ML20134J877

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Provides Nuclear Instrumentation Info Which May Be Useful to non-power Reactor Facilities
ML20134J877
Person / Time
Site: North Carolina State University
Issue date: 02/10/1997
From: Mayo C, Perez P
North Carolina State University, RALEIGH, NC
To: Alexander Adams
NRC (Affiliation Not Assigned)
References
NUDOCS 9702120384
Download: ML20134J877 (4)


Text

1

. frM7 \

p' North Carolina State University l Nuclear Reactor Program

.. Department of Nuclear Engineering l Box "909 Raleigh, NC 27695-7909 (919) 515-2321 fax (919) 515-5115 10 February 1997 l l

U.S. Nuck.ar Regulatory Commission Attn: Mr. Alexander Adams, Jr. I Senior Project Manager, l Non-Power Reactors and l Decommissioning Project Directorate Office of Nuclear Reactor Regulations Washington, DC 20555

Subject:

Nuclear instrumentation information which may be useful to Non-Power Reactor facilities l

Dear Mr. Adams,

Executive Summary The PULSTAR reactor at North Carolina State University has two Gamma Metrics Wide Range Linear neutron flux channels. One chate.1, designated the " Linear Channel" was operated in the auto-ranging mode and used for power monitoring and control with a maFImum range of 1 MW. The other channel was designated as the " Safety Channel" and was operated in the manual range-change mode on the 1 MW range. '

In November 1995, the Linear Channel experienced a failure to automatically up-range and the range control card was returned to Gamma Metrics for repair. It was noted that both the linear and safety channels had been operating with the neutron flux scram smart bi-stable set so that it was enabled on the 1 MW range. The bi-stable mode was changed at that time so that both units would produce a scram at 120% of range on all ranges. In December 1995, the unit was successfully bench-tested with the repaired card, but again j failed to up-range and exhibited spurious automatic range-changing when it was returned p to service. The unit was returned to Gamma Metrics at that time.

In January 1997, the Safety Channel spuriously down-ranged from the 1 MW range to the D 300 kW rcnge when the reactor power was increasing through 150 kW. While operator manually scrammed the reactor, the scram function remained operable at 360 kW due to the having the scram function enabled on all ranges. This unit was also returned to Gamma Metrics for repair.

Facilities using the same type of equipment should be aware of these range change problems in both the automatic and manual range change mode and the fact that a spurious range r - - - == Kwth ('mnlina State Unit ersitu is a land-grant University and a constituent institution of The Univertity of North Carolina.

9702120384 970210 PDR ADOCK 05000297 P PDR .

4 Mr. Alexander Adams, Jr. (2) 10 February 1997 U.S. Nuclear Regulatory Commission change can defeat the scram function if the smart bi-stable is set so that the scram is active on one range only.

Part 21 Assessment De licensee has reviewed 10CFR Part 21 and concluded the Gamma Metrics Wide Range ,

Linear monitor ranging malfunctions experienced do not result in disabling the protective (

fimetion of the monitor by themselves and do not create a substantial safety hazard.  ;

Nevertheless, the information has been shared with the TRTR community, Gamma Metrics,  !

and the NRC since our experiences and the findings may be useful to other licensees.

Discussion  !

NC State University Unear Channel

  • De first problem experienced with the Gamma Metrics Wide-Range Linear Monitor occurred in November 1995 with the PULSTAR Reactor " Linear Channel" that is ranged with reactor power, used for power control, and provides redundant scrams for the PULSTAR Reactor " Safety Channel". This event was previously reported to the NRC and was summarind in the February 1996 TRTR Newsletter. The range control card was suspected and returned to Gamma Metrics where several components were replaced. The monitor was reassembled and successfully tested on the bench top and the channel was returned to service. On December 20, 1995 the reactor was restarted under testing authorization and multiple range changes were delibeiately introduced during a gradual power escalation. The channel again failed to automatically up-range and the reactor was shutdown.

The entire monitor was returned to Gamma Metrics where modifications were made in the internal grounding. During the subsequent receiving impection it was noted that several cable connectors were not seated properly and that a pin on one of these connectors was burned. Gamma Metrics provided a replacement connector and associated harness that was installed by the reactor staff. During pre-start-up testing, it was found that actuation of the rod reverse demand would cause the range to jump to a different range when the range control was in the manual mode. A Gamma Metrics field engineer spent one week at the site but was unable to diagnose the problem. The monitor was then sent back to Gamma Metrics. A PULSTAR facility design change was approved for re-installing the linear channel picoammeter that had been used prior to the Gamma Metrics Wide-Range Linear Channel.

In October 1996, the linear channel was returned to NC State University. Changes that had been made included replacement of the printed circuit board backplane. During the initial bench-top check-out of the returned unit, new spurious range changes were observed including oscillatory behavior. This included increasing the range to greater than 1 MW even though this is inhibited by design in the NC State University version of the monitor.

The unit was again returned to Gamma Metncs where it currently remains.

Mr. Alexander Adams, Jr. (3) 10 February 1997 U.S. Nuclear Regulatory Commission NC State University Safety Channel The same type of unit is operated on the 1 MW range in the manual range-change mode.

, In January 1997 this unit spuriously down-ranged from the 1 MW range to the 300 kW range

, as the reactor power was increasing through 150 KW. At 150 KW, an internal trip circuit is enabled to protect against loss of flow or the lower plenum flapper valve not closed.

While the operator manually scrammed the reactor, the scram function remained operable at 360 kW due to having the scram function enabled on all ranges. This was verified during a post-shutdown check-out. This unit has also been returned to Gamma Metrics for repairs.

Results j Our bench-top testing with the Linear Channel and consideration of the circuit design f indicated in 1995 that:

o In either the automatic or manual range change mode, spurious ranging did not l

affect the protective features of the monitors unless :

I There is a spurious down range and the smart bi-stable is set so that the l scram is active on one range only i 1

The unit is on the 1 MW range, a spurious uprange occurs, and there is a  !

concurrent or common mode failure of the maximum range limit function  ;

1 By setting the smart bi-stable so that it is operable on all ranges, the protective function will  !

be maintained for single-failure spurious range changes. A spurious range change to a renge j greater than 1 MW requires both a spurious range demand and failure of the maximum range limit function. l It should be noted that the individual Gamma Metrics channels are not single failure proof I by design. Many other single failures could cause a channel failure. Redundancy is provided through the use of two separate channels for high neutron flux scram and low flow i scram enable.

The first problem experienced with the Gamma Metrics Wide-Range Linear Monitor was l in November 1995. We performed a series of bench-top tests'at that time in an attempt to i determine the root cause of the auto-ranging problem. l The bench-top tests and review of Gamma Metrics documentation for the unit demonstrated the following:

o Auto or Manual Mode ranging malfunctions are not likely to affect the protective l function (s) of the uait, I

4 o' ,

3 Mr. Alexander Adams, Jr. (4) 10 February 1997 U.S. Nuclear Regulatory Commission o A spurious down-range can defeat the scram function IF the smart bi-stable is set so

. that the scram is active on one range only, 1

o ne smart bi-stable comparator should be set on the tenth rotary position (dumb position) which causes the bi-stable to be operative on ALL decades.

It should be noted that Gamma Metrics explicitly explains the smart bi-stable options in j their technical manual.

Conclusion 1

, The Wide-Range Linear Monitor configured to provide protection only on the full power i range with a coincident spurious down-range would disable the bi-stable and not cause a trip

(over-range for the lower scale). Such a scenario may lead to a Technical Specification i violation for not having a required protective action. This specific possibility is eliminated j by placing the rotary switch on the smart bi-stable card in position "10" (dumb setting) on f the NCSU units.

1 h

j We have advised the TRTR community via th Internet recommending that facilities with identical equipment should review the smart ti-stable description and configuration.

Please feel free to contact us at (919) 515-2321 with any questions or comments.

Sincerely yours, a

b.

Charles W. Mayo, Ph.D. Pedro B. P6rez
Director, Associate Director,
Nuclear Reactor Program Nuclear Reactor Program cc
Mr. Craig Bassett, USNRC Region II Senior Project Manager Gamma-Metrics, Inc.