Information Notice No. 84-93: Potential for Loss of Water from the Refueling Cavity
SSINS No. 6835
IN 84-93
UNITED STATES
NUCLEAR REGULATORY COMMISSION
OFFICE OF INSPECTION AND ENFORCEMENT
WASHINGTON, DC 20555
December 17, 1984
Information Notice No. 84-93: POTENTIAL FOR LOSS OF WATER FROM THE
REFUELING CAVITY
Addressees:
All holders of a nuclear power reactor operating license (OL) or
construction permit (CP) except Fort St. Vrain.
Purpose:
This notice is provided to alert licensees and applicants to features in
some PWRs and BWRs that may have a significant potential to cause loss of
water in the refueling cavity. It is expected that recipients will review
the information for applicability to their facilities and consider actions,
if appropriate, to preclude similar problems from occurring at their
facilities. However, suggestions contained in this information notice do not
constitute NRC requirements and, therefore, no specific action or response
is required.
Description of Circumstances:
On August 21, 1984, the Haddam Neck plant experienced a failure of the
refueling cavity water seal with the refueling cavity flooded in preparation
for refueling. The refueling cavity water level (23 feet) decreased to the
level of the reactor vessel flange in about 20 minutes, which flooded the
containment with approximately 200,000 gallons of water. The leak developed
when the pneumatic seal assembly was forced out of the normal position as a
result of static water pressure. The pneumatic seal assembly remained intact
but was extruded through the gap for about 25 percent of its circumference.
No fuel was being transferred at the time of this seal failure. If fuel had
been in transfer at the time, it could have been partially or completely
uncovered with possible high radiation levels, fuel cladding failure, and
release of radioactivity. In addition, if the fuel transfer tube had been
open, the spent fuel pool could have drained to a level that would have
uncovered the top of the fuel assemblies stored in the pool. IE Bulletin No.
84-03, "Refueling Cavity Water Seal," was issued on August 24, 1984, as a
result of the above incident.
While evaluating the potential for loss of water from refueling cavities at
other plants, the NRC staff learned from the Electric Power Research
Institute (EPRI) that reactor cavity seal development testing had been
previously
8412120547
.
IN 84-93
December 17, 1984
Page 2 of 3
performed. This seal testing was sponsored by EPRI as part of a "Refueling
Outage Availability Improvement Program." These tests (completed in 1981)
initially resulted in a failure mode very similar to that experienced by the
Haddam Neck plant. However, this failure mode was not observed in further
testing with a modified seal design. This EPRI testing indicates that the
performance of pneumatic seals is very sensitive to seal design details and
to plant-specific refueling cavity design details, including variations in
cavity gap dimensions.
Other potential failure modes of the refueling cavity seal have been
identified, since the incident at the Haddam Neck plant, which could cause a
rapid loss of water in the refueling cavity at some plants. San Onofre Unit
2 recently experienced several problems while installing the reactor cavity
seal in preparation for the unit's first refueling. This unit has redundant
(inner and outer) pneumatic seals. The inner pneumatic seal was punctured
during installation. The seal was replaced with a spare. The spare seal also
failed during testing as a result of a manufacturing defect in the seal
wall. Both the above failures were discovered and corrected before flooding
the reactor cavity. Failures, like those reported at San Onofre Unit 2,
could cause a rapid loss of cavity water (if the cavity were flooded) at
plants with nonredundant pneumatic seals. Some pneumatic/flexible seals also
may be susceptible to damage from the impact of dropped objects after the
cavity is flooded. If the dropped object were radioactive, significant
radiation damage to the pneumatic seal also could occur after a period of
time.
In addition to the refueling cavity seal, pneumatic seals also are used as
hot and cold leg nozzle dams in PWRs and, for some plants, in gates between
the spent fuel pool and the fuel transfer canal. The failure modes and
concerns expressed above for the pneumatic refueling cavity seal also apply
in many cases to these other pneumatic seals. Nozzle dams are of particular
concern, when the steam generator primary is open during refueling.
The refueling cavity also can be partially drained (PWR or BWR) by certain
misalignments of the residual heat removal system (RHR) valves while in the
shutdown cooling mode (assuming that shutdown cooling is in use when the
cavity is filled). GE SIL No. 388, "RHR Valve Alignment During Shutdown
Cooling Operation For BWR 3/4/5 and 6," dated February 1983, and IE
Information Notice 84-81, "Loss of Reactor Pressure Vessel Coolant Inventory
in Boiling Water Reactors," dated November 16, 1984, discuss these
possibilities in a BWR. Nuclear Safety Analysis Center report, NSAC-52,
"Residual Heat Removal Experience Review and Safety Analysis, Pressurized
Water Reactors," dated January 1983, discusses these possibilities in a PWR.
Finally, there are numerous ways in which the refueling cavity of a PWR or
BWR could be drained at a slower rate through one of the attached drain
lines. Adequate emergency procedures and properly calibrated refueling
cavity water level instrumentation are considered to be important in the
mitigation of any loss-of-cavity-water accident.
.
IN 84-93
December 17, 1984
Page 3 of 3
No specific action or written response is required by this information
notice. If you have any questions about this matter, please contact the
Regional Administrator of the appropriate NRC regional office or this
office.
Edward L. Jordan, Director
Division of Emergency Preparedness
and Engineering Response
Office of Inspection and Enforcement
Technical Contact: H. A. Bailey, IE
(301) 492-9006
Attachment: List of Recently Issued IE Information Notices
Page Last Reviewed/Updated Tuesday, March 09, 2021
Page Last Reviewed/Updated Tuesday, March 09, 2021