ML20151J528
| ML20151J528 | |
| Person / Time | |
|---|---|
| Site: | Peach Bottom  |
| Issue date: | 03/28/1988 |
| From: | Gallagher J PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC |
| To: | Butler W NRC OFFICE OF ADMINISTRATION & RESOURCES MANAGEMENT (ARM), Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML19292J173 | List: |
| References | |
| NUDOCS 8808020385 | |
| Download: ML20151J528 (41) | |
Text
-
s.
PHILADELPHIA ELECTRIC COMPANY 2301 MARKET STREET P.O. BOX 8699 PHILADELPHIA, PA 19101 (215) 841 sooi March 28, 1988 JOSEPH W. G ALL AGHER
,22;;;'a'::,7..
Docket Nos.
50-277 50-278 Mr. W. R.
Butler, Director Project Directorate I-2 Division of Reactor Projects I/II U.
S.
Nuclear Regulatory Commission ATTN:
Document Control Desk Washington, D.C.
20555
SUBJECT:
Philadelphia Electric Company In-House Reload Licensing
REFERENCES:
1)
Letter from R. E. Martin (NRC) to E. G. Bauer, Jr.
(PECo) dated January 20, 1988 2)
Topical Report, PECO-FMS-0003, "Steady State Fuel Performance Methods Report", submitted to NRC by PECo letter dated July 13, 1987
Dear Mr. Butler:
The reference 1 letter requested Philadelphia Electric Company (PECo) to provide additional information to the NRC regarding the reference 2 topical report.
The NRC's two questions are restated below followed by PECo's response.
QUESTION 1:
Does PECo intend to use FROSSTEY for input to LOCA analyses and the determination of end-of-life internal rod pressure?
If not, please state which licensing analyses the FROSSTEY code will be used to support, e.g.,
in reload applications, would it support the analyses for one percent cladding strain or hot channel analyses of CPR?
i 0\\
Ur I
f s.wa 4
2 s
8808020385 880328 PDR ADOCK 05000277 98 ~,3 P
W. R. Butler March 28, 198 Page 2 of 3
RESPONSE
PECo does not intend to use the FROSSTEY computer code for LOCA analyses or for end-of-life internal rod pressure determination at this time.
The PROSSTEY code is intended, in reload I
applications, to generate core average and hot channel gap conductances for system transient and hot channel CPR analyses.
PECo also requests approval for the possible future use of FROSSTEY in the generation of fuel temperatures for reload applications.
QUESTION 2:
In order to evaluate PECo's proficiency in the use of FROSSTEY, please provide the FROSSTEY input used to calculate hot channel gap conductance and volume average temperature versus burnup for batches 8 and 13 in the submitted report.
How many individuals (including any non-PECo personnel) were involved in the modeling of input to the code?
Indicate their particular contribution to each of the four test exercises.
Please ir.dicate what steps PECo has taken to ensure that the level of expertise which has been demonutrated in this series of exercises will be maintained in the future.
RESPONSE
The requested FROSSTEY input files are attached.
General Electric Company has informed PECo that the attached documents contain information that it considers to be confidential and proprietary.
Accordingly, it is hereby requested that the enclosed FROSSTEY input files be withheld from public disclosure in accordance with Section 2.790 of the Commission's 9egulations.
An executed affidavit of General Electric Company setting forth the grounds to support this request is attached.
A non-proprietary version of the requested FROSSTEY input files is also attached.
General Electric Company also has requested that the attached proprietary documents be returned in their entirety to Licensee when the NRC review is complete.
J.
F.
Buckley, a PECo engineer, generated all of the FROSSTEY input decks, including the four input decks of interest, used in the fuel performance methods report.
These input decks were then checked for consistency with the fuel performance technical
)
proccdures by S. A. Auve, also a PECo engineer.
The input decks were also independently reviewed by an author of the FROSSTEY l
code, K.
E. St. John of Yankee Atomic Electric Company.
W. R. Butlcr March 28, 198 Page 3 of 3 To maintain and increase PECo's level of expertise in the use of the FROSSTEY code, the author of the PECo Fuel Performance Methods Report has trained another PECo engineer in the use of the PROSSTE'l technical procedures for generating data to be used in licensing calculations.
This training will ensure that PEC0 has an internal, independent review process for the FROSSTEY calculations.
PECo plans to maintain contacts with Yankee Atomic Electric Company to keep abreast of any improvements and/or modifications to the PROSSTEY code.
PECo engineers also attend various EPRI and utility fuel performance meetings to remain cognizent of fuel performance developments, alternate codes and modeling techniques (such as tha ESCORE code which is currently under NRC review).
If you have any questions or require additional information, please do not hesitate to contact us.
Very truly yours, Enclosures cc:
Addressee W. T. Russell, Administrator, Region I, NRC (w/o enclosure)
T.
P. Johnson, NRC Resident Inspector (w/o enclosure)
R.
E.
Martin, NRC Peach Bottom Project Manager (w/o enclosure)
GENERAL ELECTRIC C0MPANY AFFIDAVIT I, Rudolph Villa, being duly sworn, depose and state as follows:
1.
I am Manager, Consulting Services, General Electric Company, and have been delegated the function of reviewing the information described in paragraph 2 which is sought to be withheld and ha.e been authorized to apply for its withholding.
2.
The information sought to be withheld is contained in the attached listing (s) of input files for the Philadelphia Electric Company computer code "FROSSTEY".
Information contained in the listing which is CE Proprietary comprises the following fuel design parameters: rod initial internal gas pressure (s) and composition (s), cladding dimension (s), pellet diameters (s), initial and post-irradiation pellet densities, pellet sorbed gas content (s), surface roughnesses of pellet and inner cladding surface (s), and plenum volume (s).
3.
In designating material as proprietary, General Electric utilizes the definition of proprietary information and trade secrets set forth in the American Law Institute's Restatement of Torts, Section 757.
This definition provides:
"A trade secret may consist of any formula, pattern, device or compilation of information whien is used in one's business and which gives him an opportunity to obtain an advantage over competitors who do not knov or use it....
A substantial element of secrecy must exist, so that, except by the use of improper means, there would be difficulty in acquiring informaticn..
Some factors to be considered in determining whether given information is one's trade secret are: (1) the extent to which the information is known outside of his business; (2) the extent to which it is known by employees and others involved in his business; (3) the extent of measures taken by him to guard the secrecy of the information; (4) the value of the information to him and to his competitors; (5) the a.nount of effort or money expanded by him in developing the information; (6) the ease or difficulty with the which the information could be properly acquired or duplicated by others."
4.
Some examples of categories of information which fit into the definition of proprietary information are:
a.
Information that discloses a process, method or apparatus where prevention of its use by General Electric's competitors without license from General Electric constitutes a competitive economic advantage over other companies;
b.
Information consisting of supporting data and analyses, including test data, relative to a process, method or apparatus, the application of which provide a competitive economic advantage, e.g., by optimization or improved marketability; c.
Information which if used by a competitor, would reduce his expenditure of resources or improve his competitive position in the design, manufacture, shipment, insta11atien, assurance of quality or licensing of a similar product; d.
Information which reveals cost or price information, production capacities, budget levels or commercial strategies of General Electric, its customers or suppliers; e.
Information which reveals aspects of past, present or future General Electric customer-funded development plans and programs of potential commercial value to General Electric:
f.
Information which discloses patentable subject matter for which it may be desirable to obtain patent protection; g.
Information which General Electric must treat as proprietary according to agreements with other parties.
5.
Initial approval of proprietary treatment of a document is typically made by the Subsection manager of the originating component, the person who is most likely to be acquainted with the value and sensitivity of the information in relation to industry knowledge. Access to such documents within the Company is limited on a "need to know" basis and such documents are clearly identified as proprietary.
6.
The procedure for approval of external release of such a document typically requires review by the Subsection Manager, Project Manager, Principal Scientist or other equivalent authority, by *te Subsection Manager of the cognizant Marketing function (or delegate) and by the Legal Operation for technical content, competitive effect and determination of the accuracy of the proprietary designation in accordance with the standards enumerated above.
Disclosures outside General Electric are generally limited to regulatory bodies, customers and potential customera and their agents, suppliers and licensees then only with appropriate protection by applicable regulatory provisions or proprietary agreements.
7.
The document mentioned in paragraph 2 above has been evaluated in accordance with the above criteria and procedures and has been found to contain information which is proprietary and whien is customarily held in confide 7ce by General Electric.
8.
The information to the best of my knowledge and belief has consistently been held in confidence by the General Electric Company, no public disclosure has been made, and it is not available in public sources.
All disclosures to third parties have been made pursuant to regulatory provisions of proprietary agreements which provide for maintenance of the information in confidence.
9.
Public disclosure of the information sought to be withheld is likely to cause substantial harm to the competitive position of the General Electric Company and deprive or reduce the availability of profit making opportunities because it would provide other parties, including competitors, with valuable information STATE OF CALIFORNIA
) ss:
COUNTY OF SANTA CIARA
)
Rudolph Villa, being duly sworn, deposes and says:
That he has read the foregoing affidavit and the matters stated therein are true and correct to the best of his knowledge, information, and belief.
Executed at San Jose, California, this 2 7 y of fMW, 19d.
V Y8 Rudolph Viila General Electric Company Subscribed and sworn before me thisJ ay of /s/4uso,198L.
/
(%
Y f
/
NOTARY PUBLIC, STATE OF CALIFORNIA f @ NOTAW pugDC
- CAUFoRNIA OFFICIAL SEAL j
MARY l KENDAll I
r twA cura coum j~N1"21fflug' i
l l
~.
PHILADELPHI A ELECTRIC COM PANY 2301 MARKET STP.EET P.O. BOX 8699 PHILADELPHIA PA 19101 (zis) est soot
- ostes vv. G AIA AGHtR VIC E P A E SIDE NT Docket Nos.
50-277 50-278 Mr. W. R.
Butler, Director Project Directorate I-2 Division of Reactor Projects I/II U. S. Nuclear Regulatory Commission ATTN:
Document Control Desk Washington, D.C.
20555
SUBJECT:
Philadelphia Electric Company In-House Reload Licensing
REFERENCES:
1)
Letter from R. F. Martin (NRC) to E. G. Bauer, Jr.
(PECo) dated January 20, 1982 2)
Topical Report, PECO-FMS-0003, "Steady State Fuel Performance Methods Report", submitted to NRC by PECo letter dated July 13, 1987
Dear Mr. Butler:
The reference 1 letter requested Philadelphia Electric Company (PECo) to provide additional information to the NRC regarding the reference 2 topical report.
The NRC's two questions are restated below followed by PECo's response.
QUESTION '..
Does PECo intend to use FROSSTEY for input to LOCA analyses and the determination of end-of-life internal rod pressure?
If not, please state which licensing analyses the FROSSTEY code will be used to support, e.g.,
in reload applications, would it support the analyses for one percent cladding strain or hot channel analyses of CPR?
?
w-c.
. -. - _,., ~ _ - _, -.
, J.
W. R. Butler March 28, 198 Page 2 of 3
RESPONSE
PECo does not intend to use the PROSSTEY computer code for LOCA analyses or for end-of-life internal rod pressure determination at this time.
The PROSSTEY code is intended, in reload applications, to generate core average and hot channel gap conductances for system transient and hot channel CPR analyses.
PECo also requests approval for the possible future use of FROSSTEY in the generation of fuel temperatures for reload applications.
QUESTION 2:
In order to evaluate PECo's proficiency in the use of PROSSTEY, please provide the FROSSTEY input used to calculate hot channel gap conductance and volume average temperature versus burnup for batches 8 and 13 in the submitted report.
How many individuals (including any non-PECo personnel) were involved in the modeling of input to the code?
Indicate their particular contribution to each of the four test exercises.
Please indicate what steps PECo has taken to ensure that the level of expertise which has been demonstrated in this series of exercises will be maintained in the future.
RESPONSE
The requested FROSSTEY input files are attached.
General Electric Company has informed PECo that the attached documents contain information that it considers to be confidential and proprietary.
Accordingly, it is hereby requested that the enclosed PROSSTEY input files be withheld from public disclosure in accordance with Section 2.790 of the Commission's Regulations.
An executed affidavit of General Electric Company setting forth the grounds to support this request is attached.
A non-proprietary version of the requested PROSSTEY input files is also I
attached.
General Electric Company also has requested that the attached proprietary documents be returned in their entirety to j
Licensee when the NRC review is complete.
1 J. F. Buckley, a PECo engineer, generated all of the PROSSTEY input decks, including the four input decks of interest, used in l
the fuel performance methods report.
These input decks were then l
checked for consistency with the fuel performance technical l
procedures by S. A. Auve, also a PECo engineer.
The input decks were also independently reviewed by an author of the PROSSTEY
- code, K.
E. St. John of Yankee Atomic Electric Company.
W.
R. Butler March 28, 198 Page 3 of 3 To maintain and increase PECo's level of expertise in the use of the FROSSTEY code, the author of the PECo Fuel Performance Methods Report has trained another PECo engineer in the use of the FROSSTEY technical procedures for generating data to be used in licensing calculations.
This training will ensure that PECo has an internal, independent review process for the PROSSTEY calculations.
PECo plans to maintain contacts with Yankee Atomic Electric Company to keep abreast of any improvements and/or modifications to the PROSSTEY code.
PECo engineers also attend varicus EPRI and utility fuel performance meetings to remain cognizant of fuel performance developments, alternate codes and modeling techniques (such as the ESCORE code which is currently under NRC review).
If you have any questions or requirn additional information, please do not hesitate to stontact us.
Very truly yours, p./ LoL g
Enclosures cc:
Addressee W. T. Russell, Administrator, Region I, NRC (w/o enclosure)
T. P. Johnson, NRC Resident Inspector (w/o enclosure)
R. E. Martin, NRC Peach Bottom Project Manager (w/o enclosure) i I
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0 0
0 6
6613.9 11.8000 0
0 0
0 0
7 7716.2 11.9000 0
0 0
0 8
E018.5 12.0000 0
0 0
0 9
9920.8 12.1000 0
0 0
0 10 11023.1 12.2000 0
0 0
0 0
11 12125.4 12.2200 0
0 0
0 9
12 13227.7 12.2400 0
0 0
0 0
8 8
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l OOOOOOOOOOOOOOOOOOOODCOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOO OOCOOOOOOOOOOOOOOOOOOOOOOOOO C000000000000000000000000000 l
0000000000000000000000000000 l
4,*48Ef4S"$863MA88R$8AU8h83$$%
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C0IP42:0.0, CVOIDZ:0.0, EXTP=1050.0, h()N ~
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ROUTE j
ROUCr TINLET=527.2532.
TfD Z 790.0, SIC 1tr=-1.0, VPl[NZ=
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e XCO=
HINLEfr520.7285, FRGAD=0.0500.
O "-
C=t roott *T10tc ICREP=-1, ICCr=0, ICOR=1,
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O n= = 0, ICLPROt1i=8*7, IVEHDRtIl=B*1, O
EllD OF DEF AULT t100CL INPUT VALUES O-SEND e
O:
I 1102.3 11.2000 0
1 0
0 it.*> C m m 0 C m1No i nPm =2+ > iCnCmATeo av sa 3m86 >
Oj 0.3535 0.5057 0.6513 0.788+
0.9152 1.0300 1.131.
1.2179 9
1.2806 1.3+2+
1.3787 1.3969 1.3969 1.3787 1.3 2+
1.2686 O
1.2179 1.131+
1.0300 0.9152 0.788+
0.6513 0.5057 a.3535 2
2204.6 11.3250 0
0 0
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3 3306.9 11.+500 0
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0
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0 0
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5 55u..
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0 0
0 6
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F RSItJ z0. 98, FRPUO2=0.0, FR35=0.02990, FR40=0.0, FR41=0.0, LFUEL=150.00, LVOIDZ=0.00.
O PaioEP=0.96, PaCDH=0.0, a>Ds=0.0, RCUCs ROUF=
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OIGHF=-1.0.
tit 1LET=527.2532.
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FROAD=0.0000, e
e CODE t100EL OPTIERG O-ICDF=0, ICOR=1, ICREP=-1.
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1PEu=1, IR[ toc =1, m*,
IT=1, IZCLAD=0, ICOLf 3 T =1, IILAD=0, NFLX=0, f4FUE L=0, O
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IvEteni1>=8 1,
[PID OF DEFAULT HODEL INPLTT VALUES e
O.stro e
BASE CASE FOR FUEL TEMPERATURE DETEPJ11 NATION O-1 1000.0 5.5616 0
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0.1646 0.5256 0.6782 0.8015 0.8888 0.9518 0.9986 1.0352 1.0653 1.0906 1.1121 1.1310 1.1477 1.1630 1.1771 1.1908 O
g 1.2061 1.2228 1.2385 1.2512 1.256+
1.2+26 1.179+
1.0197 0.3019 2
2000.0 5.5616 0
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d55555555555555555555555555555dJ 99*.*999**99**.**999*.999.*..*.*9.9.9 OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO COOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO O M N M J A 4 N 80 P O M N M f 4 4 N O e O N N M # 4 4 N O & OM i
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a END of DEFAULT N00EL INPUT VALUES O-SEND e
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2000.0 5.5616 0
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0 O
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4 4000.0 5.5616 0
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DE=0.5968, DFS=
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4 DSIrlZ=0.0, DVOIDZ=0.0, EXTP=1050.0, DYdMkL bdf0(h FRACHEm FRACH=
FRACAR=
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FRSIN=0.98, bOM" b b[N hC FRDEN2=
FRDFN=
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LFUEL=150.00, LVOIDZ=0.00, PGIDEP =0.96 a PRCDil=0.0, RADS =0.0, S=
, _ _, l ROUF=
ROUCm SIGIIF=-1.0, TINLET=527.2532, TH=2790.0, TPLAS=1200.0, V=6.3799, VPLF.NZs XNa Xilz Xr0=
HttiLET=520.7285.
FRGAD=0.0000, a
1 m
CODE HODEL OPTIONS I
ICDF=0, ICOR=1, ICREP=-1,
,__,,_3 ICRLPM=0, IDENSF=1, IGA 3=0, 1HGSLD=0, 10PEXP=0, IOPFGR=0, IPEAK=0, IRELOC=1, IRL=0, IT=I, IZCLAD=0, ICOLNT=1, NC'.AD=0, NFLX=0, NFUEL=0, j
- NDH20, NPON=24, ICLPRotIl=8m2, IVENDRt13=8*1, l
.... l END OF DEFAULT MODEL INPUT VALUES n
$END 1
1102.3 11.0000 0
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{
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e CODE N00EL OPTI0tG m
ICDF=0, ICOR=1, ICREP=-1, ICREPM=0, IDEPCF=1, IGAS=0, IMOSLD=0, IOPEXP=0, 10?FGP=0, IPEAK=0, IRELOC=1, IRL=0, IT=1, IZCLAD=0, ICOLNT=1, NCLAD=0, NFLX=0, NFUEL*0, NOH=0, NPOH=24, i
i ICLPROI1)=8m2, IVENDRt1)=8ml, e
~~~~
END OF DEFAULT HODEL INPUT VALUES m
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NOH:0, NPOH=24, ICLPROI1)=8*2, IVENDRt1)=8ml, END OF DEFAULT HODEL INPUT VALUES e
TEND g
e a
1 1102.3 11.2000 0
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e END OF DEFAULT HODEL INPUT VALUES
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$END e
n
--- -~
m BASE CASE FOR FUEL TEMPERATURE DETERMINATION l
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