NOC-AE-14003081, STP-Specific Casa Grande Inputs CASA01 JT4, CASA09 JT4, CASA22 JT4, CASA26 JT4, & CASA43 JT4

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STP-Specific Casa Grande Inputs CASA01 JT4, CASA09 JT4, CASA22 JT4, CASA26 JT4, & CASA43 JT4
ML14052A054
Person / Time
Site: South Texas  STP Nuclear Operating Company icon.png
Issue date: 02/13/2014
From:
South Texas
To:
Office of Nuclear Reactor Regulation
Shared Package
ML14052A110 List:
References
NOC-AE-14003081
Download: ML14052A054 (105)
v  d  e


Text

NOC-AE-14003081 STP CASA Grande Information (Non-Proprietary Version)

CASAO1 JT4

NOC-AE-14003081 Contains No Proprietary Information Alion Science and Technology NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 2 of 20

%LANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLAN LANANLANLANLANLANLAP

% Define Case Folders (Main Project Folder)

"/work/02405/jjtejada/yyeOO/matlabcode/Demo Plant" T Define Working Folders

% Analysis Folder (-/ ... /Case/Analysis)

"Analytic Results" A Run Subfolder (-/... /Case/Analysis/run)

"Tornado"

% Run Sub Subfolder (-/... /Case/Analysis/run/runsub)

"S IMCON" A Run Sub Sub Subfolder (-/... /Case/Analysis/run/run sub/run sub sub)

"Delta Pump Case 01 Shuffle"

% CAD Folder Name (-/... /Case/CAD)

"CAD Files"

% Concrete Sub-Folder K/ ... /Case/CAD/Concrete)

"Concrete Data"

% Equipment Sub-Folder (--/... /Case/CAD/Equipment)

"Equip Data"

% Grating Sub-Folder (-/... /Case/CAD/Grating)

"Grating Data"

% Pipe Sub-Folder (-/... /Case/CAD/Pipes)

"Pipe Data" A Fequency Folder (-/... /Case/Frequency)

"Freq Data"

% Break Frequency (-/... /Case/Frequency/Break)

"LOCA Frequency and Weld Inputs - 12-7-12 Rl.xlsx" T Break Fequency Table (-/... /Case/Frequency/Break/Table)

"LOCA Data"

% Weld Case File (-/... /Case/Frequency/Weld)

"LOCA Frequency and Weld Inputs - 12-7-12 Rl.X:s:-a"

% Weld Case Table (-/. .. /Case/Frequency/Weld/Table)

"Weld Table"

% multiplicative spatial unit conversions

% rectify all CAD elements for consistency

% applied to ALL length units within each CAD file A Concrete Multiplier 1.0

% Equipment Multiplier 1.0

% Grating Multiplier 1.0

% Pipe Multiplier 1.0

% LOCA bin definitions

Attaclment 7 NOC-AE- 14003081 Non-Proprietary CASAO1 JT4 Page 3 of 20

% (units consistent with freq dists and CAD data)

% List Number of Defined Break Size Limits

% ie. SB,MB,LB (3 designations)

% However more sizes are allowable V List Sizes 0.5 2.0 6.0

% CAD and Plotting Options (1/0 = Y/N)

% Show CAD Reproduction 0

Q Show Concrete and Gratings 0

1 Produce Intro Movie and Stop 0

% Debris Passage Correlation 0

% Sample Flow Rates 0

% Random Input Distributions 0

% ZOI Radial Inflation Factor(Plotting Only) 50 A ZOI Plotting Interval I# of breaks between plots) 25

% spatial resolution for discretizing insulation

% (must repeat weld target sort if these are changed. delete all master

% files and rerun with new delL and Nanqbin)

% Linear Resolution (in.)

6

%Azimuthal Bins in 2 Pi Radians on Pipes 12 T --------------------------------------------------------------------------

% Head Loss Option

% porosity calc (1/2 = vol / mass weighting)

% (vol weighting was found to be more conservative) 1 I Synonyms tables for nonstandard welds, hangars and valves and Equipment

% Number of Valve synonyms 5

% Valve Synonyms Valve VALVE MOV XRH FCV A Number of Hangar Labels 14

% Hangar Synonyms Hangar Hanger HL AF GU SS SH RR RH "Work Point" "work point" "Work point" "work Point" "WORK POINT"

% Number of Weld Synonyms 4

NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 4 of 20 S Weld Synonyms FW Weld WELD FS Number of Steam Generator Synonyms 2

% Steam Generator Synonyms SG SteamGenerator S Number of Reactor Coolant Pump Synonyms t Reactor Coolant Pump Synonyms RCP ReactorCoolantPump

% Number of Pressurizer Synonyms 3

% Pressurizer Synonyms PZR PRZR Pressurizer

% Number of RHR Synonyms 2

% RHR Synonyms RHR ResidualHeatRemoval

%Statistics Sampling Options

%Sampling Method

% (0/1/2/3 = CASA default / MatLab default / shuffle / read file) 2

%If Option 3 specified, set file name in case folder below

%If not LEAVE BLANK S max # LHS bins in LLOCA for max DEGB (DEGB counts as 1)

S Nmaxbr k 2 => 2044 total breaks A Nmaxbrk = 3 => 2100 total breaks S Nma.brk = 5 2250 total breaks

% Nma.brk = 10 3070 total breaks 5

% # LHS replicates (batches) for each frequency CCDF 20

% # epistemic freq envelope samples I current models process --110 cases per minute 15 T logarithmic base for sampling epistemic frequency envelope 2

S lower limit of highest epistemic frequency bin 0.99

% # interpolation pts in each break freq ccdf 1000 S logarithmic base for sampling break size

% (double check routine before changing this from base 10) t0 NOC-AE- 14003081 Non-Proprietary CASAO1 JT4 Page 5 of 20

%Insulation Characteristics t Number of Low Density Fiberglass Zones 03 U

Z. Number of Debris Types 8

% Debris Types NUKON NUKON 2 MICROTHER1M PRMI LEAD "THEPId1AL WRAP" IOZ ALKYD

,Debris treated as LDFG

% 1/0 -, yes/no 1 1 0 0 0 1 0 0

%Debris treated as microtherm

% 1/0 -- > yes/no 0 0 1 0 0 0 0 0

% Damage Radii with statistics definitions

% Material V Statistics

% random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (rero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/emrpirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

)7) logarithmic sample base (0 = linear scale)

(

8 (8 ... ) empirical pdf must provide equal # of : then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of x:y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 34 5 6 1

17 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

28.6 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0

% Debris Properties Table I (denote particulate/fiber = sphere/cylinder = 1/2)

% (do NOT add to or reorder this list unless code is modified)

NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 6 of 20 (inventory of fibers with cylindrical geom must be given in ft"3)

(can 'fake' the diameter to match a given Sv using std geom formulas)

(inventory of particulates with spherical geom must be given in lbm)

(this list MUST include every debris type of interest)

(if unknown, set "manufactured" density of particulate to <20'% of Rho mat)

(based on comparison of Fe02 to BWR sludge compaction density)

'label' DebrisPropi 'Geom' ' Diam' ' Rho mat' 'Rho mfc'

% native units '.sph, cyi' 'um' 'ibm/: ft'3' lbm/ft-3

% calc units 'sph,cyl' 'mi' 'hg/mi `.3' ' kg/m°3' "LDFG - fines" 2 7 175 2.4 "LDFG - small" 2 7 175 2.4 "LDFG - large" 2 7 175 2.4 Te

u:ý 165 Diameters of SiO2 and TiO2 "jtm - m-Si02"l1 2.5 7y 2-7.4 "Ilu rmn- iTi"211 2 52.4 are improperly reversed "Qua -

l~o , oaY- 0 94 "QualCoat - I0Z" 10 208 81.12 "Crud" 1 15 350 70.0 "UQCoat - epox:yfine" 152 124 48.36 "UQCoat - epo:.:yFchp" 1143 124 48.36 "UQCoat - epo:.:ySchp" 1 1143 124 48.36 "UQCoat - epo:.:yLchp" 1 1143 124 48.36 "UQCoat - epoxyCrls" 1 1143 124 48.36 "UnQualCoat - alkyd" 1 10 207 80.73 "UnQualCoat - enamel" 1 10 93 36.27 "UnQualCoat - IOZ" 1 10 244 95.16 "Latent - particulate" 1 17.3 169 33.80 "Latent - fiber" 7 175 2.4 a microTherm constituents (low density concrete with fiber binder)

% mfc'd density (lbm/ft3) 15.0

% mass fraction filamentsflf read 0.03

% mass fraction of SiO2 0.58

% mass fraction of TiO2 0.39

% debris type start and stop times (min after break)

(rate assumed to be uniform from Tstart to Tend)

(rate calc uses inventories defined above)

(introduce "instant" sources over 1 delT)

% (debris from UQCoat cannot have Tstartsrc=0)

% (timing is presently independent of break size)

Start Times 0

0 0 0 0 0 0 0 0 10 10 10 10 10 10 10 10 0 0 C Stop Times 10 10 10 10 10 10 10 10 10 2160 2160 2160 2160 2160 2160 2160 2160 10 10 Noninsulation Debris Quantities

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TED ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of - then y values, NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 7 of 20 first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide numbd~er of :xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6

% qual epoxy in ZOI (ibm) 1 105 0 0 99999 1 0 0

% qual TOZ in ZOT (ibm) 1 39 0 0 99999 1 0 0 crud fines (ibm) 1 24 0 0 99999 1 0 0

% unqual epo::y fine (ibm)

(uniform dist 2 2 234 0 117 234 2 0 0 117 234 0.5 0.5

% unqual epoxy fine chip (ibm)

% (uniform dist) 22 709 0 355 709 2 0 0 355 709 0.5 0.5

% unqual epoxy small chip (ibm)

% (uniform dist) 221 180 0 90 180 2 0 0 90 180 0.5 0.5

% unqual epo:.:y large chip (ibm)

% (uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5

% unqual epoxy curls (lbm)

% (uniform dist) 22 391 0 196 391 2 0 0 196 391 0.5 0.5 r unqual alkyd (lbm) 1 271 0 0 99999 1 0 0 z unqual enamel (lbm) 1 267 0 0 99999 1 0 0

% unqual TOZ (lbm) 1 369 0 0 99999 1 0 0 I latent pariculate (ibm) 1 170 0 0 99999 1 0 0

% latent fiber (ftA3) 1 12.5 0 0 99999 1 0 0 o Time points along accident progression I (assume all trains of injection on initially, w/spray on setpoint trip)

(assume HPSI and LPSI both run, but LPSI flow negligible until depress)

(1 of 3 spray pumps can be turned off, all HPSI can be turned off for M,L)

NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 8 of 20 (for degraded condition with < ma:-: trains, DON'T e::ercise any options)

% ma:: time of interest (hr) 36

%*****'Recirculation Times.***

%Number of break sizes for recirc table 7

%Recirc Time Table 1.5 2 4 6 8 12 27.5 %Break Size (in.)

337 79 56 44 38 31 30 %Time to recirc (min)

%******Other LOCA Times*-"**"

% time to ONE spray pump off (min) (S,M,L)

% (if 0.0, NO spray pumps run)

% With Statistics

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

' (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of :< then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of ::y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 31 81 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

20 5 0 99999 1 0 0 1

20 5 0 99999 1 0 0 time to ALL spray pumps off (min) (S,M,L)

One Row for each size designation (see LOCA bin definitions) random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of :.:y pairs ie. below where 3 pairs are 1 2 3 4 5 6 n2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

390 5 390 420 1 0 0 1

390 10 390 420 1 0 0 1

390) 15 390 450 1 0 0

% time to retire 1 full train (min) (S,M,L)

% (this prob never happens, keep as option)

% (it would be the train with spray off already)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

NOC-AE- 14003081 Non-Proprietary CASAO 1 JT4 Page 9 of 20

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit A (4) upper limit A (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type A if (2) or empirical provide nurser of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%l 0 0 99999 2 0 0 1 2 3 4 5 6 gg9 0 0 g999920 1 0 0 1

199999 0 0 99999 1 0 0 99g9g 0 0 99999 1 0 0

% earliest time for chem prod (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TED ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of :z then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%l 0 0 9g999 2 0 0 1 2 3 4 5 6 1 100099999210 0135 0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0

% time to hot leg injection (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

I random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ... )

% (6) conservative direction (0/1 = low/hi) i (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2( or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 9g9gg9g 2 0 0 1 2 3 4 5 6 23602 0934536020013453600560.

360 0 345 360 2 0 0 345 360 0.5 0.5 22 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2 360 0 345 360 2 0 0 345 360 0.5 0.5

% Chemical Product Variables

Attaclunent 7 NOC-AE- 14003081 Non-Proprietary CASA01 JT4 Page 10 of 20 pool temp (degF) where chem prods form With statistics random-variable definitions:

(1) first parameter (rean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TED ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 - linear scale)

(6 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

4 Provide distribution type I if (2) or empirical provide number of y-:vpairs

% ie. below where 3 pairs are 1 2 3 4 5 6

.2 3

%1 0 0 9g9g, 2 0 0 1 2 3 4 5 6 1

140 5 0 99999 1 0 0 4 bump factor for chems when t>=Tchem and T<=ChemTemp (S,M,L)

% (spec mean as if min=0, but set min and max to shifted range)

% (preselect mean and ma:- to set desired tail prob in last sample pt) z random-variable definitions:

S(1) first parameter (mean/geom mean/mean) 4 (2) second parameter (std dev/geom std dev) (zero sigma returns mean) 4 (3) lower limit

- (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of :.: then y values,

% first four entries are ignored.

% Provide distribution type if (2) or empirical provide number of :-:y pairs o ie. below where 3 pairs are 1 2 3 4 5 6 42 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

1.25 0.64 1 15.3 3 1 10 4 truncated e::ponential 3 2 1.50 0.44444 1 18.2 3 1 10 1 2 0.5 0.. 5  % truncated ex:ponential 3 2 2.00 0.25 1 24 3 1 10 1 10 1 0.5  % truncated exponential

% thresholds of concern

% (logical distribution functions. NOT part of sequence variability)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TED ...

I (6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6

% core blockage limit (g/FA) HL breaks 1

NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 11 of 20 99999j 0 0 0 i 0 0 core blockage limit (g/FA) CL break 1

99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for HL brk before HL inject (should never fail by this mode) 1 99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for CL brk before HL injection 1

7.5 0 0 0 1 0 0 I limit for strainer buckling (ft hto) 1 9.35 0 0 0 1 0 0 I void fraction at pump inlet (@ train) 1 0.02 0 0 0 1 0 0

%Plant State Table Data

% Operable Trains

% Train X Pump Matrix

% three trains operable (Case 01) e lpsi hpsi spray 1 1 1 A 1 1 1 %B 1 1 I %C I two trains o perable (Case 22) lpsi hpsi spray

% 1 0 1 %A

% 1 1 %B.

0 0 QIC one train operable (Case 43) lpsi hpsi spray 1 1 1 IA 0 0 0 %B 0 0 0 2C two LHSI pumps failed (Case 09)

% lpsi hpsi spray 1 1 1 IA 0 1 1 IB 0 1. C one train fail + one additional LHSI fail (Case 26) lpsi hpsi spray 1 1 1%A 0 1 1 lB 0 0 0 %C I # reactor coolant pumps (in CAD) 4 I # pressurizers (in CAD) 1 I # RHR pumps (in CAD) 3

  1. steam generators (in CAD)

NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 12 of 20 s time increment for evaluation (min) 2

% misc debris area (ft'2) total in containment 1

I00 0 0 99999 1 0 0

% fraction of misc debris overlap (arrives @ tO) 0.25

% thin-bed thickness (in) 0.0625 clip ZOI with walls (1/0 = y/n)

I

% const fiber filtration eff in fuel 1.0

% strainer height (ft) 3.25

% containment rel humidity 1.00

% sulmp rel humidity 1.00 I # fuel assemblies 193

% inflation of delP before chem bump 1

5 1 1 10 1 0 0 4 4

%+*o***Min Flow to Cool Core*** ****z*+** *

%Number of time and flow rate points 30

% Time post SCRPM (hr)

% Must be equal to number of time and flow rate points 0.0028 0.0042 0.0056 0.0111 0.0167 0.0222 0 .0278 0.0417 0.0556 0.1111 0.1667 0.2222 0 .2778 0.4167 0.5556

1. 1111 1.6667 2.2222 2.7778 4.1667 5.5556 11.1111 16.6667
27. 7778 41.6667 166.6667 222.222 277.7778

%%Flow Rate (gpm)

% Must be equal to number of time and flow rate points 1414 .7000 1323.5000 1260.9000 1113.4000 1030.5000 973.3000 931.3000 859.3000 812.3000 711.0000 654.7000 614.2000 581.8000 523.1000 480.9000 388. 1000 342.4000 315.1000 295.7000 265.1000 245.5000 204.2000 182.7000 168 .7000 158.1000 139.8000 99. 0000 84.1000 74.4000 67.7000

%** ******÷Special Weld **********

% single-case tracer (weld location name - from table)

% specialweld = '31-RC-1102-NSS-I.I';

% If special weld input select 1 else 0 0

NOC-AE- 14003081 Non-Proprietary CASA01 JT4 Page 13 of 20

% If 1 write weld name

% else leave blank

% nominal pool volume (ft'3) and area (ft"2)

% (uniform distribution between min and ma:: pool volumes - S,M,L) 22 000020 0 43464 61993 .5 .5 %SBLOCA 000020 0 39533 69444 .5 .5 %MBLOCA 0 0 0 0 2 0 0 45201 69263 .5 .5 CLBLOCA

% Pool Area (ft^2) 12301

% clean strainer attributes

% clean area of ONE strainer (ft 1.8185e+003 0

% clean area of one OLD strainer (ft -2) 8155.4 max clean strainer head loss (ft h2o) 0.22

% single pump runout volume rates (gpm) (S, M, L) 6 high-pressure max injection rates 1620

% low-pressure injection rate 2800

% Containment Spray Rate (all states e:xcept Case 43) 2 2 0 0 1932 2350 2 0 0 1932 9350 0.5 0.5 2 02 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 22 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5

% Containment Spray Rate (Case 43) 10 2 60 0 2080 2600 2 0 0 2080 2600 0.5 0.5

%2 2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

%ý2 _2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5 geometric loading table for a single train:

thickness x(in) and strainer area A(ft"2) as functions of debris volume V(ft"3). see supplementary routine StrainerArea for geometry definition and assumptions. must be single-valued functions. May be slight mismatch in compression for thickness estimation between this table and deiP routine, but low flow rate indicates low fiber compression.

V(ft'3)  :.: (in) A (fr 2)

% switch table on/off = 1/0, list length of table

% if 0 a flat appro:.:imation will be used

% for old strainers 1 28

% Table Values

% If Table off leave blank 0 0 1.8185e+003 8.1790e+001 5.00OOe-001 4.1900e+002 8.1800e+001 5.01OOe-001 4.1931e+002 2.8016e+002 8.1421e+000 4.4718e+002 4.7853e+002 1.5783e+001 5.9256e+002 NOC-AE-14003081 Non-Proprietary CASA01 JT4 Page 14 of 20 6 .7689e+002 2.3424e+001 7. 4768e+002 8 .7526e+002 3.1065e+001 9. 1253e+002

1. 0736e+003 3.8706e+001 1. 0871e+003
1. 2720e+003 4.6348e+001 1.2714e+003
1. 4703e+003 5.3989e+001 1. 4655e+003
1. 6687e+003 6.1630e+001 1 6692e+003 1 .8671e+003 6.9271e+001 1 .8827e+003
2. 0654e+003 7.6912e+001 2. 1060e+003 2.2638e+003 8.4553e+001 2. 3389e+003
2. 4622e+003 9.2194e+001 2. 5616e+003 2 .6605e+003 9.9835e+001 2. 8341e+003 2 .8589e+003 1.0748e+002 3. 0962e+003
3. 0573e+003 1.1512e+002 3. 3681e+003 3.2556e+003 1.2276e+002 3. 6497e+003
3. 4540e+003 1.3040e+002 3. 9411e+003
3. 6524e+003 1.3804e+002 4 2422e+003
3. 8507e+003 1.4568e+002 4. 5530e+003 4 .0491e+003 1.5332e+002 4. 8735e+003
4. 2474e+003 1.6096e+002 5. 2038e+003
4. 4458e+003 1.6860e+002 5. 5438e+003
4. 6442e+003 1.7625e+002 5. 8935e+003
4. 8425e+003 1.8389e+002 6.2530e+003
5. 0409e+003 1.9153e+002 6 6222e+003 initiating event frequency and bounded Johnson fit A NUREG-1829 current-day exceedance frequencies (without SG breaks)

S W(# breaks/cal yr of sizes > z)

% Interpolated values for LOCA bins MUST be consistent with LOCAbins def 4 UT Austin fit of epistemic envelope using bounded Johnson pdf.

% Parameters MUST be listed in column order (gamma,delta,xi,lamda)

% each row varies by size, each column varies by %ile (then transposed)

% Break Frequency Table Name "Present-Day Exceedance Frequency"

% Break Sizes in Ascending Order

% These are fixed values

% For Documentation Purpose only 0.5 1.625 2 3 6 7 14 31

% Frequency Table These are fixed values

% For Documentation Purpose only Break Size X Percentile 6.8e-5 5.0e-6 3.69e-6 2.1e-7 6.30e-8 1.4e-8 4 . le-10 3.5e-11 5th ?ile 6.3e-4 8.9e-5 6.57e-5 3.4e-6 1.08e-6 3.le-7 1.2e-08 1.2e-09 50th tile 1.9e-3 4.2e-4 3.10e-4 1.6e-5 5.20e-6 1.6e-6 2.0e-07 2. 9e-08 mean 7.le-3 1.6e-3 1.18e-3 6.le-5 1.98e-5 6.le-6 5. 8e-07 8. e-08 95th %ile

% Table Percentile Values 0.05 0.5 NaN 0.95 % Don't Use Mean for Fitting

% Johnson Parameters

% These are fixed values i For Documentation Purpose only

% gamma delta Hi lambda 1.650950E+00 5.256964E-01 4. 117000E-05 1.420000E-02

1. 646304E+00 4.593913E-01 2.530000E-06 3.200000E-03
1. 646308E+00 4.593851E-01 1 .870000E-06 2.360550E-03
1. 646605E+00 4.589467E-01 1.200000E-07 1.220000E-04
1. 646403E+00 4.566256E-01 3.000000E-08 3.965000E-05
1. 645739E+00 4.487957E-01 6.023625E-09 1.220000E-05
1. 645211E+00 3.587840E-01 2 .892430E-I0 1.160000E-06
1. 645072E+00 3.343493E-01 2. 636770E-11 1.600000E-07

% Strainer-Test Penetration Parameters

% area of test module (ftA2) 91.44

Attaclunent 7 NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 15 of 20 9 fraction of sheddable debris

% (uniform empirical) - (unitless) 2 2 0 0 0 0 2 0 0 0.00956 0.0272 0.5 0.5

% shedding rate (1/min)

, (uniform empirical) 22 0 0 0 0 2 0 0 0.008236 0.0546 0.5 0. 5 a filter efficiency per g (slope)

(uniform empirical) 2 0 n 0 0 2 0 0 0.000339 0.003723 0.5 0.5

% filter fit cut point (g)

% (uniform empirical) 2- 2 0 0 0 0 2 0 0 790 880 0.5 0.5 a initial filter eff (intercept)

(uniform empirical) 2 2 0 0 0 0 2 0 0 0.656 0.706 0.5 0.5

% filter efficiency match pt S (set equal to 1.0 always) 1 1000100

% filter exp rate const (1/g)

% (bimodal empirical) 2- 3 0 0 0 0 2 1 0 0.0011254 0.0013075 0.031787 0.10000 0.45000 0.1000 S Debris Transport Factors

% (enter conservative values here, random variables populated below)

ZOI-generated debris (LDFG fines, LDFG small, LDFG large, uTherm fines, qual coat fines, crud fines)

(columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for SG compartment break)

% these factors were used for Full Batch 2 0.70 0.60 0.22 0.70 0 70 0.70 %F BD upr

0. 30 0.25 0.00 0.30 0.30 0.30 %F BD lwr 0.53 0 . 27 0.00 0.53 0.53 0.53 aF WD UCin 0.47 0.19 0.00 0.47 0.47 0.47 %F WD UCan 0.00 0.27 0.00 0.00 0.00 0.00 .%FWD BCin 0 . 00 0. 00 0 .00 0. 00 0 00 0.00 aFWDBCan 0 .02 0.00 0.00 0.02 0 .02 0 . 012 0 FPF sump 0.05 0.00 0.00 0.05 0.05 0.05 %F PFPnact 1.00 0.64 0.00 1.00 1.00 1.00 %F Rcrc lwr 1.00 0.64 0.00 1.00 1.00 1.00 %F Rcrc WDin
1. 00 0.58 0.00 1.00 1.00 1.00 ,F Rcrc WDan 0.00 0.01 0.01 0.00 0.00 0.00 %F_Ersnspry 0.00 0.07 0.07 0.00 0.00 0). 00 %F Ersn pool S Unqualified coatings outside ZOI a (epo:.:y fines, epo:.xy fine chips, epo:.:y small chips, epoxy large chips,

% epo::y curls, alkyd, baked enamel, IOZ fines)

NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 16 of 20

% (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

%6 (present values from Vol 3 for MB/LELOCA in SG compartment) 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 F fail 0.15 0.15 0.15 0.15 0.15 0.54 0.00 0.83 Fupr 0.02 0.02 0.02 0.02 0.02 0. 46 1.00 0.17 F lwr 0.83 0.83 0.83 0.83 0.83 0 .00 0.00 0.00 F R:.:

0.06 0.06 0.06 0.06 0.06 0.06 0.00 0 . 06 F spry 1.00 0.41 0.00 0.00 1.00 1.00 1.00 1.00 F rcrc 0.00 0.00 0 . 00 0.00 0 . 00 0.00 0.00 0.00 F Ox rcrc Latent Debris (particulate, fiber)

(columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for SG compartment)

L). L)L) U. UU %F B.D upr (1) 1.00 1.00 %F BD lwr (2) 1.00 1.00 %F WD (3) 0.02 0.02 %F PF sump (4) 0.05 0.05 5F PF nact (5) 1.00 1.00 zF Rcrc lwr (6)

%Time and Temperature Data

%Number of Time and Temperature Data Points 162

% time vector (hr) for small-break temperature profile

% (FIRST entry is assumed 2B@ t=0. constant-value extrapolation imposed.

% (time dependent temps ARE currently used in calc, one history for each LOCA)

% time vector (hour) for small (and medium) breaks 0.0000 0.0847 0.0864 0. 0881 0.0897 0.0914 0.0931 0.0947 0.0964 0 .0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081

0. 1097 0 .1139 0.1306 0.1472 0.1639 0. 1806 0.1972 0.2139 0 .2306 0 .2472 0.2639 0.2806 0.2972 0.3139 0.3306 0.3472 0.3639 0 .3806 0.3972 0.4139 0. 4306 0.4472 0.4639 0.4806 0.4972 0 .5139 0.5306 0.5472 0.5639 0.5806 0.5972 0.6139 0.6306 0 .6472 0.6639 0.6806 0. 6972 0.7139 0.7306 0.7472 0 .7639 0 .7806 0.7972 0.8139 0.8306 0.8472 0.8639 0.8806 0.8972 0 .9139 0.9306 0.9472 0. 9639 0.9806 0.9972 1.0139 1.0306 1 .0472 1.0639 1 . 0806 1.3611 1.6944 2.0278 2.3611
2. 6944 3 .0278 3.3611 3.6944 4.0278 4.3611 4.6944 5.0278
5. 3611 5 .6944 6.0278 6.3611 6. 6944 7.0278 7.3611 7.6944 8.0278 8 .3611 8. 6944 9.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56. 0833 68.0833 80.0833 92 0833 104.0833 116.0633 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 260.0833 272.0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463 .8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 597.2222 608.3333 619.'4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667 S temperature (F) profile for small (and medium) breaks 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123.5529 NOC-AE- 14003081 Non-Proprietary CASAO 1 JT4 Page 17 of 20 124.4938 127.6399 129 .7484 131 .0391 149.8002 158.2393 162.7694 165 .4960 167 .3851 168.6688 169.7687 170.9814 171 .9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0061 176. 2923 176.4625 176.4855 176. 3916 176 2055 175. 9468 175.6184 175.2411 174 .8243 174 3902 173.9374 173.4284 172.8459 172.2319 171 .6143 171.0143 170.4548 169.9507 169.5034 169. 1086 168.7661 168 .4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.8947 167.9451 168 .0131 168.0978 170. 0607 170.9606 171.4105 170.8721 169.8110 168.7942 168 .1132 165 . 3090 164 .1228 163.0112 161.4436 159. 9385 158 .1298 158.4517 156.5706 151.6937 163.7090 160 .9624 158.1118 156.1579 154. 6151 153 .2333 151. 9641 150.8191 149.76.67 148.7924 147.8649 136.2080D 129.0230 124 . 9790 122.1450 120 1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109 2090 108.9100 108.5930 108.2810 107.9680 107 .7100 107.4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.8930 105.6660 105.5410 105.3160 105. 1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103 .7910 103.6730 103.5660 103.4520 103.3350 103.1450 103. 1000 102.9130 102 . 8680 102.6810 102.6450 102.5250 102.5160

% time vector (hr) for medium (and small) break temperature profile

% (FIRST entry is assumed 22@ t=0. constant-value e:.:trapolation imposed.

0.0000 0.0847 0.0864 0.0881 0.08 97 0.0914 0.0931 0.0947 0.0964 0 .0981 0.0997 0.1014 0.10331 0.1047 0.1064 0.1081 0.1097 0 .1139 0 . 1306 0.1472 0.16339 0.1806 0.1972 0.2139 0.2306 0 .2472 0 .2639 0 . 2806 0.297 2 0.3139 0.3306 0.3472 0.3639 0 .3806 0 .3972 0.4139 0. 43C)6 0.4472 0.4639 0.4606 0.4972 0 .5139 0.5306 0.5472 0.56339 0.5806 0.5972 0.6139 0.6306 0 .6472 0.6639 0.6806 0.697 2 0.7139 0.7306 0.7472 0.7639 0 .7806 0.7972 0.8139 0.830(6 0.8472 0.8639 0.8806 0.8972 0 .9139 0.9306 0 .9472 0.96339 0.9806 0.9972 1.0139 1.0306 1 .0472 1.0639 1 . 0806 1.361 1I 1.6944 2.0278 2.3611

2. 6944 3 0278 3. 3611 3.6944 4.027 8 4.3611 4.6944 5.0278 5.3611 5 .6944 6. 0278 6.3611 6.69444 7.0278 7.3611 7.6944 8.0278 8 .3611 8 . 6944 9.0278 9.361 1 9.6944 10.0278 20.0833 32 . 0833 44.0833 56.0833 68.0833 80.0833 92 0833 104.0833 116.0833 128.0833 140.0833 152.0633 164.0833 176. 0833 188.0833 200.0833 212.0833 224 .0833 236.0833 248.0833 260.0833 272.0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438R.8889 452.7778 463.8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 5772 .2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature(F) profile for medium brea):s 119.6000 131 .2987 140.1689 150. 3314 156. 1240 159. 2343 162.1567 164. 5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174. 9570 175. 7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123.5529 124.4938 127.6399 129.7484 131.0391 149.8002 158.2393 162.7694 165 .4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173. 7150 174.4595 175.0903 175.6074 176.0061 176.2923 176.4625 176.4855 176.3916 176. 2055 175.9468 175.6184 175.2411 174.8243 174.3902 173.9374

Attaclunent 7 NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page IS of 20 173.4284 172 . 8459 172.2319 171.6143 171.0143 170.4548 169.9507 169. 5034 169 . 1086 168.7661 168.4824 168.2551 168.0847 167.9707 167 9020 167.8705 167.8665 167.8947 167.9451 168.0131 168.0978 170.0607 170 . 9606 171.4105 170.8721 169 . 8110 168.7942 168.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151. 6937 163.7090 160.9624 158.1118 156.1579 154.6151 153 .2333 151.9641 150.8191 149.7667 148.7924 147 .8649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117 . 3166 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111 . 3580 110.8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 1A7. 9 680 107.7100 107 .4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105 .8930 105.6660 105.5410 105.3160 105.1930 105 .0690 104.8440 104. 7250 104.6070 104.3770 104. 3660 104 .1400 104.0230 103.9050 103.7910 103 .6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102 .5250 102.5160

% time vector (hr) for large breaks 0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0 . 0947 0.0964 0.0981 0.0997 0 .1014 0.1031 0.1047 0.1064 .1081 0.1097 0.1139 0.1306 0.1472 0.1639 0 1806 0. 1972 0.2139 0.2306 0.2472 0.2639 0.2806 0.2972 0 .3139 0 3.306 0 .3472 0.3639 .3806 0.3972 0.4139 0.4306 0.4472 0 .4639 0 .4806 0 .4972 0.5139 3.5306 0 .5472 0.5639 0.58016 0.5972 0.6139 0 .6306 0 .6472 0.6639 3 6806 0. 6972 0.7139 0.7306 0.7472 0.7639 0 . 7806 0 .7972 0 .8139 ).8306 0.8472 0.8639 0.8806 0.8972 0.9139 0 . 930 6 0. 9472 0.9639 0 9806 0.9972 1.0139 1.0306 1.0472 1.0639 1.0806 1. 3611 1. 6944 2 .0278 2.3611 2.6944 3 0278 3.3611 3.6944 4 .0278 4. 3611 4.6944 5 0278 5.3611 5.6944 6.0278 6.3611 6. 6944 7 .0278 7 .3611 7.6944 8.0278 8.3611 8.6944 9.0278 9.3611 9. 6944 10. 0278 20.0833 32.0833 44.0833 56.0833 68.0833 80.0833 92.0833 104.08933 116.0833 128 .0833 140. 0833 152.0833 164.0833 176.0833 188 .0833 200 .0833 212 0833 224.0833 236.0933 248 . 0833 260.0833 27. 0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416. 6667 427.7778 438.8889 452.7778 463.8889 475.0000 488.8889 500 . 0000 511.1111 525.0000 536.1111 547 .2222 561.1111 572. 2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature (F) profile for large breaks 119.8113 213.9295 242 .3104 255 .0268 255.7907 253.1617 252.9372 252.5390 351 .9023 250.9733 249.7169 245.8894 235.9856 924.0051 212. 9495 203 .549 195.7225 179.5894 199 .8048 174.8143 174 . 8276 177.3518 180.7405 183.2333 185.1644 186.4925 187.2579 187.8270 188.1924 188.4266 188.5605 188.5934 188 .5042 188. 375 189.3187 189.7570 189.0923 188.5202 188.0148 187.5621 187.4103 187.0671 186. 7330 196.4249 186.1559 186. 7640 186.5012 186.2557 186.0555 185.9119 185.8265 185.8062 185.8495 185.9526 186. 1092 187.8900 187.9673 187.9196 187.9119 187.9385 187.9954 188 . 07103 188.1647 188.2538 188.3385 18R.4003 189.0996 188.9199 188.7439 188.5614 188.3622 188.1314 187.8597 187.5387 187.1667 186.7559 178.4091 171.8762 166. 5421 162.2238 158.1410 154.9818 151.7673 148.9234 146.0834 143.73967 141.6054 13 9.5251 137.9892 136.4819 134.8865 136.9000 136. 6489 135.3569 134.3103 133.2941 132.4453 131.9467 132 . 0536 132.1915 131.3055 130.7946 130.2765 123.0489 118.1991 114.9095 112.4170 110.4096 108.7290 107.2834 106 .Ol52 104.8855 103.8671 1(2.9399 102 .0890 101.3027 100. 5720 99.8894 9(9.2491 98.6461 98.0763 97.5362 97.0229 96.5339 96. 0669 95.6474 95.15 20 94.7720 94.4055 93.9649 93.6254 93.2967 92. 9000 92.5932 92.29953 92.0057 91.6547 91.3822 91.1168 90.7942 90 . 5432 90.2982 89.99 998 89.7671 89.5396 NOC-AE-14003081 Non-Proprietary CASAO1 JT4 Page 19 of 20 89.2620 89.0452 88.8328 88.5733 88.3703 88.1712 87.9276 87.7368 87.5494 87.3198 87.1398 86.9628 86.7457 86.5753 86.4076 86.2427 86.0401

% NPSH parameters:

% (specify any # of pipe segments in common header)

% major HL variables

% absolute roughness of the pipe (ft) 0.00015

% Number of Pipe Segments 6

% pipe diameters (ft) 1.27 .99 1.27 .84 1.27 .99

% pipe lengths (ft) 66.96 25.41 12.00 25.46 11.50 24.91 9 depth of common header (ft) 25.83 25.65 25.83 % LPSI, HPST, SPRY

% NPSH required for each pump (ft water) 12 12 12  % LPSI, HPSI, SPRY minor HL variables 8 # of elbows, tees, entrances, and branches per pipe segment

[(# of 90 degree) (W of 45 degree) (# of gate valves)(# of entrances)(# of tee runs) (# of tee branches)]

4 2 1 1 0 0  % segment AB 3 0 0 0 0 1 T segment BC 0 0 0 0 1 0  % segment BD 3 0 0 0 0 1 1 segment DE 0 0 0 0 1 0 8 segment DF 3 0 0 0 0 1 8 segment FG 8 Newly Added Options

% Use Old Degas Routine? (0 = No, 1 = Yes) 0 8 Use Old NPSH Routine? (0 No, 1 = Yes) 0 A Use Old SI Pump Flow Equation? (0 = No, 1 = Yes) 0

% Use Old Strainer Properties? (0 = No, 1 = Yes) 0 3 Use Common Random Numbers Across Frequency Replications? (0 = No, I = Yes) 0 8 Enable All Plots? (0 = No, 1 - Yes) 1

% Enable Parallel Calculations (0 - No, 1 = Yes)

% CAUTION - USE ONLY IF YOUR KNOW YOUR PC MEETS SPECIFICATIONS!!!..

0

% Number of Parallel Threads 4

8 Use Optimal Frequency Bins for 15 Freps (0 = No, 1 = Yes) 1

Attachunent 7 NOC-AE- 14003081 Non-Proprietary CASAO 1 JT4 Page 20 of 20 Use Old Debris Source Rate (Before Error Correction) ? (0 = No, 1 = Yes) 1 9 Use Old Latent Debris Transport. Equations (Before Error Correction) ? (0 ý No, 1 = Yes) 1

NOC-AE-14003081 Attachment 8 STP CASA Grande Information (Non-Proprietary Version)

CASA09 JT4

NOC-AE- 14003081 Contains No Proprietaiy Information Alion Science and Technology NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 2 of 20

%LANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANANLANLALANLALA%

% Define Case Folders (Main Project Folder)

"/work/02405/jjtejada/yyeO0/matlabcode/Demo Plant"

% Define Working Folders t" Analysis Folder (-!/... /Case/Analysis)

"Analytic Results"

% Run Subfolder (-/ ... /Case/Analysis/run)

"Tornado"

% Run Sub Subfolder (-/... /Case/Analysis/run/run sub)

"S IMCON"

% Run Sub Sub Subfolder (-/. .. /Case/Analysis/run/run sub/run sub sub)

"Delta Pump Case 09 Shuffle"

% CAD Folder Name (-/... /Case/CAD)

"CAD Files"

% Concrete Sub-Folder (-/... /Case/CAD/Concrete)

"Concrete Data"

% Equipment Sub-Folder K-/... /Case/CAD/Equipment)

"Equip Data"

% Grating Sub-Folder (-/. .. /Case/CAD/Grating)

"Grating Data"

% Pipe Sub-Folder .~/... /Case/CAD/Pipes)

"Pipe Data"

% Fequency Folder -- /... /Case/Frequency)

"Freq Data"

% Break Frequency (K/... /Case/Frequency/Break)

"LOCA Frequency and Weld Inputs 7-12 Rl.xlsx

A Break Fequency Table (-/... /Case/Frequency/Break/Table)

"LOCA Data"

% Weld Case File (-/... /Case/Frequency/Weld)

"LOCA Frequency and Weld Inputs 7-12 Rl..lsx"

% Weld Case Table (-/... /Case/Frequency/Weld/Table)

"Weld Table"

% multiplicative spatial unit conversions

% rectify all CAD elements for consistency

% applied to ALL length units within each CAD file

% Concrete Multiplier 1.0

% Equipment Multiplier 1.0

% Grating Multiplier 1.0

% Pipe Multiplier 1.0

Attaclmuent 8 NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 3 of 20

% LOCA bin definitions

% (units consistent with freq dists and CAD data)

% List Number of Defined Break Size Limits I ie. SB,MB,LB (3 designations)

I However more sizes are allowable 3

% List Sizes 0.5 2.0 6.0

% CAD and Plotting Options (1/0 = Y/N)

% Show CAD Reproduction 0

% Show Concrete and Gratings Produce Intro Movie and Stop 0

Debris Passage Correlation 0

Sample Flow Rates 0

Random Input Distributions 0

I ZOI Radial Inflation Factor(Plotting Only) 50

% ZOI Plotting Interval (# of breaks between plots) 25 I spatial resolution for discretizing insulation

% (must repeat weld target sort if these are changed. delete all master

% files and rerun with new dell and Nangbin)

% Linear Resolution (in.)

6

%Azimuthal Bins in 2 Pi Radians on Pipes 12

% Head Loss Option

% porosity calc (1/2 = vol / mass weighting)

% (vol weighting was found to be more conservative) 1

? Synonyms tables for nonstandard welds, hangars and valves and Equipment

% Number of Valve synonyms 5

% Valve Synonyms Valve VALVE MOV XRH FCV

% Number of Hangar Labels 14

% Hangar Synonyms Hangar Hanger HL AF GU SS SH RR RH "Work Point" "work point" "Work point" "work Point" "WORK POINT"

% Number of Weld Synonyms NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 4 of 20 4

% Weld Synonyms FW Weld WELD FS

. Number of Steam Generator Synonyms 2

% Steam Generator Synonyms SG SteamGenerator

% Nurser of Reactor Coolant Pump Synonyms 2

% Reactor Coolant Pump Synonyms RCP ReactorCoolantPump

% Number of Pressurizer Synonyms 3

3 Pressurizer Synonyms PZR PRZE Pressurizer

% Number of RHR Synonyms 2

% RHR Synonyms RHR ResidualHeatRemoval

%Statistics Sampling Options

%Sampling Method

% (0/1/2/3 = CASA default / MatLab default / shuffle / read file)

%If Option 3 specified, set file name in case folder below

%If not LEAVE BLANK

% max f LHS bins in LLOCA for max DEGB (DEGB counts as 1)

? Nmaxbrk = 2 2>044 total breaks

% Nrsaxbrk = 3 => 2100 total breaks

% Nmaxbrk = 5 => 2250 total breaks

% Nmaxbrk = 10 => 3070 total breaks 5

% # LHS replicates (batches) for each frequency CCDF 20

% # epistemic freq envelope samples

% current models process -110 cases per minute 15 A logarithmic base for sampling epistemic frequency envelope 2

% lower limit of highest epistemic frequency bin 0.99

% # interpolation pts in each break freq ccdf 1000

% logarithmic base for sampling break size

Attaclunent S NOC-AE- 14003081 Non-Proprietarv CASA09 JT4 Page 5 of 20

% (double check routine before changing this from base 10) 10

%Insulation Characteristics

% Number of Low Density Fiberglass Zones 3

% Number of Debris Types 8

% Debris Types NUKON NUKON 2 MICROTHERM P141 LEAD "THEPRMAL WRAP" IOZ ALKYD

?Debris treated as LDFG

% 1/0 --. yes/no 11000100

%Debris treated as microtherm e 1/0 -- > yes/no 00100000

% Damage Radii with statistics definitions

% Material Y Statistics

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

(2 second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit

% (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi) 9 (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of then y values, first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of :-y pairs 6 ie. below where 3 pairs are 1 2 3 4 5 6

)%23

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

17 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

28.6 0 0) 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 6 of 20

% Debris Properties Table

% (denote particulate/fiber = sphere/cylinder = 1/2)

% (do NOT add to or reorder this list unless code is modified)

% (inventory of fibers with cylindrical geom must be given in ft'3)

% (can 'fake' the diameter to match a given Sv using std geom formulas)

? (inventory of particulates with spherical geom must be given in lbm)

% (this list MUST include every debris type of interest)

% (if unknown, set 'manufactured"' density of particulate to --20% of Rhomat)

% (based on comparison of FeO2 to BWR sludge compaction density)

%'label' DebrisPropi 'Geom' 'Diam' 'Rho mat' 'Rho mfc'

% native units 'sph,cyl' urm 'ibm/ft' 3' ' bm/ft" 3' Imv T kg/m.3'

% calc units 'sph, cyl' kg/m' 3 "LDFG - fines" 2 7 175 2.4 "LDFG - small" 2 7 175 "LDFG - large" 7 175 2.4

,6uTherm5- 65 2.4 11 iO-'1 27 4 Diameters of Si02 and TiO2 rm- 2.5 37

~herm - Ti 02"" 1 ... AE 52 .4 are improperly reversed "I 94 36 66 "QualCoat - 10" 1 10 208 81.12 "Crud" 1 15 350 70.0 "UQCoat - epo:-:yfine" 1 152 124 48. 36 "UQCoat - epo:-:yFchp" 1 1143 124 48.36 "UQCoat - epo::vSchp" 1 1143 124 48. 36 "UQCoat - epo:.:yLchp" 1 1143 124 48. 36 "UQCoat - epoG-:yCrls" 1 1143 124 48. 36 "UnQualCoat - alkyid" 1 10 207 80 -73 "UnQualCoat - enamel" 1 10 93 36.27 "UnQualCoat - IOZ" 1 10 244 95.16 "Latent - particulate" 1 17.3 169 ý3.80 "Latent - fiber" 7 175 2.4 microTlkerm constituents (low density concrete with fiber binder)

% mfc'd density (lbm/ft3) 15.0 mass fraction filamentsflf read 0.03

% mass fraction of Si0?

0.58

. mass fraction of TiO2 0.39

% debris type start and stop times (min after break)

% (rate assumed to be uniform from Tstart to Tend)

(rate calc uses inventories defined above)

(introduce "instant" sources over 1 delT)

% (debris from UQCoat cannot have Tstartsrc=0)

% (timing is presently independent of break size)

% Start Times 0 0 0 0 0 0 0 0 0 10 10 10 10 10 10 10 10 0 0

% Stop Times 10 10 10 10 10 10 10 10 10 2160 2160 2160 2160 2160 2160 2160 2160 10 10 Noninsulation Debris Quantities random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit

Attaclmuent 8 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 7 of 20 4 (4) upper limit 9 (5) library distribution (1/2/3 = normal/empirical/TBD ...

4 (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 ý linear scale) 4 (8 ... ) empirical pdf must provide equal # of x then y values, 2 first four entries are ignored.

4 Provide distribution type

% if (2) or empirical provide numb7er of x--y pairs 4 ie. below where 3 pairs are 1 2 3 4 5 6 42 3

%1 0 0 S9999 2 0 0 1 2 3 4 5 6

% qual epo::y in ZOI (lbm) 1 105 0 0 99999 1 0 0 4 qual IOZ in ZOI (Ibm) 1 39 0 0 99999 1 0 0 crud fines (lbm) 1 24 0 0 99999 1 0 0 9 unqual epox:y fine (lbm) 4 (uniform dist 234 0 117 234 2 0 0 117 234 0.5 0.5 4 unqual epoxy fine chip (lbm) 4 (uniform dist) 2 2' 709 0 355 709 2 0 0 355 709 0.5 0.5 4 unqual epox:y small chip (ibm) 9 (uniform dist) 190 0 90 180 2 0 0 90 190 0.5 0.5

% unqual epoxy large chip (lbm) r (uniform dist) 391 0 196 391 2 0 0 196 391 0.5 0.5

% unqual epox.y curls (lbm)

% (uniform dist) 391 0 196 391 2 0 0 196 391 0.5 0.5

% unqual alkyd (lbm) 1 271 0 0 99999 1 0 0

% unqual enamel (ibm) 1 267 0 0 99999 1 0 0 4 unqual IOZ (lbm) 1 369 0 0 99999 1 0 0

% latent pariculate (lbm) 1 170 0 0 99999 1 0 0

% latent fiber (ft"3) 1 12.5 0 0 99999 1 0 0 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 8 of 20

% Time points along accident progression

% (assume all trains of injection on initially, w/spray on setpoint trip)

V (assume HPSI and LPSI both run, but LPSI flow negligible until depress)

% (1 of 3 spray pumps can be turned off, all HPSI can be turned off for M,L)

% (for degraded condition with < max trains, DON'T exercise any options)

% max time of interest (hr) 36

      • Recirculation Times****.

%Number of break sizes for recirc table 7

%Recirc Time Table 1.5 2 4 6 8 12 27.5 %Break Size (in.)

337 79 56 44 38 31 30 MTime to recirc (min)

%****'*Other LOCA Times*+--****

% time to ONE spray pump off (min) (S,M,L)

% (if 0.0, NO spray pumps run)

% With Statistics

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6 Q2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

20 5 0 99999 1 0 0 1

20 5 0 99999 1 0 0

% time to ALL spray pumps off (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit A (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

4 (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base Q0 = linear scale)

% (6 ... ) empirical pdf must provide equal 4 of Y then y values, first four entries are ignored.

% Provide distribution type if (2) or empirical provide number of :y pairs a ie. below where 3 pairs are 1 2 3 4 5 6

%2 3 1 0 0 99999 2 0 0 1 2 3 4 5 6 1

390 5 390 420 1 0 0 1

390 10 390 420 1 0 0 1

390 15 390 450 1 0 0 NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 9 of 20

? time to retire 1 full train (min) (S,M,L)

% (this prob never happens, keep as option)

% (it would be the train with spray off already)

% One Row for each size designation (see LOCA bin definitions)

A random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit V (4) upper limit

% (5) library distribution (1/2/3 - normal/empirical/TBD ...-

% (6) conservative direction (0/1 - low/hi)

% (7) logarithmic sample base (0 = linear scale) 1 (8 ... ) empirical pdf must provide equal # of :Y:then y values, first four entries are ignored.

% Provide distribution type A if (2) or empirical provide number of xy pairs V ie. below where 3 pairs are 1 2 3 4 5 6

?2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0

% earliest time for chem prod (min) (6,4,L)

% One Row for each size designation (see LOCA bin definitions) random-variable definitions:

A (1) first parameter (mean/geom mean/mean)

V (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ... )

% (6) conservative direction (0/i = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal I of Y: then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of -y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0

% time to hot leg injection (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

V (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of :.:y pairs

% e. below where 3 pairs are 1 2 3 4 5 6 AT 3

%l 0 0 99d99 2 0 0 1 2 3 4 5 6 292

Attacldnent 8 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 10 of 20 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2 3160 0 345. '60 2 n 0 345 360 0.5 0.5

% Chemical Product Variables pool temp (degF) where chem prods form

% With statistics

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit 5 (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of :: then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of :.:y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3 91 0 0 ,9999 2 0 0 1 2 3 4 5 6 1

140 5 0 99999 1 0 0

% bump factor for chems when t>=Tchem and T<=ChemTemp (S,M,L)

% (spec mean as if min=o, but set min and mar to shifted range)

% (preselect mean and ma: to set desired tail prob in last sample pt) o random-variable definitions:

(1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of Z then y values,

%ý first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of ::y pairs ie. below where 3 pairs are 1 2 3 4 5 6 02 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

1.25 0.64 1 15.3 3 1 10  % truncated erponential 3 2 1.50 0.44444 1 1R.2 3 1 10 1 2 0.5 0. 5 S truncated e:-:ponential 3 2 2.00 0.25 1 24 3 1 10 1 10 1 0.5  % truncated e:-ponential

% thresholds of concern

% (logical distribution functions. N(OT part of sequence variability)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit (5) library distribution (I/2/3 normal/empirical/TBD .

(6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal f of x then y values, first four entries are ignored.

Attaclunent 8 NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 11 of 20 Provide distribution type if (2) or empirical provide number of :-ry pairs

%1 ie. below where 3 pairs are I 2 3 4 5 6 3

0 099999 20 01 23 45 6

% core blockage limit (g/FA) HL breaks 1

99999 0 0 0 1 0 0

% core blockage limit (g/FA) CL break 1

99999 0 0 0 1 0 0 z boron ppt limit (g/FA) for HL brk before HL inject (should never fail by this mode) 1 99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for CL brk before HL injection 1

7.5 0 0 0 1 0 0 I limit for strainer buckling (ft h2o) 1 9.35 0 0 0 1 0 0

% void fraction at pump inlet (@ train) 1 0.02 0 0 0 1 0 0

%Plant State Table Data

% Operable Trains

% Train X Pump Matri:.:

three trains operable (Case 01) lpsi hpsi spray 1 1 1 %A 1 1 1 lB 1 1 1 %C two trains ocperable (Case 22) ipsi hpsi spray 1 1 IA 1 1 1 lB 0 0 0 4C one train operable (Case 43) ipsi hpsi spray 1 1 1 %A 0 0 0 lB 0 0 0 IC

% two LHSI pumps failed (Case 09) ipsi hpsi spray 1 1 1 %A 0 1 1 1B 0 1 1 %C one train fail + one additional LHSI fail (Case 26) lpsi hpsi spray 1 1 1 -A 0 1 1 %B 0 0 0 %C

% # reactor coolant pumps (in CAD)

NOC-AF- 14003081 Non-Proprietary CASA09 JT4 Page 1 of 20 4

9 # pressurizers (in CAD) 1

% # RHR pumps (in CAD) 3

% # steam generators (in CAD) 4

% time increment for evaluation (min) 5 I misc debris area (ft"2) total in containment 1

100 0 0 99999 1 0 0

% fraction of misc debris overlap (arrives @ tO) 0.25

% thin-bed thickness (in) 0.00625 I clip ZOI with walls (1/0 = y/n) 1

% const fiber filtration eff in fuel 1.0

% strainer height (ft) 13.25

% containment rel humidity 1.00

% sump rel humidity 1.00

% # fuel assemblies 193

% inflation of delE before chem bump 1

5 1 1 10 1 0 0

%++***Min Flow to Cool Core**+ "**+** ****

%Numrtber of time and flow rate points 30

% Time post SCPRAM (hr)

% Must be equal to number of time and flow rate points 0.0028 0.0042 0.0056 0.0111 0.0167 0.0222 0.0278 0.0417 0.0556 0.1111 0.1667 0. 2222

0. 2778 0.4167 0. 5556 1.1111 1.6667 2.22_22 2.7778 4.1667 5.5556 11.1111 16.6667 22.22-22 27.7778 41.6667 111.1111 166.6667 222. 2222 277.7778

%%Flow Rate (gpm)

% Must be equal to number of time and flow rate points 1414.7000 1323.5000 1260.9000 1113.4000 1030.5000 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 13 of 20 973.3000 931.3000 859.3000 812.3000 711.0000 654.7000 614.2000 581.8000 523.1000 480.9000 388.1000 342.4000 315.1000 295.7000 265.1000 245.5000 204.2000 182.7000 168.7000 158.1000 139.8000 99.0000 84.1000 74.4000 67.7000

%*-****Special Weld ****t*****÷ o single-case tracer (weld location name - from table)

% specialweld = '31-RC-1102-NSS-1.l';

% If special weld input select 1 else 0 0

A If 1 write weld name I else leave blank

% nominal pool volume (ft'3) and area (ft'2)

% (uniform distribution between min and max pool volumes - S,M,L) 2 2 0 0 0 0 2 0 0 43464 61993 .5 .5 YSBLOCA 2 2 0 0 0 0 2 0 0 39533 69444 .5 .5 %MBLOCA 2 2 0 0 0 0 2 0 0 45201 69263 .5 .5 %LBLOCA

% Pool Area (ft'2) 12301 O clean strainer attributes

% clean area of ONE strainer (ft"2) 1.8185e+003

% clean area of one OLD strainer (ft'2)

%155.4

% max clean strainer head loss (ft h2o) 0.22 V single pump runout volume rates (gpm) (S, M, L)

I high-pressure ma:-: injection rates 1620 9 low-pressure injection rate 2800

% Containment Spray Rate (all states except Case 43) 2 2 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 22 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 2 2 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 A Containment Spray Rate (Case 43)

%o 2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

?2 2 00 0 2080 2600 2 0 0 2080 2600 0.5 0.5

?2 2 A0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

% geometric loading table for a single train:

% thickness x:(in) and strainer area A(ft"2) as functions of debris volume I V(ft"3). see supplementary routine StrainerArea for geometry definition

% and assumptions. must be single-valued functions. May be slight mismatch

% in compression for thickness estimation between this table and delP routine,

% but low flow rate indicates low fiber compression.

V(ft'3)  :-:(in) A (ft'2)

Attaclunent 8 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 14 of 20

% switch table on/off = 1/0, list length of table

% if 0 a flat approcimation will be used

% for old strainers 1 28

% Table Values

% If Table off leave blank 0 0 1.6185e-+003 8.1790e+001 5.00OOe-001 4.1900e+002 8.1800e+001 5.0100e-001 4.1931e+002 2

2.8016e+002 8.14 1e+000 4.4718e+002 4.7853e+002 1.5783e+001 5.9256e+002 6.7689e+002 2.3424e+001 7.4768e+002 8.7526e+002 3.1065e+001 9.1253e+002 1.0736e+003 3.8706e+001 1.0871e+003 1.2720e+003 4.6348e+001 1.2714e+003 1.4703e+003 5.3989e+001 1.4655e+003 1.6687e+003 6.1630e+001 1.6692e+003 2

1.8671e+003 6.9 71e+001 1.8827e+003 2.0654e+003 7.6912e+001 2.1060e+003 2.2638e+003 8.4553e+001 2.3389e+003 2.4622e+003 9.2194e+001 2.5816e+003 2.6605e+003 9.9835e+001 2.8341e+003 2.8589e+003 1.0748e+002 3.0962e+003 3.0573e+003 1.1512e+002 3.3681e+003 3.2556e+003 1.2276e+002 3.6497e+003 3.4540e+003 1. 3040e+002 3.9411e+003 3.6524e+003 1.3804e+002 4.2422e+003 3.8507e+003 1.4568e+002 4.5530e+003 4.0491e+003 1.5332e+002 4.8735e+003 4.2474e+003 1.6096e+002 5.2038e+003 4.4458e+003 1.6860e+002 5.5438e+003 4.6442e+003 1.7625e+002 5.8935e+003 0

4.8425e+ 03 1.8389e+002 6.2530e+003 5.0409e+003 1 9153e+002 6.6222e+003

% initiating event frequency and bounded Johnson fit I NUREG-1829 current-day e:ceedance frequencies (without SG breaks)

% (4 breaks/cal yr of sizes > :)

% Interpolated values for LOCA bins MUST be consistent with LOCAbins def

% UT Austin fit of epistemic envelope using bounded Johnson pdf.

% Parameters MUST be listed in column order (gamma,delta,xi,lamda)

% each row varies by sire, each column varies by Rile (then transposed)

% Break Frequency Table Name "Present-Day E-ceedance Frequency"

% Break Sizes in Ascending Order Y These are fi::ed values

% For Documentation Purpose only 0.5 1.625 2 3 6 7 14 31

% Frequency Table A These are fixed values

% For Documentation Purpose only

% Break Size X Percentile 6.8e-5 5.0e-6 3.69e-6 2.le-7 6.30e-8 1.4e-8 4.le-10 3.5e-11 1 5th tile 6.3e-4 8.9e-5 6.57e-5 3.4e-6 l.C8e-6 3.le-7 1.2e-08 1.2e-09  % 50th tile 1.9e-3 4.2e-4 3.10e-4 1.6e-5 5.20e-6 1.6e-6 2.0e-07 2.9e-08  % mean 7.le-3 1.6e-3 1.18e-3 6.le-5 1.98e-5 6.le-6 5.8e-07 8.le-08  % 95th tile

% Table Percentile Values 0.05 0.5 NaN 0.95 1 Don't Use Mean for Fitting I Johnson Parameters A These are fi:ned values V For Documentation Purpose only

% gamma delta xi lambda 1.650950E+00 5.256964E-01 4.117000E-05 I.420000E-02

Attaclhnent 8 NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 15 of 20

1. 646304E+00 4.593913E-01 2. 53000CC-06 3.200000E-03
1. 646308E+00 4.593851E-01 1. 87000CE-06 2.360550E-03
1. 646605E+00 4.589467E-01 1. 200000E-07 1.220000E-04
1. 646403E+00 4.566256E-01 3.00000CE-08 3.96500CE-05
1. 645739E+00 4.487957E-01 6. 023625E-09 1.22000CE-05
1. 645211E+00 3.587840E-01 2.892430E-10 1.160000E-06
1. 645072E+00 3.343493E-01 2.636770E-11 1.600000E-07

% Strainer-Test Penetration Parameters

% area of test module (ft°2) 91.44

% fraction of sheddable debris

% (uniform empirical) - (unitless) 2 2 0 0 0 0 2 0 0 0.00956 0.0272 0.5 0.5

% shedding rate (1/min)

I (uniform empirical) 2 2 0 0 C 0 2 0 0 0.008236 0.0546 0.5 0.5

% filter efficiency per g (slope) w (uniform empirical) 2 2 0 0 0 0 2 0 0 0.000339 0.003723 0.5 0.5

% filter fit cut point (g)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 790 880 C.5 0.5

% initial filter eff (intercept)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 0.656 0.706 0.5 0.5 Q filter efficiency match pt

% (set equal to 1.0 always) 1 1 0 0 0 1 0C0

. filter e-p rate const (1/g)

% (bimodal empirical) 2 3 0 0 0 0 2 1 0 0.0011254 0.0013078 0.031787 0.10000 0.45000 0.1000 Debris Transport Factors (enter conservative values here, random variables populated below)

Z01-generated debris (LDFG fines, LDFG small, LDFG large, uTherm fines, qual coat fines, crud fines)

(columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for SG compartment break) these factors were used for Full Batch 2 0.70 0.60 0.22 0.70 0.70 0.70 %FBDupr 0.30 0.25 0.00 0.30 0.30 0.30 SF BD lwr 0.53 0.27 0.00 0.53 0.53 0.53 %F WD UCin 0.47 0.19 0.00 0.47 0.47 0.47 %F WD UCan NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 16 of 20 0.00 0.27 0.00 0.00 0 . 00 0.00 %F WD BCin 0.00 0.00 0.00 0 . 00 0.00 0 .00 %FWDBCan 0.02 0.00 0.00 0.02 0 . 02 0.02 GF PF sump 0.05 0.00 0.00 0.05 0.05 0.05 .%FPFnact 1.00 0.64 0.00 1.00 1.00 1.00 -F Rcrc lwr 1.00 0.84 0.00 1.00 1 . 0C)01 . )0 %F Rcrc WDin 1.00 0.58 0.00 1.00 1 . 00 1.00 F Rcrc WDan 0.00 0.01 0.01 0 .00 0.00 0.00 %FErsn spry 0.00 0.07 0.07 0.00 0.00 0.00 %F Ersn pool Unqualified coatings outside ZOI

% (epo:o:y fines, epoxy fine chips, epo::y small chips, epoxy large chips, epox:y curls, alkyd, baked enamel, IOZ fines)

(columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for MB/LBLOCA in SG compartment) 1.00 1. 00 1.00 1.u0 1.00 1.00 1.00 1.00  % F fail 0.15 0.15 0.15 0.15 0.15 0. 54 0.00 0.83  % Fupr

0. 02 0.02 0.02 0.02 0.02 0.46 1.00 0.17  % F lwr 0.83 0.83 0.83 0.83 0.83 0.00 0.00 0.00  % F R:w:

0.06 0.06 0.06 0.06 0.06 0.06 0.00 0.06  % F spry 1.00 0.41 0.00 0 . 00 1.00 1.00 1.00 1.00  % F rcrc 0.00 0.00 0.00 0.00 0.00 0.00 0 .0 0 0.00  % F P,::rcrc

% Latent Debris (particulate, fiber)

(columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for SG compartment) 0.00 0.00 %F BD upr (1) 1.00 1. 1)0 %F BD lwr (2) 1.00 1.00 %F WD (3) 0.02 0.02 %F PF sump (4) 0.05 0.05 %F PF nact (5) 1.00 1.00 %F Rcrc lwr (6)

%Time and Temperature Data

%NuMber of Time and Temperature Data Points 162

% time vector (hr) for small-breas: temperature profile

% (FIRST entry is assumed 2B@ t=0. constant-value ex.:trapolation imposed.

% (time dependent temps ARE currently used in calc, one history for each LOCA)

% time vector (hour) for small (and medium) breaks 0.0000 0.0847 0.0864 0.0881 0.0c897 0.0914 0.0931 0.0947 0.0964 0 .0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081 0.1097 0 .1139 0.1306 0.1472 0.1639 0. 1806 0.1972 0.2139 0.2306 0 .2472 0.2639 0.280C 0.2972 0. 3139 0.3306 0.3472 0.3639 0 .3806 0.3972 0.4139 0.4306 0.4472 0.4639 0.4806 0.4972 0 .5139 0.5306 0.5472 0.5F39 0. 5806 0.5972 0.6139 0.6306 0 .6472 0.6639 G0.6806 0. 6972 0.7139 0.7306 0.7472 0.7639 0 .7806 0.7972 0.8139 0.8306 0.8472 0.8639 0.8806 0.8972 0 .9139 0 . 9306 0.9472 0. 9639 0.9806 0.9972 1.0139 1.0306 1 04772 1 . 0639 1.0806 1.3811 1.6944 2.0278 2.3611

2. 6944 3 0278 3.3611 3.8944 4.0278 4.3611 4.6944 5.0278 5.3611 5 .6944 8.0278' 6.3811 6. 6944 7 .0278 7.3611 7.6944 8 .0278 8 .3611 8.6944 9.0278 9.3611 9. 6944 10.0278 20.0833 32.0833 44.0833 56 0833 68.0833 80.0833 92 0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188 . 0833 201). 0833 212. 0833 224.0833 236.0833 248.0833 260.0833 272.0833 283.3333 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 17 of 20 297. 2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402 .7778 416. 6667 427.7778 438.8889 452 .7778 463. 8889 475.0000 488.8889 500 .0000 511.1111 525. 0000 536. 1111 547.2222 561.1111 572.2222 583 .3333 597 .2222 608.3333 619 . 4444 633.3333 644.4444 655.5556 669. 4444 660.5556 691 . 6667 702.7778 716. 6667

% temperatore (F) profile for small (and medium) break s 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.30681 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123 .5529 124.4938 127.6399 129.7484 131.0391 149.8002 158.2393 162.7694 165.4960 167.3851 160.6688 169.7687 170.9814 171.9993 172. 8771 173.7150 174.4595 175.0903 175.6074 176.0061 176.2923 176.4625 176.4855 176.3916 17(.2055 175.9468 175.6184 175.2411 174.8243 174. 3902 173.9374 173.4284 172.8459 172.2319 171. 6143 171.0143 170.4548 169.9507 169.5034 169. 10686 166.7661 168.4824 168.2551 1686.0847 167.9707 167.9020 167.8705 167 .8665 167 .8947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168.7942 168.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 160.9624 158.1118 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.8649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110 . 6590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2610 107.9680 107.7100 107 .4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.6930 105.6660 105.5410 105.3160 105. 1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102 81l0 102 6450 102.5250 102.5160

% time vector (hr) for medium and small) break temperature profile

% (FIRST ontrv is assumed 2B@ t=0. constant-value ec:trapolation imposed.

0.0000 0.0847 0.0864 0.0381 0.0897 0.0914 0.0931 0.0947 0.0964 0.0981 0.0997 0.1014 0 .1031 0. 1047 0.1064 0.1081 0.1097 0.1139 0.1306 0.1472 0.1639 0. 1806 0.1972 0.2139 0.2306 0.2472 0.2639 0.2606 0.2972 0.3139 0.3306 0.3472 0.3639 0.3606 0.3972 0.4139 0.4306 0 . 4472 0.4639 0.4806 0.4972 0.5139 0.5306 0.5472 0 . 5639 0 . 5806 0.5972 0.6139 0 .6306 0.6472 0.6639 0.6606 0.6972 0. 71339 0.7306 0.7472 0.7639 0.7606 0.7972 0.8139 0.8306 0.8472 0.6639 0.8806 0.8972 0.9139 0.9306 0.9472 0.9639 0.9806 0.9972 1.0139 1.0306 1.0472 1.0639 1.0606 1.3611 1.6944 2.0278 2.3611 2 6944 3.0278 3.3611 3.6944 4.0278 4. 3611 4.6944 5.0278 5.3611 5.6944 6.0276 6.3611 6.6944 7 . (1278 7.3611 7.6944 8.0278 8.3611 8.6944 9.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56 08133 68.0833 80.0833 92 0833 104.0833 116.0833 128.0833 140.0833 152 .0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0633 248 . 0833 260.0833 272.0833 283.3333 2 97 .2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416. 6667 427.7778 438.8689 452.7778 463.8689 475.. 0(00 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 570-2222 583.3333 5597.2222 608.3333 619.4444 633.3333 644.4444

Attaclmuent 8 NOC-AE-14003081 Non-Proprietary CASA09 JT4 Page 18 of 20 655.5556 669.4444 680.55556 691.6667 702.7778 716. 6667

% Temperature (F) profile for medium breaa:s 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166. 6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123.5529 124.4938 127.6399 129.7484 13:1. 0391 149.8002 158.2393 162.7694 165.4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0061 176. 2-923 176.4625 176.4855 176.3916 176.2055 175.9468 175. 6184 175.2411 174.8243 174.3902 173.9374 173.4284 172.8459 172.2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.8947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168.7942 168.1132 165 .3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 160.9624 158.1118 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.8649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106. 2500 106. 1240 105.8930 105.6660 105.5410 105 . 3160 105.1930 105.0690 104.8440 104.7250 104. 6070 104.3770 104.3660 104.1400 104.0230 103. 9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.E.250 102.5160

% time vector (hr) for large breaks 0.0000 0.0847 0.0864 0 . 0881 0.0897 0.0914 0.0931 0.0947 0.0964 0.0981 0.0997 9.1014 C 0.1031 0.1047 0.1064 C D.1081 0.1097 0.1139 0.1306 0.1472 0.1639 0.1806 0.1972 0.2139 00.2306 0.2472 0.2639 0.2806 0.2972 0 3139 . 3306 0.3472 0.3639 00.3806 0C.3972 0.4139 0.4306 0.4472 0.4639S 0.4806 0.4972 0.5139 00.5306 0.5472 0.5639 0.5806 0.5972 0.6139 . 6306 0.6472 0.6639 3. 68 6 C 0.6972 0.7139 0.7306 0.7472 0 .7639 . 7806 0.7972 0.8139 C 0.8306 0.8472 0.8639 0.8806 0.8972 0.9139 0.9306 0.9472 0.9639 C 0.9806 0.9972 1.3611 1.6944 2 .0278 2.3611 1.0139 1.0306 1.0472 1.0639 . 0806 2.6944 3.0278 3.3611 3 6944 4.0278 4.3611 4.6944 5.0278 5.3611 5.6944 6.0278 6.3611 6.6944 77 2`0278 7.3611 7.6944 87.0278 8.3611 8.6944 9.0278 9.3611 9. 6944 10.0278 20.0833 32.0833 44.0833 56.0833 68.0233 80.0833 92.0833 104.0833 116.0833 128.01833 140.0833 152.0833 164.0833 176. 0833 188.0833 200.0833 212.0833 224.0833 236.0833 248 .0833 260.0833 272 .0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391 .6667 402 .7778 416 .6667 427.7778 438.8889 452.7778 463 .8889 475 .0000 488 .8889 500. 000C:

511.1111 525.0000 536.1111 547.22-22 561.1111 572.2222 583.3333 597.2222 608.3333 619.4444 633 3333 644.4444 655.5556 669.4444 680 .5556 691 6667 702.7778 716.6667

ý Temperature (F) prcofile for large breaks 119.8113 213.9295 242.3104 255.A3268 255.7907 253.1817 252.9372 252.5390 251.9023 250.9733 249.7169 245.8894 235.9856 224.0051 212.9495 203.54319 195.7225 179. 58914 199.8048 174.8143 174.8276 177.3518 180.7405 183.2333 185.1644 186.4925 187.2579 187.8270 188.1924 188 . 4266 188.5605 188.5934 188.5042 188.3375 189.3187 189.7570

Attacluhent 8 NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 19 of 20 189. 093 18 .5202 188.0148 187.5621 187 .4103 137.0671 186.7330 186 4249 18 6.1559 186.7640 186. 5012 186.2557 186 .0555 185 .9119 185 .8265 185.8062 185 6495 185.q9526 186.1092 187.8900 187 .9673 187.9196 187.9119 187.9385 187.9954 188.0710 188. 1647 188.2538 188.3385 188 .4003 189. 0996 188. 9199 188 .7439 188 .5614 188 .3622 188.1314 187.8597 187.5387 187. 1667 186.7559 178.4091 171.8762 166. 5421 162.2238 158. 1410 154 .9818 151 .7673 148.9234 146.0834 143.7967 141 .6054 139.5251 137 . 9892 136. 4819 134.8865 136.9000 136. 6489 135 .3569 134 .3103 133.2941 132.4453 131.9467 132 .0536 132 .1915 131.3055 130.7946 130.2765 123.0489 118 .1991 114.9095 112. 4170 110.4096 108.7290 107 .2834 106.0152 104 .8855 103 .8671 102.9399 102.08910 101 .3027 100.5720 99.8894 99.2491 98.6461 98.0763 97.5362 97.0229 96.5339 96.0669 95.6474 95.1520 94.7720 94.4055 93.9649 93.6254 93.2967 92.9000 92.5932 92.2953 92.0057 91.6547 91.3822 91.1168 90.7942 90.5432 10.2 982 89.9998 89.7671 89.5396 89.2 ,2089.0452 88.8328 88.5733 88.3703 88.1712 87. 9276 87.7368 87.5494 87.3198 87.1398 86.9628 86.7457 86.5753 86.4076 86.2427 86.0401

% NPSH parameters:

(specify any # of pipe segments in common header)

% major HL variables

% absolute roughness of the pipe (ft) 0.00015

. Number of Pipe Segments 6

% pipe diameters (ft) 1.27 .99 1.27 .84 1.27 .99

% pipe lengths (ft) 66.96 25.41 12.00 25.46 11.50 24.91 E depth of common header (ft) 25.83 25.65 25.83 % LPSI, HPSI, SPRY

% NPSH required for each pump (ft water) 12 12 12  % LPSI, HPSI, SPRY minor HL variables

  1. of elbows, tees, entrances, and branches per pipe segment f

[(# of 90 degree) (# of 45 degree) (# of gate valves)(# of entrances)(# of tee runs) (* of tee branches)]

4 0 1 1 0 0 segment AB 0 0 0 0 1 segment BC 0 0 0 0 1 0  % segment BD 3 0 0 0 0 1 segment DE 0 0 0 0 1 0 segment D'F 0 0 0 0 1 segment FG Newly Added Options Use Old Degas Routine? (0 = No, 1 - Yes) n

% Use Old NPSH Routine? (0 = No, 1 Yes) 0 Use Old SI Pump Flow Equation? (0 - No, 1 = Yes) 0

% Use Old Strainer Properties? (0 - No, 1 = Yes)

NOC-AE- 14003081 Non-Proprietary CASA09 JT4 Page 20 of 20 0

, Use Common Random Numbers Across Frequency Replications? (0 = No, 1 = Yes) 0 Enable All Plots? (0 = No, 1 = Yes) 1

% Enable Parallel Calculations (0 = No, 1 = Yes)

S CAUTION - USE ONLY IF YOUR KNOW YOUR PC MEETS SPECIFICATIONS!!!!!

0

% Number of Parallel Threads 4

% Use Optimal Frequency Bins for 15 Freps (0 = No, 1 = Yes) 1

% Use Old Debris Source Rate (Before Error Correction)? (C) - No, 1 = Yes) 1 O Use Old Latent Debris Transport Equations (Before Error Correction)? (0 = No, 1 = Yes) 1

NOC-AE- 14003081 Attachment 9 STP CASA Grande Information (Non-Proprietary Version)

CASA22 JT4

NOC-AE-14003081 Contains No Proprietary Infonnation Alion Science and Technology

Attaclhnent 9 NOC-AE- 14003081 Non-ProprietaryCASA22 JT4 Page 2 of 20

%LANLALAMLANMLANLANLAMLAMLANLANLANLANLANLANLANLA'LANLANLANAANLAANLAlLANLA%

% Define Case Folders (Main Project Folder)

"C:\Demo Plant"

% Define Working Folders

% Analysis Folder (-/... /Case/Analysis)

"Analytic Results"

% Run Subfolder (-/.../Case/Analysis/run)

"Tornado" A Run SubSubfolder (-/... /Case/Analysis/run/runsub)

"S IMCON"

% Run Sub SubSubfolder (-/... /Case/Analysis/run/runsub/run sub sub)

"Delta Pump Case 22 Shuffle"

% CAD Folder Name (-/... /Case/CAD)

"CAD Files"

% Concrete Sub-Folder (-/ ... /Case/CAD/Concrete)

"Concrete Data"

% Equipment Sub-Folder (-/. .. /Case/CAD/Equipment)

"Equip Data"

% Grating Sub-Folder (-/.. ./Case/CAD/Grating)

"Grating Data" Q Pipe Sub-Folder (-/... /Case/CAD/Pipes)

"Pipe Data" I Fequency Folder (-/... /Case/Frequency)

"Freq Data"

% Break Frequency (-/... /Case/Frequency/Break)

"LOCA Frequency and Weld Inputs 7-12 Rl.vls"

% Break Fequency Table (-/... /Case/Frequency/Break/Table)

"LOCA Data"

% Weld Case File (-/ ... /Case/Frequency/Weld)

"LOCA Frequency and Weld Inputs 7-12 Rl.xlsx:"

% Weld Case Table (-./... /Case/Frequency/Weld/Table)

"Weld Table"

% multiplicative spatial unit conversions

% rectify all CAD elements for consistency

? applied to ALL length units within each CAD file

% Concrete Multiplier 1.0

% Equipment Multiplier 1.0

% Grating Multiplier 1.0

% Pipe Multiplier 1.0 NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 3 of 20

% LOCA bin definitions

% (units consistent with freq dists and CAD data)

% List Number of Defined Break Size Limits

% ie. SB,MB,LB (3 designations)

% However more sizes are allowable 3

% List Sizes 0.5 2.0 6.0

% CAD and Plotting Options (1/0 Y/H)

% Show CAD Reproduction 0

% Show Concrete and Gratings

)

% Produce Intro Movie and Stop 0

% Debris Passage Correlation

)

V Sample Flow Rates 0

% Random Input Distributions 0

I ZOI Radial Inflation Factor(Plotting Only) 50

% ZOI Plotting Interval Q* of breaks between plots) 25 I spatial resolution for discretizing insulation

% (must repeat weld target sort if these are changed. delete all master

% files and rerun with new delL and Nangbin)

% Linear Resolution (in.)

%Azimuthal Bins in 2 Pi Radians on Pipes 12

% Head Loss option

% porosity calc (1/2 = vol / mass weighting)

% (vol weighting was found to be more conservative) 1

% Synonyms tables for nonstandard welds, hangars and valves and Equipment

% Number of Valve synonyms 5

% Valve Synonyms Valve VALVE MOV :RH FCV T Number of Hangar Labels 14

% Hangar Synonyms Hangar Hanger HL AF GU SS SH RR RH "Work Point" "work point" "Work point" "work Point" "WORK POINT"

% Number of weld Synonyms NOC-AE-1400308 1 Non-ProprietaiyCASA22 JT4 Page 4 of 20 4

% Weld Synonyms FW Weld WELD FS Number of Steam Generator Synonyms 2

Steam Generator Synonyms SG SteamGenerator

% Number of Reactor Coolant Pump Synonyms

% Reactor Coolant Pump Synonyms RCP ReactorCoolantPump

% Number of Pressurizer Synonyms 3

% Pressurizer Synonyms PZR PRZR Pressurizer

% Number of RHR Synonyms 2

% RHR Synonyms RHR ResidualHeatRemoval

%Statistics Sampling Options

%Sampling Method

% (0/1/9/3 = CASA default / MatLab default / shuffle / read file) 2

%If Option 3 specified, set file name in case folder below

%If not LEAVE BLANK

% ma:, # LHS bins in LLOCA for max DEGB (DEGB counts as 1)

% Nma::brl: 2 2044 total breaks

% Nmaxbrkl 3 => 2100 total breaks

% Nma:-brki 5 => 2250 total breaks

% Nma::brkl 10 => 3070 total breaks 5

% # LHS replicates (batches) for each frequency CCDF 20

% # epistemic freq envelope samples

% current models process --110 cases per minute 15

% logarithmic base for sampling epistemic frequency envelope 2

% lower limit of highest epistemic frequency bin 0.99

% # interpolation pts in each break freq ccdf 1000

% logarithmic base for sampling break size NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 5 of 20 (double check routine before changing this from base 10) 10

%Insulation Characteristics

% Number of Low Density Fiberglass Zones 3

-o C3

% Number of Debris Types 8

% Debris Types NUKON 11UKON 2 MICROTHERM RMI LEAD "THERMAL WRAP" IOZ ALKYD

%Debris treated as LDFG 1/0 1 -- > yes/no 11000100

%Debris treated as microtherm

% 1/0 -- > yes/no 0 0 1 0 0 0 0 0

% Damage Radii with statistics definitions Material X Statistics

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit z (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs ie. below where 3 pairs are 1 2 3 4 5 6

%0 3

,,l 0 0 99q999 2 0 0 1 2 3 4 5 6 1

17 0 0 99999 1 0 0 1

17 0 0 9c9999 1 0 0 1

28.E 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0

Attaclmuent 9 NOC-AE-14003081 Non-ProprietalyCASA22 JT4 Page 6 of 20

% Debris Properties Table 1 (denote particulate/fiber = sphere/cylinder - 1/2)

(do NOT add to or reorder this list unless code is modified)

(inventory of fibers with cylindrical geom must be given in ft'3)

(can 'fake' the diameter to match a given Sv using std geom formulas)

(inventory of particulates with spherical geom must be given in lbm)

(this list MUST include every debris type of interest)

(if unknown, set "manufactured" density of particulate to --20r of Rho mat)

(based on comparison of Fe02 to BWR sludge compaction density)

%'label' DebrisPropi 'Geom' 'Diam' 'Rho mat' 'Rho mfc' native units 'sph,cyl' 'um' 'lbrm/ft'3' 'lbm7/ft-3' calc units 'sph,cyl' 'i' 'kg/m"3' ' :g/m" 3' "LDFG - fines" 2 7 175 2.4 "LDFG - small" 2 7 175 2.4 "LDFG - large" 2 7 175 2.4

ý"uTher 165

  • T*er-SO2 12.5 *37 27.4 Diameters of SiO2 and TiO2
  • b~ - TiO2"l 20 .62 52. 4 are impr(operly reversed "Qual ... i *94 36.66 "QualCoat - IOZ" 1 10 208 81.12 "Crud" 1 15 350 70.0 "UQCoat - epozyfine" 1 152 124 48.36 "UQCoat - epo::yFchp" 1 1143 124 48.36 "UQCoat - epc,::ySchp" 1 1143 124 48.36 "UQCoat - epo::yLchp" 1 1143 124 48.36 "UQCoat - epoxyCrls" 1 1143 124 48.36 "UnQualCoat - alkyd" 1 10 207 80.73 "UnQualCoat - enamel" 1 10 93 36.27 "UnQualCoat - IOZ" 1 10 244 95.16 "Latent - particulate" 1 17.3 169 33.80 "Latent - fiber" 2 7 175 2.4

% microTherm constituents (low density concrete with fiber binder) 6 mfc'd density (lbm/ft3) 15.0

% mass fraction filamentsflf read 0.03

% mass fraction of Si02 0.58 6 mass fraction of TiO2 0.39

% debris type start and stop times (min after break)

(rate assumed to be uniform from Tstart to Tend)

% (rate calc uses inventories defined above)

% (introduce "instant" sources over 1 delT)

% (debris from UQCoat cannot have Tstartsrc=0)

(timing is presently independent of break size)

Start Times 0 0 0 0 0 0 0 0 0 10 10 10 10 10 10 10 10 0 0

% Stop Times 10 10 10 10 10 10 10 10 10 2160 2160 2160 2160 2160 2160 2160 10 10

% Noninsulation Debris Quantities

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (aero sigma returns mean)

NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 7 of 20 6 (3) lower limit

% (4) upper limit

((5) library distribution (1/2/? = normal/empirical/TBD . .

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

%( ... ( empirical pdf must provide equal # of x then y values, first four entries are ignored.

% Provide distribution type if (2) or empirical provide number of x:y pairs ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6

% qual epox:-y in ZOI (ibm) 1 105 0 0 99999 1 0 0 gual TOZ in ZOI q (lbm) 1 39 0 0 99999 1 0 0

% crud fines (ibm) 1 24 0 0 99999 1 0 0

% unqual epo::y fine (lbm)

% (uniform dist 2 2 234 0 117 234 2 0 0 117 234 0.5 0.5 I unqual epo:xy fine chip (lbm)

(uniform dist) 2 2' 709 0 355 709 2 0 0 355 709 0.5 0.5

% unqual epox:y small chip (ibm)

% (uniform dist) 2 2 180 0 90 180 2 0 0 90 180 0.5 0.5

% unqual epo::y large chip (lbm)

% (uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5 I unqual epo:.:y curls (lbm)

(uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5

% unqual alkyd (lbm) 1 271 0 0 99999 1 0 0 I unqual enamel (lbm) 1 267 0 0 99999 1 0 0

% unqual IOZ (lbm) 1 369 0 0 99999 1 0 0 I latent pariculate (ibm) 1 170 0 0 99999 1 0 0

% latent fiber (ft"3) 1

Attachunent 9 NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 8 of 20 12.5 0 0 99999 1 0 0 9 Time points along accident progression

% (assume all trains of injection on initially, w/spray on setpoint trip)

% (assume HPSI and LPSI both run, but LPSI flow negligible until depress)

% (1 of 3 spray pumps can be turned off, all HPSI can be turned off for M,L)

% (for degraded condition with < max trains, DON'T exercise any options)

%ma: time of interest (hr) 36 i****4#Recirculation Times*****"

%Number of break sizes for recirc table 7

%Recirc Time Table 1.5 2 4 6 8 12 27.5 %Break Size (in.)

337 79 56 44 38 31 3A %Time to recirc (min)

%*****kOther LOCA Times****#****

% time to ONE spray pump off (min) (S,M,L)

% (if 0.0, NO spray pumps run)

With Statistics N

% one Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

A (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

I Provide distribution type

% if (2) or empirical provide number of -y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

20 5 0 99999 1 0 0 1

20 5 0 99999 1 0 0

% time to ALL spray pumps off (mrin) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

S(1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of :: then y values, first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of :-:y pairs i ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

390 5 390 420 1 0 0 1

390 10 390 420 1 0 0 1

Attaclhnent 9 NOC-AE- 14003081 Non-ProprietaryCASA22 JT4 Page 9 of 20 390 15 390 450 1 0 0

% time to retire 1 full train (min) (S,M,L)

% (this prob never happens, keep as option)

% (it would be the train with spray off already)

% One Row for each size desionation (see LOCA bin definitions) random-variable definitions:

(1) first parameter (mean/geom mean/mean) 9 (2) second parameter (std dev/geom std dev) (zero sigma returns mean) 9 (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal 4 of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs ie. below where 3 pairs are 1 2 3 4 5 6 2 3 1 0 0 99999 2 0 0 1 2 3 4 5 6 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0

% earliest time for chem prod (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

Z random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale) 9 (8 ... ) empirical pdf must provide equal # of :: then y values, first four entries are ignored.

% Provide distribution type 9 if (2) or empirical provide number of xy pairs ie. below where 3 pairs are 1 2 3 4 5 6 92 3 91 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0

% time to hot leg injection (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean) 9 (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of :.: then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6 92 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6

Attaclunent 9 NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 10 of 20 2 2 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2) 360 0 345 360 2 0 0 345 360 0.5 0.5

% Chemical Product Variables

% pool temp (degF) where chem prods form

% With statistics

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/qeom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit o (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 ý low/hi)

% (7) logarithmic sample base (0 - linear scale) 6 (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

0 Provide distribution type O if (2) or empirical provide number of xy pairs O ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

140 5 0 99q99 1 0 0 bump factor for chems when t>=Tchem and T<=ChemTemp (S,M,L)

(spec mean as if min=0, but set min and max to shifted range)

(preselect mean and max to set desired tail prob in last sample pt) random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of xy pairs ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

1.25 0.64 1 15.3 3 1 10 O truncated exponential 3 2 1.50 0.44444 1 18.2 3 1 10 1 2 0.5 0. 5  % truncated exponential 2 2 2.00 01.25 1 24 3 1 10 1 10 1 0.5 O truncated exponential thresholds of concern

% (logical distribution functions. NOT part of sequence variability) random-variable definitions:

(1) first parameter (mean/cgeom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

O (8 ... ) empirical pdf must provide equal

  • of :: then y values, NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 11 of 20

% first four entries are ignored.

% Provide distribution type o if (2) or empirical provide number of ry pairs e ie. below where 3 pairs are 1 2 3 4 5 6 62 3 11 0 0 99999 2 0 0 1 2 3 4 5 6 I core blockage limit (g/FA) HL breaks 1

99999 0 0 0 1 0 0

% core blockage limit (g/FA) CL break 1

99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for HL bIt before HL inject

% (should never fail by this mode) 1 99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for CL brk before HL injection 1

7.5 0 0 0 1 0 0

% limit for strainer buckling (ft h2o) 1 9.35 0 0 0 1 0 0 I void fraction at pump inlet (@ train) 1 0.02 0 0 0 1 0 0

%Plant State Table Data

% Operable Trains I Train Pump Matrix

% three trains operable (Case 01)

% lpsi hpsi spray

% 1 1 1 %A

% 1 1 1 %B

% 1 1 1 %C

% two trains o0perable (Case 22)

I lpsi hpsi spray 1 1 1 IA 1 1 1 1B 0 0 0 %C

% one train op erable (Case 43) o lpsi hpsi spray 1 1 1 %A 0 0 0 %B

% 0 0 0 CC two LHST pumps failed (Case 09) lpsi hpsi spray 1 1 1 IA 0 1 1 c, 0 1 1 %C one train fail + one additional LHSI fail (Case 26) ipsi hpsi spray 1 1 1 IA 0 1 1 lB 0 0 0 IC NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 12 of 20

% # reactor coolant pumps (in CAD) 4

% # pressurizers (in CAD) 1

% # RHR pumps (in CAD) 3

% # steam generators (in CAD) 4 v time increment for evaluation (min) 5

% misc debris area (ft'2) total in containmei nt 1

100 0 0 99999 1 0 0

% fraction of misc debris overlap (arrives @ to) 0.25 A thin-bed thickness (in) 0.0625

% clip ZOI with walls (1/0 = y/n) 1 f const fiber filtration eff in fuel

1. 0

% strainer height (ft) 3.25

% containment rel humidity 1.00

% sump rel humidity 1.00

% # fuel assemblies 193

% inflation of delP before chem bump 1

5 1 1 10 1 0 0 4

%O'***Min Flow to Cool Core****+ ******

%Number of time and flow rate points 30

% Time post SCRAM (hr)

% Must be equal to number of time and flow r ate points 0.0028 0.0042 0.0056 0.0111 0.0167 0.0222 0.0278 0.0417 0.0556 0.1111 0.1667 0.2222 0.2778 0.4167 0.5556 1.1111 1.6667 2 ....

2.7778 4.1667 5.5556 11.1111 16.6667 22.2222 27.7778 41.6667 111.1111 166.6667 222.2222 277.7778 QI Flow Rate (gpm)

% Must be equal to number of time and flow r ate points NOC-AE- 14003081.

Non-ProprietaryCASA22 JT4 Page 13 of 20 1414.7000 1323.5000 1260.9000 1113.4000 1030.5000 973.3000 931.3000 859.3000 812.3000 711.0000 654.7000 614.2000 581.8000 523.1000 480.9000 388.1000 342.4000 315.1000 295.7000 265.1000 245.5000 204.2000 182.7000 168.7000 158.1000 139.8000 99.0000 84.1000 74.4000 67.7000

        • t Special Weld *

% single-case tracer (weld location name - from table)

? specialweld = '31-RC-1102-NSS-I.1';

% If special weld input select 1 else 0 0

% If 1 write weld name else leave blank I nominal pool volume (ft"3) and area (ft"2) z (uniform distribution between min and maz pool volumes - S,M,L) 22 0 0 0 0 2 0 0 43464 C1993 .5 .5 %SBLOCA 22 0 0 0 0 2 0 0 39533 69444 .5 .5 %MBLOCA 0 0 0 0 2 0 0 45201 69263 .5 .5 %LBLOCA

% Pool Area (ft"2) 12301

% clean strainer attributes S clean area of ONE strainer (ft^2) 1.8185e+003

% clean area of one OLD strainer (ftý2)

%155.4

% ma:: clean strainer head loss (ft h2o) 0.22

% single pump runout volume rates (gpm) (S, M, L)

% high-pressure max injection rates 1620

% low-pressure injection rate 2800

% Containment Spray Rate (all states except Case 43) 22 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 22 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 2 2 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5

% Containment Spray Rate (Case 43)

%0020

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

%2 2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

%2 2

%0O0 _2080 2600 2 0 0 2080 20-00 0.5 0.5

% geometric loading table for a single train:

% thickness x-(in) and strainer area A(ft"2) as functions of debris volume

% V(ft'3). see supplementary routine StrainerArea for geometry definition

% and assumptions, must be single-valued functions. May be slight mismatch

% in compression for thickness estimation between this taDle and delP routine,

% but low flow rate indicates low fiber compression.

V(ft"3) x:(in) A (ft^2)

NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 14 of 20

% switch table on/off = 1/0, list length of table

% if 0 a flat approximation will be used

% for old strainers 1 23

% Table Values

% If Table off leave blank 0 0 1.8185e+003 8.1790e+001 5.0000e-001 4.1900e+002 8.1800e+001 5.010Oe-001 4.1931e+002 2.8016e+002 8.1421e+000 4.4718e+002 4.7853e+002 1.5783e+001 5.9256e+002 6.7689e+002 2. 3424e+001 7.4763e+002.

8.7526e+002 3.1065e+001 9.1253e+002 1.0736e+003 3. 8706e+001 1.0871e+003 1.2720e+003 4.6348e+001 1.2714e+003 1.4703e+003 5.3989e+001 1.4655e+003 1.6687e+003 6.1630e+001 1.6692e+003 1.8671e+003 6.9271e+001 1.8827e+003 2.0654e+003 7.6912e+001 2.1060e+003 2.2638e+003 8.4553e+001 2.3389e+003 2.4622e+003 9 2194e+001 2.5816e+003 2.6605e+003 9. 9835e+001 2.8341e+003 2.8589e+003 1.0748e+002 3.0962e+003 3.0573e+003 1 1512e+002 3.3681e+003 3.2556e+003 1.2276e+002 3.6497e+003 3.4540e+003 1.3040e+002 3.94ile+003 3.6524e+003 1.3804e+002 4.2422e+003 3.8507e+003 1.4568e+002 4.5530e+003 4.0491e+003 1 5332e+002 4.8735e+003 4.2474e+003 1.6096e+002 5.2038e+003 4.4458e+003 1.6860e+002 5.5438e+003 4.6442e+003 1.7625e+002 5.8935e+003 4.8425e+003 1.8389e+002 6.2530e+003 5.0409e+003 1.9153e+002 6.6222e+003 initiating event frequency and bounded Johnson fit NUREG-1829 current-day exceedcance frequencies (without SG breaks)

(# breaks/cal yr of sizes > x)

Interpolated values for LOCA bins MUST be consistent with LOCAbins def UT Austin fit U of epistemic envelope using bounded Johnson pdf.

% Parameters MUST be listed in column order (gamsa,delta,xi,lamda)

% each row varies by size, each column varies by %ile (then transposed)

% Break Frequency Table Name "Present-Day Exceedance Frequency"

% Break Si:es in Ascending Order

% These are fixed values

% For Documentation Purpose only 0.5 1.625 2 3 6 7 14 31

% Frequency Table

% These are fixed values A For Documentation Purpose only

% Break Size X Percentile 6.8e-5 5.0e-6 3.69e-6 2.le-7 6.30e-8 1.4e-8 4.le-10 3.5e-11  % 5th tile 6.3e-4 8.9e-5 6.57e-5 3.4e-6 1.08e-6 3. le-7 1.2e-08 1.2e-09  % 30th %ile 1.9e-3 4.2e-4 3.10e-4 1.6e-5 5.20e-6 1. 6e-6 2.0e-07 2.9e-08  % mean 7.le-3 1.6e-3 1.18e-3 6.le-5 1.98e-5 6. le-6 5.8e-07 8.1e-08  % 95th %ile

% Table Percentile Values 0.05 0.5 NaN 0.95 % Don't Use Mean for Fitting A Johnson Parameters i These are fixed values

% For Documentation Purpose only

% qamma delta Ai lambda NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 15 of 20 1.650950E+00 5.256964E-01 4.117000E-05 1.420000E-02 1.646304E+00 4.593913E-01 2.530000E-06 3. 200000E-03 1.646308E+00 4.593851E-01 1.870000E-06 2.360550E-03 1.646605E+00 4.589467E-01 1.200000E-07 1.220000E-04 1.6464039E+00 4.566256E-01 3.000000E-08 3.965000E-05 1.645739E+00 4.487957E-01 6.023625E-09 1.220000E-05 1.645211E+00 3.587840E-01 2.892430E-10 1.160000E-06 1.645072E+00 3.343493E-01 2.636770E-11 1.600000E-07

% Strainer-Test Penetration Parameters

% area of test module (ft"2) 91.44

% fraction of sheddable debris

% (uniform empirical) - (unitless) 2 2 0 0 0 0 2 0 0 0.00956 0.0272 0.5 0.5

% shedding rate (1/min)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 0.008236 0.0546 0.5 0.5 A filter efficiency per g (slope)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 0.000339 0.003723 0.5 0.5

% filter fit cut point (g)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 790 880 0.5 0.5

% initial filter eff (intercept)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 0.656 0.706 0.5 0.5

% filter efficiency match pt

% (set equal to 1.0 always) 1 1 0 0 0 1 0 0 filter exp rate const (1/g)

(bimodal empirical) 2 3 0 0 0 0 2 1 0 0.0011254 0.0013078 0.031787 0.10000 0.45000 0.1000

% Debris Transport Factors

% (enter conservative values here, random variables populated below)

% ZOI-generated debris

% (LDFG fines, LDFG small, LDFG large, uTherm fines, qual coat fines, crud fines)

% (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

% (present values from Vol 3 for SG compartment break)

% these factors were used for Full Batch 2 0.70 0.60 0.22 0.70 0.70 0.70 TFBDupr 0.30 0.25 0.00 0.30 0.30 0.30 F WBD lwr 0.53 0.27 0.00 0.53 0.53 0.53 %F WD UMin

Attaclmlent 9 NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 16 of 20 0.47 0.19 0.00 0.47 0.47 0.47 %FWDUCan 0.00 0.27 0.00 0.00 0.00 0.00 OF WD BCin 0.00 0.00 0.00 0.00 0.00 0.00 OF WD BCan 0.02 0.00 0.00 0.02 0.02 0.02 %F PF sump 0.05 0.00 0.00 0.05 0.05 0.05 OFPF-nact 1.00 0.64 0.00 1.00 1.00 1.00 %F Rcrc lwr 1.00 0.64 0.00 1.00 1.00 1.00 %FRcrcWDin 1.00 0.58 0.00 1.00 1.00 1.00 F_ Rcrc WDan 0.00 0.01 0.01 0.00 0.00 0.00 %F_Ersnspry 0.00 0.07 0.07 0.00 0.00 0.00 %F_Ersn pool

% Unqualified coatings outside ZOI 0 (epoxy fines, epo::y fine chips, epoxy small chips, epoxy large chips,

% epoxy curls, alkyd, baked enamel, IOZ fines)

% (columns must ALWAYS be defined in this order left to right)

I (rows must ALWAYS be defined in this order top to bottom)

% (present values from Vol 3 for MB/LBLOCA in SG compartment) 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0 F fail 0.15 0.15 0.15 0.15 0.15 0.54 0.00 0.83  % Fupr 0.02 0.02 0.02 0.02 0.02 0.46 1.00 0.17  % F lwr 0.83 0.83 0.83 0.83 0.83 0.00 0.00 0.00  ? F Rx:

0.06 0.06 0.06 0.06 0.06 0.06 0.00 0.06  % F spry 1.00 0.41 0.00 0.00 1.00 1.00 1.00 1.00  % F rcrc 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00  % F Rxrcrc O Latent Debris

% (particulate, fiber)

? (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

% (present values from Vol 3 for SG compartment) 0.00 0.00 %FEDupr (1) 1.00 1.00 %F BD lwr (2) 1.00 1.00 %F WD (3) 0.02 0.02 %F PF sump (4) 0.05 0.05 OF PF nact (5) 1.00 1.00 %F Rcrc lwr (6)

OTime and Temperature Data

%Number of Time and Temperature Data Points 162

% time vector (hr) for small-break temperature profile

% (FIRST entry is assumed 2B@ t=0. constant-value extrapolation imposed.

% (time dependent temps ARE currently used in calc, one history for each LOCA)

I time vector (hour) for small (and medium) breaks 0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0.0947 0.0964 0.0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081 0.1097 0.1139 0.1306 0.1472 0.1639 0.1806 0.1972 0.2139 0.2306 0.2472 0.2639 0.2806 0.2972 0.3139 0.3306 0.3472 0.3639 0.3806 0.3972 0.4139 0.4306 0.4472 0.4639 0.4806 0.4972 0.5139 0.5306 0.5472 0.5639 0.5806 0.5972 0.6139 0.6306 0.6472 0.6639 0.6806 0.6972 0.7139 0.7306 0.7472 0.7639 0.7806 0.7972 0.8139 0.8306 0.8472 0.8639 0.8806 0.8972 0.9139 0.9306 0.9472 0.9639 0.9806 0 9972 1.0139 1.0306 1.0472 1.0639 1.0806 1.3611 1.6944 2.0278 2.3611 2.6944 3.0278 3.3611 3.6944 4.0278 4.3611 4.6944 5.0278 5.3611 5.6944 6.0278 6.3611 6.6944 7.0278 7.3611 7.6944 8.0278 8.3611 8.6944 9.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56.0833 68.0833 80.0833 92.0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833

Attachmnent 9 NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 17 of 20 236.0833 248.0833 260.0833 272.0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% temperature(F) profile for small (and medium) breaks 119.6000 131.2987 140 .1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123. 5988 123.5641 123.5529 124.4938 127.6399 129. 7484 131.0391 149.8002 158.2393 162.7694 165.4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0 061 176. 2923 176.4625 176.4855 176.3916 176. 2055 175.9468 175.6184 175.2411 174.8243 174.3902 173.9374 173.4284 172.8459 172_2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168 .0847 167.9707 167.9020 167.8705 167.8665 167.8947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168 7942 168.1132 165.3090 164.1228 163.0112 161 .4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 160.9624 158.1118 156.1579 154. 6151 153 2333 151.9641 150.8191 149.7667 148.7924 147 .8649 136.2080 129.0230 124.9790 122.1450 120 .1310 118.4710 117.3160 116.4980 115.6160 114 .7100 113.8960 113. 1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.8930 105.6660 105. 5410 105.3160 105.1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.5250 102.5160

% time vector (hr) for medium (and small) break temperature profile

% (FIRST entry is assumed 2B@ t=0. constant-value extrapolation imposed.

0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0.0947 0.0964 0 .0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081 0.1097 0 .1139 0.1306 0.1472 0.1639 0.1806 0.1972 0.2139 0.2306 0 .2472 0.2639 0.2806 0.2972 0.3139 0.3306 0.3472 0.3639 0 .3806 0.3972 0.4139 0.4306 0.4472 0.4639 0.4806 0.4972 0 .5139 0.5306 0.5472 0.5639 0.5806 0.5972 0.6139 0.6306 0 .6472 0.6639 0.6806 0. 6972 0.7139 0.7306 0.7472 0.7639 0 .7806 0.7972 0.8139 0 .8306 0.8472 0.8639 0.8806 0.8972 0 .9139 0.9306 0.9472 0.9639 0.9806 0.9972 1.0139 1.0306 1 .0472 1.0639 1.0806 1.3611 1.6944 2.0278 2.3611 2.6944 3 .0278 3.3611 3.6944 4.0278 4.3611 4.6944 5.0278 5.3611 5 .6944 6.0278 6.3611 6. 6944 7.0278 7.3611 7.6944 8.0278 8 .3611 8.6944 9.0278 9. 3611 9.6944 10.0278 20.0833 32.0833 44.0833 56.0833 68.0833 80.0833 92 0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 260.0833 272.0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 NOC-AE-14003081 Non-ProprietaiyCASA22 JT4 Page 18 of 20 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature(F) profile for medium breaks 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123.5529 124.4938 127.6399 129.7484 131.0391 149.8002 158.2393 162.7694 165.4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0061 176.2923 176.4625 176.4855 176.3916 176.2055 175.9468 175.6184 175.2411 174.8243 174.3902 173.9374 173.4284 172.8459 172.2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.8947 167 .9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168.7942 168.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 16C).9624 158.1118 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.8649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.8930 105.6660 105.5410 105.3160 105.1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.5250 102.5160 time vector (hr) for large breaks 0 .0000 0.0847 0.08644 0.0381 0.0897 0.0914 0.0931 0.0947 0 .0964 0.0981 0.0997 0.1014 C .1031 0.1047 0.1064 0.1081 0.1097 0 .1139 0.1306 0.1472 0.1639 C .1806 0.1972 0.2139 0 .2306 0.2472 0 .2639 0.2806 0.2972 0. 3139 C1.3306 0.3472 0.3639 0.3806 C0.3972 0 .4139 0.4306 0.4472 0.4639 C1.4806 0.4972 0.5139 0.5306 0. 5472 0 .5639 0.5806 0.5972 0.6139 C0.6306 0.6472 0.6639 0.6806 0.6972 0 .7139 0.7306 0.7472 0.7639 C .7806 0.7972 0.8139 0.8306 0.8472 0 .8639 0.8806 0.8972 0.9139 C1.9306 0.9472 0.9639 0.981)6 0.9972 1 .0139 1.0306 1.0472 1.0639 11.0806 1.3611 1.6944 2.0278 2.3611 2 .6944 3.0278 3.3611 3.6944 44.0278 4.3611 4.6944 5.0278 5.3611 5 .6944 6.0278 6.3611 6.6944 7 (.278 7.3611 7.6944 8.0278 8.3611 8 .6944 9.0278 9.3611 9.6944 1 0.0278 20.0833 32.0833 44.0833 56.0833 3

6)8.0833 80.0833 92.0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 260.0833 272.0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.8889 475. 1000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature (F) profile for large breaks 119.8113 213.9295 242.3104 255.0268 255.7907 253.1617 252.9372 252.5390 251.9023 250.9733 249.7169 245.8894 235.9856 224.0051 212.9495 203.5499 195.7225 179.5894 199.8048 174.8143 174.8276 177.3518 180.7405 183.2333 185.1644 186.4925 187.2579 187.8270 188.1924 188.4266 NOC-AE-14003081 Non-ProprietaryCASA22 JT4 Page 19 of 20 188.5605 188.5934 188.5042 188.3375 189.3187 189.7570 189.0923 188.5202 188.0148 187.5621 187.4103 187.0671 186.7330 186.4249 186.1559 186.7640 186.5012 186.2557 186.0555 185.9119 185.82C5 185 .8062 185.8495 185.9526 186.1092 187.8900 187.9673 187.9196 187.9119 187.9385 187.9954 188.0710 188.1647 188.2538 188.3385 188.4003 189.0996 188.9199 188.7439 188.5614 188.3622 188.1314 187.8597 187.5387 187 .1667 186.7559 178.4091 171.8762 166.5421 162.2238 158 .1410 154.9818 151.7673 148.9234 146.0834 143.7967 141. 6054 139.5251 137.9892 136.4819 134.8865 136.9000 136. 6489 135.3569 134.3103 133.2941 132.4453 131.9467 132.0536 132.1915 131.3055 130.7946 130.2765 123.0489 118.1991 114 . 9095 112.4170 110.4096 108.7290 107.2834 106. 0152 104.8855 103.8671 102.9399 102.0890 101.3027 100.5720 99.8894 99 2491 98.6461 98.0763 97.5362 97.0229 96.5339 96.0669 95.6474 95.1520 94.7720 94.4055 93.9649 93.6254 93.2967 92 .9000 92.5932 92.2953 92.0057 91.6547 91.3822 91.1168 90.7942 90 .5432 90.2982 89.9998 89.7671 89.5396 89.2620 89.0452 88.8328 88.5733 38.3703 8 8 . 1712 87.9276 87.7368 87.5494 87.3198 87.1398 86.9628 86.7457 86.5753 86.4076 86.2427 86.0401

% NPSH parameters:

(specify any # of pipe segments in common header) 8 major HL variables

% absolute roughness of the pipe (ft) 0.00015 6 Numiber of Pipe Segments 6

% pipe diameters (ft) 1.27 .99 1.27 .84 1.27 .99

% pipe lengths (ft) 66.96 25.41 12.00 25.46 11.50 24.91

% depth of common header (ft) 25.83 25.65 25.83 6 LPSI, HPST, SPRY

% NPSH required for each pump (ft water) 12 12 12  % LPSI, HPSI, SPRY

% minor HL variables

  1. of elbows, tees, entrances, and branches per pipe segment 4

[(4 of 90 degree) (# of 45 degree) (4 of gate valves)(# of entrances)(# of I tee runs) (# of tee branches)]

4 2 1 1 0 0 segment AB 0 0 0 0 1 segment BC 0 0 0 0 1 0 segment BD 3 0 0 0 0 1 segment DE 0 0 0 0 1 0 segment DF 0 0 0 0 1 segment FG

% Newly Added Options Use Old Degas Routine? (0 No, 1 Yes) 0 Use Old NPSH Routine? (0 = No, 1 Yes) 0 Use Old ST Pump Flow Equation? (0 = No, 1 = Yes)

NOC-AE- 14003081 Non-ProprietarvCASA222 JT4 Page 20 of 20 i Use Old Strainer Properties? (0 = No, I = Yes) 0

% Use Common Random Numbers Across Frequency Replications? (0 = No, 1 = Yes) 0

% Enable All Plots? (0 = No, 1 = Yes) 1

% Enable Parallel Calculations (0 = No, 1 = Yes)

% CAUTION - USE ONLY IF YOUR KNOW YOUR PC MEETS SPECIFICATIONS)!

0

% Number of Parallel Threads 4

Use Optimal Frequency Bins for 15 Freps (0 = No, 1 = Yes) 1

% Use Old Debris Source Rate (Before Error Correction)? (0 - No, 1 = Yes) 1

% Use Old Latent Debris Transport Equations (Before Error Correction)? (0 = No, 1 = Yes) 1

NOC-AE-14003081 Attachment 10 STP CASA Grande Information (Non-Proprietary Version)

CASA26 JT4

NOC-AE- 14003081 Contains No Proprietary Information Alion Science and Technology

Attaclunent 10 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 2 of 20

%LANLANLANLANLANLANLANLANLANLANLANLANLANLANLAMLANLANLANLANANLANLANLANLANLA%

% Define Case Folders (Main Project Folder)

"/work/02405/jjtejada/yyeOO/matlabcode/Demo Plant"

% Define Working Folders

% Analysis Folder (-/... /Case/Analysis)

"Analytic Results"

% Run Subfolder (-/.. ./Case/Analysis/run)

"Tornado"

% Run Sub Subfolder (-/... /Case/Analysis/run/runsub)

"SIMCON"

% Run Sub Sub Subfolder (-/... /Case/Analysis/run/run sub/run sub sub)

"Delta Pump Case 26 Shuffle"

% CAD Folder Name (-/... /Case/CAD)

"CAD Files"

% Concrete Sub-Folder K-/... /Case/CAD/Concrete)

"Concrete Data"

% Equipment Sub-Folder (-I/... /Case/CAD/Equipment)

"Equip Data"

% Grating Sub-Folder (-/.. ./Case/CAD/Grating)

"Grating Data"

% Pipe Sub-Folder (-... ./Case/CAD/Pipes)

"Pipe Data"

% Fequency Folder (/... /Case/Frequency)

"Freq Data"

% Break Frequency (-/... /Case/Frequency/Break)

"LOCA Frequency and Weld Inputs 7-12 Rl.xlsx"

% Break Fequency Table (-I/.. ./Case/Frequency/Break/Table)

"LOCA Data"

% Weld Case File (-/... /Case/Frequency/Weld)

"LOCA Frequency and Weld Inputs 7-12 Rl.xlsx"

% Weld Case Table (-/... /Case/Frequency/Weld/Table)

"Weld Table"

% multiplicative spatial unit conversions

% rectify all CAD elements for consistency

% applied to ALL length units within each CAD file

% Concrete Multiplier 1.0

% Equipment Multiplier 1.0

% Grating Multiplier 1.0

% Pipe Multiplier 1.0 0 NOC-AE-1400308 1 Non-Proprietery CASA26 JT4 Page 3 of 20

% LOCA bin definitions

% (units consistent with freq dists and CAD data)

% List Number of Defined Break Size Limits

% ie. SB,MB,LB (3 designations)

% However more sizes are allowable 3

T List Sizes 0.5 2.0 6.0 CAD and Plotting Options (1/0 Y/N)

% Show CAD Reproduction 0

% Show Concrete and Gratings 0

% Produce Intro Movie and Stop 0

% Debris Passage Correlation 0

% Sample Flow Rates 0

Random Input Distributions 0

% ZO Radial Inflation Factor(Plotting Only) 50

% ZOI Plotting Interval (# of breaks between plots) 25 I spatial resolution for discretizing insulation I (must repeat weld target sort if these are changed. delete all master

% files and rerun with new delL and Nangbin)

% Linear Resolution (in.)

6

%Azimuthal Bins in 2 Pi Radians on Pipes 12

% Head Loss Option I porosity calc (1/2 = vol / mass weighting)

I (vol weighting was found to be more conservative) 1

% Synonyms tables for nonstandard welds, hangars and valves and Equipment

% Number of Valve synonyms 5

% Valve Synonyms Valve VALVE MOV XRH FCV I Number of Hangar Labels 14

% Hangar Synonyms Hangar Hanger HL AF GU SS SH RR RH "Work Point" "work point" "Work point" "work Point" "WORK POINT"

% Number of Weld Synonyms

Attaclunent 10 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 4 of 20 4

% Weld Synonyms FW Weld WELD FS

% Number of Steam Generator Synonyms 2

% Steam Generator Synonyms SG SteamGenerator

% Number of Reactor Coolant Pump Synonyms

% Reactor Coolant Pump Synonyms RCP ReactorCoolantPump

% Number of Pressurizer Synonyms 3

% Pressurizer Synonyms PZR PRZR Pressurizer

% Number of RHR Synonyms 2

% RHR Synonyms RHR ResidualHeatRemoval

%Statistics Sampling Options

%Sampling Method

% (0/1/2/3 = CASA default / MatLab default / shuffle / read file) 2

%If Option 3 specified, set file name in case folder below

%If not LEAVE BLANK

% max # LHS bins in LLOCA for max DEGB (DEGB counts as 1) t Nmaxbrk = 2 => 2044 total breaks

% Nmaxbrk = 3 => 2100 total breaks

% Nmaxbrk = 5 => 2250 total breaks

% Nma::brk = 10 => 3070 total breaks 5

% # LHS replicates (batches) for each frequency CCDF 20 S # epistemic freq envelope samples

% current models process 110 cases per minute 15

% logarithmic base for sampling epistemic frequency envelope 2

% lower limit of highest epistemic frequency bin 0.99

% # interpolation pts in each break freq ccdf 1000 S logarithmic base for sampling break size

Attachmaent 10 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 5 of 20

% (double check routine before changing this from base 10) 10

%Insulation Characteristics Number of Low Density Fiberglass Zones 3

Cd 7U

% Number of Debris Types

% Debris Types NUKON NUKON 2 MICROTHERM RMI LEAD "THERMAL WRAP" IOZ ALKYD

%Debris treated as LDFG

% 1/0 -- > yes/no 1 1 0 0 0 1 0 0

%Debris treated as microtherm

% 1/0 -- > yes/no 0 0 1 0 0 0 0 0

% Damage Radii with statistics definitions

% Material X Statistics

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of then y values, c

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3 81 0 0 99999 2 0 0 1 2 3 4 5 6 1

17 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

28.6 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0

Attactmlent 10 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 6 of 20

% Debris Properties Table

% (denote particulate/fiber = sphere/cylinder = 1/2)

% (do NOT add to or reorder this list unless code is modified)

% (inventory of fibers with cylindrical geom must be given in ft^3)

% (can 'fake' the diameter to match a given Sv using std geom formulas)

% (inventory of particulates with spherical geom must be given in lbm)

% (this list MUST include every debris type of interest)

(if unknown, set "manufactured" density of particulate to -20% of Rho mat)

(based on comparison of FeO2 to BWR sludge compaction density) label DebrisPropi 'Geom' 'Diam' 'Rho mat' 'Rho mfc'

% native units 'sph,cyl' 'um' 'lbm/ft"3' 'ibm7fct3-'

% calc units 'sph,cyl' 'm' 'kg/m'3' ,kg/m3, "LDFG - fines" 2 7 175 2.4 "LDFG - small" 2 7 175 2.4 "LDFG - large" 2 7 175 2.4 -

il~h. .165 2.4 Diameters of SiO2 and TiO2 SiO2" 1 2.5 637 27.4 52.4 are improperly reversed 36.66 "QualCoat - IOZ" 1 10 208 51.12 "Crud" 1 15 350 70.0 "UQCoat - epoxyfine" 1 152 124 48.36 "UQCoat - epo:.:yFchp" 1 1143 124 48.36 "UQCoat - epoxySchp" 1 1143 124 48.36 "UQCoat - epo::yLchp" 1 1143 124 45.36 "UQCoat - epo:-:yCrls" 1 1143 124 45 . 36 "UnQualCoat - all:yd" 1 10 207 80.73 "UnQualCoat - enamel" 1 10 93 36.27 "UnQualCoat - IOZ" 1 10 244 95.16 "Latent - particulate" 1 17.3 169 33.80 "Latent - fiber" 2 7 175 2.4

% microTherm constituents (low density concrete with fiber binder)

% mfc'd density (lbrs/ft3) 15.0

% mass fraction filamentsflf read 0.03

% mass fraction of SiO2 0.58

% mass fraction of Ti02 0.39

% debris type start and stop times (min after break)

(rate assumed to be uniform from Tstart to Tend)

% (rate calc uses inventories defined above)

% (introduce "instant" sources over 1 defT)

% (debris from UQCoat cannot have Tstartsrc=0)

(timing is presently independent of breal: size)

Start Times 0 0 0 0 0 0 0 0 0 10 10 10 10 10 10 10 10 0 0 Stop Times 10 10 10 10 10 10 10 10 10 2160 2160 2160 2160 2160 2160 2160 2160 10 10

% Noninsulation Debris Quantities

% random-variable definitions:

% (1) first parameter (mean/geom mrean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit 0 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 7 of 20 (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ... 1 (6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of my pairs

%2 ie. below where 3 pairs are 1 2 3 4 5 6 3

%I 0 0 99999 2 0 0 1 2 3 4 5 6

% qual epoxy in ZOI (lbm) 1 105 0 0 99999 1 0 0

% qual IOZ in ZOI (lbm) 1 39 0 0 99999 1 0 0 s crud fines (lbm) 1 24 0 0 99999 3 0 0

% unqual epoxy fine (ibm)

% (uniform dist 2 2 234 0 117 234 2 0 0 117 234 0.5 0.5

% unqual epoxy fine chip (lbm)

% (uniform dist) 2 2 709 0 355 709 2 0 0 355 709 0.5 0.5

% unqual epoxy small chip (lbm)

% (uniform dist) 2 2 180 0 90 180 2 0 0 90 180 0.5 0.5

% unqual epoxy large chip (lbm)

% (uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5

% unqual epoxy curls (lbm)

% (uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5 unqual alkyd (lbm) 1 271 0 0 99999 1 0 0 A unqual enamel (lbm) 1 267 0 0 99999 1 0 0 A unqual IOZ (lbm) 1 369 0 0 99999 1 0 0

% latent pariculate (lbm) 1 170 0 0 99999 1 0 0 3 latent fiber (ft^3) 1 12.5 0 0 99999 1 0 0 0 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 8 of 20 Time points along accident progression

% (assume all trains of injection on initially, w/spray on setpoint trip)

% (assume HPSI and LPSI both run, but LPSI flow negligible until depress) 6 (1 of 3 spray pumps can be turned off, all HPSI can be turned off for M,L)

% (for degraded condition with < max trains, DON'T exercise any options)

% max time of interest (hr) 36

%***'**Recirculation Times****+*

%Number of break sizes for recirc table 7

%Recirc Time Table 1.5 2 4 6 R 12 27.5 %Break Size (in.)

337 79 56 44 3I 31 30 STime to recirc (min)

%*****'Other LOCA Times*+******

% time to ONE spray pump off (min) (S,M,L)

% (if 0.0, NO spray pumps run)

% With Statistics One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit e (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

20 5 0 99999 1 0 0 1

20 5 0 99999 1 0 0 t time to ALL spray pumps off (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs I ie. below where 3 pairs are 1 2 3 4 5 6 1%23

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

390 5 390 420 1 0 0 1

390 10 390 420 1 0 0 390 15 390 450 1 0 0

Attacluhent 10 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 9 of 20

% time to retire 1 full train (min) (S,M,L)

% (this prob never happens, keep as option)

% (it would be the train with spray off already)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean) 1 (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

A Provide distribution type V if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0 W earliest time for chem prod (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ... )

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 " linear scale)

% (8 ... ) empirical pdf must provide equal # of : then y values,

% first four entries are ignored.

I Provide distribution type

% if (2) or empirical provide number of zy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0

% time to hot leg injection (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal I of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of ::y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 22 0 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 10 of 20 360 0 345 360 2 0 0 345 360 0.5 0.5 22 360 0 345 360 2 0 0 345 360 0.5 0.5 360 0 345 360 2 0 0 345 360 0.5 0.5 A Chemical Product Variables

% pool temp

% (degF) where chem prods form With statistics random-variable definitions:

() first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma return s mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of xy pairs

%9 ie. below where 3 pairs are 1 2 3 4 5 6 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 140 5 0 99999 1 0 0 bump factor for chems when t>=Tchem and T<=ChemTemp (S,M,L)

(spec mean as if min=0, but set min and max to shifted range)

% (preselect mean and max to set desired tail prob in last sample pt) random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of :y pairs 0 ie. below where 3 pairs are 1 2 3 4 5 6

%2 3 41 0 0 99999 2 0 0 1 2 3 4 5 6 1

1.25 0.64 1 15.3 3 1 10 V truncated exponential 3 2 1.50 0.44444 1 18.2 3 1 10 1 2 0.5 0. 5  % truncated exponential 3 2 2.00 0.25 1 24 3 1 10 1 10 1 0.5  % truncated exponential S thresholds of concern

% (logical distribution functions. NOT part of sequence variability) random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

0 NOC-AE- 14003081 Non-Proprietery CASA26 JT4 Page 11 of 20 Provide distribution type if (2) or empirical provide number of xy pairs

%2 ie. below where 3 pairs are 1 2 3 4 5 6

%I 0 0 99999 2 0 0 1 2 3 4 5 6 I core blockage limit (g/FA) HL breaks 1

99999 0 0 0 1 0 0

% core blockage limit (g/FA) CL break 1

99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for HL brk before HL inject

% (should never fail by this mode) 1 99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for CL brk before HL injection 1

7.5 0 0 0 1 0 0 I limit for strainer buckling (ft h2o) 1 9.35 0 0 0 1 0 0

% void fraction at pump inlet (@ train) 1 0.02 0 0 0 1 0 0

%Plant State Table Data

% Operable Trains

% Train X Pump Matrix three trains operable (Case 01) lpsi hpsi spray 1 1 1 IA 1 1 1 %B 1 1 1 %C I two trains operable (Case 22) 2 si hpsi spray

% 1 1 1 %A 1 1 1 %B 0 0 0 IC 2 one train operable (Case 43) lpsi hpsi spray

%5 1 1 1 IA 0 0 0 %B 0 0 0 %C two LHSI pumps failed (Case 09) ipsi hpsi spray 1 1 1 'A 0 1 1 %B 0 1 1 %C one train fail + one additional LHSI fail (Case 26) lpsi hpsi spray 1 1 1 I)A 0 1 1 %B 0 0 0 %C

% # reactor coolant pumps (in CAD) 0 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 12 of 20 4

  1. i pressurizers (in CAD) 1

% # RHR pumps (in CAD) 3

% # steam generators (in CAD) 4

% time increment for evaluation (min) 5

% misc debris area (ft"2) total in containment 1

100 0 0 99999 1 0 0

% fraction of misc debris overlap (arrives @ tO) 0.25

% thin-bed thickness (in) 0.0625 A clip ZOI with walls (1/0 = y/n) 1

% const fiber filtration eff in fuel 1.0

% strainer height (ft) 3.25

% containment rel humidity 1.00

% sump rel humidity 1.00

% # fuel assemblies 193

% inflation of delP before chem bump 1

5 1 1 10 1 0 0

%***'**Min Flow to Cool Core*

%Number of time and flow rate points 30

% Time post SCRAM (hr)

% Must be equal to number of time and flow rate points 0.0028 0.0042 0.0056 0.0111 0.0167 0.0222 0.0278 0.0417 0.0556 0.1111 0.1667 0.2222 0.2778 0.4167 0.5556 1.1111 1.6667 2.2222 2.7778 4.1667 5.5556 11.1111 16.6667 22.2222 27.7778 41.6667 111.1111 166.6667 222.2222 277.7778

%% Flow Rate (gpm)

I Must be equal to number of time and flow rate points 1414.7000 1323.5000 1260.9000 1113.4000 1030.5000

Attaclunent 10 NOC-AE- 14003081 Non-Proprietery CASA26 JT4 Page 13 of 20 973.3000 931.3000 859.3000 812.3000 711.0000 654.7000 614.2000 581.8000 523.1000 480.9000 388.1000 342.4000 315.1000 295.7000 265.1000 245.5000 204.2000 182.7000 168.7000 158.1000 139.8000 99.0000 84.1000 74.4000 67.7000

%**********Special Weld *

% single-case tracer (weld location name - from table)

% specialweld = '31-RC-1102-NSS-1.1';

% If special weld input select 1 else 0 0

% If 1 write weld name

% else leave blank V nominal pool volume (ft'3) and area (ft"2)

% (uniform distribution between min and max pool volumes - S,M,L) 0 0 0 0 2 0 0 43464 61993 .5 .5 .SBLOCA 22 0 0 0 0 2 0 0 39533 69444 .5 .5 %MBLOCA 0 0 0 0 2 0 0 45201 69263 .5 .5 XLBLOCA 0

% Pool Area (ft 2(

12301

% clean strainer attributes

% clean area of ONE strainer (ft'2) 1.8185e+003

% clean area of one OLD strainer (ft'2)

%155.4

% max clean strainer head loss (ft h2o) 0.22

% single pump runout volume rates (gpm) (S, M, L)

% high-pressure max injection rates 1620

% low-pressure injection rate 2800

% Containment Spray Rate (all states except Case 43) 22 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 2t2 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 A Containment Spray Rate (Case 43)

%2 2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

%2 2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5 12 2

%0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

% geometric loading table for a single train:

% thickness x(in) and strainer area A(ft'2) as functions of debris volume

% V(ft'3). see supplementary routine StrainerArea for geometry definition

% and assumptions. must be single-valued functions. May be slight mismatch

% in compression for thickness estimation between this table and delP routine,

% but low flow rate indicates low fiber compression.

% V(ft"3) x(in) A (ft'2)

Attachunent 10 NOC-AE- 14003081 Non-Proprietery CASA26 JT4 Page 14 of 20

%5switch table on/off = 1/0, list length of table if 0 a flat approximation will be used 1 for old strainers 2o

% Table Values

% If Table off leave blank 0 0 1.8185e+003 8.1790e+001 5.00OOe-001 4.1900e+002 8.1800e+001 5.01OOe-001 4,1931e+002 2.8016e+002 8.1421e+000 4.4718e+002 4.7853e+002 1.5783e+001 5.9256e+002 6.7689e+002 2.3424e+001 7.4768e+002 8.7526e+002 3.1065e+001 9.1253e+002 1.0736e+003 3.8706e+001 1.0871e+003 1.2720e+003 4.6348e+001 1.2714e+003 1.4703e+003 5.3989e+001 1.4655e+003 1.6687e+003 6.1630e+001 1.6692e+003 1.8671e+003 6.9271e+001 1.8827e+003 2.0654e+003 7.6912e+001 2.1060e+003 2.2638e+003 8.4553e+001 2.3389e+003 2.4622e+003 9.2194e+001 2.5816e+003 2.6605e+003 9.9835e+001 2.8341e+003 2.8589e+003 1.0748e+002 3.0962e+003 2

3.0573e+003 1 1512e+00 3.3681e+003 3.2556e+003 1.2276e+002 3.6497e+003 3.4540e+003 1.3040e+002 3.9411e+003 3.6524e+003 1.3804e+002 4.2422e+003 3.8507e+003 1.4568e+002 4.5530e+003 2

4.0491e+003 1.5332e+00 4.8735e+003 4.2474e+003 1.6096e+002 5.2038e+003 4.4458e+003 1.6860e+002 5.5438e+003 4.6442e+003 1.7625e+002 5.8935e+003 4.8425e+003 1.8389e+002 6.2530e+003 5.0409e+003 1.9153e+002 6.6222e+003 I initiating event frequency and bounded Johnson fit

% NUREG-1829 current-day exceedance frequencies (without SG breaks)

% (# breaks/cal yr of sizes > H:)

% Interpolated values for LOCA bins MUST be consistent with LOCAbins def

% UT Austin fit of epistemic envelope using bounded Johnson pdf.

% Parameters MUST be listed in column order (gamma,delta,xi,lamda)

% each row varies by size, each column varies by tile (then transposed)

% Break Frequency Table Name "Present-Day Exceedance Frequency"

% Break Sizes in Ascending Order

% These are fixed values A For Documentation Purpose only 0.5 1.625 2 3 6 7 14 31 W Frequency Table

% These are fixed values

% For Documentation Purpose only T Break Size X Percentile 6.8e-5 5.0e-6 3.69e-6 2.le-7 6.30e- 8 1.4e-8 4.le-10 3.5e-11  % 5th tile 6.3e-4 8.9e-5 6.57e-5 3.4e-6 1.08e- 6 3.le-7 1.2e-08 1.2e-09  % 50th tile 1.9e-3 4.2e-4 3.10e-4 1.6e-5 5.20e- 6 1.6e-6 2.0e-07 2.9e-08 %mean 7.le-3 1.6e-3 1.18e-3 6.le-5 1.98e- 5 6.le-6 5.8e-07 8.le-08  % 95th tile

% Table Percentile Values 0.05 0.5 NaN 0.95 5 Don't Use Mean for Fitting Johnson Parameters S These are fixed values

% For Documentation Purpose only

% gamma delta xi lambda 1.650950E+00 5.256964E-01 4.117000E-05 1.420000E-02 0 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 15 of 20 1.646304E+00 4.593913E-01 2.530000E-06 3.200000E-03 1.646308E+00 4.593851E-01 1.870000E-06 2.360550E-03 1.646605E+00 4.589467E-01 1.200000E-07 1.220000E-04 1.646403E+00 4.566256E-01 3.000000E-08 3.965000E-05 1.645739E+00 4.487957E-01 6.023625E-09 1.220000E-05 1.645211E+00 3.587840E-01 2.892430E-10 1.160000E-06 1.645072E+00 3.343493E-01 2.636770E-11 1.600000E-07

% Strainer-Test Penetration Parameters

% area of test module (ft'2) 91.44

% fraction of sheddable debris

% (uniform empirical) - (unitless) 0 0 0 0 2 0 0 0.00956 0.0272 0.5 0.5

% shedding rate (1/min)

% (uniform empirical) 0 0 0 0 2 0 0 0.008236 0.0546 0.5 0.5

% filter efficiency per g (slope)

% (uniform empirical) 22 0 0 0 0 2 0 0 0.000339 0.003723 0.5 0.5

% filter fit cut point (g)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 790 880 0.5 0.5

% initial filter eff (intercept)

A (uniform empirical) 22 0 0 0 0 2 0 0 0.656 0.706 0.5 0.5

% filter efficiency match pt

% (set equal to 1.0 always) 1 1000100

% filter exp rate const (l/g)

% (bimodal empirical) 23 0 0 0 0 2 1 0 0.0011254 0.0013078 0.031787 0.10000 0.45000 0.1000

% Debris Transport Factors

% (enter conservative values here, random variables populated below)

% ZOI-generated debris

% (LDFG fines, LDFG small, LDFG large, uTherm fines, qual coat fines, crud fines)

% (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

% (present values from Vol 3 for SG compartment break)

% these factors were used for Full Batch 2 0.70 0.60 0.22 0.70 0.70 0.70 %FBDupr 0.30 0.25 0.00 0.30 0.30 0.30 %FBD-lwr 0.53 0.27 0.00 0.53 0.53 0.53 %F WD UCin 0.47 0.19 0.00 0.47 0.47 0.47 %F WD MCan 0 NOC-AE- 14003081 Non-Proprietery CASA26 JT4 Page 16 of 20 0.00 0 .27 0 . 00J 0.00 0.00 0C.00 %F WD BCin 0.00 0.00 0.00 0.00 0.00 0.00 %F WD BCan 0.02 0. 00 0.00 0.02 0.02 0.02 %FPF surap 0.00 0.00 0.05 0.05 %F PF nact 0.05 0.05 1.00 0.64 0.00 1.00 1.00 1.00 %F Rcrc lwr 1 . 00 0.64 0.00 1.00 1.00 1.00 %FRcrcWDin 1.00 0.58 0.00 1.00 1.00 1.00 %FRcrc WDan 0.00 0.01 0.01 0.00 0.00 0.00 %FErsnspry 0 .00 0.07 0.07 0.00 0.00 0 . 00 %F Ersn pool

% Unqualified coatings outside ZOI

% (epco-:y fines, epoxy fine chips, epo::y small chips, epoxy large chips,

% epoxy curls, alkyd, baked enamel, IOZ fines)

?% (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

%- (present values from Vol 3 for MB/LBLOCA in SG compartment) 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00  % F fail 0.15 0.15 0.15 0. 15 0.15 0. 54 0 .00 0.83  % F upr 0.02 0 .02 0.02 0.02 0.02 0.46 1.00 0. 17 F lwr 0.83 0.83 0.83 0. 83 0.83 0.00 0.00 0.00  % FRx 0.06 0.06 0.06 0.06 0.06 0.06 0.00 0.06  % F spry 1.00 0.41 0.00 0.00 1.00 1.00 1.00 1.00  % F rcrc 0.00 0.00 0.00 0.00 0.00 0.00 0 . 00 0.00  % F Rx:rcrc o Latent Debris (particulate, fiber)

% (columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for SG compartment) 0.00 0.00 %F BD upr (1) 1.00 1.00 %F BD lwr (2) 1.00 1.00 'F WD (3) 0.02 0 .02 'F PF sump (4) 0.05 0.05 %F PF nact (5) 1.00 1.00 %F Rcrc lwr (6)

%Time and Temperature Data

%Number of Time and Temperature Data Points 162

% time vector (hr) for small-break temperature profile z (FIRST entry is assumed 2B@ t=0. constant-value extrapolation imposed.

% (time dependent temps ARE currently used in calc, one history for each LOCA)

% time vector (hour) for small (and medium) breaks 0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0.0947 0.0964 0 .0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081 0.1097 0 .1139 0.1306 0.1472 0.1639 0.1806 0. 1972 0. 2139 0.2306 0 .2472 0.2639 0.2806 0. 2972 0. 3139 0. 3306 0.3472 0.3639 0 .3806 0.3972 0.4139 0. 4 306 0.4472 0 .4639 0. 4806 0.4972 0 .5139 0.5306 0.5472 0 5639 0. 5806 0 .5972 0.6139 0.6306 0 .6472 0.6639 0.6806 0. 6972 0.7139 0 .7306 0.7472 0.7639 0).7806 0.7972 0.8139 0 .8306 0. 8472 0. 8639 0.8806 0.8972 0 .9139 0.9306 0.9472 0 .9639 0. 9806 0.9972 1.0139 1.0306 1 .0472 1.0639 1.0806 1.3611 1 . 6944 2.0278 2 .3611 2.6944 3 .0278 3.3611 3.6944 4 .0278 4 .3611 4 .6944 5. 0278 5.3611 5 .6944 6.0278 6. 3611 6.6944 7.0278 7.3611 7. 6944 8.0278 8 .3611 8.6944 9.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56 .0833 68.0833 80.0833 92.0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 260.0833 272.0833 283.3333 0 NOC-AE- 14003081 Non-Proprietery CASA226 JT4 Page 17 of 20 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% temperature(F) profile for small (and medium) breaks 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123.5529 124.4938 127.6399 129.7484 131.0391 149.8002 158.2393 162.7694 165.4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0061 176.2923 176.4625 176.4855 176.3916 176.2055 175.9468 175.6184 175.2411 174.8243 174.3902 173.9374 173.4284 172.8459 172.2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.8947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168.7942 168.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 160.9624 158.1118 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.8649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.8930 105.6660 105.5410 105.3160 105.1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.5250 102.5160

% time vector (hr) for medium (and small) break temperature profile

% (FIRST entry is assumed 2B8 t=0. constant-value extrapolation imposed.

0.0000 0.0847 0.0864 0.0881 0.0(897 0.0914 0.0931 0.0947 0.0964 0.0981 0.0997 0.1014 0.10 (31 0.1047 0.1064 0.1081 0.1097 0.1139 0.1306 0.1472 0.16539 0.1806 0.1972 0.2139 0.2306 0.2472 0.2639 0.2806 0.29(72 0.3139 0.3306 0.3472 0.3639 0.3806 0.3972 0.4139 0.43 (06 0.4472 0.4639 0.4806 0.4972 0.5139 0.5306 0.5472 0.56639 0. 5806 0.5972 0.6139 0.6306 0.6472 0.6639 0.6806 0.69(72 0.7139 0.7306 0.7472 0.7639 0.7806 0.7972 0.8139 0.83306 0.8472 0.8639 0. 8806 0.8972 0.9139 0.9306 0.9472 0.96539 0.9806 0.9972 1.0139 1.0306 1.0472 1.0639 1.0806 1.36 11 1. 6944 2 0278 2.3611 2.6944 3.0278 3.3611 3.6944 4.02 78 4.3611 4. 6944 5.0278 5.3611 5.6944 6.0278 6.3611 6.69944 7.0278 7.3611 7.6944 8.0278 8.3611 8.6944 9.0278 9.36611 9.6944 10.0278 20.0833 32.0833 44.0833 56 .0833 68.0833 80.0833 92.0833 104.0833 116.0833 128.0833 140.0833 152 0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 260 .0833 272 0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380. 5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 0 NOC-AE- 14003081 Non-Proprietery CASA26 JT4 Page 18 of 20 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature(F) profile for medium breaks 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123 . 5529 124.4938 127.6399 129.7484 131 . 0391 149.8002 158.2393 162.7694 165.4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176. 0061 176.2923 176.4625 176.4855 176.3916 176.2055 175.9468 175.6184 175.2411 174.8243 174.3902 173.9374 173.4284 172.8459 172.2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.8947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168.7942 168.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 160.9624 158.1118 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.8649 136. 2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.8930 105.6660 105.5410 105.3160 105.1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.5250 102.5160

% time vector (hr) for large breaks 0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0 . 0947 0.0964 C .0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081 0.1097 0.1139 C .1306 0.1472 0.1639 0.1806 0.1972 0.2139 0.2306 0.2472 0.2639 C 2:806 0.2972 0.3139 0.3306 0.3472 0.3639 0.3806 0.3972 0.4139 C 43C)6 0.4472 0.4639 0.4806 0.4972 0.5139 0.5306 0.5472 0.5639 C .5806 0.5972 0.6139 03.6306 0.6472 0.6639 0.6806 0.6972 0.7139 C .7306 0.7472 0.7639 0. 7806 0.7972 0.8139 0.8306 0.8472 0.8639 C .8806 0.8972 0.9139 0 .9306 0.9472 0.9639 0.9806 0.9972 1.0139 1 .0306 1.0472 1.0639 1.0806 1.3611 1.6944 2.0278 2.3611 2.6944 .0278 3.3611 3.6944 4.0278 4.3611 4.6944 5.0278 5.3611 5.6944 66.0278 6.3611 6.6944 7.0278 7.3611 7.6944 8.0278 8.3611 8.6944 9(.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56.0833 68.0833 8 C . 0833 92.0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188 .0833 200.0833 212.0833 224.0833 236. 0833 248 .0833 260.0833 272.0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.8889 475.0000 488.8889 500 . 0000 511.1111 525.0000 536.1111 547.2222 561.1111 572.2222 583.3333 597.2222 608.3333 619.4444 633.3333 644.4444 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature (F) profile for large breaks 119.8113 213.9295 242.3104 255.0268 255.7907 253.1617 252.9372 252.5390 251.9023 250.9733 249.7169 245.8894 235.9856 224.0051 212.9495 203.5499 195.7225 179.5894 199.8048 174.8143 174.8276 177.3518 180.7405 183.2333 185.1644 186.4925 187.2579 187.8270 188.1924 188.4266 188.5605 188.5934 188.5042 188.3375 189.3187 189. 7570 0 NOC-AE-1400308 1 Non-Proprietery CASA26 JT4 Page 19 of 20 189.0923 188.5202 188 .0148 187.5621 187.4103 187.0671 186.7330 186.4249 186.1559 186.7640 186. 5012 186.2557 186.0555 185.9119 185.8265 185.8062 185.8495 185.9526 186.1092 187.8900 187.9673 187.9196 187.9119 187.9385 187.9954 188.0710 188.1647 188.2538 188.3385 188.4003 189.0996 183.9199 188.7439 188.5614 188.3622 188.1314 187.8597 187.5387 187.1667 186.7559 178.4091 171.8762 166.5421 162.2938 158.1410 154.9818 151.7673 148.9234 146.0834 143.7967 141.6054 139.5251 137.9892 136.4819 134.8865 136.9000 136.6489 135.3569 134.3103 133.2941 132.4453 131.9467 132.0536 132.1915 131.3055 130.7946 130.2765 123.0489 118.1991 114.9095 112.4170 110.4096 108.7290 107.2834 106.0152 104.8855 103.8671 102.9399 102.0890 101.3027 100.5720 99.8894 99.2491 98.6461 98.0763 97.5362 97.0229 96.5339 96.0669 95. 6474 95.1520 94.7720 94.4055 93.9649 93.6254 93.2967 92.9000 92.5 5932 92.2953 92.0057 91.6547 91.3822 91.1168 90.7942 90.5432 90.2 3982 89.9998 89.7671 89.5396 89.2620 89.0452 88.8328 88.5733 88. 3703 88.1712 87.9276 87.7368 87.5494 87.3198 87.1398 86.9620 86.7 7457 86.5753 86.4076 86.2427 86.0401

. NPSH parameters:

(specify any # of pipe segments in common header)

% major HL variables

% absolute roughness of the pipe (ft) 0.00015

% Nurber of Pipe Segments 6

% pipe diameters (ft) 1.27 .99 1.27 .84 1.27 .99 z pipe lengths (ft) 66.96 25.41 12.00 25.46 11.50 24.91

% depth of common header (ft) 25.83 25.65 25.83 % LPSI, HPSI, SPRY

% NPSH required for each pump (ft water) 12 12 12  % LPSI, HPSI, SPRY 8 minor HL variables 8 # of elbows, tees, entrances, and branches per pipe segment

% [(# of 90 degree) (# of 45 degree) (# of gate valves)(# of entrances)(# of tee runs) (# of tee branches)]

4 2 1 1 0 0 segment AB 3 0 0 0 0 1 segment BC 0 0 0 0 1 0 segment BD 3 0 0 0 0 1 segment DE 0 0 0 0 1 0 segment DF 3j 0 0 0 0 1 segment FG

% Newly Added Options

% Use Old Degas Routine? (0 No, 1 = Yes) 0

% Use Old NPSH Routine? (0 No, 1 = Yes) 0

% Use Old SI Pump Flow Equation? (0 = No, 1 = Yes) 0 8 Use Old Strainer Properties? (0 = No, 1 = Yes)

Attaclmuent 10 NOC-AE-14003081 Non-Proprietery CASA26 JT4 Page 20 of 20 0

% Use Common Random Numbers Across Frequency Replications? (0 = No, 1 = Yes) 0

% Enable All Plots? (0 = No, 1 = Yes) 1 A Enable Parallel Calculations (0 = No, 1 = Yes)

% CAUTION - USE ONLY IF YOUR KNOW YOUR PC MEETS SPECIFICATIONS!!!!!

0

% Number of Parallel Threads 4

% Use Optimal Frequency Bins for 15 Freps (0 = No, 1 = Yes) 1

% Use Old Debris Source Rate (Before Error Correction)? (0 = No, 1 = Yes) 1

% Use Old Latent Debris Transport Equations (Before Error Correction)? (0 = No, 1 = Yes) 1

NOC-AE- 14003081 Attachment 11 STP CASA Grande Information (Non-Proprietary Version)

CASA43 JT4

Contains No Proprietary Information Alion Science and Technology 1 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 2 of 20

%LANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANLANANLANLANLANLANLA%

% Define Case Folders (Main Project Folder)

"/work/02405/jjtejada/yyeOO/matlabcode/Demo Plant"

% Define Working Folders

% Analysis Folder (-/... /Case/Analysis)

"Analytic Results" Q Run Subfolder (--/... /Case/Analysis/run)

"Tornado"

% Run SubSubfolder (-/... /Case/Analysis/run/run_sub)

"SIMCON"

% Run Sub Sub Subfolder (--/... /Case/Analysis/run/run_sub/runsubsub)

"Delta Pump Case 43 Shuffle"'

I CAD Folder Name (--/... /Case/CAD)

"CAD Files"

% Concrete Sub-Folder (--/ ... /Case/CAD/Concrete)

"Concrete Data"

% Equipment Sub-Folder (-/. .. /Case/CAD/Equipment)

"Equip Data"

% Grating Sub-Folder (-/.. ./Case/CAD/Grating)

"Grating Data"

% Pipe Sub-Folder (/... /Case/CAD/Pipes)

"Pipe Data"

% Fequency Folder )--/... /Case/Frequency)

"Freq Data"

% Break Frequency (/... /Case/Frequency/Break)

"LOCA Frequency and Weld Inputs - 12-7-12 Rl.zls:-:"

% Break Fequency Table (/ ... /Case/Frequency/Break/Table)

"LOCA Data"

% Weld Case File (--/... /Case/Frequency/Weld)

"LOCA Frequency and Weld Inputs - 12-7-12 Rl.xlsx"

% Weld Case Table (-/... /Case/Frequency/Weld/Table)

"Weld Table"

% multiplicative spatial unit conversions

% rectify all CAD elements for consistency I applied to ALL length units within each CAD file

% Concrete Multiplier 1.0

% Equipment Multiplier 1.0

% Grating Multiplier 1.0

% Pipe Multiplier 1.0 V% - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -

Attachmnent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 3 of 20

% LOCA bin definitions

% (units consistent with freq dists and CAD data)

% List Number of Defined Break Size Limits

% ie. SB,MB,LB (3 designations)

% However more sizes are allowable 3

% List Sizes 0.5 2.0 6.0 C----------------------------------------------------------------------------

% CAD and Plotting Options (1/0 = Y/N)

% Show CAD Reproduction 0

% Show Concrete and Gratings 0

% Produce Intro Movie and Stop 0

% Debris Passage Correlation 0

% Sample Flow Rates 0

% Random Input Distributions 0

% ZOI Radial Inflation Factor(Plotting Only) 50

% ZOI Plotting Interval (I of breaks between plots) 25 A spatial resolution for discretizing insulation

% (must repeat weld target sort if these are changed. delete all master

% files and rerun with new delL and Nangbin)

% Linear Resolution (in.)

6

%Azimuthal Bins in 2 Pi Radians on Pipes 12

% Head Loss Option

% porosity calc (1/2 = vol / mass weighting)

C (vol weighting was found to be more conservative) 1

% Synonyms tables for nonstandard welds, hangars and valves and Equipment

% Number of Valve synonyms 5

% Valve Synonyms Valve VALVE MOV XRH FCV

% Number of Hangar Labels 14

% Hangar Synonyms Hangar Hanger HL AF GU SS SH RR RH "Work Point" "work point" "Work point" "work Point" "WORK POINT"

% Number of Weld Synonyms

Attaclunent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 4 of 20 4

' Weld Synonyms FW Weld WELD FS

% Number of Steam Generator Synonyms

% Steam Generator Synonyms SG SteamGenerator 9 Number of Reactor Coolant Pump Synonyms 9 Reactor Coolant Pump Synonyms RCP ReactorCoolantPump

% Number of Pressurizer Synonyms

% Pressurizer Synonyms PZR PRZR Pressurizer

% Number of RHR Synonyms 2

% RHR Synonyms RHR ResidualHeatRemoval

%Statistics Sampling Options

%Sampling Method

% (0/l/2/3 = CASA default / MatLab default / shuffle / read file)

%If Option 3 specified, set file name in case folder below

%If not LEAVE BLANE

% max # LHS bins in LLOCA for max DEGB (DEGB counts as 1)

% Nma:xbrk = 2 => 2044 total breaks

% Nma-brI = 3 2100 total breaks

% Nma:-:brk = 5 => 2250 total breaks

% Nmaxbrk = 10 => 3070 total breaks 5

% # LHS replicates (batches) for each frequency CCDF 20

% # epistemic freq envelope samples

% current models process -110 cases per minute 15

% logarithmic base for sampling epistemic frequency envelope

% lower limit of highest epistemic frequency bin 0.99

% # interpolation pts in each break freq ccdf 1000

% logarithmic base for sampling break size

Attaclunent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 5 of 20

% (double check routine before changing this from base 10) 10

%Insulation Characteristics

% Number of Low Density Fiberglass Zones 3

7' Number of Debris Types 8

% Debris Types NUKON NUKON 2 MICROTHERM RMI LEAD "THERMAL WRAP" IOZ ALKYD

%Debris treated as LDFG

% 1/0 -- > yes/no 1 1 0 0 0 1 0 0

%Debris treated as microtherm

% 1/0 -- > yes/no 0 0 1 0 0 0 0 0 Damage Radii with statistics definitions Material X Statistics random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma return.s mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ... )

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type

% if (2) or empirical provide number of xy pairs ie. below where 3 pairs are 1 2 3 4 5 6

%l 0 0 99999 2 0 0 1 2 3 4 5 6 1

17 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

21.6 0 0 999991 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

17 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0 1

1 0 0 99999 1 0 0

Attaclmuent 11 NOC-AE- 14003081 Non-Proprietery CASA43 JT4 Page 6 of 20 Debris Properties Table

% (denote particulate/fiber = sphere/cylinder = 1/2)

% (do NOT add to or reorder this list unless code is modified)

(inventory of fibers with cylindrical geom must be given in ftc3)

% (can 'fake' the diameter to match a given Sv using std geom formulas)

(inventory of particulates with spherical geom must be given in lbm)

% (this list MUST include every debris type of interest)

% (if unknown, set "manufactured" density of particulate to -2023 of Rhomat)

(based on comparison of Fe02 to BWR sludge compaction density)

'label' DebrisPropi 'Geom' 'Diam' 'Rho mat' 'Rho mfc'

'ibm/ft'3' ' ibm~ft" 3 '

% native units 'sph,cyl' 'um,

% calc units 'sph,cyl' Im' ' kg/rn' 3 ' 'kg/mr3' "LDFG - fines" 2 7 175 2.4 "LDFG - small" 2 7 175 2.4 "LDFG - large" 2 7 175 2.446 165 Diameters of SiO2 and TiO2

  • Therm- S iO2"i2.5[5 ý 37 TiO2" 1 20 262 70.0 are improperly reversed "QualC~oa -l 10 94 27.4 "QualCoat - IOZ" 1 10 208 "Crud" 15 350 46.36 "UQCoat - epoxyfine" 152 124 46.36 "UQCoat - epoxyFchp" 1 1143 124 46.36 46.36 "UQCoat - epoxySchp" 1 1143 124 1 48.36 "UQCoat - epo:.:yLchp" 1143 124 48. 36 "UQCoat - epo:-:yCrls" 1 1143 124 "UnQualCoat - alkyd" 1 10 207 80.73 "UnQualCoat - enamel" 10 93 36.27 "UnQualCoat - IOZ" 10 244 95.16 "Latent - particulate" 1 17.3 169 33.80 "Latent - fiber" 2 7 175 2.4

% microTherm constituents (low density concrete with fiber binder)

% mfc'd density (lbm/ft3) 15.0 9 mass fraction filamentsflf read 0.03

% mass fraction of SiO2 0.58

% mass fraction of TiO2 0.39 debris type start and stop times (min after break)

(rate assumed to be uniform from Tstart to Tend)

% (rate calc uses inventories defined above)

(introduce "instant" sources over 1 delT)

(debris from UQCoat cannot have Tstartsrc=0)

(timing is presently independent of break size) o Start Times 0 0 0 0 0 0 0 0 0 10 10 10 10 10 10 10 0 0

% Stop Times 10 10 1(0 10 10 10 10 10 10 2160 2160 2160 2160 2160 2160 2160 2160 10 10 Noninsulation Debris Quantities

% random-variable definitions:

(1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean) 1 (3) lower limit 1 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 7 of 20 (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi) ts (7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of xy pairs ie. below where 3 pairs are 1 2 3 4 5 6 12 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6

% qual epoxy in ZOI (ibm) 1 105 0 0 99999 1 0 0

% qual IOZ in ZOI (ibm) 1 39 0 0 99999 1 0 0 crud fines (ibm) 1 24 0 0 99999 1 0 0

% unqual epoxy fine (ibm)

% (uniform dist 2 2 234 0 117 234 2 0 0 117 234 0.5 0.5

% unqual epoxy fine chip (ibm)

% (uniform dist) 2 2 709 0 355 709 2 0 0 355 709 0.5 0.5

% unqual epoxy small chip (ibm)

A (uniform dist) 2 2 180 0 90 180 2 0 0 90 180 0.5 0.5

% unqual epoxy large chip (ibm)

% (uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5

% unqual epoxy curls (Ibm)

% (uniform dist) 2 2 391 0 196 391 2 0 0 196 391 0.5 0.5 9 unqual alkyd (ibm) 1 271 0 0 99999 1 0 0

% unqual enamel (ibm) 1 267 0 0 99999 1 0 0 9 unqual IOZ (ibm) 1 369 0 0 99999 1 0 0

% latent pariculate (ibm) 1 170 0 0 99999 1 0 0

% latent fiber (ft 3) 1 12.5 0 0 99999 1 0 0

Attaclmuent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 8 of 20 Time points along accident progression

% (assume all trains of injection on initially, w/spray on setpoint trip)

% (assume IPSI and LPSI both run, but LPSI flow negligible until depress)

% (1 of 3 spray pumps can be turned off, all HPSI can be turned off for N,L)

% (for degraded condition with < max trains, DON'T exercise any options)

% max time of interest (hr) 36

%+/-*÷*""Recirculation Times""*"

%Number of break sizes for recirc table 7

%Recirc Time Table 1.5 2 4 6 8 12 27.5 %Break Size (in.)

337 79 56 44 38 31 30 %Time to recirc (min)

%******Other LOCA Times*******Q*

% time to ONE spray pump off (min) (S,M,L)

% (if 0.0, NO spray pumps run)

I With Statistics

% One Row for each size designation (see LOCA bin definitions)

A random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit v (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of H:then y values, first four entries are ignored.

% Provide distribution type e if (2) or empirical provide number of Yy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

20 5 0 99999 1 0 0 1

20 5 0 99999 1 0 0

% time to ALL spray pumps off (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

A random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

390 5 390 420 1 0 0 1

390 10 390 420 1 0 0 1

390 15 390 450 1 0 0

Attaclhnent 11 NOC-AE-1400308 1 Non-Proprietery CASA43 JT4 Page 9 of 20 time to retire I full train (min) (S,M,L)

(this prob never happens, keep as option)

(it would be the train with spray off already)

One Row for each size desionation (see LOCA bin definitions) random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (zero sigma returns mean)

(3) lower limit 2 (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

15 (6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

Provide distribution type if (2) or empirical provide number of xy pairs 15 ie. below where 3 pairs are 1 2 3 4 5 6

%12 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0 1

99999 0 0 99999 1 0 0 earliest time for chem prod (min) (S,M,L)

One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

% (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBm ...

(6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of .: then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of :.:y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3 01 0 0 99999 2 0 0 1 2 3 4 5 6 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0 1

0 0 0 99999 1 0 0

% time to hot leg injection (min) (S,M,L)

% One Row for each size designation (see LOCA bin definitions)

% random-variable definitions:

1 (1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/geom std dev) (rero sigma returns mean)

S(3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of then y values, first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of x:y pairs

% ie. below where 3 pairs are 1 2 3 4 5 6 12 3

%l 0 0 99999 2 0 0 1 2 3 4 5 E.

2 2 1 NOC-AE- 14003081 Non-Proprietery CASA43 JT4 Page 10 of 20 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2 360 0 345 360 2 0 0 345 360 0.5 0.5 2 2 360 0 345 360 2 0 0 345 360 0.5 0.5

% Chemical Product Variables V pool temp (degF) where chem prods form t With statistics

% random-variable definitions:

A (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit v (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of x then y values,

% first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of -y pairs

& ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6 1

140 5 0 99999 1 0 0

% bump factor for chems when t>=Tchem and T<=ChemTemp (S,M,L)

% (spec mean as if min-0, but set min and ma:: to shifted range)

% (preselect mean and max to set desired tail prob in last sample pt)

% random-variable definitions:

1 (1) first parameter (mean/geom mean/mean)

% (2) second parameter (std dev/geom std dev) (zero sigma returns mean)

% (3) lower limit

% (4) upper limit

% (5) library distribution (1/2/3 = normal/empirical/TBD ...

% (6) conservative direction (0/1 = low/hi)

% (7) logarithmic sample base (0 = linear scale)

% (8 ... ) empirical pdf must provide equal # of n then y values, first four entries are ignored.

% Provide distribution type

% if (2) or empirical provide number of xy pairs T ie. below where 3 pairs are 1 2 3 4 5 6

%2 3 A1 0 0 99999 200123456 1

1.25 0.64 1 15.3 3 1 10 truncated e:ponential 3 2 1.50 0.44444 1 18.2 3 1 10 1 2 0.5 0.5  % truncated exponential 32 2.00 0.25 1 24 3 1 10 1 10 1 0.5  % truncated exponential thresholds of concern (logical distribution functions. NOT part of sequence variability) random-variable definitions:

(1) first parameter (mean/geom mean/mean)

(2) second parameter (std dev/goom std dev) (zero sigma returns mean)

(3) lower limit (4) upper limit (5) library distribution (1/2/3 = normal/empirical/TBD ...

(6) conservative direction (0/1 = low/hi)

(7) logarithmic sample base (0 = linear scale)

(8 ... ) empirical pdf must provide equal # of x then y values, first four entries are ignored.

1 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 11 of 20 I Provide distribution type

% if (2) or empirical provide number of :.xy pairs

% ie. below where 3 pairs are 1 2 3 4 5 6

%2 3

%1 0 0 99999 2 0 0 1 2 3 4 5 6

% core blockage limit (g/FA) HL breaks 1

99999 0 0 0 1 0 0 I core blockage limit (g/FA) CL break 1

99999 0 0 0 1 0 0

% boron ppt limit (g/FA) for HL brk: before HL inject (should never fail by this mode) 1 99999 0 0 0 1 0 0 I boron ppt limit (g/FA) for CL brk before HL injection 1

7.5 0 0 0 1 0 0 I limit for strainer buckling (ft h2o) 1 9.35 0 0 0 1 0 0 I void fraction at pump inlet (@ train) 1 0.02 0 0 0 1 0 0

'Plant State Table Data

% Operable Trains I Train X Pump Matrix three trains operable (Case 01) ipsi hpsi spray 1 1 1 %A 1 1 1 B 1 1 1 C two trains operable (Case 22) lpsi hpsi spray

% 1 1 1 %A

% 1 1 1 -B 0 0 0 %C

% one train operable (Case 43)

% lpsi hpsi spray 1 1 1 %A 0 0 0 ,B 0 0 0 %C I two LHSI pumps failed (Case 09)

I lpsi hpsi spray

% 1 1 1 IA 2 0 1 1 IB

%. 0 1 1 %C

% one train fail + one additional LHSI fail (Case 26)

% lpsi hpsi spray 2 1 1 1 %A 0 1 1 %B

% 0 0 0 IC

% # reactor coolant pumps (in CAD)

Attaclmuent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 12 of 20 4

1 4 pressurizers (in CAD)

  1. RHR pumps (in CAD) 3
  1. steam generators (in CAD) 4 time increment for evaluation (min) 5

% misc debris area (ft"2) total in containment 1

100 0 0 99999 1 0 0 0 fraction of misc debris overlap (arrives @ tO) 0.25

% thin-bed thickness (in) 0.0625 W clip ZOI with walls (1/0 = y/n) 1

% const fiber filtration eff in fuel 1.0

% strainer height (ft) 3.25

% containment rel humidity 1.00

% sump rel humidity 1.00

% 4 fuel assemblies 193

% inflation of delP before chem bump 1

5 1 1 10 1 0 0

%'*****Min Flow to Cool Core*"*"" ****

%Number of time and flow rate points 30

% Time post SCRAM (hr)

% Must be equal to number of time and flow rate points 0.0028 0.0042 0.0056 0.0111 0.0167 0.0222 0.0278 0.0417 0.0556 0.1111 0.1667 0.2222 0.2778 0.4167 0.5556 1.1111 1.6667 2.2222 2.7778 4.1667 5.5556 11.1111 16.6667 22.2222 27.7778 41.6667 111.1111 166.6667 99. 2222 277.7778

%% Flow Rate (gpm)

% Must be equal to number of time and flow rate points 1414.7000 1323.5000 1260.9000 1113.4000 1030.5000

Attaclunent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 13 of 20 973.3000 931.3000 859.3000 812.3000 711.0000 654.7000 614.2000 581.8000 523.1000 480.9000 388.1000 342.4000 315.1000 295.7000 265.1000 245.5000 204.2000 182.7000 168.7000 158.1000 139.8000 99.0000 84.1000 74.4000 67.7000

%*********+/-Special Weld *

% single-case tracer (weld location name - from table)

% specialweld = '31-RC-1102-NSS-I.1';

% If special weld input select 1 else 0 0

% If 1 write weld name

% else leave blank

% nominal pool volume (fc3) and area (ft2)

% (uniform distribution between min and max pool volumes - S,M,L) 2 2 0 0 0 0 2 0 0 43464 61993 .5 .5 %SBLOCA 2 2 0 0 0 0 2 0 0 39533 69444 .5 .5 %MBLOCA 22 0 0 0 0 2 0 0 45201 69263 .5 .5 %LBLOCA I Pool Area (ft'2) 12301

% clean strainer attributes

% clean area of ONE strainer (ft"2) 1.8185e+003

% clean area of one OLD strainer (ft'2)

%155.4

% max clean strainer head loss (ft h2o) 0.22

% single pump runout volume rates (gpm) (S, M, L)

% high-pressure max injection rates 1620

% low-pressure injection rate 2800

% Containment Spray Rate (all states except Case 43) 02 2 00 0 1932 2350 2 0 0 1932 2350 0.5 0.5

%2 2

%0 0 1932 2350 2 0 0 1932 2350 0.5 0.5 U2 2

%0 0 1932 2350 2 0 0 1932 2350 0.5 0.5

% Containment Spray Rate (Case 43) 2o2 0 0 2080 2600 2 0 0 2080 2600 0.5 0.5 22 0 0 2080 2600 2 0 0 2080 2600 0.5 0.5 22 0 0 2080 2600 2 0 0 2080 2600 0.5 0.5

% geometric loading table for a single train:

% thickness x.(in) and strainer area AQftý2) as functions of debris volume

% Vft3). see supplementary routine StrainerArea for geometry definition A and assumptions. must be single-valued functions. May be slight mismatch

% in compression for thickness estimation between this table and delP routine,

% but low flow rate indicates low fiber compression.

0 2 V(ft'3) x(in) A (ft 2)

Attachunent 11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 14 of 20 switch table on/off = 1/0, list length of table is if 0 a flat approximation will be used for old strainers 1 28

% Table Values I If Table off leave blank 0 0 1.8185e+003 8.1790e+001 5.00OOe-001 4.1900e+002 8.1800e+001 5.01OOe-001 4.1931e+002 2.8016e+002 8.1421e+000 4.4718e+002 4.7853e+002 1.5783e+001 5.9256e+002 6.7689e+002 2. 3424e+001 7.4766e+002 8.7526e+002 3.1065e+001 9.1253e+002 7

1.0736e+003 3.8 06e+001 1.0871e+003 1.2720e+003 4.6348e+001 1.2714e+003 1.4703e+003 5.3989e+001 1.4655e+003 1.6687e+003 6.1630e+001 1.6692e+003 1.8671e+003 6.9271e+001 1.8827e+003 2.0654e+003 7.6912e+001 2.1060e+003 2.2638e+003 8.4553e÷001 2.3389e+003 2.4622e+003 9.2194e+001 2.5816e+003 2.6605e+003 9.9835e+001 2.8341e+003 2.8589e+003 1.0748e+002 3.0962e+003 3.0573e+003 1.1512e+002 3.3681e+003 3.2556e+003 1.2276e+002 3.6497e+003 3.4540e+003 1.3040e+002 3.9411e+003 3.6524e+003 1.3804e+002 4.2422e+003 3.8507e+003 1.4568e+002 4.5530e+003 2

4.0491e+003 1 5332e+00 4.8735e+003 4.2474e+003 1.6096er002 5.2038e+003 4.4458e+003 1.6860ei002 5.5438e+003 4.6442e+003 1.7625e+002 5.8935e+003 2

4.8425e+003 1 8389e+00 6.2530e+003 5.0409e+003 1.9153e+002 6.6222e+003

% initiating event frequency and bounded Johnson fit

% NUREG-1829 current-day exceedance frequencies (without SG breaks)

% (# breaks/cal yr of sizes > x) i Interpolated values for LOCA bins MUST be consistent with LOCAbins def

% UT Austin fit of epistemic envelope using bounded Johnson pdf.

% Parameters MUST be listed in column order (gamma,delta,xi,lamda)

% each row varies by size, each column varies by Rile (then transposed)

% Break Frequency Table Name "Present-Day E:-ceedance Frequency"

% Break Sizes in Ascending Order

% These are fixed values

% For Documentation Purpose only 0.5 1.625 2 3 6 7 14 31

% Frequency Table

% These are fixed values

% For Documentation Purpose only

% Break Size Z Percentile 6.8e-5 5.0e-6 3.69e-6 2.le-7 6.30e-8 1.4e-8 4.le-10 3.5e-11  % 5th tile 6.3e-4 8.9e-5 6.57e-5 3.4e-6 1.08e-6 3.le-7 1.2e-08 1.2e-09  % 50th %ile 1.9e-3 4.2e-4 3.10e-4 1.6e-5 5.20e-6 1.6e-6 2.0e-07 2.9e-08  % mean 7.le-3 1.6e-3 1.18e-3 6.le-5 1.98e-5 6.le-6 5.8e-07 8.le-08  % 95th tile

% Table Percentile Values 0.05 0.5 NaN 0.95 % Don't Use Mean for Fitting

% Johnson Parameters

% These are fixed values I For Documentation Purpose only

% gamma delta xi lambda 1.650950E+00 5.256964E-01 4.117000E-05 1.420000E-02 1 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 15 of 20

1. 646304E+00 4.593913E-01 2.530000E-06 3.200000E-03 1.646308E+00 4.593851E-01 1.870000E-06 2.360550E-03
1. 646605E+00 4.589467E-01 1.200000E-07 1.220000E-04 1.646403E+00 4.566256E-01 3.000000E-08 3.965000E-05
1. 645739E+00 4.487957E-01 6.023625E-09 1.220000E-05
1. 645211E+00 3.587840E-01 2.892430E-10 1.160000E-06
1. 645072E+00 3.343493E-01 2.636770E-11 1.600000E-07 I Strainer-Test Penetration Parameters

% area of test module (ft"2) 91.44

% fraction of sheddable debris

% (uniform empirical) - (unitless) 2 2 0 0 0 0 2 0 0 0.00956 0.0272 0.5 0.5 9 shedding rate (1/min)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 0.008236 0.0546 0.5 0.5

% filter efficiency per g (slope)

% (uniform empirical) 2 2 0 0 0 0 2 0 0 0.000339 0.003723 0.5 0.5

% filter fit cut point (g)

% (uniform empirical)

I2 2 0 0 0 0 2 0 0 790 880 0.5 0.5

% initial filter eff (intercept)

I (uniform empirical) 2 2 0 0 0 0 2 0 0 0.656 0.706 0.5 0.5

% filter efficiency match pt

% (set equal to 1.0 always) 1 1 0 0 0 1 0 0 filter exp rate const (1/g) 2 (bimodal empirical) 3 0 0 0 0 2 1 0 0.0011254 0.0013078 0.031787 0.10000 0.45000 0.1000

% Debris Transport Factors

% (enter conservative values here, random variables populated below)

% ZOI-generated debris A (LDFG fines, LDFG small, LDFG large, uTherm fines, qual coat fines, crud fines)

% (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

% (present values from Vol 3 for SG compartment break) these factors were used for Full Batch 2 0.70 0.60 0.22 0.70 0.70 0.70 BD upr 0.30 0.25 0.00 0.30 0.30 0.30 BD lwr 0.53 0.27 0.00 0.53 0.53 0.53 WD UCi 0.47 0.19 0.00 0.47 0.47 0.47 AD UCan 1 NOC-AE-14003081 Non-Proprieteiy CASA43 JT4 Page 16 of 20 0.00 0 .27 0.00 0.00 0.00 0 .00 %F WD BCin 0.00 0.00 0.00 0.00 0.00 0 .00 %F WDBCan 0.02 0.00 0.00 0.02 0.02 0.02 .F PF sump 0.05 0.00 0.00 0.05 0.05 0.05 F PF nact 1.00 0.64 0.00 1.00 1.00 1.00 %F Rcrc lwr 1.00 0. 64 0.00 1.00 1.00 1 . 00 %F Rcrc WDin 1.00 0.58 0.00 1.00 1.00 1.00 %F Rcrc WDan 0.00 0.01 0.01 0.00 0 . 00 0.00 %F_Ersn-spry 0.00 0.07 0.07 0.00 0.00 0.00 _Ersn pool

% Unqualified coatings outside ZOI

% (epo:Ky fines, epox.:y fine chips, epo:<y small chips, epo:.:y large chips, epo:*:y curls, alkyd, baked enamel, IOZ fines)

% (columns must ALWAYS be defined in this order left to right)

% (rows must ALWAYS be defined in this order top to bottom)

(present values from Vol 3 for MB/LBLOCA in SG compartment) 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00  % F fail 0.15 0.15 0.15 0.15 0. 15 0. 54 0.00 0.83 Fupr 0.02 0.02 0.02 0.02 0.02 0.46 1 . 00 0.17 F lwr 0.83 0.83 0.83 0.83 0. 83 0.00 0. 00 0.00  % F R:-

0.06 u .06 0.06 0.06 0.06 0.06 0.00 0.06 F spry 1.00 0.41 0.00 0.00 1.00 1 . 00 1. 0o 1.00  % F rcrc 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.000 s F Rxrcrc

% Latent Debris

% (particulate, fiber)

(columns must ALWAYS be defined in this order left to right)

(rows must ALWAYS be defined in this order top to bottom)

% (present values from Vol 3 for SG compartment) 0.00 0.00 %F BDupr (1) 1.00 1.00 %F BD lwr (2) 1.00 1.00 ,F WD (3) 0.02 0.02 OF sump (4) 0.05 0.05 %F PF nact (5) 1.00 1 .0C) %F Rcrc lwr (6)

%Time and Temperature Data

%Wumber of Time and Temperature Data Points 1612

% time vector (hr) for small-breal: temperature profile

% (FIRST entry is assumed 2B@ t=0. constant-value e:<trapolation imposed.

(time dependent temps ARE currently used in calc, one history for each LOCA)

% time vector (hour) for small (and medium) breaks 0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0.0947 0.0964 0. .0981 0.0997 0. 10 14 0. 1031 0.1047 0.1064 0.1081 0.1097 0 .1139 0.1306 0.1472 0.1639 0.1806 0.1972 0.2139 0 .2306 0. .2472 0.2639 0.2806 0.2972 0.3139 0.3306 0.3472 0.3639 0. .3806 0 .3972 0.4139 0.4306 0.4472 0.4639 0.4806 0.4972 0 .5139 0.5306 0. 5472 0.5639 0.5806 0.5972 0.6139 0.6306 0 .6472 0.6639 0.6806 0. 6972 0.7139 0.7306 0.7472 0.7639 0 .78 C 6 0.7972 0.8139 0.8306 0.8472 0.8639 0.8806 0.8972 0 .9139 0.9306 0.9472 0.9639 0.9806 0.9972 1.0139 1.0306 1 .0472 1.0639 1.0806 1.3611 1.6944 2. 0278 2.3611 2.6944 3 .0278 3.3611 3.6944 4.0278 4.3611 4.6944 5.0278 5.3611 5 .6944 6.0278 C.3611 6.6944 7.0278 7 .36 11 7.6944 8.0278 8 .3611 8.6944 9.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56 0833 68.0833 80.0833 92 0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 '60.0833 272.0833 283.3333 1 NOC-AE- 14003081 Non-Proprietery CASA43 JT4 Page 17 of 20 297.2222 308.3333 319 .4444 333.3333 344.4444 355.5556 369.4444 380. 5556 391.6667 402.7778 416.6667 427.7778 438 .8889 452.7778 463.8889 475.0000 488.8889 500.0000 511.1111 525.0000 536.1111 547 2222 561.1111 572_92292 583.3333 597.'2'2 608 .3333 619.4444 633.3333 644.4444 655.5556 669. 4444 68O 5556 691.6667 702.7778 716.6667

% temperature(F) profile for small (and medium) breaks 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166.6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164 .4935 132.7076 124.0848 123.6914 123.5998 123.5641 123.5529 124.4938 127.6399 129.7494 131.0391 149.8002 158.2393 162.7694 165.4960 167.3R51 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0061 176. 2923 176.4625 176.4855 176.3916 176. 2055 175.9468 175.6184 175.2411 174.8243 174.3902 173.9374 173.4284 172.8459 172.2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.3947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170.8721 169.8110 168 .7942 16E.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158.1298 158.4517 156.5706 151.6937 163.7090 160.9624 158.1119 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.-649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110.8590 110.3930 109.9930 109.5770 109.2090 108 . 9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106. 2500 106.1240 105.8930 105.6660 105.5410 105.3160 105.1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.5250 102.5160 time vector (hr) for medium (and small) break temperature profile

% (FIRST entry is assumed 2B@ t=0. constant-val lue extrapolation imposed.

0.0000 00.0847 0.0864 0.0881 0.0897 0 . 0914 0.0931 0.0947 0.0964 0. 0981 0.0997 0.1014 0.1031 0.1047 0(.1064 0.1081 0.1097 0. 1139 0.1306 0 .1472 0.1639 0C 1806 00.1972 0.2139 0.2306 0. 2472 0.2639 0.2806 0.2972 0,3139 00.3306 0.3472 0.3639 0. .3806 0.3972 0.4139 0.4306 0.4472 00.4639 0.4806 0.4972 0. 5139 0.5306 0.5472 0.5639 0.5806 00.5972 0. 6139 0.6306 0. .6472 0.6639 0.6806 0.6972 0 .7139 0).7306 0 7472 0.7639 0. 7806 0.7972 0 .8139 0 . 8306 0.8472 00.8639 0.8806 0.8972 0. 9139 0.9306 0. 9472 0.9639 0.9806 00.9972 1.0139 1.0306 1..0472 1.0639 1 .0806 1.3611 1.6944 2.0278 2.3611 2.6944 3. .0278 3.3611 3.6944 4.0278 4.3611 4 .6944 5 0278 5.3611 5. 6944 6.0278 6.3611 6.6944 7 .0278 77.3611 7.6944 8.0278 8. .3611 8.6944 9.0278 9.3611 9 . 6944 10.0278 20.0833 32.0833 44.0833 56.0833 68.0833 80.0833 92.0833 104.0833 116.0833 128.0833 140.0833 152.0833 164.0833 176.0833 188.0833 200.0833 212.0833 224.0833 236.0833 248.0833 -60.0833 272 0833 283.3333 297.2222 308.3333 319.4444 333.3333 344.4444 355.5556 369.4444 380.5556 391.6667 402.7778 416.6667 427.7778 438.8889 452.7778 463.9689 475.0000 488.8899 500.0000 511.1111 525.0000 536.1111 547.2222 561.1111 5722.2222 583.3333 597.2222 606.3333 619.4444 633.3333 644.4444 1 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 18 of 20 655.5556 669.4444 680.5556 691.6667 702.7778 716.6667

% Temperature(F) profile for medium breaks 119.6000 131.2987 140.1689 150.3314 156.1240 159.2343 162.1567 164.5680 166. 6937 168.5685 170.2457 171.7175 172.9577 174.0415 174.9570 175.7084 176.3081 177.5299 164.4935 132.7076 124.0848 123.6914 123.5988 123.5641 123.5529 124.4938 127.6399 129.7484 131.0391 149.8002 158.2393 162.7694 165.4960 167.3851 168.6688 169.7687 170.9814 171.9993 172.8771 173.7150 174.4595 175.0903 175.6074 176.0061 176.2923 176.4625 176.4855 176.3916 176.2055 175.9468 175.6184 175.2411 174.8243 174 .3902 173.9374 173.4284 172.8459 172.2319 171.6143 171.0143 170.4548 169.9507 169.5034 169.1086 168.7661 168.4824 168.2551 168.0847 167.9707 167.9020 167.8705 167.8665 167.8947 167.9451 168.0131 168.0978 170.0607 170.9606 171.4105 170 .87211 169.8110 168.7942 168.1132 165.3090 164.1228 163.0112 161.4436 159.9385 158. 198 158.4517 156.5706 151.6937 163.7090 160.9624 158.1118 156.1579 154.6151 153.2333 151.9641 150.8191 149.7667 148.7924 147.8649 136.2080 129.0230 124.9790 122.1450 120.1310 118.4710 117.3160 116.4980 115.6160 114.7100 113.8960 113.1730 112.5210 111.9240 111.3580 110. 8590 110.3930 109.9930 109.5770 109.2090 108.9100 108.5930 108.2810 107.9680 107.7100 107.4730 107.1620 106.9430 106.7150 106.4770 106.2500 106.1240 105.8930 105.6660 105.5410 105.3160 105.1930 105.0690 104.8440 104.7250 104.6070 104.3770 104.3660 104.1400 104.0230 103.9050 103.7910 103.6730 103.5660 103.4520 103.3350 103.1450 103.1000 102.9130 102.8680 102.6810 102.6450 102.5250 102.5160

% time vector (hr) for laroe breaks 0.0000 0.0847 0.0864 0.0881 0.0897 0.0914 0.0931 0.0947 0.0964 00.0981 0.0997 0.1014 0.1031 0.1047 0.1064 0.1081 0.1097 0.1139 C).1306 0.1472 0.1639 0.1806 0.1972 0.2139 0.2306 0 .2472 0.2639 .2806 0.2972 0.3139 0.3306 0.3472 0.3639 0.3806 0.3972 0.4139 00.4306 0.4472 0.4639 0.4806 0.4972 0.5139 0.5306 0 . 5472 0.5639 0 .5806 0.5972 0.6139 0.6306 0.6472 0.6639 0.6806 0.6972 0.7139 .7306 0.7472 0.7639 0.7806 0.7972 0.8139 0.8306 0.8472 0.8639 C0.8806 0.8972 0.9139 0.9306 0.9472 0.9639 0.9806 0. 9972 1.0139 1.0306 1.0472 1.0639 1.0806 1.3611 1.6944 2.0278 2.3611 2.6944 3.0278 3.3611 3.6944 4.0278 4.3611 4.6944 5.0278 5. 3611 5.6944 6.0278 6.3611 6.6944 7.0278 7.3611 7.6944 8 .0278 8.3611 8.6944 9.0278 9.3611 9.6944 10.0278 20.0833 32.0833 44.0833 56.0833 68.0833 00. 0833 92.0833 104.0833 116 .0833 128.0833 140 . 0833 152.0833 164.0833 176.0833 188 .0833 200.0833 212.0833 994.0833 236.0833 248 0833 260 . 0833 272.0833 283.3333 297.*222 308.3333 319.4444 333 .3333 344.4444 355.5556 369.4444 380 . 5556 391.6667 402 .7778 416.6667 427.7778 438.8889 452.7778 463.8889 475 .0000 488.8889 5500.0000 511.1111 525.0000 536.1111 547 .2222, 561.1111 572.2222 583.3333 597 . -22 608.3333 619 .4444 633.3333 644.4444 655.5556 6769.4444 680.5556 691 .6667 702.7778 716.6667

% Temperature (F) profile for large breaks 119.8113 213.9295 242.3104 255.0268 255.7907 253.1617 252.9372 252.5390 251.9023 250.9733 249.7169 245.8894 235.9856 224.0051 212.9495 203.5499 195.7225 179.5894 199.8048 174.8143 174.8276 177.3518 180.7405 183.2333 185.1644 186.4925 187.2579 187.8270 188.1924 188.4266 188.5605 188.5934 188.5042 188.3375 189.3187 189.7570

Attachmaent I11 NOC-AE-14003081 Non-Proprietery CASA43 JT4 Page 19 of 20 189.0923 188.5202 188.0148 187.5621 187.4103 187.0671 186.7330 186.4249 186 .1559 186.7640 186.5012 186.2557 186.0555 185.9119 185 .8265 185.8062 185.8495 185.9526 186.1092 187.8900 187 .9673 187.9196 187.9119 187.9385 187.9954 188.0710 188.1647 188 .2538 188.3385 188.4003 189.0996 188.9199 188 .7439 188.5614 188.3622 188.1314 187.8597 187.5387 187 .1667 186. 7559 178.4091 171.8762 166.5421 162.2238 158.1410 154.9818 151 .7673 148.9234 146.0834 143.7967 141. 6054 139. 5251 137.9892 136.4819 134.8865 136.9000 136.6489 135.3569 134.3103 133.2941 132.4453 131.9467 132.0536 132 1915 131.3055 130.7946 130.2765 123.0489 118.1991 114.9095 112.4170 110.4096 108.7290 107.2834 106.0152 104. 8855 103.8671 102.9399 102.0890 101.3027 100.5720 99.8894 99.2491 98.6461 98.0763 97.5362 97.0229 96.5339 96.0669 95.6474 95.1520 94.7720 94.4055 93.9649 93.6254 93.2967 92.9000 92.59032 92.2953 92.0057 91.6547 91.3822 91.1168 90.7942 90. 5432 90.2982 89.9998 89.7671 89.5396 89.2620 89.0452 88.8328 88.5733 38.3703 88.1712 87.9276 87.7368 87.5494 87.3198 87.1398 86.9628 86.7457 86.5753 86.4076 86.2427 86.0401

% NPSH parameters:

(specify any # of pipe segments in common header)

% major HL variables

% absolute roughness of the pipe (ft) 0.00015

% Number of Pipe Segments 6

% pipe diameters (ft) 1.27 .99 1.27 .84 1.27 .99

% pipe lengths (ft) 66.96 25.41 12.00 25.46 11.50 24.91

% depth of common header (ft) 25.83 25.65 25.83 % LPSI, HPSI, SPRY

% NPSH required for each pump (ft water) 12 12 12 9 LPSI, HPSI, SPRY

% minor HL variables

% 9 of elbows, tees, entrances, and branches per pipe segment

% [(# of 90 degree) (H of 45 degree) (4 of gate valves)(# of entrances)(# of

% tee runs) (9 of tee branches)]

4 1 1 0 0 segment AB 3 00 0 0 0 1 segment PC 0 0 0 1 0 segment BD 0 0 0 0 1 segment DE 0 0 0 0 1 0 segment DF 3 0 0 0 0 1 segment FG

? Newly Added Options

% Use Old Degas Routine? (0 No, 1 = Yes) 0

% Use Old NPSH Routine? (0 No, 1 = Yes) 0

% Use Old SI Pump Flow Equation? (0 = No, 1 = Yes) 0

% Use Old Strainer Properties? (0 = No, I = Yes) 1 NOC-AE- 14003081 Non-Proprietery CASA43 JT4 Page 20 of 20 0

% Use Common Random Numbers Across Frequency Replications?' (0 = No, 1 =Yes)

I Enable All Plots? (0 = No, 1 = Yes) 1 I Enable Parallel Calculations (0 = No, 1 = Yes)

% CAUTION - USE ONLY IF YOUR KNOW YOUR PC MEETS SPECIFICATIONS!

0

% Number of Parallel Threads 4 *

% Use Optimal Frequency Bins for 15 Freps (0 = No, 1 = Yes) 1

% Use Old Debris Source Rate (Before Error Correction)? (0 = No, 1 = Yes) 1 Use Old Latent Debris Transport Equations (Before Error Correction)? (0 No, 1 = Yes) 1

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