Potential Impact of Debris Blockage on Emergency Recirculation During Design Basis Accidents at Pressurized-Water Reactor

https://www.nrc.gov/docs/ML0423/ML042360586.pdf

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OMB Control No.: 3150-0011

UNITED STATES

NUCLEAR REGULATORY COMMISSION

OFFICE OF NUCLEAR REACTOR REGULATION

WASHINGTON, DC 20555

September 13, 2004

NRC GENERIC LETTER 2004-02: POTENTIAL IMPACT OF DEBRIS BLOCKAGE ON

EMERGENCY RECIRCULATION DURING DESIGN

BASIS ACCIDENTS AT PRESSURIZED-WATER

REACTORS

Addressees

All holders of operating licenses for pressurized-water nuclear power reactors, except those

who have ceased operations and have certified that fuel has been permanently removed from

the reactor vessel.

Purpose

The U.S. Nuclear Regulatory Commission (NRC) is issuing this generic letter to:

(1) Request that addressees perform an evaluation of the emergency core cooling system

(ECCS) and containment spray system (CSS) recirculation functions in light of the

information provided in this letter and, if appropriate, take additional actions to ensure

system function. Additionally, addressees are requested to submit the information

specified in this letter to the NRC. This request is based on the identified potential

susceptibility of pressurized-water reactor (PWR) recirculation sump screens to debris

blockage during design basis accidents requiring recirculation operation of ECCS or

CSS and on the potential for additional adverse effects due to debris blockage of

flowpaths necessary for ECCS and CSS recirculation and containment drainage.

(2) Require addressees to provide the NRC a written response in accordance with

10 CFR 50.54(f).

Background

In 1979, as a result of evolving staff concerns related to the adequacy of PWR recirculation

sump designs, the NRC opened Unresolved Safety Issue (USI) A-43, “Containment Emergency

Sump Performance.” To support the resolution of USI A-43, the NRC undertook an extensive

research program, the technical findings of which are summarized in NUREG-0897,

“Containment Emergency Sump Performance,” dated October 1985. The resolution of

USI A-43 was subsequently documented in Generic Letter (GL) 85-22, “Potential for Loss of

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Post-LOCA Recirculation Capability Due to Insulation Debris Blockage,” dated December 3,

1985. Although the staff’s regulatory analysis concerning USI A-43 did not support imposing

new sump performance requirements upon licensees of operating PWRs or boiling-water

reactors (BWRs), the staff found in GL 85-22 that the 50-percent blockage assumption (under

which most nuclear power plants had been licensed) identified in Regulatory Guide (RG) 1.82,

Sumps for Emergency Core Cooling and Containment Spray Systems, Revision 0 should be

replaced with a more comprehensive requirement to assess debris effects on a plant-specific

basis. The 50-percent screen blockage assumption does not require a plant-specific evaluation

of the debris-blockage potential and may result in a nonconservative analysis for screen

blockage effects. The staff also updated the NRC’s regulatory guidance, including Section

6.2.2 of the Standard Review Plan (NUREG-0800) and RG 1.82 to reflect the USI A-43

technical findings documented in NUREG-0897.

Following the resolution of USI A-43 in 1985, several events challenged the conclusion that no

new requirements were necessary to prevent the clogging of ECCS strainers at operating

BWRs:

! On July 28, 1992, at Barsebäck Unit 2, a Swedish BWR, the spurious opening of a

pilot-operated relief valve led to the plugging of two containment vessel spray system

suction strainers with mineral wool and required operators to shut down the spray

pumps and backflush the strainers.

! In 1993, at Perry Unit 1, two events occurred during which ECCS strainers became

plugged with debris. On January 16, ECCS strainers were plugged with suppression

pool particulate matter, and on April 14, an ECCS strainer was plugged with glass fiber

from ventilation filters that had fallen into the suppression pool. On both occasions, the

affected ECCS strainers were deformed by excessive differential pressure created by

the debris plugging.

! On September 11, 1995, at Limerick Unit 1, following a manual scram due to a

stuck-open safety/relief valve, operators observed fluctuating flow and pump motor

current on the A loop of suppression pool cooling. The licensee later attributed these

indications to a thin mat of fiber and sludge which had accumulated on the suction

strainer.

In response to these ECCS suction strainer plugging events, the NRC issued several generic

communications, including Bulletin 93-02, Supplement 1, “Debris Plugging of Emergency Core

Cooling Suction Strainers,” dated February 18, 1994;Bulletin 95-02, “Unexpected Clogging of a

Residual Heat Removal (RHR) Pump Strainer While Operating in Suppression Pool Cooling

Mode,” dated October 17, 1995; and,Bulletin 96-03, “Potential Plugging of Emergency Core

Cooling Suction Strainers by Debris in Boiling-Water Reactors,” dated May 6, 1996. These

bulletins requested that BWR licensees implement appropriate procedural measures,

maintenance practices, and plant modifications to minimize the potential for the clogging of

ECCS suction strainers by debris accumulation following a loss-of-coolant accident (LOCA).

The NRC staff has concluded that all BWR licensees have sufficiently addressed these

bulletins.

However, findings from research to resolve the BWR strainer clogging issue raised questions

concerning the adequacy of PWR sump designs. In comparison to the technical findings of the

earlier USI A-43 research program on PWRs, the BWR research findings demonstrated that

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the amount of debris generated by a high-energy line break (HELB) could be greater, that the

debris could be finer (and thus more easily transportable), and that certain combinations of

debris (e.g., fibrous material plus particulate material) could result in a substantially greater

head loss than an equivalent amount of either type of debris alone. These research findings

prompted the NRC to open Generic Safety Issue (GSI) 191, “Assessment of Debris

Accumulation on PWR Sump Performance.” The objective of GSI-191 is to ensure that

post-accident debris blockage will not impede or prevent the operation of the ECCS and CSS in

recirculation mode at PWRs during LOCAs or other HELB accidents for which sump

recirculation is required.

On June 9, 2003, having completed its technical assessment of GSI-191 (summarized below in

the Discussion section of this generic letter), the NRC issued Bulletin 2003-01, “Potential

Impact of Debris Blockage on Emergency Recirculation During Design-Basis Accidents at

Pressurized-Water Reactors.” As a result of the emergent issues discussed therein, the bulletin

requested an expedited response from PWR licensees on the status of their compliance on a

mechanistic basis with regulatory requirements concerning the ECCS and CSS recirculation

functions. Addressees who chose not to confirm regulatory compliance were asked to describe

any interim compensatory measures that have been implemented or will be implemented to

reduce risk until the analysis could be completed. All licensees have since responded to

Bulletin 2003-01. In developing Bulletin 2003-01, the NRC staff recognized that it may be

necessary for addressees to undertake complex evaluations to determine whether regulatory

compliance exists in light of the concerns identified in the bulletin and that the methodology

needed to perform these evaluations was not currently available. As a result, that information

was not requested in the bulletin, but addressees were informed that the staff was preparing a

generic letter that would request this information. This generic letter is the follow-on to the

bulletin.

In response to Bulletin 2003-01, PWR licensees that chose not to confirm regulatory

compliance implemented or planned to implement compensatory measures to reduce risk or

otherwise enhance the capability of the ECCS and CSS recirculation functions. Addressees’

understanding of their facilities’ ECCS and CSS recirculation capabilities may change when

they resolve the potential concerns identified in this generic letter, and revise their analyses of

sump performance. Therefore, addressees may find it necessary to reevaluate the adequacy

of their compensatory measures in light of the new information and take further action as

appropriate and necessary. Upon resolution of the potential concerns identified in this generic

letter and the completion of any corrective actions resulting from that resolution, addressees

may consider continuing, revising, or retiring their compensatory measures as appropriate.

The NRC has developed a Web page to keep the public informed of generic activities on PWR

sump performance at (http://www.nrc.gov/reactors/operating/ops-experience/pwr-sump-performance.html).

This page provides links to information on PWR sump performance issues, along with

documentation of NRC interactions with industry (industry submittals, meeting notices,

presentation materials, and meeting summaries). The NRC will continue to update this Web

page as new information becomes available.

Discussion

In the event of an HELB inside the containment of a PWR, energetic pressure waves and fluid

jets would impinge upon materials in the vicinity of the break, such as thermal insulation,

coatings, and concrete, damaging and dislodging them. Debris could also be generated

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through secondary mechanisms, such as severe post-accident temperature and humidity

conditions, flooding of the lower containment, and the impact of containment spray droplets. In

addition to debris generated by jet forces from the pipe rupture, debris could be created by the

chemical reaction between the materials in containment and the chemically reactive spray

solutions used following a LOCA. These reactions might generate additional debris such as

disbonded coatings and chemical precipitants. Through transport methods such as

entrainment in the steam/water flows issuing from the break and containment spray washdown,

a fraction of the generated debris and foreign material in the containment would be transported

to the pool of water formed on the containment floor. Subsequently, if the ECCS or CSS

pumps took suction from the recirculation sump, the debris suspended in the containment pool

would begin to accumulate on the sump screen or be transported through the associated

system. The accumulation of this suspended debris on the sump screen could create a roughly

uniform covering on the screen, referred to as a debris bed, which would tend to increase the

head loss across the screen through a filtering action. If a sufficient amount of debris

accumulated, the debris bed would reach a critical thickness at which the head loss across the

debris bed would exceed the net positive suction head (NPSH) margin required to ensure the

successful operation of the ECCS and CSS pumps in recirculation mode. A loss of NPSH

margin for the ECCS or CSS pumps as a result of the accumulation of debris on the

recirculation sump screen, referred to as sump clogging, could result in degraded pump

performance and eventual pump failure. Debris could also plug or wear close-tolerance

components within the ECCS or CSS systems. This plugging or wear might cause a

component to degrade to the point where it could not perform its designated function (i.e., pump

fluid, maintain system pressure, or pass and control system flow.)

The primary object of the NRC’s technical assessment of GSI-191 was to assess the likelihood

that the ECCS and CSS pumps at domestic PWRs would experience a debris-induced loss of

NPSH margin during sump recirculation. The NRC’s technical assessment culminated in a

parametric study documented in Volume 1 of NUREG/CR-6762, “GSI-191 Technical

Assessment: Parametric Evaluations for Pressurized Water Reactor Recirculation Sump

Performance,” dated August 2002. This study was a mechanistic treatment of phenomena

associated with debris blockage using analytical models of domestic PWRs generated with a

combination of generic and plant-specific data. The GSI-191 parametric study concluded that

recirculation sump clogging was a credible concern for domestic PWRs. As a result of the

limitations of plant-specific data and other modeling uncertainties, however, the parametric

study did not definitively show whether particular PWR plants were vulnerable to sump clogging

when phenomena associated with debris blockage were modeled mechanistically.

The methodology employed by the GSI-191 parametric study is based upon the substantial

body of test data and analyses that are documented in technical reports generated during the

NRC’s GSI-191 research program and earlier technical reports by the NRC and the industry

during the resolution of the BWR strainer clogging issue and USI A-43. Four of these NRC

technical reports on debris generation, transport, accumulation, and head loss, are incorporated

by reference into the GSI-191 parametric study:

! NUREG/CR-6770, “GSI-191: Thermal-Hydraulic Response of PWR Reactor Coolant

System and Containments to Selected Accident Sequences,” August 2002

! NUREG/CR-6762, Vol. 3, “GSI-191 Technical Assessment: Development of Debris

Generation Quantities in Support of the Parametric Evaluation,” August 2002

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! NUREG/CR-6762, Vol. 4, “GSI-191 Technical Assessment: Development of Debris

Transport Fractions in Support of the Parametric Evaluation,” August 2002

! NUREG/CR-6224, “Parametric Study of the Potential for BWR ECCS Strainer Blockage

Due to LOCA-Generated Debris,” October 1995

In addition to demonstrating the potential for debris to clog containment recirculation sumps,

operational experience and the NRC’s technical assessment of GSI-191 have also identified

three integrally related modes by which post-accident debris blockage could adversely affect

the sump screen’s design function of intercepting debris that could impede or prevent the

operation of the ECCS and CSS in recirculation mode.

First, as a result of the 50-percent blockage assumption, most PWR sump screens were

designed assuming that relatively small structural loadings would result from the differential

pressure associated with debris blockage. Consequently, PWR sump screens may not be

capable of accommodating the increased structural loadings that would occur due to

mechanistically determined debris beds that cover essentially the entire screen surface.

Inadequate structural reinforcement of a sump screen may result in its deformation, damage, or

failure, which could allow large quantities of debris to be ingested into the ECCS and CSS

piping, pumps, and other components, potentially leading to their clogging or failure. The

credibility of this concern for screens and strainers that have not been designed with adequate

reinforcement was shown by the ECCS strainer plugging and deformation events that occurred

at Perry Unit 1 (further described in Information Notice (IN) 93-34, “Potential for Loss of

Emergency Cooling Function Due to a Combination of Operational and Post-LOCA Debris in

Containment,” dated April 26, 1993, and License Event Report (LER) 50-440/93-011,

“Excessive Strainer Differential Pressure Across the RHR Suction Strainer Could Have

Compromised Long-Term Cooling During Post-LOCA Operation,” submitted May 19, 1993).

Second, in some PWR containments, the flowpaths by which containment spray or break flows

return to the recirculation sump may include chokepoints, where the flowpath becomes so

constricted that it could become blocked with debris following an HELB. Examples of potential

chokepoints are pool drains, cavities, isolated containment compartments, and constricted

drainage paths between physically separated containment elevations. Debris blockage at

certain chokepoints could hold up substantial amounts of water required for adequate

recirculation or cause the water to be diverted into containment volumes that do not drain to the

recirculation sump. The holdup or diversion of water assumed to be available to support sump

recirculation could result in an available NPSH for ECCS and CSS pumps that is lower than the

analyzed value, thereby reducing assurance that recirculation would successfully function. A

reduced available NPSH directly concerns sump screen design because the NPSH margin of

the ECCS and CSS pumps must be conservatively calculated to determine correctly the

required surface area of passive sump screens when mechanistically determined debris

loadings are considered. Although the parametric study (NUREG/CR-6762, Vol. 1) did not

analyze in detail the potential for the holdup or diversion of recirculation sump inventory, the

NRC’s GSI-191 research identified this phenomenon as an important and potentially credible

concern. A number of LERs associated with this concern further confirm its credibility and

potential significance:

! LER 50-369/90-012, “Loose Material Was Located in Upper Containment During Unit

Operation Because of an Inappropriate Action,” McGuire Unit 1, August 30, 1990

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! LER 50-266/97-006, “Potential Refueling Cavity Drain Failure Could Affect Accident

Mitigation,” Point Beach Unit 1, February 19, 1997

! LER 50-455/97-001, “Unit 2 Containment Drain System Clogged Due to Debris,”

Byron Unit 2, April 17, 1997

! LER 50-269/97-010, “Inadequate Analysis of ECCS Sump Inventory Due to Inadequate

Design Analysis,” Oconee Unit 1, January 8, 1998

! LER 50-315/98-017, “Debris Recovered from Ice Condenser Represents Unanalyzed

Condition,” D.C. Cook Unit 1, July 1, 1998

Third, debris blockage at flow restrictions within the ECCS recirculation flowpath downstream of

the sump screen is a potential concern for PWRs. Debris that is capable of passing through

the recirculation sump screen may have the potential to become lodged at a downstream flow

restriction, such as a high-pressure safety injection (HPSI) throttle valve or fuel assembly inlet

debris screen. Debris blockage at such flow restrictions in the ECCS flowpath could impede or

prevent the recirculation of coolant to the reactor core, thereby leading to inadequate core

cooling. Similarly, debris blockage at flow restrictions in the CSS flowpath, such as a

containment spray nozzle, could impede or prevent CSS recirculation, thereby leading to

inadequate containment heat removal. Debris may also accumulate in close-tolerance

subcomponents of pumps and valves. The effect may be either to plug the subcomponent,

thereby rendering the component unable to perform its function, or to wear critical closetolerance subcomponents to the point at which component or system operation is degraded and

unable to fully perform its function. Considering the recirculation sump screen’s design function

of intercepting potentially harmful debris, it is essential that the screen openings be adequately

sized and that the sump screen’s current configuration be free of gaps or breaches which could

compromise the ECCS and CSS recirculation functions. It is also essential that system

components be designed and evaluated to be able to operate as necessary with debris laden

fluid post-LOCA.

Section 50.46(c)(2) of Title 10 of the Code of Federal Regulations (10 CFR 50.46(c)(2)) defines

an evaluation model as the calculational framework for evaluating the behavior of the reactor

system during a postulated LOCA. An evaluation model includes one or more computer

programs and all other information necessary for applying the calculational framework to a

specific LOCA (the mathematical models used, the assumptions included in the programs, the

procedure for treating the program input and output information, the parts of the analysis not

included in the computer programs, values of parameters, and all other information necessary

to specify the calculational procedure). Although not traditionally considered as a component of

the 10 CFR 50.46 ECCS evaluation model, the calculation of sump performance is necessary

to determine if the sump and the ECCS are predicted to provide enough flow to ensure longterm cooling.

Based on the new information identified during the efforts to resolve GSI-191, the staff has

determined that the previous guidance used to develop current licensing basis analyses does

not adequately and completely model sump screen debris blockage and related effects. As a

result, due to the deficiencies in the previous guidance, an analytical error could be introduced

which results in ECCS and CSS performance that does not conform with the existing applicable

regulatory requirements outlined in this generic letter. Therefore, the staff is revising the

guidance for determining the susceptibility of PWR recirculation sump screens to the adverse

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effects of debris blockage during design basis accidents requiring recirculation operation of the

ECCS or CSS. In light of this revised staff guidance, it is appropriate to request that

addressees perform new, more realistic analyses and submit information to confirm the

functionality of the ECCS and CSS during design basis accidents requiring recirculation

operations.

To assist in determining, on a plant-specific basis, the impact on sump screen performance and

other related effects of extended post-accident operation with debris-laden fluids, addressees

may use the guidance in Regulatory Guide (RG) 1.82, Revision 3, “Water Sources for LongTerm Recirculation Cooling Following a Loss-of-Coolant Accident,” dated November 2003.

Revision 3 enhanced the debris blockage evaluation guidance for PWRs provided in Revision 1

of the regulatory guide to better model sump screen debris blockage and related effects.

Revision 1 replaced the 50-percent blockage assumption in Revision 0 with a comprehensive,

mechanistic assessment of plant-specific debris blockage potential for future modifications

related to sump performance, such as thermal insulation changeouts. This was in response to

the findings of USI A-43. The staff issued Revision 2 of the RG after evaluating blockage

events such as the Barsebäck Unit 2 event mentioned above but for BWRs only. The NRC

staff determined after the issuance of Revision 2 that research for PWRs indicated that the

guidance in that revision was not comprehensive enough to ensure adequate evaluation of a

PWR plant’s susceptibility to the detrimental effects of debris accumulation on debris

interceptors (e.g., trash racks and sump screens). This led to the issuance of Revision 3 to

address the PWRs. In addition, the NRC staff is reviewing generic industry guidance and will

issue a safety evaluation endorsing acceptable portions or all of the generic industry guidance.

Once approved, this guidance may also be used to assist in determining the status of

regulatory compliance. For areas not addressed in the industry guidance, the NRC will provide

guidance in the safety evaluation. Individual addressees may also develop an alternative to the

approaches mentioned in this paragraph for responding to this generic letter; however,

additional staff review may be required to assess the adequacy of such approaches.

The timeframes for addressee responses in this generic letter were selected to (1) allow

adequate time for addressees to perform an analysis, (2) allow addressees to properly design

and install any identified modifications, (3) allow addressees adequate time to obtain NRC

approval, as necessary, for any licensing basis changes, (4) allow addressees adequate time to

obtain NRC approval, as necessary, for any exemption requests, and (5) allow for the closure of

the generic issue in accordance with the published schedule. These timeframes are

appropriate since all addressees have responded to Bulletin 2003-01 and will, if necessary,

implement compensatory measures until the issues identified in this generic letter are resolved.

The staff has assessed whether existing PWRs should continue operation while responding to

this generic letter in light of the GSI-191 resolution schedule, proposed through December 31,

2007, and determined that continued operation is justified. The staff released a justification for

continued operation in the “Summary of July 26-27, 2001, Meeting with Nuclear Energy Institute

and Industry on ECCS Strainer Blockage in PWRs,” dated August 14, 2001. As discussed in

this justification, continued plant operation is still justified for several reasons. First, the

probability of the most severe initiating event (i.e., large and intermediate break LOCAs) is

extremely low. More probable (although still low probability) small LOCAs would require less

ECCS flow, take more time to use up the water inventory in the refueling water storage tank

(RWST), and in some cases may not even require the use of recirculation from the ECCS sump

because the flow through the break would be small enough that the operator will have sufficient

time to initiate RHR operation and depressurize the reactor coolant system to terminate the loss

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of reactor coolant system inventory for higher elevation breaks. In addition, there are PWR

design features which would tend to prevent blockage of the ECCS sumps during a LOCA.

These features would tend to be effective for insulation and coating debris. For instance, the

containments in PWRs tend to be very compartmentalized making the transport of debris to the

sump screens more difficult. In addition, PWRs typically do not need to switch over to

recirculation from the sump during a LOCA until greater than 20-30 minutes after the large

break LOCA initiation and the elapsed time for all LOCAs will allow time for some of the debris

to settle in other places within the containment. Coating debris, which is a major contributor to

the latent debris in containment, would have a significant amount of time to settle. In addition,

all PWRs have received approval by the staff for leak-before-break (LBB) credit on their largest

RCS primary coolant piping. While LBB is not acceptable for demonstrating compliance with

10 CFR 50.46, it does demonstrate that LBB-qualified piping is sufficiently tough that it will most

likely leak (even under safe shutdown earthquake conditions) rather than rupture. This would

allow operators adequate opportunity to shut the plant down safely. Additionally, the staff notes

that there are sources of margin in PWR designs which are not always credited in the licensing

basis for each plant. For instance, NPSH analyses for most PWRs do not credit containment

overpressure (which may be present during a LOCA). Any containment pressure greater than

assumed in the NPSH analysis provides additional margin for ECCS operability during an

accident. Another source of margin is that it has been shown that low pressure ECCS pumps

would be able to continue operating in many cases for some time under cavitation conditions.

Some licensees have vendor data demonstrating this. Such design margins such as these

examples may prevent complete loss of ECCS recirculation flow or increase the time available

for operator action (e.g., refilling the RWST) prior to loss of flow. Moreover, in response to

Bulletin 2003-01, addressees have implemented or will implement interim compensatory

measures to reduce the risk.

The staff has also determined that addressees are not required to be in compliance with the

newly issued analysis using a NRC-approved methodology, until after all plant modifications (if

required) are completed in accordance with the resolution schedule (i.e. December 31, 2007),

which is located below in paragraph 2(b) of the Requested Information section, and addressees

have changed their licensing basis, as appropriate. However, if a non-compliance with the

existing licensing design basis that affects the operability of an ECCS or CSS design feature is

identified while taking actions in response to the generic letter, addressees should comply with

established regulatory requirements.

Applicable Regulatory Requirements

NRC regulations in Title 10, of the Code of Federal Regulations Section 50.46,10 CFR 50.46,

require that the ECCS have the capability to provide long-term cooling of the reactor core

following a LOCA. That is, the ECCS must be able to remove decay heat, so that the core

temperature is maintained at an acceptably low value for the extended period of time required

by the long-lived radioactivity remaining in the core.

Similarly, for PWRs licensed to the General Design Criteria (GDCs) in Appendix A to 10 CFR Part 50, GDC 38 provides requirements for containment heat removal systems, and GDC 41

provides requirements for containment atmosphere cleanup. Many PWR licensees credit a

CSS, at least in part, with performing the safety functions to satisfy these requirements, and

PWRs that are not licensed to the GDCs may similarly credit a CSS to satisfy licensing basis

requirements. In addition, PWR licensees may credit a CSS with reducing the accident source

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1 The NRC staff is currently reviewing evaluation guidance developed by the industry. The NRC

staff intends to document its review in a safety evaluation which licensees can reference as

regulatory guidance.

term to meet the limits of 10 CFR Part 100 or 10 CFR 50.67. GDC 35 is listed in 10 CFR 50.46(d) and specifies additional ECCS requirements. PWRs that are not licensed to the GDCs

typically have similar requirements in their licensing basis.

Applicable Regulatory Guidance1

Regulatory Guide 1.82, Revision 3, “Water Sources for Long-Term Recirculation Cooling

Following a Loss-of-Coolant Accident,” November 2003.

Requested Action

All addressees are requested to take the following actions:

Using an NRC-approved methodology, perform a mechanistic evaluation of the potential for the

adverse effects of post-accident debris blockage and operation with debris-laden fluids to

impede or prevent the recirculation functions of the ECCS and CSS following all postulated

accidents for which the recirculation of these systems is required. Individual addressees may

also use alternative methodologies to those already approved by the NRC; however, additional

staff review may be required to assess the adequacy of such approaches.

Implement any plant modifications that the above evaluation identifies as being necessary to

ensure system functionality.

Requested Information

All addressees are requested to provide the following information:

1. Within 90 days of the date of the safety evaluation report providing the guidance for

performing the requested evaluation, addressees are requested to provide information

regarding their planned actions and schedule to complete the requested evaluation.

The information should include the following:

(a) A description of the methodology that is used or will be used to analyze the

susceptibility of the ECCS and CSS recirculation functions for your reactor to the

adverse effects identified in this generic letter of post-accident debris blockage and

operation with debris-laden fluids identified in this generic letter. Provide the

completion date of the analysis that will be performed.

(b) A statement of whether you plan to perform a containment walkdown surveillance

in support of the analysis of the susceptibility of the ECCS and CSS recirculation

functions to the adverse effects of debris blockage identified in this generic letter.

Provide justification if no containment walkdown surveillance will be performed. If

a containment walkdown surveillance will be performed, state the planned

methodology to be used and the planned completion date.

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2. Addressees are requested to provide the following information no later than

September 1, 2005:

(a) Confirmation that the ECCS and CSS recirculation functions under debris loading

conditions are or will be in compliance with the regulatory requirements listed in

the Applicable Regulatory Requirements section of this generic letter. This

submittal should address the configuration of the plant that will exist once all

modifications required for regulatory compliance have been made and this

licensing basis has been updated to reflect the results of the analysis described

above.

(b) A general description of and implementation schedule for all corrective actions,

including any plant modifications, that you identified while responding to this

generic letter. Efforts to implement the identified actions should be initiated no

later than the first refueling outage starting after April 1, 2006. All actions should

be completed by December 31, 2007. Provide justification for not implementing

the identified actions during the first refueling outage starting after April 1, 2006. If

all corrective actions will not be completed by December 31, 2007, describe how

the regulatory requirements discussed in the Applicable Regulatory Requirements

section will be met until the corrective actions are completed.

(c) A description of the methodology that was used to perform the analysis of the

susceptibility of the ECCS and CSS recirculation functions to the adverse effects

of post-accident debris blockage and operation with debris-laden fluids. The

submittal may reference a guidance document (e.g., Regulatory Guide 1.82,

Rev. 3, industry guidance) or other methodology previously submitted to the NRC.

(The submittal may also reference the response to Item 1 of the Requested

Information described above. The documents to be submitted or referenced

should include the results of any supporting containment walkdown surveillance

performed to identify potential debris sources and other pertinent containment

characteristics.)

(d) The submittal should include, at a minimum, the following information:

(i) The minimum available NPSH margin for the ECCS and CSS pumps with

an unblocked sump screen.

(ii) The submerged area of the sump screen at this time and the percent of

submergence of the sump screen (i.e., partial or full) at the time of the

switchover to sump recirculation.

(iii) The maximum head loss postulated from debris accumulation on the

submerged sump screen, and a description of the primary constituents of

the debris bed that result in this head loss. In addition to debris

generated by jet forces from the pipe rupture, debris created by the

resulting containment environment (thermal and chemical) and CSS

washdown should be considered in the analyses. Examples of this type

of debris are disbonded coatings in the form of chips and particulates and

chemical precipitants caused by chemical reactions in the pool.

GL 2004-02

Page 11 of 16

(iv) The basis for concluding that the water inventory required to ensure

adequate ECCS or CSS recirculation would not be held up or diverted by

debris blockage at choke-points in containment recirculation sump return

flowpaths.

(v) The basis for concluding that inadequate core or containment cooling

would not result due to debris blockage at flow restrictions in the ECCS

and CSS flowpaths downstream of the sump screen, (e.g., a HPSI

throttle valve, pump bearings and seals, fuel assembly inlet debris

screen, or containment spray nozzles). The discussion should consider

the adequacy of the sump screen’s mesh spacing and state the basis for

concluding that adverse gaps or breaches are not present on the screen

surface.

(vi) Verification that close-tolerance subcomponents in pumps, valves and

other ECCS and CSS components are not susceptible to plugging or

excessive wear due to extended post-accident operation with

debris-laden fluids.

(vii) Verification that the strength of the trash racks is adequate to protect the

debris screens from missiles and other large debris. The submittal

should also provide verification that the trash racks and sump screens

are capable of withstanding the loads imposed by expanding jets,

missiles, the accumulation of debris, and pressure differentials caused by

post-LOCA blockage under predicted flow conditions.

(viii) If an active approach (e.g., backflushing, powered screens) is selected in

lieu of or in addition to a passive approach to mitigate the effects of the

debris blockage, describe the approach and associated analyses.

(e) A general description of and planned schedule for any changes to the plant

licensing bases resulting from any analysis or plant modifications made to ensure

compliance with the regulatory requirements listed in the Applicable Regulatory

Requirements section of this generic letter. Any licensing actions or exemption

requests needed to support changes to the plant licensing basis should be

included.

(f) A description of the existing or planned programmatic controls that will ensure that

potential sources of debris introduced into containment (e.g., insulations, signs,

coatings, and foreign materials) will be assessed for potential adverse effects on

the ECCS and CSS recirculation functions. Addressees may reference their

responses to GL 98-04, "Potential for Degradation of the Emergency Core Cooling

System and the Containment Spray System after a Loss-of-Coolant Accident

Because of Construction and Protective Coating Deficiencies and Foreign Material

in Containment," to the extent that their responses address these specific foreign

material control issues.

GL 2004-02

Page 12 of 16

Required Response

In accordance with 10 CFR 50.54(f), the PWR addressees are required to submit written

responses to this generic letter. This information is sought to verify licensees’ compliance with

the regulatory requirements listed in the Applicable Regulatory Requirements section of this

generic letter once their licensing basis has been updated to reflect the results of the

mechanistic analysis requested in this generic letter. This request is based on the identified

potential susceptibility of PWR recirculation sump screens to debris blockage during design

basis accidents requiring recirculation operation of ECCS and CSS and the potential for

additional adverse effects due to debris blockage of flowpaths necessary for ECCS and CSS

recirculation and containment drainage. The addressees have two options:

(1) Addressees may choose to submit written responses providing the information

requested above within the requested time period.

(2) Addressees who choose not to provide information requested or cannot meet the

requested completion dates are required to submit written responses within 30 days of

the date of this generic letter. The responses must address any alternative course of

action proposed, including the basis for the acceptability of the proposed alternative

course of action.

The required written responses should be addressed to the U.S. Nuclear Regulatory

Commission, ATTN: Document Control Desk, 11555 Rockville Pike, Rockville, Maryland

20852, under oath or affirmation under the provisions of Section 182a of the Atomic Energy Act

of 1954, as amended, and 10 CFR 50.54(f). In addition, a copy of a response should be

submitted to the appropriate regional administrator.

The NRC staff will review the responses to this generic letter and will notify affected addressees

if concerns are identified regarding compliance with NRC regulations. The staff may also

conduct inspections to determine addressees’ effectiveness in addressing the generic letter.

Reasons for Information Request

As discussed above, research and analysis suggest that (1) the potential for the failure of the

ECCS and CSS recirculation functions as a result of debris blockage is not adequately

addressed in most PWR licensees’ current safety analyses, and (2) the ECCS and CSS

recirculation functions at a significant number of operating PWRs could potentially become

degraded as a result of the effects of debris blockage or extended operation with debris-laden

fluids as identified in this generic letter. An ECCS that is incapable of providing long-term

reactor core cooling through recirculation operation would be in violation of 10 CFR 50.46. A

CSS that is incapable of functioning in recirculation mode may not comply with GDCs 38 and 41

or other plant-specific licensing requirements or safety analyses.Bulletin 2003-01 requested

information to verify addressees’ compliance with NRC regulations and to ensure that any

interim risks associated with post-accident debris blockage are minimized while evaluations to

determine compliance proceed. This generic letter is the follow-on generic communication to

Bulletin 2003-01 and requests information on the results of the evaluations referenced in the

bulletin. This information is sought to verify licensees’ compliance with the regulatory

requirements listed in the Applicable Regulatory Requirements section of this generic letter

once their licensing basis has been updated to reflect the results of the mechanistic analysis

requested in this generic letter. This request is based on the identified potential susceptibility of

GL 2004-02

Page 13 of 16

PWR recirculation sump screens to debris blockage during design basis accidents requiring

recirculation operation of the ECCS and CSS and the potential for additional adverse effects

due to debris blockage of flowpaths necessary for ECCS and CSS recirculation and

containment drainage.

The NRC staff will also use the requested information to (1) determine whether a sample

auditing approach is acceptable for verifying that addressees have resolved the concerns

identified in this generic letter, (2) assist in determining which addressees will be subject to the

proposed sample audits, (3) provide confidence that any nonaudited addressees have

addressed the concerns identified in this generic letter, and (4) assess the need for and guide

the development of any additional regulatory actions that may be necessary to address the

adequacy of the ECCS and CSS recirculation functions.

Related Generic Communications

• Bulletin 2003-01, “Potential Impact of Debris Blockage on Emergency Recirculation

During Design-Basis Accidents at Pressurized-Water Reactors,” June 9, 2003.

• Bulletin 96-03, “Potential Plugging of Emergency Core Cooling Suction Strainers by

Debris in Boiling-Water Reactors,” May 6, 1996.

• Bulletin 95-02, “Unexpected Clogging of a Residual Heat Removal (RHR) Pump Strainer

While Operating in the Suppression Pool Cooling Mode,” October 17, 1995.

• Bulletin 93-02, “Debris Plugging of Emergency Core Cooling Suction Strainers,” May 11,

1993.

• Bulletin 93-02, Supplement 1, “Debris Plugging of Emergency Core Cooling Suction

Strainers,” February 18, 1994.

• Generic Letter 98-04, “Potential for Degradation of the Emergency Core Cooling System

and the Containment Spray System After a Loss-of-Coolant Accident Because of

Construction and Protective Coating Deficiencies and Foreign Material in Containment,”

July 14, 1998.

• Generic Letter 97-04, “Assurance of Sufficient Net Positive Suction Head for Emergency

Core Cooling and Containment Heat Removal Pumps,” October 7, 1997.

• Generic Letter 85-22, “Potential For Loss of Post-LOCA Recirculation Capability Due to

Insulation Debris Blockage,” December 3, 1985.

• Generic Letter 91-18, Rev. 1, “Information to Licensees Regarding NRC Inspection

Manual Section on Resolution of Degraded and Nonconforming Conditions,” October 8,

1997.

• Information Notice 97-13, “Deficient Conditions Associated With Protective Coatings at

Nuclear Power Plants,” March 24, 1997.

• Information Notice 96-59, “Potential Degradation of Post Loss-of-Coolant Recirculation

Capability as a Result of Debris,” October 30, 1996.

GL 2004-02

Page 14 of 16

• Information Notice 96-55, “Inadequate Net Positive Suction Head of Emergency Core

Cooling and Containment Heat Removal Pumps Under Design Basis Accident

Conditions,” October 22, 1996.

• Information Notice 96-27, “Potential Clogging of High Pressure Safety Injection Throttle

Valves During Recirculation,” May 1, 1996.

• Information Notice 96-10, “Potential Blockage by Debris of Safety System Piping Which

Is Not Used During Normal Operation or Tested During Surveillances,” February 13,

1996.

• Information Notice 95-47, “Unexpected Opening of a Safety/Relief Valve and

Complications Involving Suppression Pool Cooling Strainer Blockage,” October 4, 1995.

• Information Notice 95-47, Revision 1, “Unexpected Opening of a Safety/Relief Valve and

Complications Involving Suppression Pool Cooling Strainer Blockage,” November 30,

1995.

• Information Notice 95-06, “Potential Blockage of Safety-Related Strainers by Material

Brought Inside Containment,” January 25, 1995.

• Information Notice 94-57, “Debris in Containment and the Residual Heat Removal

System,” August 12, 1994.

• Information Notice 93-34, “Potential for Loss of Emergency Cooling Function Due to a

Combination of Operational and Post-LOCA Debris in Containment,” April 26, 1993.

• Information Notice 93-34, Supplement 1, “Potential for Loss of Emergency Cooling

Function Due to a Combination of Operational and Post-LOCA Debris in Containment,”

May 6, 1993.

• Information Notice 92-85, “Potential Failures of Emergency Core Cooling Systems

Caused by Foreign Material Blockage,” December 23, 1992.

• Information Notice 92-71, “Partial Plugging of Suppression Pool Strainers at a Foreign

BWR,” September 30, 1992.

• Information Notice 89-79, “Degraded Coatings and Corrosion of Steel Containment

Vessels,” December 1, 1989.

• Information Notice 89-79, Supplement 1, “Degraded Coatings and Corrosion of Steel

Containment Vessels,” June 29, 1990.

• Information Notice 89-77, “Debris in Containment Emergency Sumps and Incorrect

Screen Configurations,” November 21, 1989.

• Information Notice 88-28, “Potential for Loss of Post-LOCA Recirculation Capability Due

to Insulation Debris Blockage,” May 19, 1988.

GL 2004-02

Page 15 of 16

Backfit Discussion

Under the provisions of Section 182a of the Atomic Energy Act of 1954, as amended,

10 CFR 50.109(a)(4)(i) and 10 CFR 50.54(f), this generic letter requests that addressees

evaluate their facilities to confirm compliance with the existing applicable regulatory

requirements as outlined in this generic letter. This generic letter also transmits an information

request for the purpose of verifying compliance with existing applicable regulatory

requirements. The staff has determined that, in light of the information identified during the

efforts to resolve GSI-191, the previous guidance used to develop most addressees’ current

licensing basis analyses does not adequately and completely model sump screen debris

blockage and related effects. Due to the deficiencies in the previous guidance, a potential

analytical error could have been introduced which results in ECCS and CSS performance that

does not conform with existing applicable regulatory requirements. In response, the staff

revised its guidance for determining the susceptibility of PWR recirculation sump screens to the

adverse effects of debris blockage during design basis accidents requiring recirculation

operation of the ECCS or CSS to ensure compliance with existing applicable regulatory

requirements. Thus, the information requested by this generic letter is considered a

compliance exception to the rule in accordance with 10 CFR 50.109(a)(4)(i).

Small Business Regulatory Enforcement Fairness Act

The NRC has determined that this generic letter is subject to the Small Business Regulatory

Enforcement Fairness Act of 1996. Office of Management and Budget (OMB) has declared the

letter not to be a major rule. Notification of the letter has been sent to Congress.

Federal Register Notification

A notice of opportunity for public comment on this generic letter was published in the

Federal Register (69 FR16980) on March 31, 2004. Comments were received from ten industry

groups, one non-profit organization, one private citizen, and the State of New Jersey. The staff

considered all comments that were received. The staff's evaluation of the comments is publicly

available through the NRC’s Agencywide Documents Access and Management System

(ADAMS) under Accession No. ML042260161.

Paperwork Reduction Act Statement

This generic letter contains information collections that are subject to the Paperwork Reduction

Act of 1995 (44 U.S.C. 3501 et seq.). These information collections were approved by the

Office of Management and Budget (OMB) under approval number 3150-0011, which expires on

February 28, 2007.

The burden to the public for these mandatory information collections is estimated to average

7000 hours0.081 days <br />1.944 hours <br />0.0116 weeks <br />0.00266 months <br /> per response, including the time for reviewing instructions, searching existing data

sources, gathering and maintaining the necessary data, and completing and reviewing the

information collections. The staff received two public comments on the estimated burden to the

public. In both comments, the burden was estimated to be between 5,000 and 10,000 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />.

The staff solicited input from three addressees to better estimate the burden to the public.

Based on the public comments and the solicited input, the staff estimates the burden as shown

above. Send comments regarding this burden estimate or any other aspect of these

information collections, including suggestions for reducing the burden, to the Records and

GL 2004-02

Page 16 of 16

FOIA/Privacy Services Branch (T-5F52), U.S. Nuclear Regulatory Commission, Washington,

DC 20555-0001, or by Internet electronic mail to INFOCOLLECTS@NRC.GOV; and to the

Desk Officer, Office of Information and Regulatory Affairs, NEOB-10202 (3150-0011), Office of

Management and Budget, Washington, DC 20503.

Public Protection Notification

The NRC may neither conduct nor sponsor, and an individual is not required to respond to, an

information collection unless the requesting document displays a currently valid OMB control

number.

If you have any questions about this matter, please contact the technical contacts or lead project

manager listed below.

/RA/

Bruce A. Boger, Director

Division of Inspection Program Management

Office of Nuclear Reactor Regulation

Technical Contacts: Ralph Architzel, NRR David Cullison, NRR

301-415-2804 301-415-1212

e-mail: rea@nrc.gov e-mail: dgc@nrc.gov

Lead Project Manager: Michael Webb, NRR

301-415-1347

e-mail: mkw@nrc.gov

GL 2004-02

Page 16 of 16

FOIA/Privacy Services Branch (T-5F52), U.S. Nuclear Regulatory Commission, Washington,

DC 20555-0001, or by Internet electronic mail to INFOCOLLECTS@NRC.GOV; and to the

Desk Officer, Office of Information and Regulatory Affairs, NEOB-10202 (3150-0011), Office of

Management and Budget, Washington, DC 20503.

Public Protection Notification

The NRC may neither conduct nor sponsor, and an individual is not required to respond to, an

information collection unless the requesting document displays a currently valid OMB control

number.

If you have any questions about this matter, please contact the technical contacts or lead project

manager listed below.

/RA/

Bruce A. Boger, Director

Division of Inspection Program Management

Office of Nuclear Reactor Regulation

Technical Contacts: Ralph Architzel, NRR David Cullison, NRR

301-415-2804 301-415-1212

e-mail: rea@nrc.gov e-mail: dgc@nrc.gov

Lead Project Manager: Michael Webb, NRR

301-415-1347

e-mail: mkw@nrc.gov

DOCUMENT NAME: G:\DIPM\OES\GEN COM\GIS-191 GL post CRGR.wpd

ADAMS ACCESSION NUMBER: ML042360586

OFFICE SPLB:DSSA Tech Editor SPLB:DSSA BC:SPLB:DSSA D:DSSA D:DLPM

NAME DCCullison PKleene DLSolario JNHannon SCBlack LBMarsh

DATE 08/25/2004 08/27/2004 08/31/2004 08/31/2004 09/03/2004 08/25/2004

OFFICE OGC (SBREFA) OE OGC (NLO) IROB:DIPM A:SC:OES:IROB:DIPM A:C:IROB:DIPM

NAME TRothschild CNolan CMarco CDPetrone ACMcMurtray FMCostello

DATE 08/26/2004 08/24/2004 08/24/2004 09/07/2004 09/08/2004 09/08/2004

OFFICE A:C:IROB:DIPM ADPT

NAME BABoger BWSheron

DATE 09/10/2004 09/13/2004 / /2004

OFFICIAL RECORD COPY