Meeting Summary Handouts, Enclosure 2 (Tac Nos. MD2934 and MD2935)

ML063280065
Person / Time
Site:	Hatch
Issue date:	11/14/2006
From:	Southern Nuclear Operating Co
To:	Office of Nuclear Reactor Regulation
Martin R, NRR/DORL, 415-1493
Shared Package
ML063390105	List: ML063240197 ML063280065
References
TAC MD2934, TAC MD2935
Download: ML063280065 (38)
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Text

November 14, 2006 Meeting With NRC Overview of the August 29, 2006 Plant Hatch Alternative Source Term Submittal Energy to Serve Your World' Enclosure 2

'4 Agenda

• Introduction

• Scope

• Design Basis Accident Modeling

• Polestar Methods of Activity Removal

• Crediting of Turbine Building HVAC

" Passive Ventilation Study

" Ductwork Description and Seismic Verification

" Air Supply and Seismic

" Power Supply and Seismic

• Standby Liquid Control System Assessment

• Technical Specification Changes

• Conclusion SOUTHERN m 2 COMPANY Energv to Serve Yoiur World

,4 Introduction

• Purpose of Alternative Source Term (AST) NRC Submittal

" Address Control Room Habitability GL 2003-01

• Address Hatch unique MCR location inside Turbine Building

" Replace by May 31, 2010 interim licensing basis of 110 cfm MCR unfiltered inleakage (based on potassium iodide)

• AST provides the margin needed to bound 15 cfm (5 cfm actual inleakage plus 10 cfm for ingress/egress)

" AST based limiting MCR unfiltered inleakage 115 cfm (10 cfm for ingress/egress)

" Considers the impact of additional identified secondary containment bypass paths (0.9% increases to 2%)

" Considers bypass paths that go thru turbine building

" MCR/TSC Atmospheric Dispersion Factors updated with ARCON96 based on 3 years of data Energy to Serve Your Worldd

,8 Scope - AST Mitigating Features

• Full scope AST submittal - all 4 BWR DBAs analyzed

• LOCA is limiting DBA for main control room (MCR) inleakage

• FHA requires no mitigating features

• Remaining mitigating feature (not listed below) is use of sodium pentaborate for suppression pool pH control post-LOCA LOCA MSLB CRDA (fuel damage) (no fuel damage) (fuel damage)

EAB/ EABI EAB LPZ LPZ EABI Mitigating Feature MCR TSC Ground Elev. MCR TSC LPZ MCR TSC LPZ Drywell sprays and natural deposition I I "

MSIV leakage deposition in steam lines & condenser " " I Secondary containment bypass leakage deposition in "

condenser TB fan starting at 8 hr at a rate of 15,000 cfm SOUTHERW -Mk k

4 COSrMPWNY Energy to Serve Your World'*

Scope - Seismic

• AST submittal includes 3 types of seismic evaluations and supporting EPRI report

" Unit 1 Main Steam Isolation Valve Alternate Leakage Treatment Path

• Units 1 and 2 Seismic Verification of Potential Secondary Containment Bypass Leakage Paths Terminating at the Main Condenser

• Units 1 and 2 Seismic Verification of the Turbine Building Exhaust Ductwork

> Application of EPRI Technical Report 1007896 titled "Seismic Evaluation Guidelines for HVAC Duct and Damper Systems 5 Cto PANY Energy to Serve Your World

DBA Dose Modeling - Overview

• Objective is to determine the maximum MCR inleakage without exceeding the dose limit of 5 rem TEDE LocaDose computer program is used to calculate doses for LOCA, CRDA, MSLB, and FHA based on the methodology of Regulatory Guide 1.183

• For MCR dose calculations, activity is released into the turbine building for three of the accidents (LOCA, CRDA, MSLB)

Since the activity concentration within the turbine building is higher than outside, all the MCR inleakage is assumed to be from the turbine building

• Since FHA release is not into the turbine building, MCR inleakage is assumed to be from outside

• For all accidents, TSC and offsite doses are calculated assuming no holdup in turbine building

• Maximum MCR inleakage is determined to be 115 cfm for LOCA, 155 cfm for CRDA, 150 cfm for MSLB, and unlimited for FHA

• TSC and offsite doses are within acceptance criteria 6

Energy to Serve Your World

DBA Dose Model for LOCA - MCR Environment UL-i-LIRN Awm COMPANY Energy to Serve Your World '

DBA Dose Model for LOCA TSC & Offsite Intake & reclrc filter (90%

efficiency for particulates)

Intake Recirc 500 cfm TSC 3

10000 cfm (1.56E4 ft )

Groundrelease a

Environment 0

S~TH~4N WA CO&PANY Energy to Serve }Yur World '

DBA Dose Model for FHA 0.115 cfm Filter efficiency 95% for

-1 Elevated release elemental iodine and particulates I

. .12YM** 1 take Recirculati onl 250 cfm efficiency 2100 cff m j 3gases) Control Room Inleakage (9.35E4 ft3 )

10000 cfm Outleakage 0 10250 dcm Environment Filter efficiency 90% for 0 Recirculationf elemental iodine and particulates ,In take 500 cfm 500 cfm Inleakage TSC

-* (1.56E4 ft 3 )

10000 cfm 0

Outleakage 10500 cfm

- Ground release 0.115 cfm (< 2 min) DYVERN A 9 COMPANY rgy to Serve Your World

DBA Dose Model for CRDA - MCR Reactor Building Vent SGround release 15000 cfm (a 9 hr)

Turbine Building (6.50E6 ft3 ) Filter efficiency 95% for elemental iodine and particulates Intake Recirculation 250 cfm 2100 dfm Turbine/Condenser (1.72E5 ft3) Environment I Inleakage

• Control Room 3

h 155dm (9.35E4 ft )

1.2 cfm (<24 hr) GI 1% per day Outleakage 405 cfm SOUTHERN A 10 COMPANY Energy to Serve Your World '

DBA Dose Model for CRDA - TSC & Offsite Filter efficiency 90% for elemental iodine and particulates Intake 500 cfm Recirculation 500 cfm Turbine/Condenser 4-

-4 3

(1.72E5 ft )

0 Environment TSC 0 Inleakage 10000 dm (1.56E4 ft3 )

1.2 cfm (<24 1% per day Ground release 0

Outleakage 10500 cfm SOLVERN &Z 11 ~COMPANY Energy to Serve Your World I

DBA Dose Model for MSLB - MCR Reactor Building Vent I. Ground release 15000 cfm (2 9 hr)

Turbine Building (6.50E6 ft3 ) Filter efficiency 95% for elemental iodine and particulates Intake 250 cfm Recirculation 2100 cfm Main Steam Line Environment Inleakage Control Room (9.35E4 ft3 )

0 150 cfm Q Outleakage 400 cfm S4JTHERNAM 12 COMPANY r

Energy to Serve Your World

DBA Dose Model for MSLB - TSC & Offsite Mainin Steam Cloud Filter efficiency 90% for (I ft3) elemental iodine and particulates SIntake Recirculation 500 cfm 500 cfm 1.E9 cfm Inleakage TSC 10000 cfm Environment Outleakage 10500 cfm 13 C:MPANY AM Energv to Serve Your World '

PolestarMethods for Activity Removal

• Polestar Methods

• Credit for activity removal by DW spray and sedimentation in steam lines/main condenser (ifopen pathway to main condenser can be assured and steam lines/main condenser are seismically rugged)

" STARNAUA for aerosol removal by sedimentation and spray

" Credit for aerosol impaction in MSIV leakage pathway (DF of 2 at first closed MSIV)

• Assumption that elemental iodine will adsorb onto surface of dispersed aerosol (i.e., elemental iodine removal rate that of aerosol except not greater than X = 20 per hour)

• pH calculated using STARpH

• DF for elemental iodine calculated on basis of pH = 8.3 at 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> (end of spray removal period for elemental iodine) - no DF limit for particulate 14 Energy to Serve Youir World'

PolestarMethods for Activity Removal fffr fiil ... .... . .. . . . . . . ... .... .... . ... .. .. . . . . .... ........ .... ... . .. .ir.ir...1..* " . . . . .... ........ .. 1...

• History and precedent for use of the STARNAUA computer code

• AP-600/AP-1 000

> AP-600: first application of STARNAUA for aerosol activity removal

> Extensive NRC review with Sandia Nat'l Lab (Dr. Powers) as NRC contractor

• Perry - first application of AST to an operating plant - reviewed by RES

• Columbia - STARNAUA results used to justify modified NRC methods for steam line deposition to account for drywell spray credit

• Oyster Creek (currently under review)

> Close parallel to Hatch

> No control room filtration whatsoever - 14,000 cfm outside air

• Credit for drywell spray accepted on VY and Columbia

• Credit for removal in steam lines and main condenser accepted on VY and Browns Ferry (but not using STARNAUA) 15 Energv to Serve }Yur World'

PolestarMethods for Activity Removal I I I ~

I i

Y U - I H

DW Spray Main Cond STARNAUA NRC SE AP-600/1 0001 X X Perry X2 X X BFN X X Vy x x x Columbia X X3 X4 Oyster Creek X X Hatch X X X 1: Advanced PWR (passive plant). 2: Mklll containment uses containment spray, not DW spray. 3: Used to adjust documented NRC-RES acceptance basis for Perry to account for DW spray. 4: SE completed by Dose Assessment Branch.

16 Energy to Serve Your World'

PolestarMethods for Activity Removal

• STARNAUA Inputs

• Initial aerosol size distribution and mass based on fuel melt experiments

" Spray flow (one pump) and fall height - 33% reduction to account for local impingement and drywell structures below spray pattern

• Spray droplet size increased to account for one pump

• Spray starts 15 minutes after start of accident (13 minutes after start of release with high radiation in drywell - same basis as VY/Columbia)

- DW thermal-hydraulic conditions (pressure/temperature/rh) from MAAP4

- Steam line temperature assumed same as normal operation

• Conservative aerosol impaction DF of 2 based on compilation of experimental data and models for inertial impaction filters

• Aspiration efficiency = 50% (very high for expected leak path conditions) 17 Energy to Serve Your World'

r PolestarMethods for Activity Removal

• Modeling of Steam Lines

" Leak path could actually plug and reduce or eliminate gaseous release as well as particulate release (not credited)

" Aerosol leakage from drywell reduced by a factor of 2 for steam line STARNAUA cases

" Size distribution taken from output of STARNAUA DW spray case

" Same process repeated for downstream steam line control volumes and for main condenser control volume (except for factor of 2 reduction in leaked mass)

" Only horizontal projection of steam lines credited for aerosol deposition

" Elemental iodine deposition in steam lines not credited except for DF of 2 at inlet (treated as deposited on aerosol at inlet to main steam lines but not in steam lines due to superheat and potential for re-evolution) 18 Energy to Serve Your World'

PolestarMethods for Activity Removal

• STARpH used for suppression pool pH calculation

• Previously applied to

• Perry

• Oyster Creek

• Hope Creek and Salem

• Browns Ferry

• Waterford 3

• Columbia

• pH = 8.3 at 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />

• pH greater than 7 for full 30 days (no iodine re-evolution in containment considered)

SOUYTERN A 19 COMPANY Energv to Serve TYur World'

Dose Methodology Wrap-up 12 K 717ý V71 71' 20

Passive Ventilation Study of Turbine Building

- - ~ l fl.IIfflfm .... ...... . ....... ..... .. . . . ... ............................. l[Irr..I~ ...............

• Observation that commercial/industrial structures typically "breathe" naturally at 2-10 volumes per day (sometimes as much as 1 volume per hour but large buildings tend to be less)

• Function of

" Wind speed (external pressure magnitude)

" Wind direction (pressure distribution)

" Fagade effective leakage area and building openings

" Inside vs. outside temperature (stack effect) ignored in study

• CpCalc+ code developed by Politecnico di Torino (Turin, Italy) for the EU used to obtain pressure distribution

• Expressed as Cp (multiplier for dynamic pressure)

• Effective leakage area = mean value for concrete panel construction = 4 cm 2/m 2 from NISTIR 6585 SOVL-kIM1L1 AM 21 CO PANY Energy to Serve YourWorld'

Passive Ventilation Study of Turbine Building

• Variability in passive ventilation rate based 100%

on Hatch site-specific wind speed/direction 90%

• Passive rates appear 80%-

comparable to forced 70 %

15,000 cfm rate used 60%

50%

in dose analysis

• 5 th %tile: 3300 cfm 40%

• 1 0th %tile: 4900 cfm 30% /

• 2 0th %tile: 7000 cfm 20%

• 4 0th %tile: 10700 cfm 10%

• Includes effect of 0%

partially-opened 0 5000 10000 15000 20000 25000 30000 35000 40000 railroad bay doors Passive Ventilation Flow (cfm)

• Supports 70 cfm unfiltered inleakage SOUVWERI !

22 COMPANY Energy to Serve Your World'

TURBINE BUILDING HVAC CONFIGURATION BOWAST BIAUST

SOUTHERN A 24 COMPANY Energy to Serve Ihur World'

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u~ ~ 'In V r fT< - ~" S

[I '4 IT: li t~aw~. -

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TURBINE BUILDING HVAC CONFIGURATION OWJST CABLE SPREADWO ROOM

.- " - -" SO UT Z LA 27 COP ANY Energy to Serve Your World'

Seismic Verification of TB HVAC Irlr ']tFTT*

=f .. ........

..... .......... n. rir . . . .. .. . . . ... .... ...... . . . .. . . .. . .. . . . . .

• Scope:

" Seismic verification of required portions of exhaust HVAC ductwork including supports & anchorage to assure structural and pressure integrity

" Seismic verification of associated dampers, filters, and fans to assure structural and pressure integrity

• Methodology:

• Primarily based on earthquake experience & similar in concept to the SQUG GIP seismic verification of raceway systems

• EPRI Technical Report 1007896 "Seismic Evaluation Guidelines for HVAC Duct & Damper Systems" April 2003

> Peer reviewed by Dr. Robert P. Kennedy February 2004 28 CONiLANY Energy to Serve ur World

Seismic Verification of TB HVAC cont.

• Methodology cont'd:

• Seismic verification performed by two SQUG Seismic Capability Engineers meeting required experience and training requirements

• Methodology includes

- documentation & applicability reviews

- detail in-plant seismic walkdowns using screening criteria

- identification of potential failure modes (outliers)

- analytical review of bounding sample of duct runs and supports/anchorage

- resolution of outliers by further analysis or plant mods

- documentation

- independent peer review of the Hatch seismic verification

• SQUG GIP used for seismic verification of associated Equipment, e.g.,

fans.

29 Energy to Serve Your World'

SERVICE AND INSTRUMENT AIR FLOWPATH (UNIT 2)

MMmww

Turbine Building HVAC Air Supply

+ The air for all Turbine Building HVAC dampers is supplied by interruptible instrument air. Failures can occur by:

" A break in the compressed air system.

" A mechanical or electrical failure.

" A major air dryer failure.

• Procedural guidance will be implemented to prevent cross-tie operation should an accident occur on one unit.

• A single failure in any unit can result in complete loss of both exhaust trains on the affected unit.

• Modifications to supply non-interruptible air to the Turbine Building HVAC dampers will be implemented by the end of 2009.

• No single failures exist that would impact both unit's Turbine Building exhaust capability.

31 COiPANY Energy to Serve Your World'

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II Ifti SQUVHERN AV-M 33 COMPANY Energy to Serve Your World '

Turbine Building HVAC Power Supplies

" No common power supplies exist through the start-up auxiliary transformers which would result in loss of both units' Turbine

.Building HVAC system.

• A single failure in any unit can result in complete loss of both exhaust trains on the affected unit.

• The only common mode issue that would affect both units is a seismic event.

• Unit 2 and Unit I Electrical MCCs will be walked down during the 2007 and 2008 outages and seismically evaluated.

SCTUEW AM 34 0iPANY Energy to Serve Your World'

Diesel GeneratorLoading

• Diesel generator loading is approaching its rating limits.

• Calculations show current KW loading above continuous ratings for some scenarios.

• Operators would be forced to make hard choices and be more selective in load reductions.

• Adding Turbine Building fan motors will require the diesel generators to operate within their overload rating.

• Operating in the overload rating reduces the life of the machine.

• The operatorsshould not be requiredto make hard choices to remove safety relatedpumps from service in order to load the Turbine Building fans on the safety related buses.

35 Energy to Serve Your World

Standby Liquid Control System Assessment

• SLC function is control of the pH in the suppression pool following a design-basis LOCA.

• SLC assessed to confirm reliability to perform its AST function per NRC review guidelines, "Guidance on the Assessment of a BWR SLC System for pH Control."

• SLC pumps and valves are powered from the standby AC power supply and from separate buses.

• SLC is seismically qualified in accordance with Reg. Guide 1.29 and App. A to 10 CFR Part 100.

• SLC is incorporated into the plant's ASME Code ISI and IST Programs.

• SLC is incorporated into the plant's Maintenance Rule Program.

• SLC meets 10 CFR 50.49.

> Environmental conditions are considered mild environment for SLC components.

> SLC associated cables are environmentally qualified.

• Although SLC is subject to a single failure, non-redundant active components are reliable to perform the AST function.

> Injection check valves are shown to be highly reliable.

> Although SLC initiation control switch failure is unlikely, it is located in the Main Control Room which is continually manned with provisions in place for manual SLC initiation.

36

Technical Specification Changes

• AST implementation includes the following key technical specification changes:

• Standardize MSIV total allowed leakage rates between units at 100 scfh

• DEl-1 31 specific activity of reactor coolant revised from 4.0 pCi/gm to 2.0 pCi/gm

• Add secondary containment bypass leakage to Unit 1 and increase value for Unit 2 (2% for both units)

• Add drywell spray Technical Specification

" TS Bases changes to reflect AST 37 Energv to Serve }1urWioldd

Conclusion

• Open Discussion

• Questions SOUTHERN WA 38 COMPANY Energy to Serve }our World'