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g FCUP:NK DEC 3 1990 70-2936

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W Mississippi Power & Light Company ATTN:

Mr. L. F. Dale Nuclear Project Manager P.O. Box 1640 Jackson, Mississippi 39205 Gentlemen:

We have completed the initial review of the Mississippi Power & Light Company application dated October 1,1980, for authorization to possess and use in-core detectors and for the receipt, possession, storage, inspection and transportation of special nuclear and byproduct material. We find that additional information is needed (see enclosure) to complete our evaluation.

In order to meet your requested date for receipt of the fuel, your responses to the comments are due ro later than January 9, 1981.

If there are any questions concerning this ma.tter, please call me.

Sincerely, f/

his&v Y'

L N. Ketzlach Uranium Process Licensing Section Uranium Fuel Licensing Branch Division of Fuel Cycle and Material Safety

Enclosure:

Coments on Mississippi Power & Light Company License Application for Fuel Storage Only at Unit 1 of the Grand Gulf Nuclear Station (Dated October 1,-

1980) 81olo6 log 9

COMMENTS ON MISSISSIPPI POWER & LIGHT COMPANY LICENSE APPLICATION FOR FUEL STORAGE ONLY AT UNIT 1 0F THE GRAND GULF NUCLEAR STATION (DATED OCTOBER 1, 1980) 1.

Page 5 Section 1.1.2 Describe the fuel assemblies in sufficient detail so that a nuclear criticality safety evaluation of the fuel handling and storage may be made (e.g., materials of construction, fuel rod diameter, maximum fuel density, cladding, rod pitch, number and location of void positions, number of fuel rods / assembly).

2.

Page 6 Section 1.2.1 a.

Describe the design of the new and spent fuel storage racks.

b.

Provide sketches identifying the fuel storage areas that indicate their relative location to each other.

3.

Page 7 a.

Section 1.2.2 1.

Specify the minimum spacings between fuel handling (e.g.,

carrier unloading, assembly inspection) and fuel assembly storage areas.

2.

Provide the restrictions on activities in adjacent areas.

Include the limitations on crane operations over the fuel assembly storage areas, b.

Section 1.2.3 1.

Describe the fuel handling activities in the fuel storage area from receipt of the fuel in shipping containers to their place-ment in the storage racks.

Include safety-related features for I

container unloading, fuel assembly inspection and repair, l

transfer to and storage in the racks, and return to the fuel l

fabricator, if necessary.

2.

Identify the responsibility for administrative controls and for the development and approval requirements to ensure safety of all fuel handling and storage operations.

Specify the approval requi rements.

3.

Confirm all fuel handling operations will be performed in accordance with approved written procedures.

4.

Confirm preoperational testing for necessary fuel handling and support systems will be completed prior to receipt of unirradiated fuel. All equipment should be inspected and tested for safe operation prior to use in fuel handling activities.

5.

Clarify what you mean by "long term" storage.

Provide justi-fication for "long term" outside storage of loaded shipping containers and include the quantity of fuel to be stored, the length of time for storage and the spacing between groupings of shipping containers.

Describe the means for protecting the storage area from " adverse weather conditions."

4.

Page 8 Section 1.2.4 1.

Briefly describe the fire protection and fire control system (water hoses, sprinklers, dry chemicals, location) in all fuel storage areas.

Include the fuel-rack and long term storage areas.

2.

Confirm all construction related to fire protection of the fuel handling and storage areas is completed prior to receipt of unirradiated fuel.

3.

Confirm preoperational acceptance testing is completed, reviewed and approved prior to the use of fuel storage areas.

5.

Page 9 a.

Section 1.4 Confirm the Grand Gulf Nuclear Station is responsible for the packaging of the fuel returned to Wilmington.

Until the shipment is transferred to a carrier for transport, responsibility for it belongs to the Station.

b.

Section 2.1 1.

Identify the personnel responsible for nuclear criticality safety related to the fuel handling cnd storage operations and for the training they receive.

2.

Describe the administrative controls and contamination monitoring operations to ensure protection of personnel and the environment from the time of receipt of the fuel to its storage in racks or in the shipping containers.

Include the monitoring station (s) where personnel exiting the storage area will be checked for radioactive contamination.

3.

State the frequency and methods for calibration and testing of portable radiation survey instrumentation and laboratory radiation instrumentation.

5.

Face 10 Section 2.2.2 1.

Confirm the structural integrity of the racks has been analyzed from the standpoint of possible failure due to such factors as loading, shock, fire, corrosion, etc.

2.

Specify the minimum center-to-center spacing between fuel assemblies in the new fuel vault and in the other storage racks.

3.

Provide the results of the nuclear criticality safety analyses, the method of analysis used, and the assumptions made in the analysis (e.g., degrees of water moderation, dropping of a crane loading on top of the rack).

4.

Specify the controls to be exercised in placing the elements l

only in the designated storage locations.

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7.

Pace 11 a.

Section 2.2.3 1.

Confirm all degrees of credible interspersed moderation (e.g.,

from sprinklers) have been considered in the nuclear criticality safety evaluation.

l 2.

Confirm the fuel assemblies are packaged in the storage racks so that if the fuel were flooded and then drained, the water could not be retained around or within an assembly.

If this is not the l

case, provide a nuclear criticality safety evaluation of the I

arrays with water retention within an assembly and optimum credible interspersed moderation between assemblies.

b.

Section 2.2.4 l

1.

Provide verification of the minimum critical number of fuel assemblies at optimum spacing and full water moderation and reflection.

- 2.

Confirm the maximum safe number of assemblies that will be outside the shipping containers and storage racks, at any one time, cannot be made critical.

Confirm no shipping containers will be opened in the outside storage areas.

c.

Section 2.2.5_

Specify the type (s) of radiation detectors and instrumentation in the auxiliary and containment buildings.

d.

Section 2.3.1 1.

Confirm the nuclear criticality safety of a loaded storage rack is not compromised by accidentally dropping the naximum crane load on top of the storage rack.

2.

Provide the administrative controls to u;sure no greater loads will be carried by the crane while passing over the fuel-loaded storage racks.

8.

Page 13 Section 3.1 Describe the administrative controls to ensure protection of personnel from radiation from the byproduct sealed sources.

Specify the precautions to be taken to meet ALARA.

9.

Pages 15-16 Describe the arrays shown in the Figures.

Include the definition of "c ra te s. "

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