To Emergency Plan Implementing Procedure IP-EP-360, Core Damage Assessment

ML103200310
Person / Time
Site:	Indian Point
Issue date:	11/04/2010
From:	Vogle R Entergy Corp
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
FOIA/PA-2011-0181, FOIA/PA-2011-0262 IP-EP-360, Rev 2
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November 4, 2010 Document Name:

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IP-EP-360 REV.2

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C ON 'u" FIG L L E 0 aE IPEC NON-QUAuTY RELATED IP-EP-360 Revision 2 y

EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 1

of 20 CORE DAMAGE ASSESSMENT 4VMwx1i,11 Prepared by:

Approval:

Robert Vogle Print Name

/DatVe Date Brian A. Sullivan Print Name Effective Date: November 4, 2010 This procedure excluded from further L*-100 reviews.

IP-EP-360 (Core) R2.doc

IPEC NON-QUALITY RELATED EMERGENCY PLAN PROCEDURE IP-EP-360 Revision 2 IMPLEMENTING PROCEDURES REFERENCE USE Page 2

of 20 Table of Contents 1.0 PURPO SE..............................................................................................................................................

3

2.0 REFERENCES

3 3.0 DEFINITIO NS.........................................................................................................................................

3 4.0 RESPONSIBILITIES......................................................

4 5.0 DETAILS..................................................................................................................................................

4 6.0 INTERFACES.........................................................................................................................................

8 7.0 RECO RDS...............................................................................................................................................

8 8.0 REQ UIREM ENTS AND CO M M ITM ENTS.........................................................................................

8 9.0 ATTACHM ENTS...........................................................................................................

I.......................... 8 9.1 Attachm ent 1, Fuel Rod Clad Dam age...........................................................................................

9 9.2 Attachm ent 2, Fuel Overtem perature Dam age............................................................................

14

IPEC.

NON-QUALITY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE

- nerg IMPLEMENTING PROCEDURES REFERENCE USE Page 3

of 20 CORE DAMAGE ASSESSENT 1.0 PURPOSE This guideline provides a methodology for the assessment of:

" The degree of damage to the fuel rod cladding that results in the release of the fission product inventory in the fuel rod gap space.

• The degree of core overheating that results in the release of the fission product inventory in the fuel pellets.

9 The appropriate Emergency Action Level for off-site radiological protective actions based on the degree of damage to the reactor core.

This guideline should be used when the reactor is shutdown and either:

• Core temperatures are at or above 7000F, or

• Containment radiation level is at or above 1 R/hr

2.0 REFERENCES

2.1 WCAP-14696-A, Westinghouse Owners Group Core Damage Assessment Guideline, Rev. 1 2.2 "Containment Radiation Level Using Core Damage Assessment Guideline, Revision 1 (1996) For Specific Indian Point Unit 2 EAL Application: A Summary," by Dave Smith, 12/2000.

2.3 PGI-00467-00, 4/5/01 "Containment Radiation Monitor Response/Core Damage Assessment Procedure Support" 2.4 IP-CA-3, Hydrogen Flammability in Containment, Pg 2, Rev. 0 3.0 DEFINITIONS None

IPEC NON-QUAuTY RELATED IP-EP-360 Revision 2 En/ Ier EMERGENCY PLAN PROCEDURE I

IMPLEMENTING PROCEDURES REFERENCE USE.

Page 4

of 20 4.0 RESPONSIBILITIES 4.1 Upon recognition of EITHER core exit thermocouple temperature.(s) > 700 'F OR containment radiation levels > 1 R/hr, the Reactor Engineer shall implement this procedure to assess the existence and extent of core damage.

4.2 The Reactor Engineer shall immediately inform.the Technical Assessment Coordinator /TSC Manager of the results of any core damage assessment performed.

5.0 DETAILS NOTE:

Core Damage Estimate may be base on historical monitor readings. For Example: If core thermocouple readings were high 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> into an event but are now off-scale or inoperable use values and time after shutdown for when readings were valid.

NOTE:

Containment Hi Range Radiation Monitor R-25 and R-26 bottom scale reading is approximately -1 R/hr. Because of this scale limitation of R-25 and R-26, radiation monitors R-2, VC 80ft and R-7, VC Seal table should be used to observe anrincreasing trend towards 1 R/hr (1000 mr/hr), when assessing core damage using the "High level-Core Damage Assessment Flowchart'. Due to containment positions, R-2/R-7 readings of approximately 200 mr/hr, should relate to 1 R/hr on R-25/R-26.

5.1 Determine the possible status of the reactor core using the following flowchart and perform the associated action.

P Y

I.

i IPEC E*ngy EMERGENCY PLAN S

IMPLEMENTING PROCEDURES NON-QUAUTY RELATED PROCEDURE REFERENCE USE IP-E Page

• P-360I Revision 2 5

of 20 High Level Core Damage Assessment Flowchart Possible fuel over-.

temperature damage, go to Attachment 2f

A IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 i

EMERGENCY PLAN PROCEDURE I

nery IMPLEMENTING PROCEDURES REFERENCE USE Page 6

of 20 Figure 1A Containment Radiation Level for 1% Fuel Overtemperature Flowchart (0 to 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> after shutdown) 3.OOE+03 2.50E+03 2.OOE+03 0)

'004 cc 1.OOE+03 5.OOE+02 O.OOE+OO I

0 1

2 3

S d4 5

6 7

Time Since Shutdown (hr)

IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 7

of 20 Figure 1B Containment Radiation Level for 1% Fuel Overtemperature Release

(>5 hours after shutdown) 1.40E+03 1.20E+03 1.OOE+03 8.OOE+02 u2) i 6.OOE+02 c\\-

4.0OE+02 O.OOE+O0 0

5 10 15 20 25 Time Since Shutdown (hr) 30

a IPEC NON-QUALITY RELATED

Enlewo, EMERGENCY PLAN PROCEDURE IPEP360 Revision 2

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IMPLEMENTING PROCEDURES REFERENCE USE Page 8

of 20 6.0 INTERFACES 6.1 IP-EP-120, Emergency Classification 6.2 IP-EP-220, Technical Support Center 7.0 RECORDS This procedure generates completed Fuel Rod Clad Damage (Attachment 1) and/or Fuel Overtemperature Damage (Attachment 2) worksheets.

8.0 REQUIREMENTS AND COMMITMENTS None 9.0 ATTACHMENTS 9.1, Fuel Rod Clad Damage 9.2, Fuel Overtemperature Damage

IPEC NON-QUAUTY RELATED IP-EP-360 Revision 2 Fnit ls EMERGENCY PLAN PROCEDURE I

E IMPLEMENTING PROCEDURES REFERENCE USE Page 9

of 20 Fuel Rod Clad Damage Sheet 1 of 5 Estimate fuel rod clad damage based on containment radiation (CRM) levels.

1.1 Determine the following:

" Time since shutdown (hr)

• RCS pressure (psig)

" Containment sprays operating (yes/no) 1.2 Find the following containment radiation dose rates:

• Containment radiation level (R/hr) for 100% clad damage (Figure 2NB)

A =

• Current containment radiation level (R/hr)

B =

1.3 Estimate clad damage (%):

B x 100

% Clad Damage CRM = ------------

A

2.

Estimate fuel rod clad damage based on Core Exit Thermocouples (CETs).

2.1 Determine the following:

• Total number of operable CETs.

D =

(Refer to PICS [Unit-2] or SPDS [Unit 3])

• Number of CETs at or above 1400°F E =

Number of CETs afor abo-v0e1200°F F =

2.2 For RCS pressure at or above 1600 psig:

E x 100

% Clad Damage CET = ------------

=

D 2.3 For RCS pressure below 1600 psig::

F x 100

% Clad Damage CET =

D

IPEC

}

NON-QUAUTY RELATED IP-EP-360 Revision 2 LfEni r EMERGENCY PLAN PROCEDURE t

Enl'gy IMPLEMENTING PROCEDURES REFERENCE USE Page 10 of 20 Fuel Rod Clad Damage Sheet 2 of 5 Figure 2A Containment Radiation Level for 100% Clad Damage Release (0 to 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> after shutdown) 1.80E+04 ---

RSpressure >160.0 psig, NO containment spray RCS pressure >1600 psig, NO containment spray RCS pressure <1600 psig, NO containment spray RCS pressure <1600 psig, with containment spray 1.40E+04 1.20E+04 1.20E+04 8.OOE+03 6.OOE+03 4.OOE+03 2.OOE+03 -

0.OOE+00...........

T) a)

W) 0 N

cc) 0 1

2 3

4 5

6 Time Since Shutdown (hr)

Aft IPEC NoN-QuAuTY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 11 of 20 Fuel Rod Clad Damage Sheet 3 of 5 Figure 2B Containment Radiation Level for 100% Clad Damage Release

(> 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> after shutdown) 0 CID 04 cc 4.00E+03 3.60E+03 3.20E+03 2.80E+03 2.40E+03 2.OOE+03 1.60E+03 1.20E+03 8.OOE-i02-4.OOE+02 0.OOE+00 I

I I

I

---

RCS pressure >1600 psig, NO containment spray RCS pressure <1600 psig, NO containment spray

---

RCS pressure >1600 psig, with containment spray

-e-- RCS pressure <1600 psig, with containment spray r

\\

kN"

\\\\-A 0

5 1C0 15 2

Time Since Shutdown (hr)

.0 25 30

IPEC NON-QUALITY RELATED IP-EP-360 Revision 1 EMERGENCY PLAN PROCEDURE IMPLEMENTING J

PROCEDURES REFERENCE USE Page 12 of 19 Fuel Rod Clad Damage Sheet 4 of 5

3.

Confirm reasonableness of clad damage estimates.

3.1 Determine the following:

" Containment hydrogen concentration (vol. %)

RVILS reading (%)

• RCS saturation temperature (OF)

" Hot leg RTD temperature (OF) 3.2 Compare estimated clad damage to expected response by answering the following questions (yes/no)

Is containment hydrogen concentration less than 0.5%?

Is RVLIS between 64% and 47%?

Is hot leg RTD between Tsat and 650°F?

Is the absolute difference (% Diff) between estimated containment radiation clad damage and estimated core exit thermocouple clad damage less than 50%?

1% Clad Damage CRM - % Clad damage CETI

% Diffcdi,

---

-------------------------------------- x 100

% Clad Damage CRM 3.3 If all of the answers to the questions in Step 3.2 are YES, the expected response has been obtained; continue at Step 4.

3.4 If any answer to the questions in Step 3.2 is NO, the expected response has not been obtained; determine if the deviation can be explained from either:

3.4.1 Accident progression:

Injection of water to the RCS 0

Bleed paths from the RCS Direct radiation to the containment radiation monitors

IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 QEn1erg EMERGENCY PLAN PROCEDURE I

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IMPLEMENTING PROCEDURES REFERENCE USE Page 13 of 20 Fuel Rod Clad Damage Sheet 5 of 5 3.4.2 Conservatisms in the predictive model:

Fuel burnup Fission product retention in the RCS Fission product removal from containment

4.

Report findings 4.1 If clad damage estimates have increased by more than 1% in the past 30 minutes OR Estimates exceed 2% clad damage Then report possible impact on emergency classification based upon Emergency Action Level thresholds to the Emergency Plant Manager/Plant Operations Manager.

4.2 Report clad damage estimate to the Technical Assessment Coordinator/TSC Manager.

5.

Return to Step 5.1 of the procedure to continue assessment of the reactor core.

IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 14 of 20 Fuel Overtemperature Damage Sheet 1 of 7 Estimate Fuel Overtemperature Damage Based on Containment Radiation (CRM)

Levels.

1.1 Determine the following:

" Time since shutdown (hr)

• RCS pressure (psig)

" Containment sprays operating (yes/no) 1.2 Find the following containment radiation dose rates:

" Containment radiation level (R/hr) for 100% core overtemperature damage (Figure 3A/B)

" Current containment radiation level (R/hr) 1.3 Estimate fuel overtemperature damage (%):

H x 100

% Core Damage CRM = ------------

G G

H

2.

Estimate fuel overtemperature damage based on Core Exit Thermocouple (CETs).

-2.i Determine the following:

• Total number of operable CETs.

J =

(Refer to PICS [Unit 2] or SPDS [Unit 3])

• Number of CETs at or above 2000OF K =

2.2 Estimate fuel overtemperature damage (%):

K x 100

% Core Damage cET = --------------

J

IPEC NON-OUALITY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 15 of 20 Fuel Overtemperature Damage Sheet 2 of 7 Figure 3A Containment Radiation Level for 100% Fuel Overtemperature Release (0 to 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> after. shutdown) 3.OOE+O5 2.50E+05 2.OOE+05 0

0 LO)

C\\1 1.50E+.05 1.OOE+05 5.OOE+04 O.OOE+O0 0

1 2

3 4

5 6

Time Since Shutdown (hr)

IPEC NON-QUALITY RELATED EMERGENCY PLAN PROCEDURE I-P30 Rvso IMPLEMENTING PROCEDURES REFERENCE USE Page 16 of 20 Fuel Overtemperature Damage Sheet 3 of 7 Figure 3B Containment Radiation Level for 100% Fuel Overtemperature Release

(>5 hours after shutdown)

RCS pressure >1600 psig, NO containment spray 1.40E+05

-*- RCS pressure <1600 psig, NO containment spray

-m-RCS pressure >1600 psig, with containment spray I-4 RCS pressure <1600 psig, with containment spray 1.20E+05 -

1.2OE+05 8.OOE+04 6.OOE+04 4.OOE+04 2.OOE+04 0.OOE+00 U) a)

L00l cc 0

5 10 15 20 25 Time Since Shutdown (hr) 30

IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 17 of 20 Fuel Overtemperature Damage Sheet 4 of 7

3.

Estimate fuel overtemperature damage based on containment hydrogen (Hyd) concentration.

3.1 Determine the following:

" RCS pressure (psig)

• Current containment hydrogen concentration (vol. %)

L=

" Predicted containment hydrogen concentration at 100% core overtemperature, Table 2 (vol. %)

M =

Table 2 - Core Overtemperature Estimate Based on Containment Hydrogen Concentration RCS Pressure (psig)

Water Injection Predicted Containment into RCS?

Hydrogen Concentration from Figure 4 (vol. %)

Below 1050 Yes CH2 No CH3 At or above1050 Yes CH4 No

.CH3 3.2 Estimate fuel overtemperature damage (%):

Lx 100

% Core Damage Hyd = ------------

M

IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 EMERGENCY. PLAN PROCEDURE E

IMPLEMENTING PROCEDURES REFERENCE USE Page 18 of 20 Fuel Overtemperature Damage Sheet 5 of 7 Figure 4 Predicted Containment Hydrogen Concentration for 100% Fuel Overtemperature Note:

The wet hydrogen curves are used when superheated conditions inside containment exist or when a manual sample is used.

10 9

8 C

0 C

ci) 0 C

00 C

ci) 0)

0

• 0 I

Cci)

E C

C 00 7

6 5

4 3

2 1

0 0

5 10 15 20 25 30 35 40 45 50 55 60 Containment Pressure (psig)

IPEC NON-QUALITY RELATED IP-EP-360 Revision 2 EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 19 of 20 Fuel Overtemperature Damage Sheet 6 of 7

4.

Confirm reasonableness of fuel overtemperature damage estimates.

4.1 Determine the following:

RVILS reading (%)

Hot leg RTD temperature (TF) 4.2 Compare estimated core damage to expected response by answering the following questions (yes/no)

Is RVLIS below 47%?

Is hot leg RTD at or above 650°F?

• Is the absolute difference (% Diff) between estimated containment radiation core damage and estimated core exit thermocouple core damage less than 50%?

1% Core Damage cRM - % Core damage cETi

% Diff diff x100

% Core Damage CRM Is the absolute difference (% Diff) between estimated containment hydrogen core damage and 'estimated radiation core damage less than 25%?

1% Core Damage Hyd - % Core damage CRMI

%/9Diff diffý.*=-,-.

-x 100

% Core Damage Hyd Is the absolute difference (% Diff) between estimated containment hydrogen core damage and estimated core exit thermocouple core damage less than 25%?

1% Core Damage Hyd - % Core damage cETi

% Diff diff = ----------------------------------------------------------

x100

% Core Damage Hyd

IPEC NON-QUATY RELATED IP-EP-360 Revision 2 E

EMERGENCY PLAN PROCEDURE IMPLEMENTING PROCEDURES REFERENCE USE Page 20 of 20 Fuel Overtemperature Damage Sheet 7 of 7 4.3 If all of the answers to the questions in Step 4.2 are YES, the expected response has been obtained; continue at Step 6.

4.4 If any answer to the questions in Step 4.2 is NO, the expected response has not been obtained; determine if the deviation can be explained from either:

4.4.1 Accident progression:

0 Injection of water to the RCS Bleed paths from the RCS a

Direct radiation to the containment radiation monitors Hydrogen burn in containment or affects of passive autocatalytic hydrogen recombination (Unit 2) 4.4.2 Conservatisms in the predictive model:

Fuel burnup Fission product retention in the RCS

• Fission product removal from containment

5.

Report fuel overtemperature estimate to the Technical Assessment Coordinator/TSC Manager.

6.

Return to Step 5.1 of the procedure to continue assessment of the reactor core.