.

A/;l Return the fuel handling area exhaust fans to normal

'5//V7 operation per section 30.5B, beginning at step V.A.4.

C.

Safety Feature Equipment Cooler

[/f Ensure that the auxiliary building isolation actuation 1.

'f/ V7 signal is reset.

/

A[4 2.

Ensure that the safety feature equipment coolers have

' 9/ /</r returned to normal per section 30.5C of this instruction.

NOTE: If the temperature in the respective areas is above the low setpoint, the coolers will be started by aux. building isolation signal.

V. REFERENCES SOI-30.6 0

9 47W611-30-6 R5

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SOI-30.5D - Units 1 and 2 Paga 1 of 4 Rev. 5 Recovery From Auxiliary Building Isolation 7 /sf

d Q Date I. Pl.*RPOSE To provide the conditions for operations, precautions, and instructions for returning the following equipment back to nor=al operation after an auxiliary building isolation.

A.

Auxiliar'/ Building General Supply and Exhaust Fans B.

Fuel Handling Area Exhaust Fans C.

Safety Feature Coolers NOTE: The space coolers may or may not have started fr:m the A.B.I.

signal.

II. CONDIT!CNS FOR OPERATIONS A.

/dM/

An auxiliar*/ building isolation has been initiated from one of the following actuation signals:

1.

Phase A containment isolation 2.

Radiation detection in the refueling area 3.

Auxiliary Building General Exhaust Vent High Radiation h.

}fanual

~

III. PRECAI;TIONS A.

Prior to returning the auxiliary building general supply and exhaust fans _

fuel handling area exhaust fans, and the safety feature coolers-to normal operation, ensure that the condition that actuated the auxiliary building isolation is corrected.

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S01-30.5D - Units 1 and 2 Page 2 of 4 Rev. 5 4Y Date IV. INSTRUCTIONS A.

Auxiliary Building General Supply and Exhaust Fans 1.

Y Ensure that the auxiliary building isolation actuation signal is reset.

f k Open ABSCE (interim) dampers from local controls.

2.

EL 734 ABSCE Dameer Handswitch Location FCO-30-36 Southeast corner of spent fuel pit FCO-30-41 Southeast corner of spent fuel pit FCO-30-49 South wall behind "B" surge tank FCO-30-55 South wall behind "B" surge tank FCO-30-112 South wall behind "B" aux air compressor FCO-30-114 South wall behind "B" aux air compressor FCO-30-98 South wall behind "B" aux air compressor FCO-30-113 South wall behind "B" aux air compressor FCO-30-34 734 pent. room unit 2 reactor bldg access FCO-30-35 734 pent. room unit 2 reactor bldg access FCO-30-60 Emergency gas treatment room FCO-30-69 Emergency gas treatment room...

EL 714 ABSCE Damper Handswitch Location FCO-30-23 North wall of unit 1 penetration room just before entering west steam valve room FCO-30-29 North wall of unit 1 penetration room just before entering west steam valve room FCo-30-119 North of elevator on column T A6 FCO-30-120 North of elevator on column T A6 FCO-30-115 North of elevator on column T A6 FCO-30-117 North of elevator on column T A5 FCO-30-116 North of elevator on column T A5 FCO-30-118 North of elevator on column T A5 I

~

FCO-30-79 South of elevator by column T All FCO-30-96 South of elevator by column T All FCO-30-76 South of elevator by column T All y :: -

FCO-30-91 South of elevator by column T All

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SQNP' SOI-30.5D - Units 1 and 2 Page 3 of 4 Rev. 5 Date 7//p/fo El 690 ABSCE Damper Handswitch Location FCO-30-13 North wall of CCW pumps FCO-30-18 North wall by CCW pumps I

i l

EL 669 AESCE Damper Handswitch Location FCG-30-3 East of pipe chase door by containment sump valve room FCO-30-6 East of pipe chase door by containment sump valve room EL 706 ASBCE Damper Handswitch Location FCO-30-132 Outside unit 1 fuel transfer valve raom FCO-30-121 Outside unit 1 fuel transfer valve. room FCO-30-125 Outside unit i fuel transfer valve r;om FCO-30-131 Outside unit I fuel transfer valve room FCO-30-33 Outside unit I fuel transfer valve room --

FCO-30-124 Outside unit i fuel transfer valve room

~

FCO-30-128 Outside unit I fuel transfer valve room FCO-30-32 Outside unit 1 fuel transfer valve room FCO-30-296 South wall of drummed waste storage area FCO-30-297 South wall of drummed waste storage area FCO-30-298 South wall of drummed waste storage area FCO-30-299 South wall of drummed waste storage area G

3.

E/C - Return the auxiliary building general supply and exhaust fans to normal operation per section 30.5A beginning with step V.A.4.

4.

/( _ Shutdown the auxiliary building emergency gas treatment system per SOI-30.6C.

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SQNP SOI-30.5D - Units 1 and 2 Page 4 of 4 Rev. 5

'7,//f,/[()

Date 3.

Fuel Handling Area Exhaust Fans 1.

[M Ensure that the auxiliary building isolation actuation signal is reset.

//

2.

((

Return the fuel handling ares exhaust fans to normal operation per section 30.53, beginning at step V. A.4.

C.

Safety Feature Equipment Cooler b nsure that the auxiliary building isolation actuation 1.

E signal is reset.

a g

2.

Ensure that the safety feature equipment coolers have returned to normal per section 30.5C of this instruction.

NOTE:

If the temperature in the respective areas is above the low setpoint, the coolers will be started by aux. building isolation signal.

V. RE'2RENCES SOI-30.6 4Ta'611-3 0-6 F3 P

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SOI-30.6B - Unit 0 Page 1 of 2 Rev. 2 STANDBY CONDITIONS Date 1-I.

PURPOSE To provide license requirements, conditions for operation, precautions, and instructions for placing the auxiliary building emergency gas treat-ment system in a standby status.

II.

LICENSE REQUIREMENTS FROM TECHNICAL SPECIFICATIONS A.

STS 3.7.8.1 III. CONDITIONS FOR OPERATION

,h Power availability checklists 30.6-1 and 30.6-2 completed.

A.

Auxi1Iarybuildinggastreatmentsystemfiltersinposition.

B.

/ /

Refueling area radiation monitors RE-90-1J2 and RE-90-103 C.

in service.

[

Auxiliary building exhaust vent radiation monitor RE-90-101 D.

in service.

E.

M Local disconnect closed for humidity control heaters A & B.

IV.

PRECAUTIONS A.

Insure loop seals in drains from filter assembly have been filled with 50/50 water glycol mixture.

(Sight glass on loop seal)

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SQNP SOI-30.6B - Unit 0 Page 2 of 2 Rev. 2 Date O

~

V.

INSTRUCTIONS (Cont.)

A.

Auxiliary building gas treatment system A power availablity f

checklist 30.6-1 completed.

/k Auxiliary building gas treatment system B power availability B.

checklist 30.6-2 completed.

/ k Valve checklist 30.6-1 completed.

C.

, k Valve checklist 30.6-2 completed.

D.

E. //M Local disconnect for train A humitidy control h' eater closed.

/*J F.

~

!.r-=1 disconnect for train B humitidy control heater closed.

G.

M Auxiliary building gas treatment fan A control switch HS-30-14'6A in A-Auto.

H.

Aux'.liary building gas treatment fm B control switch HS-30 -157A in A-Auto.

VI.

REFERENCES A.

FSAR and Standard Tech Spec 1.

Section 6.2.3.2.3 2.

STS 3/4.7.8.1

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