Information Notice 2001-13, Inadequate Standby Liquid Control System Relief Valve Margin

UNITED STATES

NUCLEAR REGULATORY COMMISSION

OFFICE OF NUCLEAR REACTOR REGULATION

WASHINGTON, D.C. 20555-0001 August 10, 2001 NRC INFORMATION NOTICE 2001-13: INADEQUATE STANDBY LIQUID CONTROL

SYSTEM RELIEF VALVE MARGIN

Addressees

All holders of operating licenses for boiling water reactors.

Purpose

The U.S. Nuclear Regulatory Commission (NRC) is issuing this information notice to alert

addresses to a recent staff finding regarding inadequate standby liquid control system relief

valve margin. It is expected that recipients will review the information for applicability to their

facilities and consider actions, as appropriate, to avoid similar problems. However, suggestions

contained in this information notice are not NRC requirements; therefore, no specific actions or

written response is required.

Background

The control rod drive (CRD) system provides the primary means to control reactivity, as

required by 10 CFR Part 50, Appendix A. In the original plant design of Susquehanna Units 1 and 2, the standby liquid control system (SLC) was provided as an independent and diverse

(from the CRD system) method for shutting down the reactor under conditions of normal

operation. Its specific function was to provide the capability to inject into the reactor a neutron- absorbing solution that was capable of achieving and maintaining subcriticality. At

Susquehanna Units 1 and 2, the system included two redundant pumps, each capable of

performing the design function.

In 1984 the NRC issued 10 CFR Section 50.62, "Requirements for reduction of risk from

anticipated transients without scram (ATWS) events for light water-cooled nuclear power

plants" (the ATWS rule). The ATWS rule added more stringent injection rate requirements for

the SLC system and required the ATWS functions to be performed under conditions of

anticipated operational occurrences. Specifically, the rule required that each boiling water

reactor have a SLC system with the capability of injecting into the reactor pressure vessel

(during anticipated operational occurrences) a borated water solution at a flow rate such that

the resulting reactivity control was at least equivalent to that resulting from the injection of 86 gallons per minute (gpm) of 13 weight percent sodium pentaborate decahydrate (boron)

solution.

Description of Circumstances

To comply with the ATWS rule, the Susquehanna licensee implemented a modification which

revised the SLC pump start logic to a simultaneous initiation of both pumps. This resulted in a

flow rate of at least 82.4 gpm and a corresponding required concentration of boron solution of

13.6 weight percent. This boron concentration became the licensing basis and was

subsequently included in the Susquehanna improved technical specifications.

The change to the pump start logic caused a significant increase in system pressure losses in

the pump discharge lines. These losses were the result of the increased fluid velocity in the

common injection line as the flow rate doubled from 41.2 gpm to 82.4 gpm. As a result of the

ATWS modification, the licensee determined that the maximum discharge pressure at the SLC

pumps was 1276 psig. This value was based on the lowest setpoint (1076 psig) of the main

steam safety relief valves (SRVs) in the pressure relief mode, the system friction losses for two- pump operation, and the elevation losses. Subsequently, in 1993, the licensee determined a

new maximum SLC pump discharge pressure of 1319 psig, based on a power uprate

modification. The change was due to a 30 psig increase to the SRV setpoint, and an increase

in calculated core flow. The licensee determined that the calculated value of 1319 psig was

acceptable because it maintained a 75 psig design margin requirement between the maximum

SLC pump discharge pressure and the minimum setting of the SLC pump discharge relief

valves (1400 psig).

During a recent design inspection at Susquehanna, the NRC found that the licensee's

assumption for reactor vessel pressure used in the maximum pump discharge pressure

calculation was non-conservative and disagreed with a vendor ATWS analysis for two of the

transients analyzed. Specifically, the inspection team found that for the main steam isolation

valve (MSIV) closure transient, the analysis indicated that, at the time of SLC system manual

initiation, the reactor vessel pressure would be as high as 1133 psig. Similarly, for the loss of

offsite power (LOOP) transient, the reactor pressure at various times in the event was a

nominal 1200 psig. The much higher pressure calculated for the LOOP transient event was

due to the loss of power to the containment instrument gas compressors and the resulting loss

of gas required to open the SRVs. Although each SRV was equipped with a gas accumulator, the amount of gas available in each accumulator was sufficient for only a few SRV actuations.

Therefore, the SRV would eventually lift on its higher spring setting (safety mode) and not in its

normal pressure relief mode.

Based on the above, the inspection team concluded that the maximum reactor vessel pressure

of 1106 psig assumed by the licensee in the design calculations of record was non- conservative. The increases in main steam SRV lift pressure setpoints through the years due

to valve simmering concerns and power uprate considerations contributed to the loss of

adequate margin between maximum expected pump discharge pressures and the system relief

valve settings. This resulted in the likelihood that the SLC pump discharge relief valves would

lift during at least one of the ATWS transient scenarios, the loss of offsite power. The lifting of

the SLC pump discharge relief valves would cause the sodium pentaborate solution to be

recycled to the pump suction and, therefore, prevent the system from meeting the equivalent

flow capacity required by the ATWS rule. Discussion

The licensee modified the Susquehanna Unit 2 SLC system, during a recent refueling outage.

The modification increased the flange pressure rating of both pumps (from 1400 psig to 1500

psig) and raised the lift pressure of the pump discharge relief valves to 1500 psig. The licensee

intends to perform the same modification on the Unit 1 system. Additional details regarding the

issue identified during the inspection can be found in Inspection Report 05000387/01-

004;05000388/01-004, Accession # ML011420068.

This information notice requires no specific action or written response. If you have any

questions about the information in this notice, please contact one of the technical contacts

listed below or the appropriate Office of Nuclear Reactor Regulation (NRR) project manager.

/RA/ Patrick M. Madden FOR

Ledyard B. Marsh, Chief

Operational Experience

and Non-Power Reactors Branch

Division of Regulatory Improvement Program

Office of Nuclear Reactor Regulation

Technical contacts: Frank Arner, DRS John Richmond, DRP

(610) 337-5194 (570) 542-2134 E-mail: fja@drs.gov E-mail: jer4@drp.gov

Neil Della Greca, DRS

(610) 337-5046 E-mail: ald1@drs.gov

Attachment: List of Recently Issued NRC Information Notices

ML012210146

Publicly Available G Non-Publicly Available G Sensitive  : Non-Sensitive

OFFICE RGN I Tech Editor RGN I RGN I RGN I REXB

NAME FArner PKleene/NF for JRichmond* NDellaGreca LDoerflein* NFields*

DATE 08/01/2001 05/14/2001 07/31/2001 7/31/2001 08/01/2001 08/01/2001 C:SRXB REXB C:REXB

JWermiel* JTappert LMarsh

08/03/2001 8/10/2001 8/10/2001

Attachment LIST OF RECENTLY ISSUED

NRC INFORMATION NOTICES

_____________________________________________________________________________________

Information Date of

Notice No. Subject Issuance Issued to

______________________________________________________________________________________

2001-12 Hydrogen Fire at Nuclear 8/08/01 All holders of operating licenses

(ERRATA) Power Stations or construction permits for

nuclear power reactors except

those who have ceased

operations and have certified that

fuel has been permanently

removed from the reactor vessel

2001-12 Hydrogen Fire at Nuclear 7/13/01 All holders of operating licenses

Power Stations or construction permits for

nuclear power reactors except

those who have ceased

operations and have certified that

fuel has been permanently

removed from the reactor vessel

2001-11 Thefts of Portable Gauges 07/13/01 All portable gauge licensees

2001-10 Failure of Central Sprinkler 06/28/01 All holders of licenses for nuclear

Company Model GB Series power, research, and test

Fire Sprinkler Heads reactors and fuel cycle facilities

2001-09 Main Feedwater System 06/12/01 All holders of operating licenses

Degradation in Safety-Related for pressurized water nuclear

ASME Code Class 2 Piping power reactors, except those who

Inside the Containment of a have permanently ceased

Pressurized Water Reactor operations and have certified that

fuel has been permanently

removed from the reactor vessel

2001-08 Update on the Investigation of 06/06/01 All Medical Licensees

Supplement 1 Patient Deaths in Panama, Following Radiation Therapy

Overexposures

2001-08 Treatment Planning System 06/01/01 All medical licensees

Errors Result in Deaths of

Overseas Radiation Therapy

Patients

______________________________________________________________________________________

OL = Operating License

CP = Construction Permit