ML20210K072
| ML20210K072 | |
| Person / Time | |
|---|---|
| Site: | Framatome ANP Richland |
| Issue date: | 08/08/1997 |
| From: | Edgar J SIEMENS POWER CORP. (FORMERLY SIEMENS NUCLEAR POWER |
| To: | Weber M NRC OFFICE OF NUCLEAR MATERIAL SAFETY & SAFEGUARDS (NMSS) |
| References | |
| JBE:97:134, TAC-L30978, NUDOCS 9708190134 | |
| Download: ML20210K072 (17) | |
Text
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.SIEMENS
+
o GO ka August 8,1997 JBE:97:134 U.S. Nuclear Regulatory Commission.
Attn: Mr. Michael F. Weber, Chief 4 Licensing Branch Division of Fuel Cycle Safety and Safeguards, NMSS -
Washington, DC 20555 I
Dear Mr. Weber:
Subject:
SPC Response to RAI TAC No. 30978
- Ref.1: Letter, J.B. Edgar to K.J. Hardin, dated May 22,1997 Ref., 2: Letter, J.B. Edgar to M.F. Weber, dated July 15,1997 Ref. 3: Memo (E-Mail), C.D. Manning to H. Felsher, " Questions on NT-lX Inner Container License Amendment," dated July 29,1997 (Answers to E-mailed Questions, Felsher to Manning, dated July 28,1997,)
Ref. 4: Letter, K.J, Hardin to L.J. Maas, " Request for Additional Information, Powder and/or Pellet Shipping Pails (TAC No. 30978)",_ dated August 1,1997.
Enclosed are Siemens Power Corporation's (SPC's) answers to the request for additional
'information in reference 4.
-It is my understanding, based on a telephone conversation with Kim Hardin of your staff, that this response together with reference 3, resolves your questions on this subject. We would, therefore, appreciate your expediting this amendment request so we can meet our schedule commitment described in reference 2.
~
. If' additional information is required, please call me on 509 375-8663.
Very truly yours, I
h
,-/
- James B. Edgar Staff Engineer, Licensing. ?
9708190134 970008 llll*l]*l hhh,hl PDR ADOCK 070012573
_C PDR
^
siemens Power Corporation Nuclear oivision 2101 Horn Rapids Road Tel:
(509) 375-8100 Engineering & Manufacturing P.o. Box 130 Fax:
(509) 375-8402 Richland, WA 99352 0130
Enclosure NRC Request 1 Because the activity has been analyzed for 3.5 gallon pails, modify your amendment request as follows: Add a new entry to Table 1-4.1 for 3.5 gallons or less containers with the following criticality controls: VOL, FNA, CCM, MCU, ARA, and SPA. Delete the use of FNA for the 5 -
gallon containers in your request.
SPC Response Table I-4.1 has been revised from that submitted May 22,1997 (reference 1) to redefine the containers as being nominally 3.5 gallons or less in volume.
NRC Request 2 Because the activity has been analyzed at 7.0 wt% H O and_ the UO -H O becomes visibly wet 2
2 2 at 7.0 wt% H 0, and thus administrative controls will be used to keep the H O wt% at or below 2
2 7.0 wt%, modify your amendment request as follows: Add to the " Discussion of any specici controls used/ additional explanation of control type" in Table I-4.1 for 3.5 gallons or less containers the following condition: Containers will never be visibly wet which means that the H O wt% will be less than or equal to 7.0, 2
SPC Response The purpose of Table 1-4.1 is to identify major components that require criticality safety controls
- and the general control types used. It is not intended that specific limits and controls (engineering, administrative, quantitative, process, etc.) be listed. - The UO powder 2
production / preparation processes both from ADU and dry conversion produce dry (s 2 wt% H O 2
equivalent) UO powder, in addition the container that this material is to be shipped in has a 2
0.5 limit on the H/U ratio. This limit is equivalent to approximately 1 wt% H 0. Finally, the 2
CSA has analyzed various H O contents in tha UO for k,,, sensitivity to moderator 2
2 concentration and the resulting Criticality Safety Specification and limit cards will specify that the powder is dry (s 2 wt% H O equivalent), it is, therefore not necessary to specify this limit 2
in Table I-4.1.
NRC Request 3 Describe the four steps in the activity: (1) describe the normal filling process of the pails with UO powder / pellets including the condition of storage at the filling site as a single tier array, (2) 2 t
describe the normal on-site transportation of the pails as two pallets (4 pails on each pallet C-to-Siemens Power Corporation Nuclear Division 2101 Horn Rapids Road Tel:
(509) 375-8100 Engineering & Manufacturing P.o. Box 13o Fax:
(509) 375-8402 Richland, WA 99352-o13o
August 8,1997-Pegn 2
.z
+
C) on a forklift, (3) describe the normal storage of pails as in a single tier array, and (4) describe
- the_normallcading of pails into shipping casks as three stacks of 3 pails high centered on E25"x25" steel pallett, and must be attended until loaded into the overpack.
- SPC Response As described during the recent visit of Ms. Hardin and Mr. Felsher and as discussed in SPC's
' July 15,1997 letter, the process of loading and handling these containers takes place in-basically four steps:
{
The pails are tare weighed and visually examined to confirm the presence of the boron-ss ring; a plastic bag is inserted into the pali inside the ring; UO, powder or pellets are loaded to the allowable weight; the bag is sealed; the pail lid is installed.-
The pails are stored, prior to being transported to the shipping container loading area, in ~
e a single. layer array.
The loaded pails are then loaded, four to a pallet with two such pallets being transported side-to-side, on a forklift and transported on-plant to the shipping containe'r loading area.
In the shipping container loading area the pails are stacked three high and each stack is centered on a 25" x 25" pallet. A maximum of nine such stacks on nine pallets are allowed in the loading area at one time and must be attended until they are loaded into the shipping container. (Note: Nine stacks, not three, of pails, three high, are allowed in the shipping container loading area. See attachment 3 of reference 2).-
NRC Request 4
' Describe the process of loading the pails with the UO powder or pellets. Provide details so that 2
we can determine that the criticality safety basis for storage encompasses the loading activity 4
from the point of filling the bags in the pail, to closing the lid of the pail, to placement of the pail on a pallet, to storing the pail at the filling site until transporting the pail to the storage area.
SPC Response
.The process of loading the pails with UO powder or pellets and storage of loaded pails was 2
described in 3, above. It is important to note that the plastic bags are agl filled outside the pails and then loaded into the pails, rather the bags are put into the pails and then the powder or
. pellets are loaded into the bags.
NRC Request 6 Why did you use a U0 density of 2.0 g/cc in your analysis instead of the standard 10.96 g/cc?
2 L
- August 8,1997_
Page 3 -
I'!i SPC Response-e i
The sample input to which you refer evaluates one of many conditions. When" saturated with-water, powder densities in the 2.0-2.8 g/cc range produce the highest k.,, for powder.10.96 -
g/cc is the theoretical density of UO, and would only be approached for pellets.
NRC Request 6 Why did you use 7.0 wt% H O and a volume fraction H O of 0.15054 in your analysis?.
2 2
SPC Response At 7 wt% moistura SPC produced UO powder is visibly damp / wet. The use of 7 wtS6 water 2
added to the powder for the case in question is somewhat arbitrary : However, it gives a direct '
comparison to calculations previously done to evaluate 5-gallon containers stored in similar planar arrays on the plant site, A conservative method of calculating the density of water added to UO, @ 7 wt% water is as follows:
Pa2o I(Ps2o + Puo2) = 0 07
= pH2O " Puo2
- 0.07 / (1 - 0.07) 2.0
- 0.07 / 0.93 = 0.15054
=
- Because the full density of water is approximately 1.0, an alternate way of specifying water-with a density of 0.15054 is to define the density as 1.0 and the volume fraction as 0.15054.-
Specifying a density of 0.15054 and a volume fraction of 1,0 would have been an equally valid approach, as well.
l l.NRC Request 7 Why did you use the density of regular concrete to be 1.0 g/cc instead of the standard 2.3 g/ce?
SPC Response This is an input error, the sensitivity of which has been examined during the second-party review process. It was determined that the Ak,, caused by this error is only important for cases with k,,, near 0.95. Several of such cases were rerun to verify the validity of the conclusions reached by the CSA. (See'also the response to NRC request 9.)
NRC Request 8 Why did you use the volume fraction of interspersed H O to be 1.0e-6 instead of 1.O?
2 I
I
9 SPC Response For the case to which you refer, the desired materia!.modeled between the containers is air.
One way of specifying air is to use water with a very small volume fraction, as was done in this case. Using a volume fraction of 1.0 would have modeled full density water between the containers, which is not the desired condition. Please note that a sensitivity studv was performed on tho interspersed modcrator to determine its ef fect.
NRC Request 9 What were your results (k effective and sigma values) for the four situations in this activity:
baseline (single pail with reflectors), on site transport (two 2x2-pail pallets with reflectors),
storage (infinite array wMh reflectors), loading'into shipping casks (three 1x3-pail pallets with reflectors)?
SPO Response a, A single pail was not modeled, but is well counded by the calculations for a single-tier infinite array.
- b. An infinite array (single-tier) was modeled to cover both transport and storage. The maximum k n calculated for such an infinite array was 0.58275 (kn n of 0.57701, o of o
0.00287) at 1.5 wt% water and 0.77909 (k
,,n of 0.77363, o of 0.00273) at 7.0 wt%
m water.
- c. An infinite array (stacked four-high) was modeled to cover loading. At 7.0 wt% water, powder with a UO density of 2.0 g/cc produced a k,n of 0.83424 (k n of 0.82878, o of 3
m 0.00273); powder with a UO density of 2.7 g/cc produced a k,, of 0.93440 (km n of 2
0.92908, o of 0,00266). At 5.0 wt% water, powder with a density of 4.0 g/cc produced a k,,, of 0.96114 (k. n of 0.95600, o of 0.00257).
o n
Using corrected values for the density of concrete:
- d. For an infinite array (single-tier), the denser concrete added, at most,0.035 to k,,. This makes an insignificant contribution to the cases mentioned above.
- e. For an infinite array (stacked four-high) and 7.0 wt% water, powder with a UO density of 2
2.0 g/cc produced a k,,,, of 0.84507 (k n of 0.84051, o of 0.00228); powder with a UO m
2 density of 2.7 g/cc produced a k,,, of 0.94517 (km.n of 0.94049, o of 0.00234). At 5.0
- wt% water, powder with a density of 4.0 g/cc produced a k,,, of 0.96683 (k n of 0.96225, m
o of 0.00229).
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SPECIAL NUCLEAR MATERIAL LICENSE NO SNM 1227, NRC DOCKET NO. 70.1257.
r-3 PARTl UCENSE CONDITIONS REv.
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.. NO2330.94 7 ( R-14 7/9 SPC
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