Text

Request for Amendment of Docket No. 71-9319, Framatome MAP-12 and MAP-13 Shipping Container, Application for Approval
	ML18166A180
Person / Time
Site:	07109319
Issue date:	06/12/2018
From:	Travis Tate; Framatome
To:	; Document Control Desk, Office of Nuclear Material Safety and Safeguards
References
	TJT:18:024
	Download: ML18166A180 (69)
	v • d • e

framatome June 12, 2018 T JT:18:024 U.S. Nuclear Regulatory Commission Attn: Document Control Desk Director, Division of Spent Fuel Management Office of Nuclear Material Safety and Safeguards 11555 Rockville Pike One White Flint North Rockville MD 20852

SUBJECT:

Request for Amendment of Docket No. 71-9319, Framatome MAP-12 and MAP-13 Shipping Container, Application for Approval.

References:

(1) Docket No. 71-9319, Framatome MAP-12 and MAP-13 Shipping Container Safety Analysis Report.

(2) NRC Certificate of Compliance Number 9319 Revision 9 By this letter, Framatome Inc. (Framatome), per the provisions of 1 O CFR 71.38, formally requests an amendment to Certificate of Compliance 9319 for the MAP-12 packaging.

Framatome has a commercial need to make shipments of fuel assemblies to a commercial U.S.

Reactor beginning June 20, 2018.

We are submitting this application for changes to the Certificate of Compliance (CoC) and Safety Analysis Report (SAR) as the result of an internal review of the drawings associated with this certificate that identified 3 classes of changes that are needed to assure compliance with the SAR drawings.

These identified issues are:

General Discrepancy Description Fabrication tolerance mismatch Framatome Inc.

2101 Horn Rapids Road Richland, WA 99354 Tel: (509) 375-8100 www.framatome.com Extent of Condition Test units and 1st 70 MAP-12s Disposition Comments The NCSA provided Tolerances for nylon with the SAR includes a associated with the flux sensitivity study trap. The first 85 supports these manufactured were to a fabrication tolerances drawing that allowed +/-

although that was not 0.03 inches while the the purpose of the SAR drawings specify a original study.

minimum dimension.

Confirmatory sensitivity calculations were also completed to support this conclusion.

Document Control Desk June 12, 2018 General Discrepancy Description Weld symbols on SAR don't match as-built/as-tested containers Minor SAR discrepancies Extent of Condition Test units and all MAP-12s Test units and all MAP-12s Disposition Update SAR drawings Update SAR drawings Comments TJT:18 :024 Page 2 Align SAR drawing to match as-tested I as-built configuration.

Examples include weld type or prep callout.

Align SAR drawing to match as-tested / as-built configuration Examples: part quantities wrong, or incorrect item number callout Included in this application are three attachments that support the requested amendment.

Attachment A is a Table that summarizes the 39 drawing changes that need to be made and provides a justification for the changes.

Attachment B is a drawing package that shows redline changes with a reference back to the items listed in Attachment A and a final copy of the approved drawing changes made.

Attachment C is a copy of the COC changes that are being requested.

Attachment D is a copy of page 1-15 of the SAR that will change drawing version numbers.

Attachment E is a copy of the computer inputs used in the sensitivity calculations to support the conclusions that the manufacturing tolerances used in the first set of MAP-12 packages have a negligible effect on keff compared to the reference case from the SAR.

As previously stated, Framatome requests NRC action on this letter to support fuel shipments on June 201h of 2018. Please feel free to contact me at (509) 375-8550 if you have questions or need additional information.

Very truly yours

~'-~~

Timothy J. Tate, Manager Environmental, Health, Safety and Licensing

Document Control Desk June 12, 2018 c:

Bernard White US Nuclear Regulatory Commission Two White Flint North Mail Stop 4 834 11545 Rockville Pike Rockville, MD 20852-2738 (w attachments)

US Nuclear Regulatory Commission Attn: Kevin Ramsey Two White Flint North, 4 A60 11545 Rockville Pike Rockville, MD 20852-2738 (w/o attachments)

T JT:18:024 Page 3

Document Control Desk June 12, 2018 Attachments A

Table of Changes B. Drawing Package Changes C. COC Changes D. SAR Changes (Limited to Drawing Number Changes)

E. Computer Input and Criticality Safety Discussion T JT:18:024 Page 4

ATIACHMENTA

Table of MAP-12 Drawing Changes Item Drawing Location Change Justification 1

02-

BOM, Change part Editorial Error. Actual part is larger than dimensions listed.

9045393 Item 18 dimensions to:

3.5 X 5.2 2

02-

BOM, Add new part:

Error in SAR drawing. As-tested and as-built conditions all utilized.25 inch thick plate for 9045393 Item 23 QTY 1, PLATE,.25 the impact limiter base plate (rather than Item 3, 0.14" ). The thicker material is THK, ASTM A240, conservative over what was originally specified.

A276 Type 304 3

02-

BOM, Change part Editorial Error. Actual length of "Z-Bracket" is approximately 4.0 long.

9045393 Item 29 dimension to:

2.0 x 4.0 x 11 GA THK 4

02-

BOM, Change quantity Error in SAR drawing. Specification of part only matched a quantity of 2. New part# 68 9045393 Item 44 to 2 added to address second item.

5 02-

BOM, Add new part:

Error in SAR drawing. This angle call-out was not clearly identified.

9045393 Item 68 QTY 2, 525 OR 625 EXTREN FIBERGLASS, 2.0 X X

6 02-

BOM, Change material Editorial Error. Original call-out left off the "F".

9045393 Item 63 specification to:

ASTM F436 7

02-

BOM, Change material Editorial Error. Original call-out left off the "A".

9045393 Item 64 specification to:

ASTM A194 8

02-Note 14 Change name to Editorial change. Name changed from AREVA NP Inc. to Framatome 9045393 Framatome 9

02-Note 18 Change to 1800°F Editorial error. Changed from 1800$F.

9045393 10 02-Note 20 Add "," after "THE Editorial error. Added comma for grammatical clarification.

9045393 NUMBER"

Item Drawing Location Change Justification 11 02-Flag Note New flag note:

Note added to allow as-built condition of Nylon plate in existing packages. Criticality 9045393 26 ACTUAL WIDTH sensitivity study provided on pg 15 of 51-9026593-001 (NRC Question 6-3) indicates the OF NYLON MAY model was very conservative relative to the amounts of nylon present.

BE UP TO 0.03 Sensitivity evaluations by Framatome NCS group:

INCHES LESS Base Case Random seed = 100 0.9386 0.0007 THAN SP~CIFIED Base Case Random seed = 1 0.9374 0.0006 Base Case Random seed = 36 0.9397 0.0007 0.1 cm nylon removed from block 0.9375 0.0007 0.2 cm nylon removed from block 0.9388 0.0006 12 02-ISO View, Add 2X after Editorial Clarification. Added quantity of item 56 for clarification.

9045397 zone A-3 bubble item 56 13 02-Table Add Flag Note 26 See justification of Item 11 9045399 to Nylon dimension table 14 02-Detail E Change quantity Editorial Error. Quantity is 28 (not 20). Revised to as required to eliminate error.

9045399 of bubble item 5 to A/R (as required) 15 02-Detail CG, Change groove Editorial Error. Clarification, Item 25 originally missing from note.

9045402 zone C-6 weld note to:

Item 24, 25 & 28 (a total of 32 welds) 16 02-Detail Change single Correct Error in SAR drawing. The correct weld is a fillet weld based on lap joint and as-9045402 Rear bevel groove weld built conditions.

View, to fillet weld.

Zone B-5 17 02-Detail Change bubble Editorial Error. Correction of item call-outs.

9045402 Rear item 19 to item 20

View, and bubble item Zone B-4 20 to item 19

Item Drawing Location Change Justification 18 02-Detail CH, Change bubble Editorial Error. Correction of item call-out.

9045402 Zone C-2 item 19 to item 20 19 02-Detail CH, Remove 3/8 fillet Corrected drawing error. The weld was called out in two drawing details, CH and CM.

9045402 Zone C-1 weld between Location CH is deleted in to match the as-tested configuration.

items 17 and 20 20 02-Detail CH, Remove two of Editorial Error. Clarification of the weld symbol.

9045402 Zone B-1 the four arrows associated with the 1/8 groove weld and locate arrows at the center of the vertical weld joint.

21 02-Detail CJ, Change bubble Editorial Error. Correction of item call-out.

9045402 Zone D-1 item 20 to item 19 22 02-Detail CU Revise slot Dimension Error in SAR drawing corrected to match the as-built condition of the test units

9045403, dimension to: 3.2 and production units.

sheet 1 TYP.

23 02-Detail CR Revise fillet weld Weld symbol error in SAR drawing corrected to match the as-built condition of the test

9045403, note to remove "3 units and production units.

sheet 1 SIDES TYP". Keep "4X".

24 02-Detail CM Change reference Editorial Error. Correction of item call-out.

9045403, bubble item 17 to sheet 1 item 20 25 02-Isometric Change bubble Editorial Error. Correction of item call-out.

9045403, view, item 6 to item 1 sheet 2 Zone D-6 26 02-Front Offset fillet weld Editorial Error. Correction of item call-out.

9045403, view, note: Change sheet 2 Zone B-6 Item 6 to Item 1

Item Drawing Location Change Justification 27 02-Front Change bubble Editorial Error. Correction of item call-out.

9045403, view, item 44 to item 68 sheet 2 Zone B-5 28 02-Top view, Change fillet weld Weld symbol error in SAR drawing corrected to match the as-built condition of the test 9045404 Zone D-5 to single bevel units and production units.

groove weld 29 02-Top view, Change bubble Editorial Error. Actual quantity is not 40. The drawings clearly indicate 4 latches on end 9045404 Zone D-4 item 69 quantity doors and 2 latches on middle doors. Revised to as required to eliminate error.

from 40X to A/R (as required) 30 02-Top view, Change overall MAP-13 dimension error in SAR drawing corrected to match the as-built condition of the 9045404 Zone C-6 length of MAP-13 test units.

dimension from 35.50 to 35.00 31 02-Front Bevel groove Editorial Error. Correction of item call-out.

9045404

view, symbol note:

Zone C-6 Change item 31 to item 27 32 02-Detail ED, Change double Weld symbol error in SAR drawing corrected to match the as-built condition of the test 9045405 Zone D-7 bevel groove weld units and production units.

to remove grind flush note and add 1/8 bevel depth 33 02-Top View Change name of Editorial Error. Correction of view call-out.

9045405 Lid section view label

Assembly, EL to EK Zone D-6 34 02-Top View Change name of Editorial Error. Correction of view call-out.

9045405 Lid section view label

Assembly, EK to EL Zone C-8

Item Drawing Location Change Justification 35 02-Top View Change bubble Editorial Error. Correction of item call-out.

9045405 Lid item 1 to item 2

Assembly, Zone D-5 36 02-Detail EL, Change reference Editorial Error. Correction of item call-out.

9045405 Zone B-1 item 3 to item 23 37 02-Detail EK, Change view note Editorial Error. Correction of view call-out from top impact limiter to aft impact limiter.

9045405 Zone A-8 to read : SECTION EK-EK, AFT IMPACT LIMITER 38 02-Detail EL, Add "FWD Editorial Clarification. Clarification added to Detail View EL.

9045405 Zone A-2 IMPACT LIMITER" to label 39 02-BOM Revised Editorial Error. Correction of allowable material standard.

9045393 Item 5 specification to read: "ASTM B209 OR B211 2024-T351 11

ATIACHMENTC

1.

NRG FORM 618 U.S. NUCLEAR REGULATORY COMMISSION (8-2000) 10 CFR 71 CERTIFICATE OF COMPLIANCE FOR RADIOACTIVE MATERIAL PACKAGES

a. CERTIFICATE NUMBER

b. REVISION NUMBER

c. DOCKET NUMBER

d. PACKAGE IDENTIFICATION NUMBER PAGE PAGES 9319

~

71 -9319 USA/9319/B(U)F-96 1

OF 6

2.

PREAMBLE

~change to "1 O" I

a. This certificate is issued to certify that the package (packaging and contents) described in Item 5 below meets the applicable safety standards set forth in Title 10, Code of Federal Regulations, Part 71, "Packaging and Transportation of Radioactive Material."

b. This certificate does not relieve the consignor from compliance with any requirement of the regulations of the U.S. Department of Transportation or other applicable reg ulatory agencies, including the government of any country through or into which the package will be transported.

3.

THIS CERTIFICATE IS ISSUED ON THE BASIS OF A SAFETY ANALYSIS REPORT OF THE PACKAGE DESIGN OR APPLICATION

a.

b. TITLE AND IDENTIFICATION OF REPORT OR APPLICATION ISSUED TO (Name and Address)

Framatome Inc.

TN Americas LLC, application dated November 8, 2017.

2101 Horn Rapids Road Richland, WA 99354

4. CONDITIONS This certificate is conditional upon fulfilling the requirements of 1 O CFR Part 71, as applicable, and the conditions specified below.

5.

(a)

Packaging (1)

Model Nos.:

(2)

Description The MAP package is designed to transport unirracjiated ur,anium fuel assemblies with l

enrichment up to 5.0 weight percent. The package is designed to carry two fuel assemblies with core components. The package consists of two compc'.ments: a base and lid. The containment system of the MAP pack'age is the fuel r,od cladding.

I '

The base consists of a fixed stainless steel strong-back which supports the fuel assemblies. A series of inner stiffeners are secured to the underside of the strong-back to support the fuel assemblies. A neutron moderator and absorber are positioned directly beneath the strong-back between each inner stiffener. The base inner stiffeners are retained by a stainless steel cover.

Exterior to the cover is a layer of rigid polyurethane foam and an outer shell of I I gauge stainless steel. A 12 ~augo stainless steel sheet is provided between the two middle iffeners.

Four stainless steel uter stiffeners support the package base. The payload rests on he "W '

shaped strong-b (referred to as a W-plate) and is held in place with hinged and la hed aluminum doo. The lid is very similar to that of the base - a "W" shaped stainless teel inner shell is fitte ith a series of inner stiffeners, neutron moderator and absorbers, and stainless steel cov is fitted over the stiffeners. The lid is fitted with trapezoidal impact Ii mite s at each end. T, e impact limiters are constructed from rigid polyurethane foam encased by he package out stainless shell skin. The base and lid include end plates with interlocking, int rfacing a gles.

change to "second" Justification: remove unneeded level of detail. As-built and as-tested configuration included 0.12" thick material, not 12-gauge.

Remove material thickness.

Justification: remove unneeded level of detail J

1.

NRG FORM 618 U.S. NUCLEAR REGULATORY COMMISSION (8-2000) 10 CFR 71 CERTIFICATE OF COMPLIANCE FOR RADIOACTIVE MATERIAL PACKAGES

a. CERTIFICATE NUMBER

b. REVISION NUMBER

c. DOCKET NUMBER

d. PACKAGE IDENTIFICATION NUMBER PAGE PAGES 9319 9

71-9319 USA/9319/B(U)F-96 2

OF 5.(a)

(2)

Description (continued)

There are two models of the MAP package, the MAP-12 and MAP-13. The weights and dimensions of the package are as follows:

MAP-12 (for 144-in Maximum Nominal Active Fuel Length):

Maximum Gross Weight 8,630 lbs Maximum Payload Weight 3,400 lbs Outer Dimensions Length Width Height 208in 45in 31 in 6

MAP-13 (for 150-in Maximum Nominal Active Fuel Length):

Maximum Gross Weight 8,630 lbs change to "Framatome Inc."

Maximum Payload Weigtit 3,400 lbs Outer Dimensions Length Width Height (3)

Drawings 9045393, Rev. 6; 9045397, Rev. 1; 9045399, Rev. 2; 9045401, Rev. 3; (1)

Type and Form of Material Each drawing has been revised, so each revision value needs to be increased by 1 Enriched commercial grade uranium or enriched reprocessed uranium, as defined in ASTM C996-04, oxide fuel rods enriched to no more than 5.0 weight percent in the U-235 isotope, with limits specified in Table 1 below.

1.

NRC FORM 618 U.S. NUCLEAR REGULATORY COMMISSION (8-2000) 10 CFR 71 CERTIFICATE OF COMPLIANCE FOR RADIOACTIVE MATERIAL PACKAGES

a. CERTIFICATE NUMBER

b. REVISION NUMBER

c. DOCKET NUMBER

d. PACKAGE IDENTIFICATION NUMBER PAGE PAGES 9319 9

71 -9319 USA/9319/B(U)F-96 3

OF 6

5.(b)

Contents (continued)

(2)

Maximum Quantity of Material per Package Table 1: Maximum Authorized Concentrations Isotope U-232 U-234 U-235 U-236 U-238 Np-237 Pu-238 Pu-239 Pu-240 Gamma Emitters Maximum Content 2.00 X 10-9 gig LJ 2.00 X 10-3 gig LJ 5.00 X 10-2 gig LJ 2.50 X 10-2 gig LJ Balance of Uranium 1.66 X 10-6 gig LJ 6.20 X 10-11 gig LJ 3.04 X 10-9 gig LJ 3.04 X 10-9 gig LJ 5.18 x 105 MeV-Bqlkg U 0

1.

NRC FORM 618 U.S. NUCLEAR REGULATORY COMMISSION (8-2000) 10CFR 71 CERTIFICATE OF COMPLIANCE FOR RADIOACTIVE MATERIAL PACKAGES

a. CERTIFICATE NUMBER

b. REVISION NUMBER

c. DOCKET NUMBER

d. PACKAGE IDENTIFICATION NUMBER PAGE PAGES 9319 5.(b)

Contents (continued)

(3)

Fuel Assembly 9

71-9319 USA/9319/B(U)F-96 4

OF (i)

The parameters of the fuel assemblies that are permitted are specified in the table below.

Fuel Rod Array 14x14 15x15 16x16 17x17 Assembly Type 1

2 1

2 3

1 1

2 No. of Fuel Rods 176 179 208 216 204 236 264 264 No. of Non-Fuel Cells 20 17

~~ 17 ~G 9

21 20 25 25 Nominal Fuel Rod Pitch (in) 0.580 0.556 0.568 0.550 0.563 0.506 0.502 0.496 Maximum Pellet Outer 0.3812 0.3682 0.3622 0.3707 0.3742 0.361 7 0.3682 0.3282 0.3252 0.3232 Diameter (in)

Minimum Fuel Rod 0.438 0.422 0.414 0.428 Outer Diameter (in) 0.428 0.4-14 0.422 0.380 0.377 0.372 2 !'"'"

Minimum Clad Wall 0.0245 0.0230 0.0220 0.0245 0.0230 *0.0220 0.0230 0.0220 0.0220 0.0205 Thickness (in)

=

I If Minimum Guide Tube N/A NIA 0.0140 N/A f 11 N/A,

N/A N/A N/A N/A Wall Thickness (in)

N/A If ct

~

I Minimum Guide Tube N/A NIA I, 0.528 N/A N/A N/A N/A N/A N/A N/A Outer Diameter (in)

' {J,,

1, l:J<~)

Number of Guide Tubes N/A N/A 16 1'

NIA N/A If N/A N/A N/A N/A N/A Minimum Instrument Tube Wall Thickness N/A N/A 0.0240 N/A N/A N/A N/A N/A N/A N/A (in)

~

Minimum Instrument Tube Outer Diameter N/A N/A 0.491 N/A N/A N/A N/A N/A N/A N/A (in)

Number of Instrument Tubes N/A N/A 1

N/A N/A N/A N/A N/A N/A N/A Clad/Tube Material Zr Zr Zr Zr Zr Zr Zr Zr Type Alloy Alloy Alloy Alloy Alloy Alloy Alloy Alloy Maximum Active Fuel Length (in) 160 160 160 160 160 160 160 160 6

1.

NRC FORM 618 U.S. NUCLEAR REGULATORY COMMISSION (8-2000) 10CFR 71 CERTIFICATE OF COMPLIANCE FOR RADIOACTIVE MATERIAL PACKAGES

a. CERTIFICATE NUMBER

b. REVISION NUMBER

c. DOCKET NUMBER

d. PACKAGE IDENTIFICATION NUMBER PAGE PAGES 9319 9

71 -9319 USA/9319/B(U)F-96 5

OF 5.(b)

Contents (continued)

(3)

Fuel Assembly (continued)

(ii)

Non-fissile base-plate mounted and spider body core components are permitted.

(iii)

Fuel rods assembled into the fuel assemblies are those loaded with sintered pellets of uranium oxides and/or with sintered pellets of uranium oxides mixed with various additives (e.g., Chromium, Boron, Gadolinium, and Europium).

(c)

Criticality Safety Index:

2.8

6.

In addition to the requirements of Subpart G of 10 CFR Part 71 :

(a)

The package shall be prepared for shipment and operated in accordance with the Package Operations in Section 7 of the application, as supplemented.

(b)

Each package must meet the Acceptance Tests and Maintenance Program of Section 8 of the application, as supplemented.

(c)

Each fuel assembly must be unsheathed or must be enclosed in an unsealed, polyethylene or polypropylene sheath, which may not extend beyond the ends of the fuel assembly. The ends of the sheath may not be fofded or taped in any maiiner that would prevent the flow of liquids into or out of the sheathed fuel assembly.

(

(d)

The fuel rods must be leak tested after fabricatiqn.to ensyre that the leakage rate of the containment boundary_is less than 1 E-7 ref cc/sec.

/

7.

Transport by air of fissile materi~I is not authori2ied.

\\

8.

The package authorized by this certificate is hereby approved for use under the general license provisions of 10 CFR 71.17.

9.

Expiration date: February 28, 2023.

6

1.

NRC FORM 818 U.S. NUCLEAR REGULATORY COMMISSION (8-2000) 10 CFR71 CERTIFICATE OF COMPLIANCE FOR RADIOACTIVE MATERIAL PACKAGES

a. CERTIFICATE NUMBER

b. REVISION NUMBER

c. DOCKET NUMBER 9319 9

71-9319 REFERENCES TN Americas LLC, application dated November 8, 2017.

Framatome Inc., name change request dated January 17, 2018.

d. PACKAGE IDENTIFICATION NUMBER USA/9319/B(U)F-96 PAGE 6

OF F R THE U.S. NUCLEAR REGULATORY COMMISSION Date: -.,; y, f

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PAGES 6

ATIACHMENT D

Safety Analysis Report Framatome Inc.

MAP PWR Fuel Shipping Package - USN9319/B(U)F-96 1.3 APPENDICES 1.3.1 Package Drawings Drawing Number Revision Drawing Number 9045393 7

9045402 9045397 2

9045403 9045399 3

9045404 9045401 4

9045405 Revision 5

4 4

4 Revision 9 Page 1-15

ATIACHMENT E

1 2

3 4

5 6

~

8 This Attachment contains a side by side comparison of key SCALE input files of:

MAP12_Base.inp (Case 2) against MAP12_0_1.in (Case 3)

MAP12_0_1.in (Case 3) against MAP12_0.0S_l_.in (Case 7)

MAP12_Base.inp (Case 2) is based on Delrin plate comparison to the HAC case (Case 1) in Table 6.11 of the SAR.

MAP12_0_1.in (Case 3) is the modified Base file to run in SCALE 6.2.2.

MAP12_0.0S_l_.in (Case 7) is half a mm removed from each edge of the nylon plates (total of 1 mm removed per plate).

MAP12_0.l_l_.in (Case 8) is a mm removed from each edge of the nylon plates (total of 2mm removed per plate).

Machine Tolerance for the nylon plates is 0.03 inches or 0.0762 mm based on drawing 50499.210.S.

Case k-eff Sigma k-eff+2sigma File Name Reported in SAR (51-9026593-001 Table 6-11 on page 6-37) as 0.9380 0.0009 0.9398 HAC, Run in SCALE 4.4a Comparison case that used delrin in the doors, most recent 15T3-40581-FL1_Door.out Framatome model of the package) Run in SCALE 4.4a 0.9375 0.0010 0.9395

{MAP12_Base)

(Framatome Document 32-9115032-000 Table 5-1)

Re-run of the above model using Random seed=default in SCALE 0.9372 0.0007 0.9386 MAP12_0_1_.out 6.2.2 Re-run of the above case 3 using Random seed=l in SCALE 6.2.2 0.9374 0.0006 0.9386 Re-run of the above case 3 using Random seed=36 in SCALE 0.9397 0.0007 0.9411 6.2.2 Re-run of the above case 3 using Random seed=lOO in SCALE 0.9386 0.0007 0.9400 6.2.2 Re-run of above case 3 with 1 mm nylon removed {Exceeds Tolera nce) 0.9375 0.0007 0.9389 MAP12_0.05_1_.out Re-run of above case 3 with 2 mm nylon removed (Exceeds 0.9388 Tolerance by - 2.6) 0.0006 0.9400 MAP12_0.l _l _.out The differences in k-eff are negligible, even exceeding the machine tolerance of 0.03 inches by 2.6 times. This has no impact on CSI.

MAP12_Base inp -

MAP12_0_1_. in mapl2 s tacked 6 high no IM I

cat >t hi5_Case << ! eof

""Csas26 parm- ' s iz.e--900 000

MAP12_Base 44groupndf5 latticecell

' read compo5ition

csas6 MAP12_8ase v 7-238 parm* s.i.ze* 900000 WORM CALCS

' TOLERANCE

0

' I M

l

"* _*_*_*_* __ *_*_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_* __ *_*_*_*_* __

_______________.. r~~~-~~~~~~~=~~~------------------------------------------------------------------

Mehmet Saglam 2/ 2016 Original 15T3-40-Sx8xl-163in-GT-FLl_Ooor. in from HRR Cale MAP-12-0600 (see below)

Changes:

run!: with !:Cale 4. 4a 44 group library arbmnyl used instead of atomnyl (use 6012 instead of 6000 for carbon-12) water between arrays (mixture 16) set to le-08 Global Arra 2000 is t:et to 3x6xl Update Unit 2000 with +45. 72cm bounds on x and z sides (3 ft spacing) periodic boundary condition on x and z sides. Concret e on -y, h2o on +y Internal moderators set to le-20 Travis Smith 5/2015 Origina l 15Tlc-40581-FLl_ Door. in from 32-9115032-000/-001 converted from SCALE 4 4a to 6 I Door In (0, 325 " Delrin) fGuide tube cladding 1163 in Active Fuel Length 115xl5 Type 3 Fuel (Adv. Wl5 HTP) Drawing 02-9077630- 000 Corrections are shown below Original 32 - 9115032- 000 and 32-9115032- 001 did not updat e lattice parameters for new fuel types, had overlaping geometries, and void in fuel gap (not updated i n lattice parameter5).

These were corrected as follows :

Corrections due lo eometeu:y overla ii:i oci inal 4.4a file :

' l Orig i : Unit 200 : cubo 100 10.79500 -10. 79500 0.31750 -0. 31750 207. 01000 -207. 01000 Alter: Unit 200 : cuboid 100

10. 795

- 10. 795

0. 3174

- 0. 3174 207. 01

- 207. 01

' 2 Origi : Unit 900 : cubo 20 23. 8633 - 0. 635 23.8633 -0.635 2p207. 01 Alter : Unit 900 : cuboid 20 23.863

- 0.635 23. 863

- 0. 635 207. 01

- 201. 01

' 3 Origi : Units 400,4 02,404,406,410, 412,414,416,420, 422, 424, 426, 430, 432,434,436,440, 442, 444, 446,450, 452, 454, 456 had +y of 0. 15113 and -y of 0.15113 Alter: Changed +y to O. 1511 and -y to O. 1511

' 4 Orig i : Unit 1000, hole 900 origin x-19. 304 y*l. 36500 z*O rotate a3*45 hole 900 origin x*-19. 304 y* l. 36500 z* O rotat e a3* 45 Alter: Changed hole 900 odgin x*l9. 304 y*l. 36501 z*O rotate a3*45 hole 900 origin x:.-1 9.304 y* l.36501 z* O rotate a3* 45 Cor rect i ons to Lattice Parameter :

Q9.ginal :

squarepit.ch 1.44272 0. 91999 1 3 1.05156 2 0. 93980 0 end more data dab* 2000 res* 6 slab 0.3302 res* lO slab 0.21 59 res.. 11 slab 0.2921 res* l4 cyli 1. 563 end more read parm tme*l20 gen*lOOO nsk*3 run*yes plt*yes npg*lOOO far*yes p l t*yes lng-3000000 nb8*1200 end parm Correct.ions:

lat.t.icecel l squarepit.ch fueld* O. 94692 1 gapd*O. 97028 12 cladd*l. 08712 2 pitch*!. 44272 3 end more data dab*2000 res*6 s l ab 0. 3302 res*lO slab 0.2159 res*ll slab 0. 2921 res*l4 cylinder 1.563 end more read parameter gen* l500 npg=lOOO nsk=S htm-no far.. yes run,..yes lngaJOOOOOO nb8* l200 end parameter (1) U02 1001 td and 5. 0 w/ o (2) Zirc,;1,lo (3) Water in Assembly Lattice (4) Volume i n Container Ext ernal to Bundles (5) Rubber (6) ss Plate, 0. 13"(0.3302 cm) thi ck (1) Boral, minimum areal density (at min thk)*0. 024 gm B-10/sqcm minimum thickness

0. 119"

cm volume density

0. 0240/ (0. 30226 '* 0. 18431)

0.4 308 gm natural b / cucm we use only 751, 0. 75.. 0.4308

0. 3231 gm natur al b/cucm Mehmet Saglam 2/2016 Original 15T3-40-5x8xl-163in-GT-FLl_J)oor.1n from HRR Cale MAP-12-0600 (see below)

Changes :

run!. with scale 4. 4a 44 group library arbmnyl used instead of atomnyl (use 6012 i nstead of 6000 for carbon-12) water between arrays (mixture 16) set to le-08 Global A£!.!Y 2000 is set to 3x 6x l Update Unit 2000 with +45. 72cm bounds on x and z sides (3 ft. spaci ng)

~iodic boundary condition on x and z s i des. Concrete on -y, h2o on +y Internal moderators set. to le-20 Travis Smith 5/ 2015 Original 15Tlc-40581-FL1_Door in from 32-9115032-000/-001 converted f rom SCALE 4 4a to 6 fDoor In (0. 325" Delrio) fGuide tube cladding 1163 in Active Fuel Length fl5xl5 Type 3 Fuel (Adv. WlS HTP) Drawing 02 - 9077630- 000 Correct.ions ace shown below Original 32 - 9115032- 000 and 32-9115032 - 001 did not update lat t ice parameters for new fuel types, had overlaping geometries, and void in fue l gap (not updated in lattice parameters).

These were corrected as follows :

Corrections due lQ geo eter verl in ori inal 4. 4a file:

' 1 Origi : unit cubo 100 10.79500 - 10. 7 9500 0. 31150 -0.31150 201. 01000 -201.01000 Alter : Unit 200: cuboid 100 10.795

- 10.195 0. 3114

- 0.3114 207. 01

- 207. 01

'2 Origi : Unit 900 : cubo 20 23. 8633 -0. 635 23. 8633 -0. 635 2p207. 01 Alt.er : Unit 900: cuboid 20 23. 863

- 0.635 23. 863

- 0.635 207. 01

- 201. 01

'3 Origi : Units 400,402, 404, 406,4 10,412,414,416, 420,4 22,4 24,426,430,432,4 34, 436,440, 442,4414,446,4150,452, 454,456 had +y of 0. 15113 and -y of 0. 15113 Alt.er : Changed +y to O.1511 and -y to O. 1511

'4 Origi : Unit 1000, hole 900 origin x*l9.304 y*l. 36500 z*O cot.ate a3*45 hole 900 origin x*-19. 301 y* l. 36500 z* O rotate a3-45 Alter : Changed hole 900 origin x*l9. 304 y*l. 36501 z*O rotate a3*45 hole 900 origin x*-19. 304 y* l. 36501 z.. O rotate a3=45 Correct i ons to Lattice Paramete r :

Original :

squarepit.ch 1.44272 0. 91999 1 3 1.05156 2 0. 93980 0 end more data dab* 2000 res* 6 slab 0. 3302 ces* lO slab 0.2159 res* ll dab 0. 2921 res* l4 cyli 1.563 end more read pacm t.me*l20 gen-1000 nsk*3 run-yes plt-yes npg*lOOO far*yes plt*yes lng*3000000 nb8*12 00 end parm Corrections :

latticecell squarepitch fueld*0. 94692 l gapd*0. 91028 12 cladd*l. 08712 2 pitch*l. 44272 3 end more data dab*2000 res*6 slab 0. 3302 res*lO slab 0. 2159 res*ll s l ab 0. 2921 res*14 cyli nder 1.563 e nd more read parameter gen* l500 npg=lOOO nsk* S htm* no far* yes run* yes lnga 3QOOOOO nb8* 1200 end pacamet.er (l) U02 1001 td and 5. 0 w/ o (2) Zircaloy (3) Water in Assembly Lattice (4) Volume in Container External to Bundles (5) Rubber (6) SS Plate, 0. 13 "( 0.3302 cm) thick (7) !~~1!~mm~~t : ~~e:~e : 10~1~; !t~ 6~~ 0;~~ ~~k) *0.024 _3m B-10/s cm Page 1/24 volume density

0. 0240/(0. 30226*0. 18431)

0.4308 gm natural b/cucm we use only 151, 0. 75.. 0.4308

0. 3231 gm natural b/cucm

' (8) Nylon 66 MAP12_Base.inp -

MAP12_0_1_. in (8) Nylon 66

' (9) water Reflect.or

' (10) SS Plate, 0.085 " {0. 2159cm) thick

' (11) SS Plate, 0.115 " (0. 292 l cm) thick

' (12) Water in Gap

' (13) Alumin ium fo r Doors

' (14) SS Bar at Center

' (15) Delrio uo2 1 1 293 end 293 end le-20 293 end le-20 293 end 1 293 end zr h2o h2o h2o ss304 b

7 den-0. 3231 1 293 end atomnyl 8

1. 1-4 4

nylon 66 6000 6 7014 1 8016 l 1001 11 1 293 end arbmnyl 1.14 4 0 1 0 6012 6 7014 1 8016 1 1001 11 8 1.0 293 end h2o 9 le-20 293 end ss30'1 10 1 293 end ss304 11 1 293 end 0

12 l e-20 293 end al 13 1 293 end ss304 14 1 293 end h

15 0 0. 0574 293 end 0

15 0 0. 0287 293 end C

15 0 0. 0287 293 end

water between arrays h2o 16 le-08 293 end end composition

' read celldata latticecell squarepitch fueld'-0. 90374 1 gapd.. O. 95504 12 cladd.. l. 07188 2 pitch-1. 43002 3 end squarepitch 1.43002 0. 90374 1 3 1.07188 2 0.95504 0 end more data dab-2000 res.. 6 slab O. 3302 rcs*lO slab 0. 2159 res*ll slab 0. 2921 rcs*l4 cylinder 1. 563 end more end celldata read parameter gen-1500 npg* lOOO nsk* 5

' ht.m*no far* yes run*yes ln eo3000000 nb8*1200 end parameter read geometry

' Fuel Assembly Creation for Unit 900 unit 10 com* "wet. fuel pin cell "

(101 Fuel Stack U02 (1)

[ 20] Clad ID Water Gap (3)

[30J Clad OD Zircaloy (2)

[ 40] Unit Cell Water (3)

C}*linder 10 0. 45187 207. 01

-207 01 cylinder 20 0. 47752 207.01

-207 01 C}*linder 30 O. 53594 207. 01

- 207 01 cuboid 40 O. 71501

-0 71501 O. 71501

-0 media 1 1 10 media 12 1 20 -10 media 2 1 30 - 20 71501 207. 01

-207. 01

19) Water Reflector

(10) SS Plate, 0. 085 " (0. 2159cm) thick

' (11) SS Plate, 0. 115" (0. 292lcm) thick

'( 12) Water in Gap

(13) Alumin ium for Doors

' ( 14) SS Bar at Center

' (15) De l rin uo2 1 1 293 zr 2 1 end h2o 1

end h2o le-8 293 h2o 1 293 end

!.!:304 1 293 end b

7 dcn*O. 3231 atomnyl 8

1. 14 4

end 1 293 92235 end 6000 6 7014 8016 1001 11 l 293 end

'nylon 66 end arbmnyl 1 14 4 0 1 0 6012 6 7014 1 8016 1 1001 11 8 1. 0 293 end h2o end ss30'1 end ss30 4 end h2o end al end ss304 293 end h

0. 0574 293 end 0

0. 028 7 293 end C

0. 028 7 293 end end composition ead eel data latticecell squarepi.tc ueld*O. 90374 l gapd~O, 95504 12 cladd*l. 07188 2 pitch*!. 43002 3 end

'squarepitch 1. 43002 0. 90374 1 3 1.07188 2 0. 95504 0 end more data dab*2000 res"'6 slab O. 3302 res*lO slab O. 2159 res*ll slab O. 2921 res*!

c lindcr 1. 563 end more end celldata read parameter gen-1500 npg* lOOO nsk* 5 htm-no fa r

yes run*yes

ln -.3000000 nb8*1200 end parameter read geometry

' Fuel Assembly Creation for Unit 900 unit 10 com* "wet fuel pin cell "

{10 ] Fuel Stack U02 (1 )

(20 ) Clad ID Water Gap (3)

[30 ] Clad OD Zircaloy (2)

' [40) Unit Cell Water (3) cylinder 10 0. '15187 201.01

-207 01 cylinder 20 0. 47752 207.01

-207 01 cylinder 30 0. 53594 207.01

- 207. 01 cuboid 40 0. 71501

-0 71501 O. 71501

-0 media 1 l 10 media 12 1 20 -10 media 2 1 30 -20 Page 2/ 24 71501 207. 01

-207. 01

media 3 1 40 -30 boundary 40 unit 30 com-"Wet I nstrument/Guide Tube with cladding "

' {10] Clad ID Water (3)

' (20] Clad OD Zircaloy (2)

' (30] Un it Cell Water (3) cylinder 10 0. 65151 207. 01

-207.01 cylinder 20 0. 68834 207. 01

-207. 01 cuboid 30 0. 71501

-0. 71501 0. 71501

-0 71501 207. 01

-207. 01 media 3 1 10 media 2 1 -10 20 media 3 1 -20 30 boundary 30

'Rest i ng Pads for 1\\ssembly Unit 900- 1\\ssumed to be Water unit. 200 com= "Pad Base Inner Full-Water (5) "

cuboid 100 10. 795

-10. 795 0. 3174

-0.3174 207. 01

-207. 01 media 5 1 100 boundary 100 unit 210 com*"Pad Base Outer Full-Water (5)"

cuboid 100 10. 795

-10. 795 0. 3175

-0.3175 207. 01

-207.01 media 5 1 100 boundary 100

' Stainless St.eel Plates unit. 300 com- "Base Inner Full-Steel {6) "

cuboid 100 11. 60249

-11.60249 0.1651

-0. 1651 207.01

-207.01 media 6 1 100 boundary 100 unit 310 com* "Base Outer Full-Steel ( 6)"

cuboid 100 10. 91999

- 10. 91999 0. 1651

- 0.1651 207.01

- 207. 01 media 6 1 100 boundary 100 unit 320 coma "Lid Inner Lower-Steel (10) "

cuboid 100 6. 2738

-6. 2738 0. 10795

-0. 10795 207. 01

-207. 01 media 10 1 100 boundary 100 unit 330 com-"Lid I nner Upper-Steel (10)"

cuboid 100 5. 1308

-5.1308 0.10795

-0.10795 207.01

-207. 01 media 10 1 100 boundary 100 unit 340 com* "Lid Outer Upper-Steel (10) "

cuboid 100 6. 1595

-6. 1595 0. 10795

-0. 10795 207. 01

-207. 01 media 10 1 100 boundary 100 unit. 350 com="Lid Outer Lower-St.eel (10)"

cuboid 100 6.5151

-6. 5151 0. 10795

-0.10795 207. 01

-207. 01 media 10 1 100 boundary 100

' Bora! 406 1\\rray Base Inner Full unit. 400 com""'"Edge : Baee I nner Full ; 1\\xial Lowerl-BORAL "

[100) Bora! Plate Bora!

(7)

MAP12_ Base. inp -

MAP12_0_1_. in media 3 1 40 - 30 boundary 40 unit 30 com-"Wet Instrument/Guide Tube with cladding"

[10 ) Clad ID Water (3)

(20 ] Clad OD Zircaloy (2)

(30 ] Unit Cell Water (3) cylinder 10 0. 65151 207. 01

-201 01 cylinder 20 O. 68834 207. 01

- 201. 01 cuboid 30 0. 11501

-0. 71501 0. 71501

-0.71501 207. 01

-201. 01 media 3 1 10 media 2 1 -10 20 media 3 1 -20 30 boundary 30

' Resting Pads for 1\\ssembly Unit 900- Assumed to be Water unit 200 com"" "Pad Base Inner Full -

Wat er (5)"

cuboid 100 10 795

-10. 795 0.3114

-0. 3174 207. 01

-207. 01 media 5 1 100 boundary 100 unit 210 com* "Pad Base Outer Full-Water {5) "

cuboid 100 10.795

-10.195 0.3175

-0.3175 207. 01

- 207. 01 media 5 l 100 boundary 100

' Stainless Steel Plates unit 300 com*"Base Inner Full - Steel (6)"

cuboid 100 11.60249

-11. 60249 0. 1651

-0.1651 207.01

-207.01 media 6 1 100 boundary 100 unit 310 com- "Base Outer Full-Steel (6)"

cuboid 100 10. 91999

- 10. 91999 0.1651

- 0. 1651 207. 01

- 207.01 media 6 1 100 boundary 100 uni t 320 com'"' "Lid Inner Lower-Steel (10) "

cuboid 100 6.2738

-6. 2738 0. 10795

-0. 10795 207. 01

-207. 01 media 10 l 100 boundary 100 unit 330 com*"Lid I nner Upper-Steel (10) "

cuboid 100 5. 1308

-5.1308 0. 10795

-0.10795 207. 01

-207. 01 media 10 1 100 boundary 100 unit 340 com- "Lid Outer Upper-Steel (10) "

cuboi d 100 6. 1595

-6. 1595 0. 10795

-0. 10795 207. 01

- 207. 01 media 10 1 100 boundary 100 unit 350 com"' "Lid Outer Lower-Steel {10)"

cuboid 100 6. 5151

-6. 5151 0. 10795

-0. 10195 207.01

-207. 01 media 10 1 100 boundary 100

' Boral 406 Array Base Inner Full un i t 400 com= "Edge : Base Inner Full ; 1\\xial Lowerl-BORAL"

' [100] Baral Plate Bora!

(7)

Page 3/24

[200] Unit Cell cuboid 100 9. 525 cuboid 200 9. 525 media 7 1 100 media 4 1 -100 200 boundary 200 unit 102 Water

-9.525

- 9. 525 (1) 0. 1511 0. 1511

-0.1511

-o. 1511 com- "Edge : Base Inner Full; Axial Main9-BORAL"

[100] Bora! Plate Bora!

(7)

' [200) Unit Cell Water (4) 14. 4272

-14. 4272 15 0749

- 14. 4272 cuboid 100 9. 525

-9. 525 0. 1511

-0 1511 19. 177

-19 177 cuboid 200 9. 525

-9. 525 0. 1511

-0 1511 19. 8247

-19 8247 media 7 1 100 media 4 1 -100 200 boundary 2 0 0 unit 404 com- "Edge: Base Inner Full; Axial Upper!- Bora!"

' [100] Boral Plate Boral (7)

' (200] Unit Cell Water (4) cuboid 100 9. 525

- 9. 525 0. 1511

-0 1511 13. 5128

-13 5128 cuboid 200 9. 525

-9. 525 0. 1511

-0 1511 13. 5128

- 14. 1605 media 7 1 100 media 4 1 -100 200 boundary 200 unit 406 MAP12_Base inp -

MAP12_ 0_ 1_. in

[200] Unit Cell cuboid 100 9. 525 cuboid 200

9. 525 media 7 1 100 media 4 1 -100 200 boundary 200 unit 402 Water

-9. 525

-9. 525 (4 I 0. 1511 0. 1511

-0 1511

- o 1511 com* "Edge : Base Inner Full; Axial Main9-BORAL"

[100] Bora! Plate Bora!

(7)

(200] Unit Cell Water (4) 14. 4272 15 0749

-14 4272

- 14 4272 cuboid 100 9. 525

-9. 525 0. 1511

-o 1511 19. 177

-19.177 cuboid 200 9. 525

-9. 525 0. 1511

-0 1511 19.8247

- 19.8247 media 7 1 100 media 4 1 -100 200 boundary 200 unit 404 com*"Edge : Base Inner Full; Axial Upper!- Bora!"

[100] Bora! Plate Boral (7)

' (2 00) Unit Cell Water (4) cuboid 100 9. 525

-9.525 0.1511

-0. 1511 13. 5128

-13.5128 cuboid 200 9. 525

-9. 525 0. 1511

-0. 1511 13. 5128

-14.1605 media 7 1 100 media 4 1 -100 200 boundary 200 unit 406

_.,.,.,....,..,.......,..,.,....,,.,.,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,.....,._-~-----...- 7oms: "Edi~~a~a;~a l : n: ~r ~ull ; Axial Arra.,-.... *.o,.ra,.1.,*---------------------~-------

402

404

' 400. 402.402.402.402.402.402.402.402 402. 404 lower cuboid 10 array 406 10 boundary 10 1511 207. 01

-207. 01

'Bora! 416 Array Base Outer Ful l unit 410 com- "Edge : Ba~e Outer Full ; Axial Lowerl-Bora!"

(100) Bora! Plate Baral (7)

(200) Unit Cell Water (4) cuboid 100 9.525

-9. 525 0. 1511

-0 1511 14. 4272

-14. 4272 cuboid 200 9.525

- 9.525 0. 1511

- 0 1511 15 0749

- 14. 4272 media 7 1 100 media 4 1 -100 200 boundary 200 unit 412 com- "Edgc : Base Outer Full; Axial Main9-Boral"

' [100] Bora! Plate Bora!

(7)

(200} Unit Cell Water (4) cuboid 100 9. 525

-9. 525 0. 1511

-0 1511 cuboid 200 9. 525

-9.525 0. 1511

-0 1511 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 414 com- "Edge : Base Outer

[100) Boral Plate (200) Unit Cell F'ull; Axial Upper!- Bora l "

Boral (7)

Water (4) 19. 177 19. 8247 cuboid 100

9. 525

-9. 525 0.1511

-0 1511

13. 5128 cuboid 200 9. 525 media 7 1 100 media 4 l -100 200 boundary 200 unit 416

-9. 525 0. 1511

-0. 1511 13.5128 com,,. "Edge : Ba~e Outer Full ; Axial Array-Boral" 10] Bo::al Plate Array

' 410. 412. 412.412. 412. 412. 412. 412.4 12 412. 414

' (4) (7) (4)... (4) (7) (4)x9... (4) (7) (4) ma i n u ~

-19 177

-19. 82'17

-13 5128

-14. 1605 lower cuboid 10 array 416 10 9. 525

-9. 525 0. 1511

-0. 1511 207. 01

-207. 01 place 1 1 1 0 0 -192. 5828 (4) (7) (4)... {4) (7) {4)x9... (4) (7) (4) lo er mai u

r cuboid 10 9. 525

-9 525 0. 1511

-0 1511 207. 01

-207. 01 array 406 10 p lace 1 1 1 0 0 -192. 5828 boundary 10

'Bara l 416 Array Base Outer Ful l unit 410 com= "Edge : Ba~e Outer Full ; Axial Lower!- Baral"

[100) Boral Plate Baral (7)

[200 ) Unit Cell Water

("I) cuboid 100 9. 525

-9. 525 0. 1511

-0 1511 14. 4272

-14.4272 cuboid 200 9.525

- 9.525 0.1511

-0. 1511 15. 0749

-14. 4272 media 7 1 100 media 4 1 -100 200 boundary 200 unit 1]12 com- "Edge : Base Outer (100) Boral Plate (2001 Unit Cell cuboid 100

9. 525 cuboid 200 9. 525 media 7 1 100 media 4 1 -100 200 boundary 200 unit 414 full ; Axial Main9-Bora! "

Boral (7)

Water (4)

-9.525 0. 151 1

-0.1511

-9. 525 0.1511

-0.1511 com* "Edge : Base Outer F'ull; Axial Upper!- Baral"

[100] Bora! Plate Bora!

(7)

(200] Unit Cell Water (4) 19. 177 19. 8247 cuboid 100 9. 525

-9. 525 0. 1511

-0. 1511 13 5128 cuboid 200 9. 525

-9. 525 0. 1511

-0. 1511 13 5128 media 7 1 100 media 4 1 -100 200 boundary 200 unit 416

-19. 177

-19 8247

-13. 5128

-14. 1605 cu~~~r 10 9. 52; a. n -9. 5~2'"5-"~!E.!2'15ei~..,1- -*o-.1"'51"'1-*2"0"'1*."'0*1- -"'2"'01*.*0*1---------------------_.

array 416 10 place 1 1 1 0 0 -192. 5828 Page 4/24

boundary 10

' Boral 426 Array Lid Inner Lower unit 420 com..-"Edge: Lid Inner (1001 Boral Plate

' (200] Unit Cell Lower; Axial Lowerl - Bora! "

Boral

('7)

Water (4) cuboid 100 6. 0325

-6. 0325

0. 1511

-0 1511 14. 4272 cuboid 200 6 0325

-6. 0325 0. 1511

-0 1511 15. 0749 media 7 1 100 media 4 1 -100 200 boundary 200 unit 422 com*"Edge: Lid Inner Lower ; Axial Main9-Baral "

[ lOOJ Boral Plate Bora!

(7)

(2001 Unit Cell Water (4) cuboid 100 6. 0325

-6. 0325 0. 1511

-0. 1511 cuboid 200 6. 0325

-6. 0325 0. 1511

-0 1511 media 7 1 100 media 4 1 - 100 200 bounda r y 200 unit 424 com-"Edge : Lid Inner

' [100] Baral Plate

' [200] Unit Cell cuboid 100

6. 0325 cuboid 200 6. 0325 media 7 l 100 media 4 1 -100 200 boundary 200 unit 426 Lower ; Axial Upper!- Baral" Baral (7)

Water (4)

- 6. 0325 0. 1511

- 0. 1511

-6. 0325 0. 1511

-0.1511 19.177 19. 8247 13 5128 13 5128

-14. 4272

-19 177

-19 8247

- 13 5128

-14. 1605 MAP12_ Base inp -

MAP12_ 0_ 1_. in boundary 10

' Bora! 426 Array Lid Inner Lower unit 420 com.,"Edge : Lid Inner

' [100] Boral Plate

' [200) Unit Cell Lower ; Axial Lower! - Bora!"

Bora!

(7)

Water (4 )

cuboid 100 6. 0325

-6. 0325 0. 1511

-0 1511 14. 4272 cuboid 200 6. 0325 media 7 1 100 media 4 1 -100 200 boundary 200 unit 422

-6.0325 0. 1511

-0 1511 15. 0749 com- "Edge : Lid Inner Lower; Axial Main9-Baral "

[100) Baral Plate Baral (7 )

[200) Unit Cell Water

14) cuboid 100

6. 0325

-6. 0325 0. 1511

-0 1511 19. 177 cuboid 200 6. 0325

-6. 0325 0. 1511

-0 1511 19. 8247 media 7 l 100 media '

l - 100 200 boundary 200 unit 424 com- "Edge : Lid I nner Lower ; Axial Upper!- Boral"

[100) Bara l Pl ate Bora!

(7)

[200) Unit Cell Water 141 cuboid 100 6. 0325

-6. 0325 0. 1511

- 0 1511

13. 5128 cuboid 200 6. 0325

-6. 0325 0. 1511

-0 1511 13. 5128 media 7 1 100 media '

1 -100 200 boundary 200 unit,26

-14. 4272

-19 177

-19 8247

- 13 5128

-14 1605 coms "Edge : Lid Inner Lower ; Axial Array-Baral "

com: "Edge : Lid I nner Lower; Axial Array-Bora!*

' 420. 422. 422. 422. 422. 422. 422. 422. 422. 422. 424

(1~!:~ (4)... (4) (~ (4) x9... (4 ~ (;!:4_1 __ :_:_:.:-:=====~-----------------------' 'i~~:~ (4)... (4) (~~~!) x9... (4 ~ (7~t-'------

cuboid 10 6. 0325

-6. 0325 0. 1511

-0. 1511 207. 01

-207. 01 cuboi d 10 6.0325

-6. 0325 0.1511

-0.1511 207. 01

-207.01 array 426 10 place 1 1 1 0 0 -192. 5828 array 426 10 place 1 1 1 0 0 - 192.5828 boundary 10 boundary 10

'Bora! 436 Array Lid Inner Upper unit 430 com*"Edge : Lid Inner Upper ; Axial Lower!- Boral"

' {1 00] Boral Plat e Boral (7)

(200] Unit Cell Water (4) cuboid 100 4. 953

- 4. 953 0. 1511

- 0 1511 14. 4272

- 14. 4272 cuboid 200 4. 953

-4. 953 0. 1511

-0 1511 15. 0749

-14. 4272 media 7 l 100 media 4 1 -100 200 boundary 200 unit 432 com- "Edge : Lid Inner Upper ; Axial Main9-Boral"

' {100] Baral Plate Baral (7)

[200] Unit Cell Water

( 4) cuboid 100 4. 953

-4. 953 0. 1511

-0 15ll 19. 177

-19 177 cuboid 200 4. 953

-4. 953 0. 1511

-0 1511 19. 8247

-19 8247 media 7 1 100 media 4 1 -100 200 boundary 200 unit 434 com="Edge: Lid Inner Upper; Axial Upperl-Bora!"

(100) Baral Pl ate Bora!

(7)

' (200 ] Unit Cell Water (4) cuboid 100 4. 953

-4. 953 0. 15ll -0 1511 13. 5128

-13 5128 cuboid 200 4. 953

- 4. 953 0. 1511

- 0 1511 13. 5128

- 14 1605 media 7 1 100 media 4 1 -100 200 boundary 2 0 0

' Baral 436 Array Lid Inner Upper unit 430 com- "Edge : Lid Inner Upper; Axial Lowerl-Baral "

(100) Bora! Plate Boral (7)

(200] Unit Cell Water (4) cuboid 100

4. 953

- 4. 953 O.1511

- 0 1511 14. 4272

- 14. 4272 cuboid 200 4. 953

-4. 953 0. 15ll

-0 1511 15. 0749

-14. 4272 media 7 1 100 media 4 1 -100 200 boundary 200 unit 432 com= "Edge : Lid Inner Upper ; Axial Main9-Baral"

' {1001 Boral Plate Baral (7)

' [2 00) Unit Cell Water (4 )

cuboid 100 4. 953

-4. 953 0.1511

-0 1511 19. 177

-19.17 7 cuboid 200 4. 953

-4. 953 0. 1511

-o 1511 19. 8247

-19. 8247 media 7 1 100 media 4 1 -100 200 bounda r y 200 unit 434 com=" Edge : Lid Inner Upper; Axial Upperl-Baral" (100] Baral Plate Baral (7)

' {200] Unit Cell Water (4) cuboid 100 4. 953

-4. 953 0. 1511

-0 1511 13 5128

-13. 5128 cuboid 200 4. 953

-4. 953 0. 1511

- 0 1511 13 5128

- 14. 1605 media 7 1 100 media 4 1 -100 200 boundary 200 Page 5/24

unit 436 com* "Edge: Lid Inner Upper; Axial Array-Boral "

' 430. 432. 432. 432. 432. 432. 432.432. 432. 432. 434

' (4) (7) (4)... (4) (7) (4)x9... (4) (7) (4) main

)5)_per lower cuboid 10 array 436 10 boundary 10

,1. 953

-4. 953 0. 1511

-0 1511 207. 01

-207. 01 place 1 1 l O O -192. 5828

' Boral 446 Array Lid Outer Upper unit. 440 com* "Edge: Lid Out er Upper; Axial Lowerl-Boral"

[100) Boral Plat.e Boral (7)

(200) Unit Cell Water (4) cuboid 100 6. 0325

-6.0325 0.1511

-0. 1511 14.4272

-14. 4272 cuboid 200 6.0325

-6.0325 0.1511

-0. 1511 15.0749

-14. 4272 media 7 1 100 media 4 1 -100 200 boundary 200 unit 442 co:n*"Edge: Lid Out.er Upper ; Axial Main9-Boral"

( 1001 Boral Plat.e Boral (7)

' {200] Unit Cell Water (4) cuboi d 100 6. 0325

-6. 0325 0. 1511

-0. 1511 19. 177

-19 177 cuboid 200 6.0325

-6. 0325 0. 1511

-0. 1511 19. 8217

-19 8217 media 7 l 100 media 4 1 - 100 200 boundary 200 unit 444 com*"Edge : Lid Outer

[100] Boral ?lat e

[200) Unit Cell cuboid 100

6. 0325 cuboid 200 6. 0325 media 7 1 100 media 4 1 -100 200 boundary 200 unit 446 Upper; Axial Upperl-Boral "

Boral (7)

Water (4)

- 6. 0325 0. 1511

- 0. 1511 13. 5128

-6. 0325 0. 1511

-0. 1511 13. 5128 c om'"' " Edge: Lid Out er Upper; Axial Array-Boral"

' 440.442.442.442. 442. 442.442. 442. 442 442.444 (4) (7) (4)... (4) (7) (4) x9... (4) (7) (4) main ue er

- 13. 5128

-14.1605 lower cuboid 10 6.0325

-6. 0325 0. 1511

-o 1511 array 446 10 place l l l O O -192. 5828 boundary 10 207. 01

-207. 01

' Boral 456 Array Lid Outer Lower unit 150 com*"Edge : Lid Outer Lower; Axial Lowerl-Bora! "

[ 100 ) Boral Plat e Boral (7)

[2001 Unit Ce ll Water

14) cuboid 100 5.8801

- 5.8801 0. 1511

- 0. 1511 14. 427 2 cuboid 200 5. 8801

-5. 8801 0. 1511

-0. 1511 15.0749 media 7 l 100 media 4 l -100 200 boundary 200 unit 452 com* "Edge: Lid Outer (100] Boral Plate (200] Unit Cell cuboid 100 5. 8801 cuboid 200 5. 8801 media 7 l 100 media 4 1 -100 200 boundary 200 uni t. 454 Lower; Axial Main9-Boral" Boral (7)

Water (4)

-5.8801 0. 1511

-0 1511

-5. 8801 0. 1511

-o 1511 com"' "Edge : Lid Outer Lower; Axial Upper!- Boral "

[100] Boral Plate Boral (7) 19.177 19. 8241

- 14 4272

-14 4272

-19 177

-19 8247 MAP12_ Base. inp -

MAP12_0_ 1_. in unit 136 com*"Edge : Lid Inner Upper ; Axial Array-Boral "

' 430. 432.432. 432. 432. 432. 432. 432. 432. 432. 434 (4) (1) (4)... (4) (7) (4) x9... (4) (7) (4) main u

er lower cuboid 10 array 436 10 boundary 10 4. 953

-4. 953 0.1511

-0. 1511 207. 01

-207. 01 place 1 1 1 O O -192. 5828

~~~~ =-~~~-~rray Lid Outer Upper uni t 440 com.,.." Edge : Lid Out er Upper; Axial Lower!- Boral"

' {100] Boral Plate Boral (1)

(200] Unit Cell Water (4) cuboid 100 6.0325

-6. 0325 0.1511

-0.1511 14. 4272

-14. 4272 cuboid 200 6.0325

-6. 0325 0.1511

-0. 1511 15.0749

-14.4 272 media 7 1 100 media 4 1 -100 200 boundary 200 uni t 442 com*"Edge : Lid Out.er Upper; Axial Main9-Bora! "

(100] Bora! Plate Boral (7)

(200] Unit Cell Water (4) cuboi d 100 6. 0325

-6. 0325 0. 1511

-0 1511 19. 177

-19 177 cuboid 200 6.0325

-6. 0325 0. 1511

-0 1511 19. 8247

-19 8247 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 444 com*"Edge : Lid Outer Upper; Axial Upper!- Bora!"

[1001 Boral Plat e Boral

{7)

[200] Unit Cel l Water (4) cuboid 100 6.0325

- 6.0325 0.1511

- 0.1511 13.5128 cuboid 200 6.0325

-6. 0325 0. 1511

-0.1511 13. 5128 media 7 1 100 media 4 1 -100 200 boundary 200 unit 446 com* "Edge: Lid Outer Upper; Axial Array-Bora l "

' 440. 442. 442. 442. 442.442. 442. 442. 442. 442. 444 (4) (7) (4)... (4) (7) (4)x9... (4) (7) (4) lower main u

r

- 13. 5128

- 14. 1605 cuboi d 10 6. 0325

-6. 0325 0. 1511

-0.1511 207. 01

-207. 01 array 446 10 place l l l O O -192. 5828 boundary 10

Bora!_ 456 _ Array Lid outer Lower unit 450 com-"Edge : Lid Outer

' (100) Boral Plat e (200) Unit Cell Lower ; Axial Lowerl-Bora! "

Boral (7)

Water (4) cuboid 100

5. 8801

- 5.8801 0. 1511 -o 1511 14. 4272 cuboid 200 5. 8801

-5. 8801 0. 1511

-0 1511 15. 0749 media 7 1 100 media 4 l -100 200 boundary 200 uni t 452 com,,,,"Edge: Lid Outer

[1001 Boral Plate

[200) Unit Cell cuboid 100 5. 8801 cuboid 200 5. 8801 media 7 1 100 media 4 l -100 200 boundary 200 uni t 454 Lower; Axial Main9-Boral "

Boral (7)

Water (4)

-5. 8801 0. 1511

-0 1511

-5. 8801 0. 1511

-o 1511 com- "Edge : Lid Outer Lower ; Axial Upper!- Boral" (100] Boral Plate Boral (7)

Page 6/ 24 19.171 19. 8247

- 14. 4272

-14. 4272

-19. 117

-19 8247

MAP12_Base inp -

MAP12_ 0_1_. in

' [200) Unit Cell cuboid 100 5. 8801 cuboid 200 5. 8801 media 7 1 100 media 4 l -100 200 boundary 200 unit 456 Water

-5. 8801

- 5. 8801 (4) 0. 1511 0.1511

-0 1511

- 0 1511 com* "Edge : Lid Outer Lower ; Axial Array-Bora!"

' 450. 452. 452. 452.452. 452. 452. 452. 452. 452. 454 13 5128 13 5128

-13 5128

-14. 1605

' [200] Unit Cell cuboid 100 5. 8801 cuboid 200 5. 8801 media 7 1 100 media 4 1 -100 200 boundary 200 unit 456 Water

-5. 8801

- 5. 8801 (4) 0. 1511 0. 1511

-0. 1511

- 0. 1511 com*"Edge : Lid Out.er Lower; Axial Array-Boral"

' 450. 452. 452. 452. 452. 452. 452. 452. 452. 452.454 13 5128 13 5128

-13. 5128

- 14.1605 (4) (7) (4) *** (4) (7) (4)x9... {4) (7) (4) lower ma i n ue. er

~------.. '

(4~~:~ (4), ** {4) (7) (4) x9... (4) (7) (4) cuboid 10 5. 8801

-5. 8801 0.1511

-0.1511 207. 01

-207. 01 array 456 10 place 1 1 1 0 0 -192. 5828 boundary 10

' 1166 Plast.ic/Nylon Blocks Array : Base Inner Full unit 1160 com*"part 16 plastic block; Edge : Base Inner Full; Axial Lowerl" plastic thickness removed=0.0781 inch

0.1 9844 cm

' bevel surface at -x (10), tx (20]

(8) Nylon

' [100] thinned block without bevels, without axial gaps (4) Water

' p{;~~ l l~hi~;~~l blo~~ i~~~ho~=-~~~:!; ; ;~~~ 4::~:l z~s roc.t"a*te=--

14 "c~,,~=,~"t'=: -s-~.c;O,w::a,;-3*:c4;;;5--------------~

plane 20 xpl""l origin x-9. 24437 y=l. 48828 z=O rotate al--0 a2- 0 aJ---45 cuboi 100

..9, 24437

-9. 24437

1. 48828 8828 4. 2 87

-14 22~_7 cuboid 200 9. 24437

-9.24437 1.48828

-1.48828 15. 0749

-14.4272 media 8 1 10 -20 100 media 4 1 - 10 100 media 4 1 20 100 media 4 1 - 100 200 boundary 200 uni t 1162 c o:n* "part 16 plas'tic block; Edge : Base Inner Full; Axial Main9"

' plas'tic 'thickness removed"'0.0781 inch

0. 19844 cm

' bevel surface a't -x (10}, +x [ 20]

Nylon

' (100] thinned block without bevels, wi'thout axial gaps Water

' {2001 thinned block without bevels, wi'th axial gaps Water pane 1 xp

orig n x*-9. 244 y*

. 48828 z-0 plane 20 xpl... l origin x-9. 24437 y~l.48828 z=O cuboid 1 0 9. 24437

-9. 24437 l.48828

-1.48828 18.9 856

-18.97856 cuboid 200 9. 24437

- 9. 2'1437 1.48828

- 1.48828 19. 8247

- 19. 8247 media 8 1 10 -20 100 media 4 1 - 10 100 media 4 l 20 100 media 4 l -100 200 boundary 200 unit 1164 com* "part 16 plastic block ; Edge : Base Inner Full; Axial Upper! "

' plas'tic thickness removed:0.0781 inch

0.19844 cm

' bevel surface at -x [10}, +x [20]

(8) Nylon

' [100] th i nned block withou't bevels, without axial gaps (4) Water

' p [!~~} thi~;e ~ blo~~ ; i ~ho~~-~~v:!;7 ;~~~ :;~:l z::'ITP;.;;*-=rocctccacct--:e'"'(4_,~c,1~: i-; toc:',i~=-ca-,;3"*4" 5,----~------------

plane 20 xpl=l origin x* 9. 24437 Y""l. '18828 Z""O rotate al=O a2.. 0 a3m-45 c~~~: ~gg ;:;!!;~ =::;:g7 i:,!:;: =1::::~: iJ.Sii~ -~!\\!~:36'------------------~-

media 8 1 10 -20 100 media 4 l -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit. 1166 com* "Base Inner Full Plastic Array 1166" cuboi d 10 9. 24437

-9. 24437 l.48828

-1.48828 206. 8116

-206. 8116 array 1166 10 place 1 1 1 0 0 -192. 3844 boundary 10

' 2166 Plast.ic/ Nylon Blocks Array : Base Inner Full unit 2160 com*"part 16 plas'tic block (righ't) ; Edge : Base Inner Full; Axial Lowerl~

cuboid 10

-o. 1511 207. 01

-207. 01 array 456 10 place 1 1 1 0 0 -192. 5828 boundary 10

'1166 Plas'tic/ Nylon Blocks Array : Base Inner Full unit 1160 com* "part 16 plastic block; Edge : Base Inner Full ; Axial Lower! "

plast ic t hickness removed=O. 0781 inch

O. 19844 cm

' bevel surface at - x [10], +x (20]

(8) Nylon

' [100] thinned block without bevels, without axial gaps (4) Water

, pi:~~ 1 ~hi~;~~l blo~:i;~~ho~=-~~v:~s ? with ax!:i. ~:~; 8 z-O

(!~t=:~:-'e*r-ca.-t*::;O.,...-:a,2*"'D""'a'J=-.,r.s--------------

plane 20 xpl* l origin x""9. 2<1437 Y""l. 48828 Z""'O rotate al=O a2:0 a3=-45

~~~~tct ~g~ ::~!~~; :::~~g; i:!~0~! :i:!!:~: i: : ~; 4~

6

-14. 427;,,

1

~' - 2~2=7~*----------------~

media 8 1 10 -20 100 media 4 1 - 10 100 media 4 1 20 100 media 4 1 - 100 200 boundary 200 unit 1162 com*"part 16 plas'tic block ; Edge : Base Inner Full; Axial Main9 "

' plast ic t hickness removed=0.0781 inch

0. 19844 cm

' bevel surface a't - x [101, +x (20 ]

(8) Nylon

[100] 'th i nned block wi'thout. beve l s, wi'thout axial gaps (4) Water

, Pj!~~J l~hi:;1~1 blo~~ ~i ~ho~=-~~;:!;; wi'th a~1'8 s z*

(! ~t::~er al* a2*0 a3*45 plane 20 xpl*l origin x-9. 24437 y=l. 48828 Z"'O rotate al=O a2"'0 a3'"'-'15 cuboid 100 9. 24437

-9. 24437 1.48828

-1 48828 18 97856

-18. 97856 cuboid 200 9. 21437

- 9. 24437 1.48828

- 1 48828 19 8247

- 19. 824 7 media 8 l 10 -20 100 media 4 1 - 10 100 media 4 1 20 100 media 4 l -100 200 boundary 200 unit 1164 com*"par't 16 plas'tic block; Edge : Base Inner Full; Axial Upper!"

' plas'tic thickness removed"'0.0781 inch

0.19844 cm

' bevel surface a't -x [101, +x [20 ]

(8) Nylon

' [ 100] thinned block wi'thou't bevels, without axial gaps (4) Water

' P ( !~~ J l~hi~;~~l blo~~ ~i~ho~=- ~~;:!;

with ax~:i. i"':,..8;a.,B~ z--o-

... c~: ~~t~:~~~; *- r..-.-1-- -o -.-2-- ~o-.-3-. -, --------------.

plane 20 xpl* l origin x* 9. 24437 y=l. 48828 z=O rota'te al""O a2=0 aJ--45

~~~~i~ ~go ::;::;; =~:;::;; i :!8!;! =i :::8~8 i;:;ii: - 14. 160; 13 31=

3-----------------.1 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 uni't 1166 com* "Base Inner Full Plas'tic Array 1166*

cuboi d 10 9. 24437

-9. 24437 1.48828

-1 48828 206. 8116

-206. 8116 array 1166 10 place 1 l 1 0 0 -192.3844 boundary 10

'2166 Plastic/ Nylon Blocks Array: Base Inner Full unit 2160 com* "part 16 plas'tic block (right); Edge : Base Inner Ful l ; Axial Lowerl" Page 7 /24

MAP12_ Base inp -

MAP12_ 0_1_.in plast ic t hickness removed,.0. 0781 inch

0. 19844 cm plas t ic thickness removed"'0. 0781 inch - 0. 19844 cm bevel surface at -x [10], +x [20]

(8) Nylon

' bevel surface at -x [10), +x {20 )

(8) Nylon

[1001 thinned block without bevels, without axial gaps (4) Water

' [100] thinned block without bevels, without axial gaps (4) Water pi:~~ 11~hi~~~~l blo~: i;i~ho~=-~~;:!;; rc;:::: -..th.,_ 4.,*,.x,,; a. l..,z=-=-'"; "'s--=,:::o.-ta"t'"'e'"(.,< ~:.,c::ci~....

t :=i;c. 0<0- a'"'J"*"<"s---------~------, pi!~~ 11 ~hi~;~~l blo~~ i;~~ho~=- ~;:;;7 with axt:i.1:~'"';'""8-z- -~o-"""( :~~-t ~: ~~~c.,*. *-. ~,.~a~ a=2.- o "'a:s3c::

.-45a--~-----------

plane 20 xpl=l origin x... 9. 24437 Y'"'l.48828 z... Q rotate al*O a2o:O a3=-45 plane 20 xplal origin x,..9. 24437 y*l.48828 Z"-0 rotate al--0 a2*0 aJ><-15 Qoid 100 S.24437

-9. 244 7 1.48828

-l.48828 14.22876

-14.22876 cuboid 100 9.24431

-9. 24437 1.48828

- 1.48 2 4.22 7

-14.221;1: 6 cuboid 200 9. 24437

- 9. 24137 1.48828

- 1.48828 15.0719

- 14.4272 cuboid 200 9.21437

- 9. 21437 1.48828

- 1.4 8828 15. 0749

- 14.4272 media 8 1 10 -20 100 media 8 l 10 -20 100 media 4 1 - 10 100 media 4 1 - 10 100 media 4 l 20 100 media 4 1 20 100 media 4 1 -100 200 media 4 1 -100 200 boundary 200 boundary 200 unit 2162 com- "part 16 plastic block (right); Edge : Base Inner Full ; Axial Main9" plastic thickness removed:0. 0781 inch

O. 19844 cm

' bevel surface at. - x 110], +x [20]

(8) Nylon

[100] thinned block without bevels, without axial gaps (4) Water

[200] thinned block without bevels, with axial gaps (4) W...;*,t.c,e'a---.~

p ane xp *1 origin x*-9. 24437 y-1.48828 z-0 rotate al-0 a2*0 a3*45 plane 20 xpl=l origin x=9. 24437 Y""l.48828 Z""O rot.ate al""O a2"'0 a3=-15 cuboid 100 9.24437

-9.24437 1.4 828

-1.48 28 18. 97es6

-1. 7 6

cuboid 200 9.24437

- 9. 24437 l.'18828

- 1.48828 19. 8247

- 19. 824 7 media 8 1 10 -20 100 media '1 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2162 com-"part 16 plastic block (right); Edge : Base Inner Full ; Axial Main9" plastic thickness removed"'O. 0781 inch.. o. 19844 cm

' bevel surface at - x (10), +x [201 (100} thinned block without beve l s, without axial gaps

~-------------*, Pi!~~]

l ~hi~;~~l blo~~i~i~ho~=- ~~;:!;7 with ax!:i. ~=~;8 z*O

=-'"a"2*"'D.-ca'3"'"*4"'5--------------,

plane 20 xpl""l origin X"'9. 24437 Y""l. 48828 Z"'O a3=-IJ.5 uboid 00

~ 244:l 24437

l. 48828 48828 8

78 cuboid 200 9.2 44 37

- 9. 244 37 1.48828

- 1 48828 19. 8247 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 uni t 2164 unit 2164 com*"part 16 plast:.ic block (right:.); Edge : Base Inner Full; Axial Upper!"

com- "part 16 plastic block (right) ; Edge: Base Inner Full ; Axial Upperl "

' plastic thickness removed*O. 0781 i nch -o. 19844 cm plast.ic t.hickness removed-a. 0781 inch *O. 19844 cm

' bevel surface at -x (10], +x {20]

(8) Nylon

' bevel surface at - x [10), +x [20)

(8) Nylon (100] thinned block without bevels, without axial gaps (4) Water

[1001 thinned block without. beve l s, without axial gaps (4) Water

' p (!~~J 1 thi~;t~l blo~~ l ~!~ho~=- b~vei; * ;:~~ 4 axial 2~._s--=r -=-ot"'a:.t-=e.,.(4-'~c;l-::: ;;;t..,:,..*c:. = a= *:.5.----------------- ' pi!~~ J 1~hi:;~~l blo~~i ~~~ho~=-~~;:~;:, wi th axt:i. ~"';°'"~;.,8~ z-- ~--(;':'~:.t-=:,,.~;::--"*'-=a* *::;~.-:a.2*='"'a"J ""* *"s,---------------,

plane 20 xpl=l origin x:9. 24437 y-1. 48828 Z"'O rotate al-0 a2""0 a3,....- 45 plane 20 xpl""l ori gi n x~9. 24137 Y"'l. 48828 Z"'O roLate al=O a2=0 a3=-45 cuboid 100 9.2443 7

-9. 24437 1.48828

-1.4 28

3. 1436

-1. 1436 Q

. 244 7 4

7 4 62 4

8 1

4

-1~. 14. Q cuboi d 200

9. 24437

- 9. 24437 1.48828

- 1.48828 13. 5128

- 14. 1605 cuboid 200 9.24437

- 9. 24 437 1.48828 48828 13. 5128

- 14. 1605 media 8 l 10 -20 100 media 8 l 10 -20 100 media 4 1 -10 100 media 4 1 -10 100 media '1 1 20 100 media 4 1 20 100 media 4 1 -100 200 media 4 1 -100 200 boundary 200 boundary 200 uni t 21 66 com="Plastic block right 2166 array" cuboid 10 9. 24437

-9. 24437 1.48828

-1.48828 206. 7837

-206.7837 array 2166 10 place 1 1 1 0 0 -192. 3844 boundary 10

' 1176 Array 17L Plast i c/Nylon Blocks Array: Base Outer Full unit:. 1170 unit 2166 com- "Plastic block right 2166 array "

cuboi d 10 9.24437

-9. 24437 1. 488 28

-1 48828 206.7837

-206.7837 array 2166 10 place 1 1 l O O -192. 3844 boundary 10

' 1176 Array 17L P l astic/Nylon Blocks Array : Base Outer Full unit 1170 com* "part 171 plastic block; Edge: Base Outer Ful l ; Axial Lower! "

c om*"part 171 plastic block; Edge : Base Outer Full ; Axial Lower! "

' plastic t hicknezs removed- 0. 0781 inch =0.19844 cm plastic thickness removed""0. 0781 inch =0.1 9844 cm

' bevel surface at -x (10], +x (20]

(8) Hylan

' bevel surface at - x (10], +x [20]

(100] thinned block without bevels, without axial gaps (4) Water

' [100] thinned block without bevels, without axial gaps

[200] thinned block without. bevels, with axial gaps (4) Water

[2001 thinned block without bevels, with axial aps pane 10 xpl*l or g n

)o!a-9.

3 y-

. 3 5 z-o--"'r°'o"'ta"t°"e-a:T:*-

'"""ea,r:,.:,.,,....-------~---------

pane 1 xp.-

orig n x--

y-5m ~ z:-:.:.o.-'""'==-

plane 20 xpl"'l origin x-9. 24437 y*l. 48828 z*O rotate al*O a2s0 a3... -45 plane 20 xpl-1 origin X""9 y*l. 48828 z*O cu.boi 00 9.24437

-9.2443 1.48828 -1..4882 14. 22876

- 14.22876 cuboid 100 9. 24437

-9. 24437

-1 48828 14.22876 cuboid 200 9. 21437

- 9. 24437 1.48828

-1.48828 15. 0749

-14.4272 cuboi d 200 9. 2443 7

-9. 24137

-1 48828 15.0749 media 8 1 10 -20 100 media 8 1 10 -20 100 media 4 1 - 10 100 media 4 1 - 10 100 media 4 1 20 100 media 4 1 20 100 media 4 1 -100 200 media '1 1 -100 200 boundary 200 boundary 200 uni t 1172 com* "part 171 plastic block; Edge : Base Outer Full ; Axial

' plastic t:.hickness removed* O. 0781 inch,..0. 19844 cm bevel surface at -x 110], +x [20]

(100] thinned block without bevels,

[2001 thinned block without bevels,

lane 10 x l *l ori in x*-9. 2 4 Main9" (8) Nylon (4) Water (4) Water unit 11 72 com* "part 171 plastic block ; Edge : Base Outer Full ; Axial Main9" plastic thickness removed=O. 0781 inch =O. 19844 cm bevel surface at - x (10], +x [20 )

(8) Nylon

[100) thi nned block without. beve l s, without axial gaps (4) Water

{2001 1~hi: ne~ blo~: l w~~ho~=- b~~:ls, with axi:~. §1~'°'~"'2_ z*~o-

"-( :~~~t~=;c-~~c; 8;;;ca"'""l*.-.O~ a'Z*~O<-a"J -. 4~5--------------

Page 8/24

media 4 1 -100 boundary 200 unit. 1174

. 4 828 z*O

--c"~~:--=

l!". :::;:

rotate 8 Q7856 19. 8247 a -o a2..... o aJ... -45

-18. 97856

- 19. 824 7 com-"part 171 plastic block ; Edge : Base Outer Full; Axial Upperl "

' plastic thickness removed*O. 0781 i nch *O. 19844 cm

' bevel surface at. -x (10], +x (20]

(8) Nylon

[100] thinned block without. bevels, without axial gaps (4) Water MAP12_ Base inp -

MAP12_ 0_ 1_. in media 4 1 20 100 media 4 1 -100 200 boundary 200 unit. 1174 rotate a

a "'

-18. 97856

- 19. 8247 com- "part. 171 plastic block; Edge : Base Outer Full ; Axial Upperl "

' plastic thickness removed-0. 0781 inch *0. 19844 cm

' bevel surface at - x (10], +x (20 ]

a *-4

, p [; ~~ \\ thi:;~~ blo~~ ~i ~ho~=- b~;:!;; ;!t ~ axia\\ :;ps rotate (4! 1=;ta.c:c;;~~-o~. ~3.-.4~5 ______________

' [100) thinned block without. bevels, without axial gaps

' [200} thinned block without bevels, with a>:ial ga s plane 10 xpl*l origin x*-9. 24437 y*0. 315 z*O (8) Nylon (4) Water (4) Water plane 20 xpl*l origin x*9. 24437 Y""l.48828 z*O rotate al=O a2=0 a3*-45 cuboid 100 9. 24437

-9. 24437 1.48828

-1.48828 13. 31436

-13. 31436 cuboid 200 9.24437

-9. 24437 1.48828

-1.48828 13. 5128

-14. 1605 media 8 1 10 -20 100 media 4 1 -10 100 media :*-9. 24437 y*l. 48828 z*O rotate al*O a2*0 a *4S plane 20 xpl""'l origin x-"9. 24437 y""0. 31512 z::O rotate al~O a2"'0 a3..,-45 cuboid 100 9. 24437

-9. 244 37 1. 48828

-1. 48828 14. 22876

-14. 22876 cuboid 200 9. 21437

- 9.24437 1.48828

- 1.48828 15.0749

- 14. 4272 media 8 1 10 -20 100 media 4 1 - 10 100 media 4 l 20 100 media 4 1 -100 200 bound a ry 200 unit 21 72 media media 4 1 -10 100 media 4 l 20 100 media 4 1 -100 200 boundary 200 unit 2174 Main9 "

(8) Nylon (4) Water (4) Water rotate al*

a

a3*45 rotate al=O a2*0 a3:a-45 l'-~-..;',~;:-,;i.,.!'":
..;~,;: ~~,.6 - _ ~ ~\\ 9~24"'~.c,._5,,_6 --
com-"part l 7r plastic block ; Edge : Base Outer Full ; Axial Upper! "
plastic thickness removed*0. 0781 i nch *0. 19844 cm
' bevel surface at -x (10}, +>: [20]
(8) Nylon
' (100] thinned block without bevels, without axial gaps (4) Water
' (200] thinned block without bevels, with axia.!-.9aps (4) wa,.te~r~
~
~
pane l
>:p
1 orig n x*-9.24437 y*l. 48828 z*O rotate al*O a2*0 a3*45 plane 20 xpl""l origin x-9. 24437 y,o*0. 31512 z=O rotate al=O a2*0 a3e-45 uboi 100 9. 24437
-9. 24437 l. 48828
-1. 48828 13. 31436
-13. 31436 cuboid 200 9. 24437
-9. 244 37 1.48828
-1.48828 13. 5128
-14. 1605 media 8 1 10 -20 100 media 4 1 -10 100 plane 20
>:pl""l origin x=9. 24437 Y"'l.4 8828 z*O cuboid 100 9. 24437
-9. 24437 1. 48828 48828 13 31436 cuboid 200 9. 24437
-9. 24437 1.48828
-1 48828 13 5128 media 8 1 10 -20 100 media 4 l - 10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 uni t 1176 com= "part l 7L plastic block 1176 Array "
cuboi d 10 9.24437
-9 24437 1.48828
-1 48828 206. 8116
- 206. 8116 array 1176 10 place 1 1 1 0 0 -192. 3844 boundary 10
' 2176 Array 17R Plastic/ Nylon Blocks Array : Base Outer Full I-----------
unit 2170 com* "part l 7r plastic block ; Edge : Base Outer Full ; A.xial Lower! "
' plast ic t hickness removed=O. 0781 inch
O. 19844 cm
' bevel surface at. - x {10], +x (20]
(8) Nylon
[100] thinned block without. beve l s, without a>:ial gaps (4) Water
p [;~~] thi:;e ~ l blo~:i;!~ho~=-~~;:~;7 with a>:!!i. i"': '~";"'8~ z--o~"'l.c:~t=~~er al-0 a2-0 a3-45 plane 20 xpl=l origin x... 9. 24137 y=0. 31512 z"'O rotate a1.. o a2... o a3.... -45 cuboid 100 9. 24437
-9. 24437 1. 48828
-l.48828 14. 228?6
-14. 22876 cuboid 200 9. 24437
- 9. 24437 1.48828
- 1.48828 15. 0749
- 14. 4272 media 8 1 10 -20 100 media 4 1 - 10 100 medi a 4 1 20 100 media 4 1 -100 200 boundary 200 uni t 2172 com-"part l 7r plastic block; Edge : Base Outer Full ; Axial Main9"
' plastic t.hickness removedsO. 0781 inch
O. 19844 cm
' bevel surface at -x [10], +x (20)
(8) Nylon
' [ 100] thinned block without beve l s, without axial gaps (4) Water
' Pi !~~J 1~hi~;1~1 blo~:i~~~ho~~-~~;:~s ? with ax!:i.1:~.,;..,8,-;,z-ClOl'""-'"1:;;;~c;t~=~~~;;'e:;;;rc;a======-------------,
plane 20 xpl=l origin
>:=9. 24137 y=0. 31512 z=O rotate al=O a2=0
ct 10
. 24437 2< 37 48828 4882S 8.9 856
-18. 97856 cuboid 200 9. 24437
-9. 244 37 1.48828
- 1.48828 19. 8247
- 19. 8247 media 8 l 10 -20 100 media 4 1 -10 100 media 4 1 20 100 rnedia 4 1 -100 200 boundary 200 unit 2174 com-"part l 7r plastic block ; Edge : Base Outer Full; Axial Upper!"
plastic t.hickness removed*0. 0781 inch *0. 19844 cm
' bevel surface at -x (10], +x [ 20 ]
(8) Nylon
[100] thinned block without bevels, without axial gaps (4) Water
Pl!~~l l~hi:;1~1 blo~~i~!~ho~=-~~;:!;; with ax!~:~:ii;eaa= z*..,O'"""'l!~t:~~er al-0 a2*0 a3-45 plane 20 xpl,.,l origin x-9. 24437 y=0.31512 z=-0 rotate al=O a2*0 a3*-45 cuboid 10 24437
-9. 24437 1.48828
-1.48828 13. 31436
-13. 31436 cuboid 200 9. 24437
-9. 24437 1.4 8828
- 1. 48828 13. 5128
-14. 1605 medi a 8 1 10 -20 100 media 4 1 - 10 100 Page 9/24
media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2176 com* "Array 2176 Part 17R plastic block ; Base outer full "
cuboid 10 9. 24437
-9. 24437 1. 48828
-1 48828 206.8116
-206.8116 array 2176 10 place 1 1 1 0 0 - 192. 3844 boundary 10
'1556 Array SSL Plastic/Nylon Bl ocks Array: Lid Inner Lower uni t 1550 com,,."part 551 plastic block; Edge: Lid Inner Lower ; Axial Lowerl"
' plastic thickness removed*O. 0781 inch -o. 19844 cm
' [100] thinned block without. bevels, without axial gaps
' [200] thinned block without. bevels, with axial gaps cuboid 100 4. 51326
-4. 51326 1. 48828
-1. 48828 14. 22876 cuboid 200 4. 51326
-4. 51326 1. 48828
-1.48828 15.0749 media 8 1 100 media 4 l -100 200 boundary 200 unit 1552 (8)
(4)
-1'. 22876
-14. 4272 com*"pa rt 551 plastic block; Edge : Lid Inner Lower; Axial Main9"
' plastic thickness removed*O. 0781 inch *O.19844 cm
' (100) thinned block without bevels, without axial gaps (8)
' [2001 thinned block without bevels, with axial gaps (4)
~~~1~ ~~~ ::;i;~~ =! :~i;~~ i::::~! =i:!0:~8 i~.8~:;6.._.,..-...,-<"-~--
media 8 1 100 media 4 1 - 100 200 boundary 200 unit 1554 com-"part 551 plastic block; Edge : Lid Inner Lower; Axial Upperl"
' plastic thickness removed2 0. 0781 inch *O.19844 cm
[1001 thinned block without. bevels, without axial gaps
' c~~ ~ ~ ~~~nn:~ 5~;~~k ~! ~~~~~ 6 be~~!:a,;it~l ~:~:;a~ i~. 31436 cuboid 200 4.51326
-4.51326 1.48828
-1.48828 13.5128 media 8 l 100 media 4 1 -100 200 boundary 200 unit 1556 com-"Array 1556 Part SSL plastic block ; Lid Inner Lower" (8)
(4)
-13.31436
-14. 1605 cuboid 10 4.51326
-4.51326 1.48828
-l.48828 206. 8116
-206. 8116 array 1556 10 place 1 1 1 0 O -192. 38411 boundary 10
' 2556 Array SSR Plastic/Nylon Blocks Array : Lid Inner Lower unit. 2550 com*"part 55r plastic block; Edge: Lid Inner Lower; Axial Lowerl"
' plastic thickness removeds0.0781 inch *0.1 9844 cm
[1001 thinned block without. bevels, without axial gaps
' (200] thinned block without. bevels, with axial MAP12_Base. inp - MAP12_0_1_. in media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2176 com-"Array 2176 Part 17R plastic block:; Base outer full" cuboid 10 9. 24437
-9.24437 1.48828
-1.48828 206.8116
-206. 8116 array 2176 10 place 1 1 l O O - 192.3844 boundary 10
' 1556 Array SSL Plastic/Nylon Blocks Array: Lid Inner Lower unit 1550 com=z*part 551 plastic block; Edge: Lid Inner Lower; Axial Lowerl"
' plastic thickness removed-0, 0781 inch *O.19844 cm
[100] thinned block without bevels, without axial gaps (8)
' {200] thinned block: without bevels, with axial gaps (4) cuboTd 100 4.51326
-4. 51326 1.48828
-1.48828 1""-'2..,2._.s"""'--
cuboid 200 4. 51326
-4. 51326 1.48828
-1.48828 15. 0749
-14 4272 media 8 1 100 media 4 1 -100 200 boundary 200 unit 1552 com* "part 551 plastic block:; Edge: Lid Inner Lower ; Axial Main9"
' plastic thickness removed-0. 0781 inch *O.1 9844 cm
' [100] thinned block: without. bevels, without axial gaps (8)
' [200] thi nned block without bevels, with axial gae_s (4) c uboid 100 4. 51326
-4.51326
1. 48828
-1. 48828 18. 97856 cuboid 200 4.51326
- 4.51326 1.48828
-1. 48828 19.8247
- 19 8247 media 8 1 100 media 4 1 -1 00 200 boundary 200 unit 1554 com**part 551 plastic block ; Edge : Lid Inner Lower ; Axial Upperl "
' plastic thickness removed=O. 0781 inch -o.198 44 cm
' [100) thinned block without. bevels, without axial gaps (200) thinned block without beve l s, with axial 9a s cuboid 100 4. l
-4. 51326 1.48
-1.48828 cuboid 200 4. 51326
-4.51326 1.48828
-1.48828 13.5128
-14. 1605 media 8 1 100 media 4 1 -100 200 boundary 200 unit 1556 com- "Array 1556 Part SSL plastic block; L1.d Inner Lower" cuboid 10 4. 51326
-4. 51326 1.48828
-1.48828 206. 8116
-206. 8116 array 1556 10 place 1 1 1 0 0 -192. 3844 boundary 10
' 2556 Array 55R Plastic/Nylon Blocks Array : Lid Inner Lower unit 2550 com**part 55r plastic block; Edge: Lid Inner Lower ; Axial Lowerl"
' plastic t hickness removed=O. 0781 inch :0.198 44 cm
~~~~!~ !~~ ti::~: =::i!~; ~:!882!
i :!::~8 i!:o~!!
6 -~!\\~~~2"'
7 6------------------~
' [100) thinned block without bevels, without axial gaps
' [200] thinned block without bevels, with axial ga s cuboid 100 6. 16426
-6. 3621 1.48828
-1. 48828
4. 22& 6 cuboid 200 6. 16426
-6. 3627 1.48828
-1.48828 15. 0749
-14. 4272 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2552 com-"part 55r plastic block ; Edge: Lid Inner Lower; Axial Main9"
' plastic thicknes s removed*O. 0781 inch *O. 19844 cm
' {100) thinned block without bevel$, without axial gaps
' (200} thinned block without. bevels, with axial aps cuboid 100 6. 16'126
-6. 3627 1.48828
-1.'18828 18. 97856
-18. '/856 cuboid 200 6.16426
-6.3627 1.48828
-1.48828 19. 8247
-19.8247 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2554 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2552 com* "part SSr plastic block ; Edge : Lid inner Lower ; Axial Main9 "
' plastic thickness removed*0.0781 inch -0. 19844 cm
' (100] thinned block without. bevels, without axial gaps
' (200) thinned block without bevels, with axial aps cuboid 1 Q
. 1 4i
-6.
2'1
. '18828
-1.48828 1. 7 cuboid 200 6. 16426
-6. 3627 1.48828
-1.48828 19. 8247
-19. 8247 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2554 Page 10/ 24
-14. 22876 __________ __.
-18. 97856
-13. 31436 __________
~
-14. 22876 ------------
-18. 97856
com* "parL 55r plastic block ; Edge : Lid Inner Lower; Axial Upper! "
' plastic thic>mess removed-0. 0781 inch *0.19844 cm
' [100] thinned block without. bevels, without axial gaps
[200] thinned block without. bevels, with axial gaps cuboid 100 6.16426
-6.362
.48828 48828 13.31436
-13. 31436 cuboid 200 6. 16426
-6.3627 1. 48828
-1. 48828 13.5128
-14. 1605 media 8 1 100 media 4 1 - 100 200 boundary 200 unit. 2556 com*"Array 2556 Part 55R plastic block; Lid Inner Lower "
cuboid 10 6.16426
-6. 3627 1.48828
-1 48828 206.8116
-206. 8116 array 2556 10 place l l l O O -192. 3844 boundary 10
' 1576 Array 51L Plastic/Nylon Blocks Array: Lid Inner Upper unit. 1570 com* "part 571 plastic block; Edge: Lid Inner Uppe:r; Axial Lower!"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' (10) bevel surface at - x (8) Nylon
[1001 thinned block without. bevels, without axial gaps (4) Water
' (200] thinned block without bevels, with axial gaps (4) Water MAP12_Base inp -
MAP12_ 0_1_. in com* "part 55r plastic block; Edge : Lid Inner Lower; Axial UpperP
' plastic thickness removed*0. 0781 inch *0.19844 cm
' (100] thinned block without bevels, without axial gaps
' (2001 thinned block without. bevels, with axial aps cuboid 100 6.16426
62 1.48828
-1 cuboid 200 6.16426
-6.3627 1. 48828
-1.48828 13. 5128 media 8 1 100 media 4 1 - 100 200 boundary 200 unit 2556 com*"Array 2556 Part 55R plastic b lock; Lid Inner Lower" cuboid 10 6. 16426
-6.3627 1.48828
-1.48828 206. 8116
-206.8116 array 2556 10 place 1 1 1 0 0 -192. 3844 boundary 10
=~~~-~~~~~-57L Plastic/Nylon Blocks Array : Lid Inner Upper unit 1570 com* "part 571 plastic block; Edge: Lid Inner Upper; Axial Lower!"
' plastic thickness removed*0. 0781 inch *0. 19844 cm (10] bevel surface at - x
' {1001 thinned block without. bevels, without axial gaps (8) Nylon (4) Water
-13. 31436 xpl=l on.gin x=O.
y--
8.:-0 rotate a""'-"""*""-= a=---"4,.... __ ~-------~---
' [200 ] thinned block without bevels, with a xi al ae_
plane 10 xpl-1 origin xsO.
y--1.48828 z-0 cuboid 100 10. 49496 0. 28 93 1.48828
-1.48828 14 cuboid 200 10.4 9496 0.28063 1.48828
-l.'18828 15. 07 49 (4) Wate..,r ~ ~~~
rotate al--0 a2""0 a3--4 100 10.49496 0. 28063 1.48828
-1.48828 14. 22876
-14. 22876 cuboid 200 10. 49496 0. 28063 1. 48828
-1. 48828 15. 07'19
-14. 4272 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 unit 1572 com*"part 571 plastic block; Edge : Lid Inner Upper; Axial Main9 "
' plastic thickness removed*O. 0781 inch *O.19844 cm (10] bevel surface at - x
[1001 thinned block without bevels, without axial gaps (200} thinned block without bevels, with axial a.s (8) Nylon (4) Water (4) Water p ane 10 xpl=l origin x..:fli.
y---
. 48828 z..aQ cuboid 100 10.49496 0.28063 1.48828
-'!.48828 18 cuboid 200 10.49496 0.28063
1. 48828
-1.48828 19 media 8 1 10 100 rotate al=O a2'-0 a3... -45 97856
-18.97856 82'17
-19.8247 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 uni t 1574 com* "part 571 plastic block ; Edge : Lid Inner Upper ; Axial Upperl "
' plastic thickness removed*O. 0781 inch *O. 19844 cm (10 ] bevel surface at - x (8) Nylon (1001 thinned block without bevels, without axial gaps (4) Water
' [200] thinned block without bevels, with axial gaps (4) Watec;r~ ~~~
plane 10 xpl*l origin x*
063 y---1. 48828 z-0 rotate al*O a2ao:
aJ... -45 cuboid 100 10. 49496 0.28063 1.48828
-1.48828 13.31436
-13.31436 cuboid 200 10. 49496 0. 28063 l. '18828
-1. 48828 13.5128
-14.1605 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 uni t 1576 com-"Array 1576 Part 57L plastic block; Lid Inner Upper "
cuboid 10 10 49496 0.28063 1.48828
-1.48828 206. 8116
-206.8116 array 1576 10 place 1 1 1 0 0 -192. 3844 boundary 10
' 2576 Array 57R Plastic/Nylon Blocks Array : Lid Inner Upper unit 2570 com*"part 57r plastic block ; Edge : Lid Inner Upper ; Axial plastic thickness removed*0.0781 inch
0.19844 cm (10) bevel surface at -x
{100] thinned block without bevels, without axial gaps (200) thinned block without bevels, with axial ga s Lower!"
(8) Nylon (4) water (4) Water ane 10 xpl*1 origin
. 2 63 y*-1.48828 z*
rotate al*O a2*0 a3*45 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 unit 1572
~r:
212
c,2,,,2"8..,6,_ _____________ _.
com.,"part 571 plastic block; Edge : Lid Inner Upper ; Axial Main9 "
' plastic thickness removed-0. 0781 inch *0.198'44 cm (10) bevel surface at - x (8) Nylon (100) thinned block without bevels, without axial gaps (4) Water (200 ] thinned block without bevels, with axial 9a s (4) Water plane 10 xpl-1 on.gin X-'0.28063 y... -1.48828 z=O rotate al""O a2~0 a3---45 cuboid 100 10.49496 0.28063 1.48828
-1.48 2 18.97856
-18.97856 cuboid 200 10.49496 0. 28063 l.'18828
-1.48828 19.8247
-19. 82'17 media 8 1 10 100 media 4 l - 10 100 media 4 1 -100 200 boundary 200 unit 1574 com.. "part 571 plastic block; Edge : Lid Inner Upper; Axial Upper!"
' plastic thickne5s removed*0. 0781 inch *0. 19844 cm
' [10] bevel surface at - x (8) Nylon
' £1001 thinned block without. bevels, without axial gaps (4) Water
'pi!~~l l~hi:;1~1 blo~:i;!~ho~~O ~;:~~;
with a;:~i. i:n8,.. o
' ! ~t:~~er al*O a2... 0 a3... -45 cuboid 100 10. 49496 0.28063 1.48828
-1.48828 13.31436
-13. 31436 cuboid 200 10.49496 0. 28063 1.48828
-1.48828
13. 5128
-14.1605 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 2 O O un i t 15?6 com= "Array 1576 Part 571 plastic block; Lid Inner Upper" cuboid 10 10.49496 0 28063 1.48828
-1.48828 206.8116
-206. 8116 array 1576 10 place 1 l 1 O O -192.3844 boundary 10
' 2576_Array_57R Plastic/Nylon Blocks Array: Lid Inner Upper unit 2570 com* "part 57r plastic block; Edge : Lid Inner Upper; Axial Lower! "
' plastic thickness removed-0. 0781 inch
0. 19844 cm (10 ] bevel surface at -x (100] thinned block without bevels, without axial gaps
{200J thinned block without bevels, with axial gal2!.._
lane 10 xpl*l ori in x*-0. 28063 y*-1.48828 :z-0
?age 11 / 24 (8) Nylon (4) Water (4) Water rotate al*0= *2~*~0= *3~*~*~s--~-------------'
MAP12_ Base inp -
MAP12_0_1_. in cuboid 100 0. 28063 10.49496 1.48828 l 48828 14 22876 14. 22876 cuboid 200
-0. 28063
-10.49496 1.48828
-1 48828 15 0749
-14. 4272 media 8 l - 10 100 media 4 1 10 100 media 4 l -100 200 boundary 200 unit 2572 com-"part 57r plastic block ; Edge : Lid Inner Upper ; Axial Main9"
' plastic thickness removed,.O. 0781 inch
O. 19844 cm (10] bevel surface at -x (8) Nylon (100) thinned block without bevels, without axial gaps (4) Water
[ 200] thinned block without bevels, with axial a s (4) Water plane 10 xpl*l origi n x*- 0. 28 63 y*-1. 48828 z*O rotate al*O a2*0 a3*45
~:~!~ 200 =t~:~:; :io ~! 9!!: i:~::~: :i::::~:
1: ~8~!;
6 -~"~"-\\;.,*~'"i""~"-
56"---~-------------
media e 1 - 10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 un.;. t 2 574 com* "part 57r plastic block ; Edge : Lid Inner Upper ; Axial Upperl "
plast ic thickness removed'"'O 0781 inch
0.19844 cm
( 10] bevel surface at -x (8) Nylon (1001 thinned block without bevels, without axial gaps (4) Water (200! thinned block without bevels, with axial aps (4) Water pl ane 10 xpl*l orig in x* - 0. 28063 y*-1. 48828 z*O rotate al*O a2*0 a 3*45 cuboid 100
-0. 28063
-10.49496 1.48828
-1. 48828 13. 31436
-13.31436 cuboid 200
-0. 28063
-10. 49496 1. 48828
-1.48828 13. 5128
-14. 1605 media 8 1 - 10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 2 0 0 unit 2 576 corn- "Array 2576 Part 57R plastic block ; Lid Inner Upper "
cuboid 10
- 0.28063
- 10 49496 1.48828
- 1.48828 206. 8116
- 206. 8116 array 2576 10 place l l l O O -192, 3844 boundary 10 unit 1598 com* "part 591w plast i c b l ock" plastic thickness removed* O. 0781 inch
O.19844 cm Nylon (8) wedge 10
1. 38799 1. 38799 2. 97656 28.4 5753 origi n x*O y*O z*0.19844 wedge 20
1. 38799
1. 38799 2. 97656 37. 95713 origin x* O y* O z-30. 34824 wedge 30
1. 38799 1. 38799 2. 97656 37. 95713 origi n x-0 y-0 z*69. 99764 wedge 40 1. 38799
1. 38799 2. 97656 37. 95713 origin x-o y- 0 z=l09. 647 wedge 50 1. 38799 1. 38799 2. 97656
37. 95713 origin
-0 y-0 2*149. 2964 wedge 60
1. 38799
1. 38799 2. 97656 37.95713 origi n x- 0 y*O z=l88. 9458 wedge 70
l. 38799 1.38799 2. 97656 37. 95713 origin x- 0 y- 0 z=228. 5952 wedge 80
l. 38799
1. 38799 2. 97656
37. 95713 orig i n
-0 y-0 z*268.2446 wedge 90
1. 38799 1. 38799 2. 97656 37.95713 origin x* O y--0 z-307. 894 wedge 100 1.38199
1. 38799 2. 97656 37.95713 origin x*O y*O z*347. 5434 wedge 110
1. 387 99
1. 38799
2. 97656
26. 6287 3 origin x*O y* O zs387. 1928 wedge 120 1. 38799
1. 38799 2. 97656 414. 02 media 8 1 10 media 8 1 20 media 8 30 media 8 40 media 8 50 media 8 60 media 8 70 media 8 80 media 8 90 media 8 100 media 8 110 media 4 1 20 40 -so 70 90 -100 -110 120 boundary 120
~==~-~~~===£l!,!y lon Lid Dute U~ ------------_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-
uni t 2 598 cuboid 100 0.28063 10 4 4 6 1.48828 1. 48828 14. 22876 cuboid 200
-0.28063
-10 49496 1. 48828
-1.48828 15. 0749
-14.4272 media 8 1 10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 2572 com* "part 57r plastic block ; Edge: Lid Inner Upper; Axial Main9 "
' plastic t hickness removed"'O. 0781 inch
O. 19844 cm (10] bevel surface at -x (8) Nylon
' {100) thinned block without beve l s, without axial gaps (4) Water
' {200] thinned block without bevels, with axial a s (4) Water 4 22876 _____ ~--------
plane 10 xpl*l or g1 n x*-0. 28063 y--1. 48828 z*O rotate al*O a2*0 a3*45 cuboid 100
-0. 28063
- 10. 4 496 1. 48828
-l.'18828 18. 9 B56
8.
856 cuboid 200
-0.28063
-10.49496 1.48828
-1.48828 19.8247
-19.8247 media 8 1 10 100 media 4 1 10 100 media 4 l -100 200 boundary 2 0 0 unit. 2574 com* "part 57r plastic block; Edge: Lid Inner Upper ; Axia l Upper!"
' plastic t hickness removed=0.0781 inch =0.19844 cm
' {10] bevel surface at -x (100) thinned block without beve l s, without axial gaps
' {200) thinned block without bevels, with axial ~
pi a ne 10 xpl*l orig n x*-
0 y*-1. 48828 z*O a2*0 a3*45 cuboid 100
-0. 28063
-10.49 96 1.18828
-1. B82&
l
14 6
-13.31436 __ ~~---------"'
cuboid 200
-0. 28063
-10.4 9496 1.48828
-1. 48828 13. 5128
-14.1605 media 8 1 - 10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 2 0 0 unit 2576 com*"Array 2576 Part 57R plastic block; Lid Inner Upper" cuboid 10
- 0. 28063
- 10.49496 1.48828
- 1.48828 206. 8116
- 206.8116 array 2576 10 place 1 1 1 0 0 -192. 3844 boundary 10
' 1598 Plastic lon Lid Outer u~ ---------------------------------,
unit 1598 com*"part 591w p l ast i c block "
plastic thickness removed-0. 07 81 inch
0.19844 cm Nylon (8) wedge JO
1. 38799 1. 38799 2. 97656 28. 45753 origi n x*O y*O z*O.1 9844 wedge 20
1. 38799
1. 38799 2. 97656 37. 95713 origin x*O ya.O z* 30.34824 wedge 30 1. 38799 1. 38799 2. 97656 37.95713 origin x*O y*O z*69. 99764 wedge 40
1. 38799 1. 38799 2. 97656 37.95713 origin x*O y*O zs l09 647 wedge 50
1. 38799 1. 38799 2. 97656 37. 95713 origin
-0 y-0 z*l49.2964 wedge 60
1. 38799
1. 38799 2. 97656 37. 95713 origin x*O y*O zs l88. 9458 wedge 70
1. 38799
1. 38799 2. 97656 37. 95713 origin x- 0 y* O z* 228. 5952 wedge eo
1. 38799
l. 38799 2. 97656 37. 95713 origi n x-0 y-0 z*268. 244 6 wedge 90 1. 38799
1. 38799
2. 97656 37.95713 origin x* O y* O z* 307. 894 wedge 100
1. 38799
1. 38799 2. 97656 37.95713 origin x*O y*O z*34 7. 5434 wedge 110
1. 38799 1.38799 2. 97656 26. 628 73 origin x,o y* O z-387.1 928 wedge 120 1. 38799 1.38799 2. 97656 414. 02 media 8 10 media 8 20 media e 30 media 8 40 media 8 50 media 8 60 media 8 70 media e 80 media 8 90 media e 100 media 8 110 media 4 20 40 60 80 100 -110 120 boundary 120

~~--------------------------,

uni t 2598 Page 12 / 24
com-"part 59rw plastic block"
' plastic thickness removed-0. 0781 inch *O. 19844 wedge 10
1. 38799 0
2. 97656
28. 45753 wedge 20 1. 38799 0
2. 97656 37. 95713 wedge 30 1.38799 0
2.97656 37. 95713 wedge 40 1.38799 0
2. 97656 37.95713 wedge SO
1. 38799 0
97656
37. 95713 wedge 60 1.38799 0
97656 37.95713 wedge 70 1.38799 0
97656 37.95713 wedge 80 1.38799 0
97656 37. 95713 wedge 90 1.38799 0
97656 37.95713 wedge 100 1.38799 0
2. 91656 37.95713 wedge 110 1 38799 0
2. 97656 26. 62813 wedge 120 1 38799 0
2. 97656 414. 02 media 8 l 10 media 8 1 20 media 8 1 30 media 8 1 40 media 8 1 SO media 8 1 60 media 8 1 70 media 80 media 90 media 100 media 110 cm Nylon(8) origin x*O y*O z*O.19844 origin x-0 y-o za30. 34824 origin x*O y*O z-69. 99164 origin x=O y-0 z* l09. 647 origin x*O y*O z*l49. 2964 origin x*O y*O z.*188. 9458 origin x*O y*O z*228. 5952 origin x*O y*O z*268. 2446 origin x*O y*O z*307. 894 origin x*O y*O z.*347. 5434 origin x*O y*O z*387. 1928 media 4 20 40 -so 70 -eo 100 -110 120 boundary 120
' 1596 Array 59L Plastic/Nylon Blocks Array: Lid Outer Upper unit 1590 com,,."part 591 plastic block; Edge : Lid Outer Upper; Axial Lowerl" plastic thickness removed*0.0781 inch *0.19844 cm
' (lOJ bevel surface at -x (8) Nylon
' (100] thinned block without bevels, without axial gaps (4) Water
' (200] thinned block without bevels, with axial aps (4) Water plane 10 xpl*l origin x*-0. 28063 y*-1.48828 ::*O rotate al*O a2*0 a3*45 cuboid 100
- 0. 28063
-11.37245 1.48828 1.48828 14. 22876
- 14. 22816 cuboid 200
-0. 28063
-11.37245 1.48828
-1.48828 15. 0749
-14.4272 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1592 coma"part 591 plastic block; Edge: Lid Outer Upper; Axial Main9"
plastic t h ickness removed*0. 0781 inch *0. 19844 cm
(10] bevel surface at -x (8) Nylon
(100} thinned block without bevels, without axial gaps (4) Water
' (200 ] thinned block without bevels, with axial gaps (4) Water p ane O xpl*l on.g n x*-.
y*-
8:f8 z*O rota e al*O a *O a *45 cuboid 100
-0. 28063 ll.372 45 1.48828 1.48828 18. 97856
- 18. 9'-'7,_,a,,,s,.6 __
cuboid 200
-0. 28063
-11.37245 1.48828
-1.48828 19.8247
-19. 8247 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1594 com- "part 591 plastic block ; Edge: Lid Outer Upper; Axial Upperl "
plastic thickness removed*0.0781 inch *0. 19844 cm
[10] bevel surface at -x (8) Nylon
(100) thinned block without bevels, without axial gaps (4) Water
(200) thinned block without bevels, with axial gaps (4) Water plane 1 xp
origin x*-0. 8 63 y*-1. 4 828 z*O rot.ate al*O a2*0 a3*45 MAP12_Base inp -
MAP12_0_1_.in com* "part 59rw plastic block "
' plastic thickness removed*O. 0781 inch *O.19844 wedge 10 1.38799 0
2. 97656 28.45753 wedge 20 1.38799 0
2. 97656 37. 95713 wedge 30
1. 38799 0
2. 97656 37. 95713 wedge 40
1. 38799 0
2. 97656 37. 95713 wedge 50
1. 38799 0
2. 97656 37. 95713 wedge 60
1. 38799 0
2. 97656 37. 95713 wedge 70 1.38799 0
2. 97656 37. 95713 wedge 80 1. 38799 0
2. 97656 37 95713 wedge 90 1.38799 0
2.97656 37. 95713 wedge 100 1.38799 0
2.97656 37.95713 wedge 110 1.38199 0
2.97656 26.62813 wedge 120 1.38799 0
2.97656 414.02 med.ia 8 1 10 media 8 1 20 media 8 30 media 8 40 media 8 50 media 8 60 media 8 70 media 8 80 media 8 90 media 8 100 media 8 110 cm Nylon (8) origin x*O y*O z*0. 19844 origin xaO y=O zar30. 34824 origin x*O y*O z*69. 99764 origin xaO y.o.O z-109. 647 origin x*O y*O z-149. 2964 origin x*O y*O z.*188. 9458 origin x*O y*O z*228. 5952 origin x*O ysQ z.*268. 2446 origin x*O y*O z*307. 894 origin x*O y*O z*347. 5434 origin x*O y*O z.=-38 7.1928 media 4 20 40 -SO 70 90 -100 -110 120 boundary 120
' 1596 A.rray 591 Plastic/Nylon Blocks Array: Lid Outer Upper unit 1590 com*"part 591 plastic block; Edge : Lid Outer Upper; Axial Lowerl"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' (10] bevel surface at -x (8) Nylon
' (100] thinned block without bevels, without axial gaps (4) Water
' (200 ] thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l origin x*-0. 28063 y*-1. 48828 z*O rotate al*O a2*0 a3*45
~~~i~ !~~ -~: ~:~:~ ~g: ~~~:~ 1. 4882!.
4
~~~: 882~.
4
~~~~74!
4
. ~~:~!212 14 22876~-------------
media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 uni t 1592 com* "part 591 plastic block; Edge : Lid Outer Upper; Axial Main9 "
' plastic thickness removed*O. 0781 inch -o. 19844 cm
' [10 ] bevel surface at -x (8) Nylon
' (100 ] thinned block without bevels, without axial gaps (4) Water
' (200] thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l origin x*-
8 3
y*-1.48828 z*O rotate al-a *O a3*45 cuboid 19;0 0. 28063 1. 37245 1. 48828 1. 48828 18. 97856 18. 97856 cuboid 200
-0.28063
-11.37245 1.48828
-1.48828 19.824 7
-19. 8247 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 uni t 1594 com*"part 591 plastic block; Edge : Lid Outer Upper ; Axial Upper!"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' {10] bevel surface at -x (8) Nylon (100) thinned block without bevels, without axial gaps (4) Water
' [200) thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l origin x*-0. 28063 y*-1.48828 z*O rotate al-0 a2*0 a3*45 cuboid 100
- 0. 28063
-11. 372 45 1.48828
1.48828 l. 31436
- 13. 31436 --------------~-~
cuboid 200
-0.28063
-11.37245 1.48828
-1.48828 13.5128
-14. 1605 cuboid 100 0. 28063
1 372 45 1. 48828 1. 48828 13.31436 13. 31436 cuboid 200
-0. 28063
-11. 37245 1.48828
-1. 48828 13. 5128
-14. 1605 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1596 com* "Array 1596 Part 59R plastic block; Lid Outer Upper" cuboid 10
-0. 28063
-11.37245 1.48828
-1. 48828 206. 8116
-206. 8116 array 1596 10 place 1 1 1 0 0 -192. 3844 boundary 10 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1596 com*"Array 1596 Part 59R plastic block; Lid Outer Upper "
cuboid 10
-0 28063
-11.37245 1. 48828
-1. 488 28 206. 8116
- 206.8116 array 1596 10 place 1 1 1 0 0 -192. 3844 boundary 10 Page 13/24
MAP12_Base.inp -
MAP12_ 0_1_. in
'2596 Array 59R Plastic/Nylon Blocks Array: Lid Outer Upper unit 2590 com- "part 59r plastic block ; Edge : Lid Outer Upper; Axial Lowerl "
plastic thicknees removed=0.0781 inch *0. 19844 cm
' (1 01 bevel surface at -x C8) Nylon
' [100] thinned block without bevele, without axial gaps (4) Water
' [ 2001 thinned block without beve~s, with axial 99s (4) Water pJane 10 xpl*l on.gin x*0.28063 y*-1.48828 z*O rotate al-0 a2*0 a3* 45 cuboid 100 11. 37245 0.28063
.48828
-1.48828 14.22876
-14. 22876 cuboid 200 11.37245 0.28063 1. 48828
-1.48828 15. 0749
-14. 4272 media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 2 0 0 unit 2592 com*"part 59r plastic block; Edge : Lid Outer Upper ; Axial Main9" plaetic thicknees removed=0.0781 inch *0. 19844 cm
' (10) bevel surface at -x (8) Nylon
' [100] thinned block without bevele, without axial gaps (4) Water
' {2001 thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l origin x-0.28063 y*-1.48828 z*O rotate al*O a2*0 a3*-45
~~~~~~ !~~ ii:~~~:~
~ : ~:~;~ i::::~: =i::::~: i!::~:;
6 -~;~.a~~'"~"'~"
5 6--~---------------
media 8 l 10 100 media 4 1 -10 100 media 4 1 100 200 boundary 200 unit 2594 com* "part 59r plastic block ; Edge: Lid Outer Upper; Axial Upperl "
plaetic t hicknees removed=O. 0781 inch *O.19844 cm
[10) bevel surface at -x (8) Nylon
' [100) thinned block without bevele, without axial gaps (4) Water
[200) thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l orig n x-0.28063 y* 1.48828 z*O rotate al-0 a2*0 a3*-45 cuboid 190 11.37 45 0.28063 1.48828
-1.48828 13.31436
-13. 31436 cuboid 200 11. 37245 0. 28063 1.48828
-1.48828 13.5128
-14. 1605 media 8 1 10 100 media 4 l -10 100 media 4 l 100 200 boundary 200 unit 2596 com*"Array 2596 Part 59R plastic block ; Lid Outer Upper "
cuboid 10 11.37245 0.28063 1.48828
-1.18828 206.8116
-206. 8116 array 2596 10 place 1 1 1 O O -192. 3844 boundary 10
' 1616 Array 61L Plastic/Nylon Blocks Array : Lid Outer Lower unit 1610 com*"part 611 plaetic block ; Edge: Lid Outer Lower ; Axial Lowerl"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' [10 ] bevel eurface at - x (8) Nylon
' (100) thinned block without bevels, without axial gaps (4) Water
' p [!~~J l;hi:;~~l blo~:i;t~ho~:- ~ ~;i~in w!~~l ~:~:~a g:~;
rota~: ) ::,~'=:ic;r'ca:..2c=.wo-:a"J"'*... -2"'oc--------------*
cuboid 100
-0. 1 844
-10.;1083 1.48828
-1. 48828 14.22876
-14.2287 cuboid 200
-0. 19844
-10. 71083 1. 48828
-1. 48828 15. 0749
-14.4272 media 8 1 10 100 media 4 1 10 100 media 4 :. -100 200 boundary 200 unit 1612 com"' "part 611 plaetic block ; Edge : Lid Outer Lower; Axial Main9 "
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' [10) bevel ~ur!ace at - x (8) Nylon
[100] thinned block without bevels, without axial gaps (4) Water
[2 00] thinned block without bevels, with axial gaps (4) Water plane 10 xpl-1 origin x--10. 1083 ya-1. 48828 2-0 rotate al-0 az.. o a3=-20 cuboid 100
-a. 92
-10 7 083
. 48828
-1. 48828 18. 97856
-18c-.,.9.._,8,_.5,e6---------------
~~~~-~~~~~- 59R Plastic/Nylon Blocks Array : Lid Outer Upper unit 2590 com* "part 59r plastic block; Edge : Lid Outer Upper ; Axial Lower! "
' plastic thickness removed"'0. 0781 inch *0. 19844 cm
' (10] bevel surface at -x (8) Nylon
' [100} thinned block without bevels, without axial gaps (4) Water
' [200) thinned block without bevels, with axial ~e!..
_,1.,.4)'-"W
"'a"'tec,r:_. _____ _
plane 10 xpl*l origin x*0. 28063 y*-1.48828 z*O rotate al*O a2*0 aJ*-45 cu i
100 ll.1724~
0. 28063 1.48828
-1.48828 14 22876
-14.22876 cuboid 200 11.37245 0. 28063 1.48828
-1. 48828 15. 0749
-14. 4272 media 8 1 10 100 media 4 1 -10 100 media 4 1 100 200 boundary 200 unit 2592 com* "part 59r plastic block; Edge : Lid Outer Upper ; Axial Main9 "
plaetic t hicknees removed"'O. 0781 inch *O. 19844 cm
' (10] bevel surface at -x (8) Nylon
' (100) thinned block without bevels,
(4) Waler
' [200) thinned block without bevels,
14) Water plane 10 xpl*l origin x-0. 80 3 rotate al*O a2*0 a3*-45 cuboid 100 11.37245 0.28063 1.48828
-1. 48828 18.97856
-18. 97856 cuboid 200 11.37245 0. 28063 1.48828
-1.48828 19. 8247
-19. 8247 media 8 1 10 100 media 4 1 - 10 100 media 4 1 - 100 200 boundary 200 unit 2594 com*"part 59r plastic block; Edge : Lid Outer Upper; Axia l Upperl" plaetic t hicknees removed*0. 0781 inch *0. 19841 cm
' [10) bevel surface at -x (8) Nylon
' (100) Lhinned block without bevels, without axial gaps (4) Water
' {200) thinned b lock without bevels, with axial gaps (4) Water plane 10 xpl*l origin x*D. 28063 y*-1. 48828 z*O rotate al*O a2*0 a3* 45 c
id lOQ
11. 724 0. 28063 l.48828
-1.48828 13.31436
-13.31436 _____________
cuboid 200 11. 37245 0. 28063 1.48828
-1.48828 13. 5128
-14. 1605 media 8 1 10 100 media 4 1 -10 100 media 4 1 - 100 200 boundary 200 unit 2596 com* "Array 2596 Part 59R plastic block ; Lid Outer Upper "
cuboid 10 11 37245 0.28063 1.48828
-1.48828 206.8116
-206.8116 array 2596 10 place 1 1 1 0 0 -192. 3844 boundary 10
1616 _Array_ 61L Plastic/Nylon Bl ocks Array : Lid Outer Lower unit 1610 come"part 611 plaetic block ; Edge: Lid Outer Lower; Axial Lowerl"
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' [10) bevel eurface at - x (8) Nylon
' [1001 thinned block without bevels, without axial gaps (4) Water
' (200] thinned block without beve l s, with axi al aps
14) Water plane 10 xpl--1 origin x- -1. 71083 Y"'-1. 48828 zaQ rotate al*O a2*0 a3*-20 cuboid lQO
-0.19844 71083 1.48828
-1.48828 14. 22876
-14.22876 ____________ __
cuboid 200
-0.19844
-10. 71083 1.48828
-1.48828 15.0749
-14.4272 media 8 1 10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1612 com"' "part 611 plaeLic block ; Edge : Lid Outer Lower ; Axial Main9 "
' plastic thickness removed-0. 0781 inch *O. 19844 cm
' (10) bevel eurface at - x
' [100] thinned block without bevels, without axial gaps (200) thinned block without beve l s, with axial aps plane 10 xplal origin x... -10. 71083 y*-1.48828 z... O cuboid 100
-0. 19844
-10.71083 1.48828
-1. lo8828 (8) Nylon (4) Water (4) water rotate 18. 97856 al* O a2"'0 aJ... -20
-18. 97856 Page 14 / 24
cuboid 200
- 0. 19844
- 10. 71083 1.48828
-1.48828 19.8247
- 19. 8247 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 unit. 1614 com* "part 611 plastic block; Edge : Lid Outer Lower ; Axial Upperl "
' plast.ic thickness removed*O. 0781 inch -0. 19844 cm
' (10) bevel surface at -x (8) Nylon
' (100] thinned block without bevels, without axial gaps (4) Water
' (200] thinned block without bevels, with axial ga s (4) Water plane 10 xpl.... l ong1.n x=-10. 71083 y--1.48828 z... o rotate al-0 a2... 0 a3-.-20 cuboid 100
-0.19844
-l, 710&3 1. 48828
-1.48828 13. 31436
-13. 31436 cuboid 200
-0. 19844
-10. 71083 1.48828
-1. -48828 13.5128
-14.1605 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 unit 1616 com**Array 1616 Part 611 plastic block ; Lid Outer Lower "
cuboid 10
-0. 19844
-10. 71083 1.48828
-1. 48828 206. 8116
-206. 8116 array 1616 10 place l 1 1 0 0 -192. 3844 boundary 10
'2616 Array 61R Plastic/Nylon Blocks Array : Lid Our.er Lower unit 2610 com* "part 6lr plastic block; Edge: Lid Outer Lower; Ax!al Lower! "
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' [10] bevel surface at - x (8) Nylon (100] thinned block without bevels, without axial gaps (4) Water
' [200] thinned block without. bevels, with axial gaps (4) Water plane 10 xpl-1 origin X""'lO. 71083 y--1. 48828 z-0 rotate al... O a2"'0 a3-20 cu oid 100 10.71083 0.19844 1. 48828
-1.48828 14. 22876
-14. 22876 cuboid 200 10.71083 0. 19844 1.48828
- 1.48828 15.0749
- 14. 4272 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit. 2612 com* "part 61r plastic block; Edge : Lid Outer Lower ; Axial
' plastic t.hickness removed-0. 0781 inch *O. 19844 cm Ma i n9 "
' [ 10] bevel surface at - x (8) Nylon
' [1001 thinned block without bevels, without axial gaps (4) water
' (200] thinned block without bevels, with axial gaps (4) Water plane 10 xpl--1 ori9 n x--' 0. 1083 y--1.48828.:-0 rotate al--0 a2-0 aJ.-20 cuboid 100 10.71083 0. 19844 1. 48828
-1. 48828 18. 97856
-lS,97856 cuboid 200 10.71083 0. 19844 1.48828
- 1.48828 19 8247
- 19. 8247 media 8 1 -10 100 media 4 l 10 100 media 4 1 -100 200 boundary 200 unit 2614 com- *part 6lr plastic block; Edge : Lid Outer Lower ; Axial Upper!"
' plastic t.hickness removed-0. 0781 inch *O.19844 cm
' (10) bevel surface at - x (8) Nylon
' [100] thinned block without bevels, without axial gaps (4) Water
' [200] thinned block without bevels, with axial gaps (4) Water plane 10 xpl... l origin x--10. 71083 y..a.-1.48828 zaO rotate al"'-0 a2-0 a3--20 cuboid 100 10.71083 0. 19844 1. 48828
-1.48828 13.31436
-13. 31436 cuboid 200 10. 71 083 0. 19844 1.48828
- 1.48828
13. 5128
-14. 1605 media 8 1 -10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 200 unit 2616 com* "Array 2616 Part 61R plastic block ; Lid Outer Lower "
cuboid 10 10. 71083 0. 19844 1.48828
-1.48828 206. 8116
-206. 8116 array 2616 10 place l 1 1 O O - 192. 3844 boundary 10
' 2 Array 6IR Plast.ic / Nylon Blocks Array: Li d Oute r Lower MAP12_Base.inp -
MAP12_0_1_.in cuboid 200
- 0.19844
- 10. 71083 1.48828
-1.48828 19. 8247
- 19.8247 media 8 l 10 100 media 4 1 - 10 100 media 4 1 -100 200 boundary 200 unit 1614 com* "part 611 plastic block ; Edge: Lid Outer Lower; Axial Upper!"
' plastic thickness removed-0. 0781 inch *O. 19844 cm
' {10] bevel su r face at -x (8) Nylon
' {100) thinned block without bevels, without axial gaps (4) Water
' {200] thinned block without bevels, with axial gaps (4) Water plane 10 xpl-1 orig1.n x=-10. 71083 y.. -1. 48828 z-..O rotate a>O a2'-'0 a3>>-20
~~;:i~ ~~~ =ti:::: -10. 710; ~
~~~:!20 1
~~!:02; 1
i~~;~20 13:i!~f!05 13 31436 ~-------------'
media 8 1 10 100 media 4 l - 10 100 media 4 1 -100 200 boundary 200 unit 1616 com* "Array 1616 Part 611 plastic block. ; Lid Outer Lower" cuboid 10
-0. 19844
-10. 71083 1.48828
-1.48828 206. 8116
-206. 8116 arr ay 1616 10 place 1 1 l O O - 192. 3844 boundary 10
' 2616 Array 61R Plastic/Nylon Bl ocks Array: Li d Outer Lower unit 2610 com* "part 6lr plastic block; Edge : Lid Outer Lower ; Axial Lower! "
' plastic t.hickness removed-0. 0781 inch -o. 19844 cm
' [10] bevel surface at - x (8) Nylon
[1001 thinned block without bevels, without axial gaps
( 4 ) Water
[200] thinned block without bevel s, with ax i al gaps (4) Water plane 10 xpl-1 origin x-10. 71083 y--1.48828 zw..O rotate al,..O a2:0 a3=20 cuboid 100 10.71083 0. 19844 1. 48828
-1. 48828 14. 22876
-14. 22876 cuboi d 200 10.71083 0. 19844 1.48828
- 1.48828 15.0749
- 14. 4272 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 2612 com*
part 61r plastic block; Edge: Lid Outer Lower; Axia l Hai n9"
' plastic thickness removed-a. 0781 inch *O. 19844 cm
' [10] bevel surface at - x (8) Nylon
' [100] thinned block. without bevels, without axial gaps (4) Water
' (200) thinned block without. bevels, with axial gaps (4) Water plane 10 xpl'"'l origin x=l0. 71083 y=-1.4 8828 z 000 rotate al'-'O a2--0 a3a2Q cuboid 100 10. 71083 0. 19844 1. 48828
-1. 48828 18. 97856
-18.97856 cuboi d 200 10.71083 0. 19844 1.48828
- 1.48828 19. 8247
- 19.8247 media 8 1 -10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 200 uni t 2614 com=-"part 6lr plastic block; Edge: Lid Outer Lower; Axia l Upper!..
' plastic thickness removed*O. 0781 inch -0.19844 cm
' (10) bevel ~urface at - x (8) Nylon
' [1001 thinned block without bevels, without axial gaps (4) water
' [200) thinned block without bevel s, with axial gaps (4) Water plane 10 xplsl origin x..,10. 71083 y*-1. 48828 z~O rotate al-'0 a2aQ a3... 20
~~~i~ i~~ i~: ;i~:; ~:i!:::
1. 48828 1
~~~!:82; 1*i~~~~28 13 ~i!~i:05 13 31436 -------------~
media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 2616 comm "Arcay 2616 Part 61R plastic block ; Lid Out er Lower "
cuboid 10 10. 71083 0.19844 1. 48828
-1. 48828 206. 8116
-206. 8116 array 2616 10 place 1 1 l O O - 192. 3844 boundary 10
' 2 Array 61R Plastic/ Nylon Blocks Array : Lid Oute r Lower Page 15 / 24
uni't 810 coms "aluminum door and rubber at upper edge of assy "
nominal aluminum dims : 0. 25" thk by 7.9" wide by 35. 0" long tolerances : 0. 03 " by 0.1" by 0. 1 "
dimendons modeled : 0. 22" by 7. 8" by 34. 9" MAP12_Base.inp -
MAP12_0_1_. in unit 810 com- "aluminum door and rubber at upper edge of assy" nominal aluminum dims: 0.25" thk by 7. 9" wide by 35. 0 " long tolerances : 0.03" by 0. 1" by 0.1" dimensions modeled: 0. 22 " by 7.8" by 34.9" there is a nominal 0. 25" axial gap, modeled as O 25 + 0. 03(gap tol) +. 1 (half of alum length tol times t wo) there is a nominal 0. 25 " a xial gap, modeled as 0. 25 + 0. 03(gap tol) axial gap modeled as 0. 38 "
axial gap modeled as O. 38 "
[20]
this is a rubber layer, modeled as O 325" of Delrin
( 40]
this is aluminum
[ 60]
gap cuboid 20 9. 906
-9 906 8255 cuboid 40 9. 906
-9 906 3843 cuboid 60 9. 906
-9 906
1. 3843 media 15 l 20 media 13 1 40 -20 media 9 l 60 - 40 boundary 60 unit 820
44. 323
44. 323 44.8056 com- "aluminum door and rubber at upper edge of assy "
there are 4 units 810, unit 820 is at -z end 4
44. 8056 -
179. 2224 total length here i s 207. 01 -
l 79. 2224
27. 7876 a
is final 0. 19" (0. 4826 cm of the len th
-44. 323
-44. 323
-44. 8056 (20]
this is a rubber layer, modeled as 0.325 " of Delrin
{40] this is aluminum (60] gap cuboid 20 9. 906
-9 906 0. 8255 cuboid 40 9. 906
-9 906 1.3843 cuboid 60 9. 906
-9 906 1.3843 media 15 l 20 media 13 l 40 - 20 media 9 1 60 -40 boundary 60 unit 830 com* "same as unit 820 except gap at - z end "
27. 305 27. 305 27. 7876
' [201 this is a rubber layer, modeled as O 325" of Delrin
' {40} thi s is aluminum
' [60] gap cuboid 20
9. 906
-9. 906 0. 8255 cuboid 40 9. 906
-9. 906 1. 3843 cuboid 60 9. 906
-9. 906 1.3843 media 15 1 20 media 13 1 40 -20 media 9 1 60 - 40 boundary 60 unit 840 co:n-"axial 2 array of doors "
cuboid 10 9. 906
- 9. 90 6 1.3843 array 2 10 place 1 1 1 0 0 -207. 01 boundary 10 uni t 860 com* "stcel bar at center of package" cuboid 20 2.159
- 2. 159 1. 778 media 14 1 20 boundary 20
' Fuel As~embly Unit unit 900 com* "fucl assembly, not rotated" 27. 7876 27. 7876 0
27. 7876 0. 4846
o. 4846 0
207. 01 207. 01 207. 01
- 207. 01 cuboid 10 21. 4503 0
21 4503 207. 01
-207 01 array 1 10 place 1 1 1 O. 71501 O. 71501 O cuboid 15 21. 4503
-0 21. 4503
-0 207 01
-207 01 cuboid 20 23. 863
-0. 635 23. 863
-0. 635 207 01
-207 01 hole 840 origin x*ll. 5443 y*21. 4503 hole 840 origin x* 21. 4503 Y'"ll. 5443 rotate a3*- 90 hole 200 origin x*l0.795 y*-0. 3175 z-0 hole 200 origin x* - 0. 3175 y*lO. 795 z*O rotate al*O a2*0 a3*90 media 15 l -10 15 media 9 l - 15 20 Delrin Aluminum Water Delrin aluminum Water Delrin a l uminum Water (15)
(13)
(9)
(15)
(13)
(9)
(15)
(13)
(9)
(20]
this is a rubber layer, modeled as 325" of Delrin (40 ]
this is aluminum (601 gap cuboid 20 9. 906
-9. 906 0. 8255 cuboid 40 9. 906
-9.906 1.3843 cuboid 60 9. 906
-9. 906 1.3843 media 15 1 20 media 13 1 40 -20 media 9 1 60 - 40 boundary 60 unit 820 44. 323 44.323 0
44.8056 com-"alurninum door and rubber at upper edge of assy "
there are 4 units 810, unit 820 is at -z end 4
44.8056 -
179. 2224 total length here is 207. 01 -
179.2224
27. 7876 is fina
.19 "
0. 4826 cm ol th length
-44. 323
-4'. 323
- 44. 8056 (20]
this is a rubber layer, modeled as 0.325 " of Delrin
[40] this is aluminum (60] gap cuboid 20 9. 906
-9.906 0. 8255 cuboid 40 9. 906
-9. 906
. 3843 cuboid 60 9. 906
- 9. 906 3843 media 15 1 20 media 1 3 l 40 - 20 media 9 1 60 -40 boundary 60 unit 830 com.,* eame as unit 820 except gap at - z end*
27. 305 27. 305 27. 7876
' (20) this is a rubber layer, modeled as O 325" of Delrio
' [ 40 ] this is a l uminum
' (60] gap cuboi d 20 9. 906
-9 906 O. 8255 cuboid 40 9. 906
-9 906 1. 3843 cuboid 60 9. 906
-9 906
1. 3843 media 15 1 20 media 13 1 40 -20 media 9 1 60 - 40 boundary 60 unit 840 com*"axial 2 array o f doors "
cuboid 10 9. 906
- 9. 906 1.3843 array 2 10 place 1 1 l O O -207. 01 boundary 10 unit 860 com- "steel bar at center o f package "
cuboid 20 2. 159
- 2. 159 1. 778 media 14 1 20 boundary 20
' Fuel As~embly Unit unit 900 com- "fuel assembly, not rotated" 27 7876 27 78 76 27 7876
0. 4846
0. 4846 0
207. 01
- 207. 01 207. 01
- 207. 01 cuboid 10 21. 4503 O
21 4503 207. 01
-207 01 array 1 10 place 1 1 1 0. 71501 0. 71501 0 cuboid 15 21. 4503
-0 21. 4503
-o 207 01
-207 01 cuboid 20 23. 863
-0. 635 23.863
-0. 635 207 01
-207 01 hole 840 origin x*ll. 5443 y*21. 4503 hole 840 origin x,.,21.4503 y* ll. 54 43 rotale aJ.. - 90 hole 200 origin x*lO. 795 y*-0. 3175 z*O hole 200 origin x*-0. 3175 y*lO. 795 z*O rotate al*O a2*0 a3*90 media 15 1 -10 15 media 9 1 -15 20 Page 16/ 24
+. 1 (half of alum length tol times two)
Delri n (15)
Aluminum
( 13)
Water (9)
Delrin aluminum Water Delrin aluminum Water (15)
(13)
(9)
(15)
(13)
(9)
boundary 20 MAP12_Base inp -
MAP12_0_1_. in boundary 20
Package of two fuel assemblies unit 1000 com* "one package "
bundle c-c spacing is 15. 2 "
diamond is 10. 03 " x 9. 86 " (across outer steel surfaces) diamond diagonal is 14.0649" distance to spacers from diagonal: 8. 10 " (lower) and 8. 62 " (upper) vertical sum is 30. 78 "
distance to outer surface of steel wall is 4. 10* (lower) and 4. 62" (upper) horizontal span across outer steel surfaces : 41. 95 "
model steel as 0. 115" thick base is 21. 5" tall, including spacer height (54. 61 cm) top of base is at y-54. 61 -
20. 574 -
34. 036 cm (2]
inner steel surface hanging central blocks with steel carriers
[ 4 J outer steel surface hanging central blocks with steel carriers (580] inner surface of steel
[590] outer surface of steel (600] package is 44. 98 " wide by 30. 78 " high by 207. 98" long modeled as 42.98" by 28 78 " by 163 (860) top of bar ie 0. 25 " below bottom of steel carrier 14. 7707 -
0.25
~ 2.54 -
0. 7
2.54 = 12 3577
[hole 3001 Steel Base Inner Full
[hole 310} Steel Base Outer Full
[hole 320] Steel Lid Inner Full
[hole 330) Steel Lid Inner Upper
[hole 340] Steel Lid Outer Upper
{hole 350] Steel Lid Outer Lower
[hole 406] Boral Base Inner Full
[hole 416] Boral Base Outer Full
[hole 426] Boral Lid Inner Lower
[hole 436] Baral Lid Inner Upper (hole 4461 Boral Lid Outer Upper
[hole 456] Boral Lid Outer Lower (hole 1166) Plastic Base Inner Full (hole 2166) Plastic Base Inner Full (hole 11661 Plastic Base Outer Full (hole 2166] Plastic Base Outer Ful l
[hole 1556] Plastic Lid Inner Lower (hole 2556) Plastic Lid Inner Lower
{hole 1576] Plastic Lid Inner Upper (hole 2576) Plastic Lid Inner Upper
{hole 1596) Plastic Lid Outer Upper (hole 2596) Plastic Lid Outer Upper
{hole 1598] Plastic Lid Outer Upper Wedge (hole 25981 Plastic Lid Outer Upper Wedge
[hole 1616] Plastic Lid Outer Lowe r
{hole 2616) Plastic Lid Outer Lower cuboid 2
1. 6256
- 1.6256 22. '15 14 9866 cuboid 4
1. 8415
-1.8415 22. 45 14. 7707 we ge
. 4018 0
1. 401 4 4. 2 207. 01
- 207. 01 207. 01
-207. 01 origin x=-1. 4018 Y"' 0. 25 z*- 07. o wedge 8
1. 4018 1. 4018
1. 4018 414. 02 origin x- 0 y* 20. 3255 z- -207. 01 cuboid. lO 401 8
-1. Q 325 l4 86 7. 01
- 207. 01 plane 11 zpl*l origin x==O y*O z... -195. 4197 plane 12 zpl*l origin x-0 y-0 z*-164. 0411 plane 13 zpl*l origin x*O y* O z*-105. 5515 plane 14 zpl*l origin x*O y-0 z*-74. 17587 plane 15 zpl* l origin x:0 y* O Z""-15. 68933 plane 16 zpl*l origin x*O y*O z-15. 68933 p l ane 17 zpl -1 origin x*O y*O z-14. 17587 plane 18 zpl=l origin x=O y- 0 Z""l05 5545 plane 19 zpl-1 origin x*O y*O z-164. 0411 plane 20 zpl ""l origin x*O y*O Z'""l95 4197 plane 31 ypl-1 origin x-0 y*l6,-o cuboid 32
- 17
- 30.5 34. 5 26 207. 01
- 207. 01 rotate al- 0 a2"'0 a3c 20 cuboid 33 30. 5 17 34. 5 26 207. 01
-201. 01 rotate al-0 a2*0 a3*-20 cuboid 34 3. 2
-5 24. 5 0
207. 01
-207. 01 origin x*-1. 828 y*l7.942 cuboid 35 5
-3. 2 24. 5 207. 01
-201. 01 origin x=l. 828 y=l 7. 942 cuboid 36 41
-41 22 16 207. 01
-207. 01 cuboid 580 52 9844
-52. 9844 41. 1615
-10.1981 207. 01
-207. 01 cuboid 590 53 2165
-53. 2165
47. 4596
-10. 414 207. 01
-207. 01 cuboid 600 54 5846
- 54. 5846
47. 4596
- 18.034 207. 01
- 207. 01 hole 860 origin x*O y-12. 3577 z-0 hole 900 origin x-19. 304 y*l. 36501 z-o rotate al*O a2*0 a3*45 hole 900 origin x==-19.304 y* l. 36501 z*O rotate al=O a2=0 a3=45 hole 300 ori gin x*-10. 73161 y*8. 80588
,-o rotate al-0 a2*0 a3*45 z-o rotate z*O rotate al*O a2-0 a a1.. o a2*0 a3
' Package of two fuel assemblies unit 1000 com* "one package "
' bundle c-c spacing is 15. 2" diamond is 10. 03" x 9 86 " (across outer eteel eurfacee) diamond diagonal is 14. 0649" distance to spacers from diagonal: 8. 10" (lower) and 8. 62" (upper) vertical sum is 30.18 "
distance to outer surface of steel wall is 4. 10" (lower) and 4. 62" (upper) horizontal epan across outer steel surfaces : 41. 95 "
model steel as 0.115 " thick base ie 21. 5" tall, including spacer height (54. 61 cm) top of base is at y-54. 61 -
20. 574 -
34.036 cm
[2]
inner steel surface hanging central blocks with steel carriers
14) outer steel surface hanging central blocks with steel carriers
{5801 inner surface of steel
[5901 outer surface of steel
[600 } package is 44. 98 " wide by 30. 18 " high by 207. 98 " long modeled as 42. 98 " by 28.78" by 163
[860 ) top of bar ie 0. 25 " below bottom of steel carrier 14.7707 -
0. 25
2. 54 -
0.7
2.54"" 12 3577
[hole 300] Steel Base Inner Full
[hole 310] Steel Base Outer Full
[hole 320] Steel Lid Inner Full
[hole 330] Steel Lid Inner Upper
[hole 310] Steel Lid Outer Uppe r
[hole 350] Steel Lid Outer Lower
[hole 406] Boral Base Inner Full
{hole 416] Boral Base Outer Full
[hole 426] Baral Lid Inner Lower
[hole 436] Boral Lid Inner Upper
[hole 44 6] Baral Lid Outer Upper (hole 156] Boral Lid Outer Lower
[hole 1166] Plastic Base Inner Full
[hole 2166] Plastic Base Inner Full
{hole 1166] Plastic Base Outer Full
[hol e 2166] Plastic Base Outer Full
[hole 1556] Plastic Lid Inner Lower
[hole 2556) Plastic Lid Inner Lower
{hole 1516] Plastic Lid Inner Upper
{hole 2576] Plastic Lid Inner Upper
[hole 1596] Plastic Lid Out er Upper
[hole 2596] Plastic Lid Outer Upper
[hole 1598] Plastic Lid Outer Upper Wedge
{hole 2598] Plastic Lid Outer Upper Wedge
{hole 1616) Plastic Lid Outer Lower
{hol e 2616} Plastic Lid Outer Lower cuboid 2
1. 6256
- 1. 6256 cuboid 4
1. 8415
-1. 8415 wedge 6 18 207. 01
- 207.01 207. 01
-207.01
. 0 wedge 8 1. 4018 1. 4018 1. 4018 414. 02 cuboi d 10
l. 4018
-1.4018
20. 3255.
4.9866 2 0.01 plane 11 zpl 2 l origin x* O ya.:aO z::aa-195 4197 plane 12 zpl*l origin x-o y-0 z*-164. 0411 plane 13 zpl*l origin x*O y=O z*- 105. 5545 plane 14 zpl*l origin x-o y-0 z*-74.17587 plane 15 zpl*l origin x*O ~,:o z*- 15. 68933 plane 16 zpl*l origin x-0 y-0 z-15, 68933 pl ane 17 zpl*l origin x-o y-0 z*74. 17587 plane 18 zpl=l origin x* O y=O Z""105. 5545 plane 19 zpl*l origin x-o y-o z-164. 0411 plane 20 zpl-1 origin x*O y-0 z-195 1197 plane 31 ypl*l origin x*O y-16 z*O cuboid 32
- 17
- 30 5
34. 5 26 207 01
- 207. 01 rotate cuboid 33 30. 5 17 34. 5 26 207 01
-207. 01 rotate cuboid 34 3. 2
-5 2 4. 5 0
207 01
-207. 01 origi n cuboid 35 5
-3. 2 24. 5 0
207 01
-207. 01 origin cuboid 36 41
-41 22 16 207. 01
-207. 01 cuboid 580 52. 9844
- 52. 9844 47. 1675
- 10. 1981 207. 01
-207. 01 cuboid 590
53. 2765
-53. 2765 47. 4596
-10. 414 207, 01
-207. 01 cuboi d 600 54.5846
-54.584 6 41. 4596
- 18. 034 207. 01
- 201. 01 hole 860 origin x*O y*12. 3577 z-o hole 900 origin x-19. 304 y-1. 36501
,-o rotate al*O a2*0 a3*45 hole 900 origin X'""- 19. 304 y=l. 36501 z*O rotate al*O a2=0 a3.,.45 hole 300 origin x*-10. 73161 y-8. 80588
,-o rotate al*O a2*0 a3*45 18 l'"
origin x*O y* 20. 3255
-207. 01 al-0 a2* 0 a3-20 al-0 a2-0 a3--20 x*-1. 828 y*l7. 942 z-o rotate x=l.828 Y""l7. 942 zaO rotate Page 17 / 24 al*O a2*0 a al""O a2=0 a3
hole 300 ori gin x-10. 73161 hole 310 origin x*-27. 39379 hole 310 origin x::27. 39379 hole 320 origin x=-4. 86824 hole 320 origin x*4. 86824 hole 330 origin x=-15. 05185 hole 330 origin x-15. 05185 hole 340 origin x--23. 67289 hole 340 origin x*23. 67289 hole 350 origin x=- 34. 23368 hole 350 origin x*34. 23368 hole 406 origin x*-11. 31247 hole 406 origin x=ll. 3124 7 hole 416 origin x-- 27. 29553 hole 416 ori gin x=27. 29553 hole 426 ori gin x--4. 85567 hole 426 origin x=4.85567 hole 436 origin x*-15. 2099 hole 436 ori gin x*l5. 2099 hole 446 origin x=-23.87405 hole 446 origin x*23.S7405 hole 456 origin x::-33. 78217 hole 456 origin x-33. 78217 hole 1166 origin x=- 10. 15323 hole 2166 origin x-10. 15323 hole 1166 origin x--28.45477 hole 2166 origin x=28. 454 77 hole 1556 ori gin x--4. 63037 hole 2556 origin x=3. 46294 hole 1576 origin x*-17. 87625 hole 2576 origin x=l 7. 87625 hole 1596 origin x* -20.1918 hole 2596 origin x-20.1918 hole 1598 origin x.:-28. 09172 hole 2598 or i gin x*27. 1102 6 hole 1616 origin x-:-29. 12357 hole 2616 origin x*29. 12357 media 9 1 32 31 media 9 33 31 media 4 32 - 31 media 33 -31 media 34 -4 media 35 4 y=8. 80588 y-8. 32328 y=8. 32328 ya25. 67904 y*25. 67904 y:31. 62397 y-31. 62397 y=30. 89657 y-30.89657 y=24. 21537 y-24. 21537 y-7. 7778 y=7. 7778 y-7. 7778 y=7. 7778 y*26. 03286 y=26. 03286 y-32. 14842 y-32. 14842 y=31.06181 y-31.06181 y=24. 66807 y*24. 66807 y=6. 61856 y-6. 61856 y-6. 61856 y=6. 61856 y-28. 12605 r=26. 95862 y-37. 13325 y.. 37. 13325 y-37. 20396 y-37. 20396 y,,=27. 05787 y-28. 03933 y=28. 13077 y-28. 13077 media 36 34 32 -4 media 4 - 11 31 media 4 4 31 media 10 l 4 - 2 11 - 12 media 8 1 6 11 -12 media 8 e 11 - 12 media 10 11 -12 media 2 8 -10 11 -12 media 4 12 - 13 31 media 4 1 4 12 31 media 10 l 4 - 2 13 - 14 media 8 1 6 13 -14 media 8 e 13 - 1 4 media 8 10 13 -14 media 9 2 8 -10 13 -14 media 9 4 14 - 15 31 media 4 1 4 14 31 media 10 1 4 - 2 15 -16 media 8 1 6 15 -16 media 8 1 8 15 - 16 media 8 10 15 -16 media 9 2 8 -10 15 -16 media 9 1 4 16 -17 31 media 4 l 4 16 31 media 10 l 4 - 2 17 - 18 media 8 1 6 17 -18 media 8 17 -18 media 10 17 -18 media 2 8 -10 17 -18 media 4 18 -19 31 media 4 1 4 18 31 media 10 l 4 - 2 19 - 20 media 8 1 6 19 -20 media 8 1 8 19 -20 media 8 1 10 19 -20 media 9 1 2 8 -10 19 -20 z=O rotate al- 0 a2=0 a3*- 45 z-0 rotate al-0 a2-0 a3--45 z=O rotate al ""O a2=0 a3* 45 z* O rotate al* O a2:0 a3- -45 z-0 rotate al-0 a2*0 a3-45 z*O rotate al=O a2=0 a3* - 45 z-0 rotate al*O a2-0 a3*45 z=O rotate al=O a2=0 a3* 45 z-0 rotate al-0 a2-0 a3*-45 z=O rotate al* O a2=0 a3=20 z-0 rotate al*O a2*0 a3*-20 z-o rotate al*O a2-o a3-45 z*O rotate al -=O a2=0 a3s -45 z-0 rotate al*O a2*0 a3*-45 z*O rotate al -=O a2=0 a3* 45 z-0 rotate al*O a2-0 a3*-45 z=O rotate al.,.180 a2"'0 a3-45 z-0 rotate al*O a2-0 a3*-45 z-0 rotate al*l BO a2-o a3-45 z* O rotate al- 0 a2=0 a3* 45 z-0 rotate al*l80 a2*0 a3*-45 Z""O rotate al""O a2=0 a.3-20 z-0 rotate al*l80 a.2*0 a3*-20 z*O rotate al""O a2=0 a3* 45 z-0 rotate al*O a2*0 a3*-45 z-0 r otate al*O a.2-0 a3*-45 z*O rotate al- 0 a2=0 a3a 45 z-0 rotate al*O a2*0 a3*-45 z*O rotate al=O a2=0 a3=45 z-0 rotate al*O a2*0 a3*-45 z=O rotate al* O a2=0 a3-45 z-0 rotate al*O a2*0 a3-45 z-o r otate al*O a2-0 a3*- 45 z- -207. 01 rotate al=O a2- 0 a3.. 45 z*-207. 01 rotate a l *O a2*0 a3*-45 z=O rotate al=O a2=0 a3-20 z-o rotate al-0 a2*0 a3*-20 MAP12_ Base. i np -
MAP12_0_1_. in hole 300 origin x* lO. 73161 hole 310 origin x*-27. 39379 hole 310 origin x..,27. 39379 hole 320 origin x* -4. 86824 hole 320 origin x*4. 86824 hole 330 origin x.. -15. 05185 hole 330 origin x*15. 05185 hole 340 origin xm-23.67289 hole 340 origin x*23.67289 hole 350 origin x*-34. 23368 hole 350 origin x*34. 23368 hole 406 origin x*-11. 312 47 hole 406 origin x* ll.31247 hole 416 origin x*-27. 29553 hole 416 origin x* 27. 29553 hole 426 origin x*-4. 85567 hole 426 origin x-4. 85567 hole 436 origin x*-15. 2099 hole 436 origin x*lS. 2099 hole 446 origin x* -23. 87405 hole 446 origin x*23. 87405 hole 456 origin x* -33. 78217 hole 456 origin x*33. 78217 hole 1166 origin x=- 10. 15323 hole 2166 origin x*lO. 15323 hole 1166 origin x*-28. 45477 hole 2166 origin x* 28. 45477 hole 1556 origin x*-4. 63037 hole 2 556 origin xs3. 4 62 94 hole 1576 origin x*-17. 87625 hole 2576 origin x'"'l 7. 87625 hole 1596 origin x*-20. 1918 hole 2596 origin x*20.1918 hole 1598 origin x* -28. 09172 hole 2598 origin x*27. 11026 hole 1616 origin x* -29. 12357 hole 2616 origin x*29.12357 media 9 1 32 31 media 9 1 33 31 media 1 32 - 31 media l 33 -31 media 1 34 -4 media 35 4 y-8. 80588 y-8. 32328 1*- 8. 32328 y* 25. 67904 y-25. 67904 y.. 31. 62397 y*31. 62397
}'=30. 89657 y-30. 89657 y* 24. 21537 y-24. 21537 y*7. 7778 y-7. 7778 y-7. 7778 y* 7. 7778 y-26. 03286 y=26. 03286 y*32.14 842 y*32. 14842 y*31. 06181 y*31.06181 y* 24. 66807 y*24. 66807 y=6. 61856 y-6. 61856 y-6.61856 y* 6. 61856 y*28. 12605 y=26. 95862 y*37. 13325 y=37. 13325 y*37. 20396 y*37. 20396 y* 27. 05787 y*28. 03933 y* 28. 13077 y*28. 13077 media 36 34 32 -4 media 4 - 11 31 media 4 l 4 31 media 10 1 4 - 2 11 - 12 media 8 1 6 11 -12 media 8 1 8 11 -12 media 8 1 10 11 -12 media 9 1 2 8 -10 11 - 1 2 media 9 1 4 12 - 13 31 media 4 1 4 12 31 media 10 l 4 - 2 13 - 14 media 8 l 6 13 -14 media 8 1 8 13 -14 media 8 10 13 -14 media 9 2 8 - 10 13 -14 media 9 4 14 - 15 31 media 4 1 4 14 31 media 10 1 4 - 2 15 - 16 media 8 1 6 15 -16 media e 1 8 15 -16 media 8 1 10 15 -16 media 9 1 2 8 -10 15 -16 media 9 4 16 -1 7 31 media 4 4 16 31 media 10 1 4 - 2 17 - 18 media 8 1 6 17 -18 media 8 8 17 -18 media 8 10 17 -18 media 9 2 8 -10 17 -18 media 9 4 18 -19 31 media 4 l 4 18 31 media 10 1 4 - 2 19 - 20 media 8 1 6 19 -20 media 8 1 8 19 -20 media 8 1 10 19 -20 media 9 1 2 8 -10 19 -20 Page 18/ 24 z- 0 rotate z-0 rotate z* O rotat:e z* O rotate z-0 rotat:e z*O rotate z-o rotate z*O rotate z-0 rotate z* O rotate z-o rotate z-0 rotate z*O rotate z-0 rotate z*O rotate z-0 rotate z*O rotate z-0 rotate z-0 rotate z=O rotate z-o rotate z=O rotat:e z-0 rotate z=O rotate z-0 rotat.e z-o r otate z*O rotat.e z-o rotate z=O rotate z-o rotate z=O rotate z-0 rotate z-o r otate za-207. 01 z*-207. 01 z.. o rotate z-o rotate al=O a2m0 a3=- 45 al*O a2*0 a3*-45 al=O a2=0 a3=45 al*O a2* 0 a3*-45 al*O a2*0 a3*45 a l =O a2*0 a3=-45 al*O a2*0 a3*45 al=O a2 ""0 a3=45 al*O a2*0 a3*-45 al=O a2* 0 a3=20 al*O a2*0 a3*-20 al*O a2*0 a3*45 al
O a2- 0 a3--4 5 al*O a2*0 a3*-45 al""O a2* 0 a3=45 al*O a2*0 a3--45 a1=180 a2=0 a3,,.45 al-0 a2*0 a3=--45 al*l80 a2*0 a3*45 al=O a2* 0 a3=45 al-180 a2*0 a3*-45 al=O a2c 0 a3=20 al-180 a2* 0 a3*-20 al=O a2 "'0 a3=45 al-0 a2*0 a3--45 al*O a 2*0 a3--45 al==O a2* 0 a3=45 al*O a 2*0 a3*-45 al=O a2=0 a3=45 al*O a2*0 a3*-45 al=O a2 ::0 a3=45 al*O a2*0 a3-45 al*O a2*0 a3-- 45 rot:ate al* O a2==0 a3a 45 rotate a l *O a2*0 a3*-45 al=O a2""0 a3==20 al*O a2*0 a3*-20
media 9 1 4 20 31 media 4 1 4 20 -31 media 4 1 580 33 35 4 media 11 1 -580 590 media 4 l -590 600 boundary 600
' Single Package of two fuel assemblies flipped unit 1001 com-"single container flipped "
cuboid 600 54.5846
-54. 5846 47 4596
-18.034 207.01
-207. 01 hole 1000 origin x* O y-29. 4256 z*O rot ate al* O a2* 0 a3*180 boundary 600
' 3x6xl Packages of two fuel assemblies flipped global unit 2000 com-"global unit 2000 references a r ray 2000" cu o d l 272. 923
- 54. 5846 374. 9276
-18. 034 array 2000 1 place 1 1 1 0 0 0 cuboid 2 318. 643
-100. 305 374. 9276
-18. 034 media 16 1 2 -1 boundaD' 2 end geometry read array 207. 01 252. 73
- 207. 01
-252. 73
' Aluminum Door Array ara*2 nux*l nuy*l nuz*6 typ*square fill 820 810 810 810 810 830 end fi ll
, -~~~ l Rod Array ara=l nuxa 15 nuy* lS nuz.. l typ,a=squa re fill 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 30 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 end fill Bora! Base Inner Full ara*406 nux*l nuy*l nuz-11 typ*square fill 400 402 402 402 402 402 402 402 MAP12_ Base. i np -
MAP12_ 0_1_. in media 9 1 4 20 31 media 4 l 4 20 -31 Page media 4 1 580 33 35 4 media 11 1 -580 590 media 4 l -590 600 boundary 600
' Single Package of two fuel assemblies flipped unit 1001 com= "eingle container flipped" cuboid 600 54. 5846
-54. 5846 47 4596
-18.034 207. 01
-207. 01 hole 1000 origin x* O ys29. 4256 z*O rotate al* O a2*0 a3*180 boundary 600
' 3x6xl Packages of two fuel assemblies flipped global unit 2000 com**global unit 2000 references array 2000
cuboid 10 545. 846 0
523. 9488 array 2000 10 place 1 1 1 54. 58 4 6 18. 034 cuboid 20 575. 846
-30 553. 9488 media 9 1 -10 20 boundar 20 end geometry read array 0
207. 01
-30 414. 02 444. 02
- 30
' Aluminum Door Array ara*2 nux*l nuy*l nuz*6 t yp*square fill 820 810 810 810 810 830 end fill Fuel Rod Array ara=l nuxalS nuy*l 5 nuz* l typ-square fill 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 30 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 end fill Bora! Base Inner Full ara.*406 nu x*l nuy* l nuz*ll typ*square fill 400 402 402 402 402 402 402 402 19/ 24
402 402 404 end fill
' Boral Base Outer Full ara*416 nux*l nuy*l nuz*ll typ*square fill 410 41 2 412 412 412 412 412 412 41 2 412 414 end fill
' Boral Li d Inner Lower araa426 nux* l nuy* l nuz* ll typ* square fill 420 422 422 422 422 422 422 422 422 422 424 end fill
' _Bora!_ Lid Inner U~r ara*436 nux"'l nuy*l nuz-11 typ*square fill 430 432 432 432 432 432 432 432 432 43 2 434 end fill
' Bora! Li d Outer Upper ara*U6 nux*l nuy*l nuz*ll typ*square fill 440 442 442 442 442 442 442 442 442 442 444 end fill
' Boral Lid Outer Lower MAP12_Base.inp -
MAP12_0_1_.in 402 402 404 end fill
' Bora! Base Outer Full :::;:;::=======================i ara*416 nux*l nuy*l nui.*11 typ*square fill 410 412 412 412 412 412 412 412 412 412 414 end fill
' Bora! Lid Inner Lower ara* 426 nux* l nuy* l nuz* ll typ-square fill 420 422 422 422 422 422 422 422 422 422 424 end fill
Boral Li d Inner Ueper ara* 436 nux* l nuy* l nuz*l l typ*square fill 430 432 432 432 432 432 432 432 432 432 434 end fill Bora! Lid Outer Upper ara*446 nux*l nuy*l nuz*ll typ*square fi ll 440 442 442 442 442 442 44 2 442 442 4'12 444 end fill
' Boral Lid Outer Lower Page 20 /2 4
ara*456 nux*l nuy*l nuz*ll typ=square fill 450 452 452 452 452 452 452 452 452 452 454 end fill
' Plastic Base Inner Full ara*l166 nux*l nuy*l nuz*ll typ*square fill 1160 1162 1162 1162 1162 1162 1162 1162 1162 1162 1164 end fill
Plastic Base Inner Full ara*2166 nux*l nuy*l nuz*ll typ=square fill 2160 2162 2162 2162 2162 2162 2162 2162 2162 2162 2164 end fill HAP12_Base. inp -
MAP12_0_1_. in ara-456 nux*l nuy*l nuz-11 typssquare fill 450 452 452 452 452 452 452 452 452 452 454 end fill
' Plastic Base Inner Full ara*l 166 nux*l nuy*l nuz*l l t.yp*square fill 1160 1162 1162 1162 1162 1162 1162 1162 1162 1162 1164 end fill
Plastic Base loner Full ara*2166 nux*l nuy*l nuz*ll typ..,square fill 2160 2162 2162 2162 2162 2162 2162 2162 2162 2162 2164 end fill
Plast. c Base Outer Full
--~~--------~-~-m--~--~------- ' Plastic Base Outer Full

~

ara*ll76 nux*l nuy*l nuz*ll typ*square fill 1170 1172 1172 1172 1172 1172 1172 1172 1172 1172 1174 end fill
' Plastic Base Outer Full ara*2176 nux*l nuy* l nuz
ll typ=square fill 2170 2172 2172 2172 2172 2172 2172 ara*ll 76 nux*l nuy*l nuz*ll typ*square fill 1170 1172 1172 1172 1172 1172 1172 1172 1172 1172 1174 end fill
' Plastic Base Outer Full ara*2176 nux*l nuy*l nuz*ll typ=square fill 2170 2172 2172 2172 2172 2172 2172 Page 21/24
2172 2172 2172 MAP12_Base inp - MAP12_0_1_.in 2172 2174 end fill
' Plastic Lid Inner Lower

~-

ara*l556 nux*l nuy*l nuz*ll typzsquare fill 1550 1552 1552 1552 1552 1552 1552 1552 1552 1552 1554 end fill
' Plastic Lid Inner Lower ara*2556 nux*l nuy*l nuz*ll typ*square fill 2550 2552 2552 2552 2552 2552 2552 2552 2552 2552 2554 end fi ll

~----------

' Pla.!.tic Base Outer Full ara* 1576 nux-1 nuy--1 nuz arll t yp.. square fill 1570 1572 1572 1572 1572 1572 1572 1572 1572 1572 1574 end fill
'------------------------------------------=====-=-=--=-=--=-=--:...._ ______________ _
' Plastic Base Outer Full ara*2576 nux*l nuy*l nuz*l l typ*square fill 2570 2572 2572 2572 2572 257 2 2572 2572 2572 2572 2574 end fill
' Plastic Lid Outer Upper 2172 2172 21 74 end fill
----------------------------------------=---:.:_;;
---;;::-====-----------,
,., T.\\".4. Tnn.. r f_,....,l'!C ara=1556 nux=l nuy* l nuz*ll typs square fill 1550 1552 1552 1552 1552 1552 1552 1552 1552 1552 1554 end fill I-----------------------------------------------------------------
! Plastic Lid Inner Lower ara-2556 nux*l nuy*l nuz*ll typ*square fill 2550 2552 2552 2552 2552 2552 2552 2552 2552 2552 2554 end fill 1 Plastic Base Outer Full

~-----------------------~

ara.. 1576 nux:1 nuy* l nuz*ll t yp* square fill 1570 1572 1572 1572 1572 1572 1572 1572 1572 1572 1574 end fill
-~~~;~~~-;~;~-~~~~~-;~~~-----------------:,;;-;;,;--;;;,-;;,;-;;;,--;;,;;-;;;,--=-=--=-=-=-=--=--=-=-----------~-------,
ara-i""51 6 nux*l nuy*l nuz-*i i typ*square fill 2570 2572 2572 2572 2572 2572 2572 2572 2572 2572 2574 end fill
' Plastic Lid Outer Upper Page 22 / 24
MAP12_ Base inp -
MAP1 2_0_1_. in
=-===============---
ara* 159 6 nux*l nuy*l nuz*ll typ*squar e fill 1590 1592 1592 1592 1592 1592 1592 1592 1592 1592 1594 end fill uter Upper ara=2596 nux 2 l nuy=l nuz=ll typ-sq uare fill 2 590 2592 2592 2592 2592 2592 2592 2592 2592 2592 2594 end fill
' Plastic Lid Outer 'Lower ara* l616 nux* l nuy=l nuz*l l typ.,squar e fill 1610 1612 161 2 1612 1612 1612 1612 1612 1612 1612 1614 end fill
Plastic Lid Outer !,ower ara*2616 nux* l nuy*l nuz*l l typ*square fill 2610 2612 2612 2612 2612 261 2 2612 2612 2612 2612 261 4 e nd fill
' Facility ___
ara-159 6 nux*l nuy*l nuz*l l t yp*squa r e fil l 1590 1592 1592 1592 1592 1592 1592 1592 1592 1592 1594 e nd f ill
' Plastic Lid Outer Upper araz2596 nux=l nuy=l nu z* ll t yp=squa r e fill 2590 2592 2592 2592 2592 2592 2592 2592 2592 2592 2 594 e nd fill
' Pla~ti.c Li.
Outer Lowe a ra* l 61 6 nux-1 nuy* l nuz* ll t yp* squar e fil l 1610 1612 1612 1612 1612 1612 1612 1612 1612 1612 1614 e nd fill
' Plastic Lid Outer Lower a ra*261 6 nux*l nuy*l nuz*ll t yp*square fi l l 2610 2612 2612 2612 2612 2612 2612 261 2 2612 261 2 2614 end fi ll
' Facility re.*2000 nux*3 nuy*6 nuz*l typ*square gbl* 2000
ara*2000 nux*S nuy*S nuz*l fill fill 5r1001 1001 1001 1001 5rl000 1000 1000 1000 Srl OOl 1001 1001 1001 5rl000 1000 1000 1000 -----------~-------------~---------------' 5rl001----------------~---------------------------.....J Page 23/ 2 4
MAP12_Base. i np -
MAP12_0_1_. in 1001 1001 1001 SrlOOO 1000 1000 1000 end fill 5rl001

SrlOOO end fill e nd array end array r e ad bnds

' read bnds XFC.... periodic XFC,..periodic YFC-periodic YFC-periodic
ZB* h2o
+ZB*h2o
-ZB*conc-4
-ZB*conc-4 end bnd!:
end bods read start nst* l e nd s t art end data e nd
!eof nice -30 scale 44a - o this_ case read start ns t
l end s t a r t end data e nd
!eo f nice - 30 scale44a -o t h i s_ c a s e Page 24/ 24
MAP12_ 0. 05_ 1_. in -
MAP12_ 0_ 1_. in
csas6 parm* size-900000
csas6 parm'""size-900000 MAP12_ Base MAP12_Base v7-238 v7-238 WORM CALCS WORM CALCS
' TOLERANCE "" 0. 05,---~------------------------------------ ' TOLERANCE,.. 0-------------------------------------------
' IM
1
' I M
1 read composition Mehmet Saglam 2/2016 Origina l 15T3-40-5x8xl - 163in-GT-FLl_Door. in from HRR Cale MA.P-12-0600 (see below)
Changes :
runs with scale 4. 4a 44 group library arbmnyl used instead of atomnyl (use 6012 instead of 6000 for carbon-12) water between arrays (mixture 16) set to le-08 Global Array 2000 is set to 3x6xl Update unit 2000 with +45. 72cm bounds on x and z sides (3 ft spacing) periodic boundary condi tion on x and z s i des. Concrete on -y, h2o on +y Internal moderators set to le-20 Travis Smith 5 / 2015 Original lSilc-40581-FLl_Door in f r om 32-9115032-000/-001 converted from SCALE 4. 4a to tDoor In (0.325 " Delrin) tGuide tube cladding 1163 in Active Fuel Length tl5x15 Type 3 Fuel (Adv. Wl5 HTP) Draw i ng 02-9077630-000 Corrections are shown below Origina l 32-9115032-000 and 32-9115032-001 d i d not update l att i ce parameters for new fuel types, had overlaping geometries, and void in fuel gap (not updated in lattice parameters).
These were corrected as follows :
Cor rect i ons due to geometery overl ap in origi na l 4. 4a file :
'l Origi : Unit 200 : cubo 100 10.79500 -10.79500 0.31750 -0.31750 207. 01000 - 207. 01000 Alter : Unit 200 : cuboid 100 10. 795
-10.795 0.3174
-0. 3174 207.01
-207. 01
' 2 Origi : Unit 900 : cubo 20 23. 8633 -0. 635 23. 8633 -0. 63 5 2p207. 01 Alter : Unit 900 : cuboid 20 23.863
-0.635 23.863
- 0. 635 207. 01
-207. 01
' 3 Origi : Units 400, 402, 404, 406,410,412, 414,416, 420, 4.22, 4.24, 426,430,4 32,4 34,4 36, 440, 442,444,446,450,452,454, 456 had +y of 0. 15113 and -y of 0. 1511 3 Alter : Changed +y to O. 1511 and - y to O. 1511
' 4 Origi : Unit 1000, hole 900 origin x=l 9. 304 y* l. 36500 z-=O rotate a3=45 hole 900 origin x*-19.304 y*l.36500 z*O rotate a3*45 Al ter : Changed hole 900 origin ><=19. 304 Y"'l. 36501 Z"'O rotate a3=45 hole 900 origin ><*-19. 30 4 y-1. 36501 z*O rotate a3*45 Corrections to Lattice Parameter :
Original :
squarepitch 1. 442 72 0. 91999 1 3 1.05156 2 0. 93980 0 end more data dab*2000 res*6 slab 0. 3302 res*lO slab 0. 2159 r es*ll slab 0. 2921 res*14 cyli 1. 563 end more read parm tmes l20 gen=lOOO nsk=3 run-yes plt""yes npg.,,.1000 far=yes plt=yes lng=3000000 nb8=1200 end parm Corrections :
latticecell squarepitch fueld=O. 94692 1 gapd"'O. 97028 12 cladd"'l. 08712 2 pitch* l. 44272 3 end more data dab-2000 res*6 slab 0. 3302 res*lO slab 0.2159 res*ll slab 0. 2921 res*l4 cylinder 1 563 end more read parameter gen=l500 npg=lOOO nsk=z-5 ht m.. no far* yes runeyes lng:s3000000 nbB-1200 end parameter (1) U02 100\\ td and 5. 0 w/o (2) Zircaloy (3) Wate r in Assembly Lattice (4) Volume i n Container External to Bundl es (5) Rubber (6) SS Plate, 0. 13"(0.3302 cm) thick (7) Baral, minimum areal density (at min t hk )
0.024 gm B-10/sqcm minimum thickness -
0. 119" -
0. 30226 cm volume density = 0. 02 40/ (0. 30226*0. 18431)
O. 4308 gm nat ural b / cucm we use only 75\\, 0. 75 + 0. 4308
0. 3231 gm natural b/cucm (8) Nylon 66 (9) Water Reflector
' (10) ss Plate, 0. 085 ~ (0. 2159cm) thick read composition Mehmet Saglam 2/2016 Origina l 15T3-40-5x8 xl -163in-GT-FL1J)oor.in from HRR Cale MAP-12-0600 (see below)
Changes :
r uns with scale 4. 4a 44 group library arbmnyl used instead of a t omnyl (use 6012 instead of 6000 for carbon-1 2) water between arrays (mixture 16) set to le-08 Global Array 2000 is set to 3><6xl Update Unit 2000 with +45. 72cm bounds on x and z sides (3 ft spacing) peri odic boundary condition o n x and z s i des. Concrete on -y, h2o on +y Internal moderators set to l e-20 Travis Smith 5/2015 Original lSTlc-40581-FLl_ Door in from 32-9115032-000/-001 converted from SCALE 4. 4a to 6 1Door In (0. 325" Delrin) t Guide tube cladding 1163 in Active Fuel Length tl5x15 Type 3 Fuel (Adv. Wl5 HTP) Drawing 02-9077630-000
l*~"' l*
Correct ions are shown below Original 32-9115032-000 and 32-9115032-001 did not update l attice parameters for new fuel types, had ove r laping geometries, and void in fuel gap (not updated in l attice parameters).
These were corrected as follows :
Correcti ons due to geometery overlap in origina l 4. 4a file :
'l Origi : Unit 200 : cubo 100 10.79500 -10.79500 0.31750 -0 31750 207. 01000 -207. 01000 Alter : Unit 200 : cuboid 100 10. 795
-10. 795 0. 3174
-0. 3174 207. 01
-207. 01
' 2 Origi : Unit 900 : cubo 20 23. 8633 -0. 635 23. 8633 -0. 635 2p207. 01 Alter : Unit 900 : cuboid 20 23. 863
-0. 635 23.863
-0. 635 20 7. 01
-207. 01
' 3 Origi : Units 400,402, 404,406, 410,41 2, 414, 416, 420, 422,4 24, 426, 430, 432,434,436, 440, 442,444,446,4 50,4 52, 454,456 had +y of 0. 15113 and -y of 0. 15113 Alter : Changed +y to O. 1511 and - y to O.1511
'4 Origi : Unit 1000, hole 900 origin x=19. 304 y:sl. 36500 z* O rotate a3* 45 hole 900 origin x*-19. 304 y*l. 36500 z*O rotate a3*45 Alter : Changed hole 900 origin X""l9. 304 y-1. 36501 Z"'O r otate a3=45 hole 900 origin x* - 19, 304 y*l. 36501 z*O rotate a3*45 Corrections to Lattice Paramete r :
Original :
squarepitch 1. 44272 0. 91999 1 3 1. 05156 2 0. 93980 O end more data dab*2000 res*6 slab 0. 3302 res*lO s l ab 0. 2159 res*ll slab 0. 2921 res*l4 cyli 1.563 end more read parm tmeal20 gen=l OOO nsk.. 3 run'"'yes plt* yes npgaa.1000 far=yes plt=yes lng=3000000 nb8* 1200 end parm Corrections :
lat ticecell squarepit ch fueld:3 0. 94692 1 gapd"'0. 97028 12 cladd-1.08712 2 pitch* l. 41272 3 end more data dab-2000 res-6 slab 0.3302 res*lO slab 0. 2159 res*ll slab 0. 2921 res*l4 cylinder 1. 563 end more read pa r amete r gen* l500 npg=lOOO nsk*S htm*no far* yes run* yes lng*3000000 nb8s l200 end parameter (1 ) U02 1001 td and 5.0 w/ o (2) Zircaloy (3 ) Water in Assembly Lattice (4) Volume in Container Exte rnal to Bundl es (5) Rubbe r (6) SS Plate, 0. 13 " (0. 3302 cm) thick (7) Baral, minimum areal density (at min thk )
0. 024 gm B-10/sqcm min imum thickness* 0.11 9" -
0. 30226 cm volume density* 0. 0240/(0. 30226*0. 18431)
0. 4308 gm nat ural b/cucm we use onl y 75\\:, 0 75
0.4308 -
0. 3231 gm natural b/cucm (8) Nylon 66 (9) Water Reflector
' (10) SS Plate, 0. 085 " (0 2159cm ) thick Page 1/ 24
MAP12_0 05_1_. in -
MAP12_0_1_. in
'(11) SS Plate, 0.115" (0. 2921cm) thick
'(12) Water in Gap
' (13) Aluminium for Doors
'(14) SS Bar at Center
' (15) Delrin uo2 1 1 293 zr 1 293 end h2o 1 293 end h2o le-8 293 h2o 1 293 end ss304 1 293 end b
7 den=O. 3231 a t omnyl 8
1.14 4
end 1 293 1 293
'nylon 66 92235 92238 end 6000 7014 8016 1001 end 5
95 6
1 1
11 arbmnyl 1.14 4 0 1 0 6012 6 7014 1 8016 1 h2o 9 1 293 end ss304 10 l 293 end ss304 11 1 293 end h2o 12 1 293 end a l 13 1 293 end ss304 14 1 293 end h
15 0 0. 0574 293 end 0
15 0 0. 0287 293 end 15 0 0. 0287 293 end
' water between arrays FWR not le-08 h2o 16 1 293 end end composition end 1001 11 8 1.0 293 end read celldata latticecell squarepitch fueld=O. 90374 1 gapd=O. 95504 12 cladd=l. 07188 2 pitch=!. 43002 3 end
' squarepitch 1. 43002 O. 90374 l 3 1. 07188 2 O. 95504 O end more data dab* 2000 res-6 slab O. 3302 resa lO s l ab O. 2159 res-11 slab 0. 2921 res 2 14 cylinder 1. 563 end more end celldata read parameter gen=lSOO npg*lOOO nsk=5 htm-no far=yes runa yes
' l ng*3000000 nb8al200 end parameter read geomet ry
' Fuel Assembly Creation for Unit 900 unit 10 com-"wet fuel pin cell "
[10] Fuel Stack U02 (1)
[20] Clad ID Water Gap (3)
[30) Clad OD Zircaloy (2)
( 40) Unit Cell Water (3) cylinder 10
0. 45187 207. 01
-207 01 cylinder 20 0. 47752 207. 01
-207 01 cylinder 30 0.53594 207. 01
-207.01 cuboid '1 0 O. 71501
-0. 71501 O. 71501
-0. 71501 media 1 1 10 media 12 1 20 - 10 media 2 1 30 -20 media 3 1 40 -30 boundary 40 207. 01
-207. 01
'(11) SS Plate, 0.115 " (0. 2921cm) thick
' (12) Water in Gap
' (13) Aluminium for Doors
' (14) SS Bar at Center
'(15) Delrin uo2 1 1 293 zr 1 293 end h2o 1 293 end h2o le-8 293 h2o 1 293 end ss304 1 293 end end b
7 den=O. 3231 1 293 atomnyl 8
1.14 4
1 293
' nylon 66 92235 92238 end 6000 7014 8016 1001 end 5
95 end 1
11 arbmnyl 1. 14 4 0 1 0 6012 6 7014 1 8016 1 1001 11 h2o 9 1 293 end ss304 10 1 293 end ss304 11 1 293 end h2o 12 1 293 end a l 13 1 293 end ss304 14 1 293 end h
15 O 0. 0574 293 end 0
15 0 0. 0287 293 end C
15 0 0. 0287 293 end
' water between arrays FWR not le-08 h2o 16 l 293 end end composition 8 1. 0 293 end read celldata lat t icecell squarepitch fueld=0.90374 1 gapd=0.95504 12 cladd=l. 07188 2 pit ch-1.43002 3 end
'squarepitch 1. 43002 0. 90374 1 3 1.07188 2 0. 95504 0 end more data dab* 2000 res*6 slab O. 3302 res-10 slab O. 21 59 res*ll slab O. 2921 res* l4 cylinder 1. 563 end more end celldata read parameter gen* 1500 npg*lOOO nsk* 5 ht.m*no far=yes run* yes
' l ng*3000000 nb8* 1200 end parameter read geomet ry
' Fuel Assembly Creation for Unit 900 unit 10 com*"wet fuel pin cell "
(10 ] Fuel Stack U02
' ( 20 J Clad ID Water Gap
[ 30 ] Clad OD Zircaloy
[40 ] Unit Cell Water cylinder 10 0. 45187 207. 01 cylinder 20 0.41752 207. 01 cylinder 30 0. 53594 207. 01 cuboid '10 0. 71501
-0 71501 0
media 1 1 10 media 12 l 20 - 10 media 2 1 30 -20 media 3 1 40 -30 boundary 40 Page 2/24 ill (3) 121 (3)
-207. 01
-207. 01
-207. 01 71501
-0. 71501 207. 01
-201. 01
unit 30 com-"Wet Instrument/Guide Tube with cladding "
(10] Clad ID Water (3)
(20] Clad OD Zircaloy (2)
' (30) Unit Cell Water (3) cylinder 10
0. 65151 207. 01
-207. 01 cylinder 20 0. 68834 207.01
-207. 01 cuboid 30
0. 71501
- 0. 71501 0. 71501
- 0. 71501 207. 01
- 207. 01 media 3 1 10 media 2 1 -10 20 media 3 1 -20 30 boundary 30
' Resting Pads for Assembly Unit 900- Assumed to be Water unit 200 com- "Pad Base Inner Full-Water (5) "
cuboid 100 10.795
-10. 795 0. 3174
-0. 3174 207.01
-207. 01 media 5 1 100 boundary 100 unit 210 com-"Pad Base Outer Full-Water (5) "
cuboid 100 10. 795
-10. 795 0. 3175
-0.3175 207. 01
-207.01 media 5 1 100 boundary 100
' Stainless Steel Plates unit 300 com-" Base Inner Full-Steel (6)"
cuboid 100 11.60249
-11. 60249 0. 1651
-0. 1651 207. 01
-207. 01 media 6 1 100 boundary 100 unit 310 co!TF "Base Outer Full-Steel (6)"
cuboid 100 10.91999
-10.91999 0.1651
-0. 1651 207. 01
-207.01 media 6 1 100 boundary 100 unit 320 com-"Lid Inner Lower-Steel (10) "
cuboid 100 6. 2738
-6. 2738 0. 10795
- 0. 10795 207. 01
-207. 01 media 10 1 100 boundary 100 unit 330 com-"Lid Inner Upper-Steel (10) "
cuboid 100 5. 1308
- 5. 1308 0. 10795
- 0. 10795 207. 01
- 207.01 media 10 1 100 boundary 100 unit 340 com= "Lid Outer Upper-Steel (lOJ
cuboid 100 6. 1595
-6. 1595 0. 10795
-0. 10795 207. 01
-207. 01 media 10 1 100 boundary 100 unit 350 com-"Lid Outer Lower-Steel (10) "
cuboid 100 6. 5151
-6. 5151 0. 10795
-0. 10795 207. 01
-207. 01 media 10 1 100 boundary 100
' Baral 406 Array Base Inner Full unit 400 com=
Edge : Ba!:e Inner Full ; Axial Lowerl -
BORAL "
(1001 Bor a! Plate Baral (7)
(2001 Unit Cell Water (4) cuboid 100 9. 525
-9. 525 0.1511
-0. 1511 14. 4272
-14 4272 cuboid 200 9. 525
-9. 525 0. 1511
-0. 1511 15. 0749
-14 4272 MAP12_ 0 05_ 1_. in -
MAP12_0_1_. in unit 30 com* "Wet Instrument/Guide Tube with cladding*
' [10} Clad ID Water (3)
' [20) Clad OD Zircal oy (2 )
' [30) Uni t Cell Water (3) cylinder 10 0. 65151 207 01
-207.01 cylinder 20
0. 68834 207. 01
-207. 01 cuboid 30 0. 71501
- 0. 71501 0. 71501
- 0 71501 207. 01
- 201. 01 media 3 1 10 media 2 1 - 10 20 media 3 1 - 20 30 boundary 30
' Resting Pad s for Assembly Unit 900- Assumed to be Water unit 200 com*"Pad Base Inner Full-Water (5) "
cuboid 100 10. 795
-10. 795 0. 3174
-0. 31 74 207.01
-207. 01 media 5 1 100 boundary 100 uni t 210 com- "Pad Base Outer Full-Water (5) "
cuboid 100 10. 795
-10. 795 0. 3175
-0. 3175 207. 01
-207. 01 medi a 5 1 100 boundary 100
' Stai nless Steel Plates unit 300 com- "Base Inner Full-Steel (6)"
cuboid 100 11 60249
-11. 60249 0. 1651
-0. 1651 207. 01
-207. 01 media 6 1 100 boundary 100 uni t 310 com-"Base Outer Full-Steel (6) "
cubo i d 100 10 91999
- 10. 91999 0.1651
-0.1651 207. 01
- 207. 01 media 6 1 100 boundary 100 unit 320 com*" Lid Inner Lower-Steel (10) "
cuboid 100 6. 2138
-6. 2738 0. 10795
-0. 10795 207. 01
-207. 01 media 10 1 100 boundary 100 unit 330 com- "Lid Inner Upper - Steel (10) "
cuboid 100 5. 1308
- 5. 1308 0. 10795
- 0. 10795 207. 01
- 207. 01 media 10 l 100 boundary 100 unit 340 com- "Lid Outer Upper-Steel (10).
cuboid 100 6. 1595
-6. 1595 0. 10795
-0. 10795 207. 01
-201. 01 me dia 10 l 100 boundary 100 unit 350 com-" Lid Outer Lower-Steel (10) "
cuboid 100 6. 5151
-6. 5151 0. 10795
-0. 10795 207. 01
-207. 01 media 10 l 100 boundary 100
' Baral 406 Array Base Inner Full unit 400 com"' "Edge : Ba!:e Inner Full ; Axial Lowerl -
BORAL" (1001 Bar al Plate Baral (7)
' (200] Unit Cell Water (4) cuboid 100 9. 525
-9. 525 0. 1511
-0. 1511 14. 4272
-14 4272 cubo i d 200 9. 525
-9. 525 0. 1511
-0. 1511 15.0749
-14. 4272 Page 3/24
media 7 1 100 media 4 l -100 200 boundary 200 unit 402 com* "Edge : Baze Inner Full; Axial Main9-BORAL" (100] Bora! Plate Doral (7)
' [200] Unit Cell Water (4) cuboid 100 9. 525
-9. 525 0.1511
-0. 1511 cuboid 200 9.525
-9.525 0.1511
- 0. 1511 media 7 l 100 media 4 l -100 200 boundary 200 unit 404 com-"Edge: Base Inner Full ; Axial Upperl-Doral"
' [100 ) Boral Plate Boral (7)
' [200) Unit Cell Water (4) 19. 177
19. 8247
-19.177
- 19.8247 cuboid 100 9.525
-9. 525 0.1511
-0. 1511 13. 5128
-13. 5128 cuboid 200 9.525
-9. 525 0.1511
-0.1511 13.5128
-14. 1605 media 7 1 100 media 4 1 -100 200 boundary 200 unit: 406 com* " Edge : Base Inner Full; Axial Array-Baral"
[101 Bora! Plate Array I
400. 402. 402.4 02. 402.402.402.402.402 402. 404 (4) (7) (4)... (4) (7) (4)x9.
. (4) (7) (4) main upper lower cuboid 10 array 406 10 boundary 10
9. 525
- 9 525 0. 1511
-0 1511 207. 01
- 207. 01 place 1 1 1 O O -192. 5828
' Bora! 416 Array Base Outer Ful l unit 410 com* "Edge : Base Outer Full; Axial Lowerl - Bora!"
[100] Boral Plate Boral (7)
' [200] Unit Cell Water (4) cuboid 100 9. 525
-9. 525 O. 1511
-0.1511
14. 4272
-14. 4272 cuboid 200 9. 525
-9. 525 0. 1511
-0.1511 15 0749
-14. 4272 media 7 l 100 media 4 1 -100 200 boundary 200 unit 412 com*"Edge: Baze Outer Full ; Axial Main9-Boral "
' [100) Baral Plate Doral (7)
' (200) Unit Cell Water (4) cuboid 100 9.525
-9. 525 0. 1511
-0. 1511 19. 177
-19. 177 cuboid 200 9. 525
- 9. 525 0.1 511
-0. 1511 19. 8247
- 19 8247 media 7 l 100 media 4 1 -100 200 boundary 200 unit 414 com-"Edge: Base outer
' (100] Baral Plate
' (200) Unit Cell cuboid 100 9. 525 cuboid 200
9. 525 media 7 1 100 media 4 1 -100 200 boundary 200 unit 416 Full; Axial Upperl-Boral" Bora!
(7)
Water (4)
-9. 525 0. 1511
-0. 1511 13. 5128
-9. 525 0. 1511
-0. 511 13. 5128 com* "Edge : Base Outer Full ; Axial Array-Bora!"
[1 0] Boral Plate Array I 410.412.412, 412,4 12, 412.4 12. 412. 412 412.4 14
' (4) (7) (1)... (4) (7) (4)x9... (4) (7) (4) main upper
-13. 5128
-14. 1605 lower cuboid 10 array 416 10 boundary 10 9. 525
-9. 52 5 0. 1511
- 0. 1511 207. 01
- 207. 01 place 1 1 1 0 O -192. 5828 MAP12_ 0. 05_1_. in -
MAP12_0_1_. in media 7 l 100 media 4 1 -100 200 boundary 200 uni t 402 com* "Edge : Baze I nner
' [100] Baral Plat.e
' [200 ) Unit Cell cuboid 100 9. 525 cuboid 200 9. 525 media 7 l 100 media 4 l -100 200 boundary 200 unit 404 Full; Axial Main9-BORAL "
Bora!
(7)
Water (4)
-9. 525 0. 1511
-0 1511
- 9. 525 0.1511
- 0 1511 com*"Edge: Base Inner Full ; Axial Upper!- Boral"
' {100] Bora! Plate Boral (7)
' {200] Unit Cell Water (4) 19. 177 19. 8247
-19 177
-19 8247 cuboid 100 9.525
-9.525 0. 1511
-0.1511 13.5128
-13.5128 cuboid 200 9.525
-9. 525 0. 1511
-0. 1511 13. 5128
-14.1605 media 7 1 100 media 4 l -100 200 boundary 200 unit 406 com* "Edge : Base I nner Full ; Axial Array-Boral "
' [10) Boral Plate Array
'4 00. 402. 402. 402.402.402.402.402. 402 402. 404 (4) (?) (4)... (4) (7) (4)x9... (4) (7) (4) lower main upper cuboid 10 9. 525
- 9. 525 0. 1511
- 0 1511 207. 01
- 207. 01 array 406 10 place 1 1 l O O -192. 5828 boundary 10
' Baral 416 Array Base Out.er Ful l unit 410 com* "Edge : Base Outer
' {lOOJ eoral Plate
' [200) Unit Cell cuboid 100
9. 525 cuboid 200 9. 525 media 7 1 100 media 4 1 -100 200 boundary 200 unit 41 2 Full ; Axial Lowerl-Baral" Boral (7)
Water (4)
-9.525 0.1511
-0 1511 14. 4272
-9.525 0.1511
-0 1511 15. 0749 com* "Edge : Baze Outer Full; Axial Main9-Baral "
' [1001 Boral Plate Boral (7)
' [200 ] Unit Cell Water (4)
-14. 4272
-14. 4272 cuboid 100 9.525
-9. 525 0.1511
-0. 1511 19. 177
-19.177 c uboid 200 9. 525
- 9.525 0.1511
-0. 1511 19.8247
- 19 8247 media 7 1 100 media 4 1 -100 200 boundary 200 unit 114 com*"Edgc: Base Outer
[100) Bora! Plate
' [200 1 Unit Cell cuboid 100 9. 525 cuboid 200 9. 525 media 7 1 100 media 4 1 -100 200 boundary 200 unit 416 Full; Axial Upperl-Boral" Baral (7) water (4)
-9. 525 0.1511
-0. 1511 13. 5128
-9. 525 0. 1511 -o. 1511
13. 5128 com*"Edge : Base Outer Full; Axial Array-Boral "
' [101 Boral Plate Array I 410,41 2.412, 412,412 o 412.412
412
41 2
412
414
' (4) (7) (1)... (4) (7) (4)x9... (4) (7) (4) ma in upper
-13. 5128
-14. 1605 l ower cuboid 10 array 416 10 boundary 10 9.525
- 9 525 0.1511
- 0.1511 207. 01
- 207. 01 place 1 1 1 O O -192. 5828 Page 4/24
' Boral 426 Array Lid I nner Lower unit 420 com* "Edge : Lid Inner
[lOOJ Boral Plate
' [200] Unit Cell Lower ; Axial Lower!- Bora! "
Boral (7) water (4 )
cuboid 100 6. 0325
- 6. 0325 0. 1511 -o 1511 14. 4272 cuboid 200
6. 0325
-6. 0325 0. 1511
-0. 1511 15.0749 media 7 1 100 media 4 1 - 100 200 boundary 200 unit. 422 com-" Edge : Lid Inner
' (1001 Bar al Place
' [200) Unit Cell cuboid 100
6. 0325 cuboid 200 6. 0325 media 1 1 100 media 4 1 -100 200 boundary 200 unit 424 com*"Edge : Lid Inner
' [100) Baral Plate
[2001 Unit Cell Lower ; Axial Main9-Baral
Bora!
(7)
Water (4)
-6. 0325 0. 1511
-0. 1511
-6. 0325 0. 1511
-0. 1511 Lower ; Axial Upper!- Boral" Boral (7)
Water (4) 19. 177 19. 8247 cuboid 100 6. 0325
-6. 0325 0. 1511
-0. 1511 13 5128 cuboid 200
6. 0325 media 7 l 100 media 4 1 -100 200 boundary 200 unit. 426
-6.0325 0. 1511
-0. 1511 13 5128 com* "Edge : Lid Inner Lower ; Axial Array-Boral"
' 420. 422. 422. 422. 422. 422. 422. 422. 422. 422. 424 141 (71141... (41 (71 (41x9... (41 (71 (41 lower main upper
-14. 4272
-14. 4272
-19.177
-19. 8247
-13. 5128
-14.1605 cuboid 10
6. 0325
-6. 0325 0. 1511
-0 1511 array 426 10 place l l 1 0 0 - 192. 5828 boundary 10 207. 01
-207. 01
' Boral 436 Array Lid Inner Upper uni t. 430 com= "Edge : Lid Inner (1001 Boral Plate
[200) Unit Cell Upper ; Axial Lowerl-Boral "
Boral
('7)
Water (4) cuboid 100 4. 953
-4. 953 0. 1511
-0. 1511 14. 4272 cuboid 200 4. 953
- 4. 953 0. 1511
- 0. 1511 15 07 49 media 7 1 100 media 4 l - 100 200 boundary 200 unit 432 com* "Edge : Lid Inner
[100) Boral Plate (2001 Uni t Cell cuboid 100 4. 953 cuboid 200
4. 953 media 7 1 100 media 4 1 -100 200 boundary 200 unit 434 Upper ; Axial Main9-Boral" Boral
('7)
Water (4)
- 4. 953 0. 1511
- 0 1511
-4. 953
0. 1511
-0 1511 com""" Edge : Lid Inner Upper; Axial Upper! - BoraP (1001 Baral Plate Bora!
('7)
[200] Unit Cell Water (4) 19. 177
19. 8247
-14. 4272
- 14. 4272
- 19.177
-19. 8247 cuboid 100
4. 953
-4. 953 0. 1511
-0 1511 13. 5128
-13. 5128 cuboid 200 4. 953
-4. 953 0. 1511
-0 1511 13. 5128
-1 4. 1605 media 7 1 100 media 4 1 -100 200 boundary 200 unit. 436 com= "Edge : Lid Inner Upper ; Axial Array-Boral *
' 430. 432. 432. 432. 432. 432. 432. 432. 432.432. 434 MAP12_ 0. 05_l_. in -
MAP12_0_ 1_. in
' Boral 426 Array Lid Inner Lower uni t 420 com* "Edge : Lid Inner Lower ; Axial Lower!- Boral "
' ( 100] Bor al Plate Boral (7)
' [200] Unit Cell Water (4 )
c uboid 100 6. 0325
- 6. 0325 0. 1511
- 0. 1511 11\\ 4272 cuboid 200 6. 0325
-6. 0325 0. 1511
-0. 1511 15 0749 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 422 com=
Edge : Lid Inne r Lower ; Axial Main9-Boral"
' [100] Bor al Plate Doral (7)
' (200] Unit Cell Water f4) cuboid 100 6. 0325
-6. 0325 0. 1511
-0 1511 cuboid 200 6.0325
-6. 0325 0. 1511 -o 1511 media 7 1 100 media 4 1 -100 200 boundary 200 unit 42 4 com*" Edge : Lid Inne r Lower; Axial Upperl-Boral "
' [100) Bora l Plate Bord (7)
[200 ) Unit Cell Water (4) 19. 177 19. 8247 cuboid 100 6. 0325
-6. 0325 0. 1511
-0 1511 13 5128 cuboid 200 6. 0325
-6, 0325 0, 1511
-0 1511 13. 5128 media 7 l 100 media 4 1 - 100 200 boundary 200 unit 426 com*"Edge : Lid Inner Lower; Axial Array-Bara l "
' 420. 422. 422. 422. 422. 422. 422.422. 422. 422. 424
' 1411711 41... 141 Pl 141x9... 141171141 main upper
- 14. 4272
-14. 4272
-19.177
-19.8247
-13 5128
-11\\. 1605 lower cuboid 10 6. 0325
-6.0325 0.1511
-0. 1511 array 426 10 p l ace 1 1 1 0 0 - 192.5828 boundary 10 207. 01
-20 7. 01
' Baral 436 Array Lid Inner Upper uni t 430 com:: "Edge : Lid Inner Upper ; Axial Lower!- Boral "
' [100] Boral Plate Baral (7)
' [200] Unit Cell Water (4) cuboid 100 4. 953
-4. 953 0.1511
-0.1511 14 4272 cuboid 200 4. 953
- 4. 953 0. 1511
- 0.1511 15 0749 me dia 7 1 100 media 4 1 -100 200 boundary 200 unit 432 com* "Edge : Lid Inner Upper ; Axial Main9-BoraP
' (100) Boral Plate Bora!
(7)
' {200] Unit Cell Water (4) cuboid 100 4. 953
- 4. 953 O. 1511
- 0 1511 cuboid 200 4. 953
-4. 953 0.1511
-0 1511 media 7 1 100 media 4 1 -100 200 boundary 200 unit 434 com,,.
Edge : Lid Inner Upper ; Axial Upper!-
Boral"
[1001 Bara l Plate Baral (7 )
' [200] Unit Cell Water (4) 19. 177 19. 8247
-14. 4272
- 14. 4272
- 19. 177
-19. 8247 cuboid 100 4. 953
-4. 953 0.1511
-0. 1511 13 5128
-13 5128 cuboid 200 4. 953
-4. 953 0. 1511
-0.1511 13 5128
-14. 1605 med i a 7 1 100 medi a 4 1 -100 200 boundary 200 unit 436 com=
Edge : Lid Inner Upper ; Axial Array-Baral "
' 430 432. 432.432. 432.432. 432. 432. 432. 432. 434 Page 5/24
(4) ("7) (4)... (4) (7) (4)x9... (4) (7) (4) main upper lower cuboid 10 array 436 10 boundary 10 4. 953
- 4. 953 0. 1511
- 0.1511 207. 01
- 207. 01 place 1 1 1 0 0 -192. 5828
'Boral 446 Array Lid Outer Upper unit 440 com* "Edge: Lid Outer Upper ; Axial Lower)- Bora1*
( lOOJ Bora! Plate Boral (7)
(2001 Unit Cell Water (4) cuboid 100
6. 0325
-6. 0325 O. 1511
-0. 1511
14. 4272
-1'1. 4272 cuboid 200 6. 0325
-6. 0325 0.1511
-0. 1511 15.07 49
-14.4 272 media 7 l 100 media 4 l -100 200 boundary 200 unit 442 com* "Edge: Lid Outer Upper; Axial Main9-Bora!"
(100] Boral Plate Boral (7)
' [200) Unit Cell Water (4) cuboid 100 6.0325
-6.0325 0. 1511
-0.1511 19.177
-19.17 7 cuboid 200 6. 0325
-6. 0325 0. 1511
-0. 1511 19. 8247
-19 8247 media 7 1 100 media 4 1 -100 200 boundary 200 unit 444 com* "Edgc: Lid Out.er Upper ; Axial Upperl-Boral"
' [100 ] Boral Plat.e Boral (7)
(200) Unit Cell Water (4) cuboid 100 6.0325
-6. 0325 0. 1511
-0. 1511 13.5128
-13 5128 cuboid 200 6.0325
-6.0325 0.1511
-0. 1511 13.5128
-H.1605 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 446 com* "Edge : Lid Out.er Upper ; Axial Array-Boral" I 440
442,442. 442. 442. 442
442.442
142.442
444 (4) (7) (4)... (4) (7) (4) x9... (4) (7) (4) lower main upper cuboid 10 6. 0325
-6. 0325 0.1511
-0. 1511 207. 01
-207. 01 array 446 10 place 1 1 1 O O -1 92. 5828 boundary 10
' Boral 456 Array Lid Outer Lower unit 450 com- "Edgc : Lid Outer
[1 00) Boral Plate
[200) Unit Cell Lower ; Axial Lowerl-Boral" Boral (7)
Water (4) cuboid 100 5. 8801
-5. 8801 0. 1511
-0 1511
14. 4272 cuboid 200 5. 8801
- 5.8801 0.1511
- 0 1511 15.0719 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 452 com* "Edge : Lid Outer Lower ; Axial Main9-Bora!"
[1001 Bora! Plate Boral (7)
(2001 Unit Cell water (4) cuboid 100
5. 8801
- 5. 8801
0. 1511
- 0. 1511 cuboid 200 5. 8801
-5. 8801 O. 1511
-0. 1511 media 7 1 100 media 4 1 -100 200 boundary 200 unit 454 com.. "Edge : Lid Outer
' {100] Boral Plate
' {200) Unit Cell Lower ; Axial Upperl -
Boral "
Bora!
(7)
Water (4) 19.177 19. 8247 cuboid 100 5. 8801
-5. 8801 0. 1511
-0. 1511 13. 5128 cuboid 200
5. 8801
-5.8801 0. 1511
-0. 1511 13.51 28
-14.4272
- 1'1. 4272
- 19 177
-19 8247
-13. 5128
-14. 1605 MAP12_ 0. 05_1_. in -
MAP12_0_1_. in (4) (7) (4)... (4) (7) (4)x9... (4) (7) (4) main upper lower cuboid 10 array 436 10 boundary 10 4.953
- 4.953 0.1511
-0.1511 207. 01
- 207. 01 place 1 1 1 0 0 -192. 5828
' Boral 446 Array Lid Outer Upper unit 440 com* "Edge : Lid Outer Upper ; Axial Lower!- Boral "
(1001 Boral Plate Boral (7)
' (200] Unit Cell Water (4) cuboid 100 6. 0325
-6. 0325 0.1511
-0 1511
14. 4272
-14. 4272 cuboid 200 6.0325
-6. 0325 0. 1511
-0. 1511 15. 0?49
-14.4272 media 7 1 100 media 4 1 -100 200 boundary 200 unit 442 comc"Edge: Lid Outer Upper; Axial Main9-Bora l "
(100] Boral Plate Boral (7)
[200) Unit Cell Water (4) cuboid 100 6.0325
-6. 0325 0. 1511
-0 1511 19. 177
-19. 177 cuboid 200 6.0325
-6. 0325 0. 1511
-0 1511 19. 8247
-19. 8247 media 7 1 100 media 4 1 -100 200 boundary 200 unit 444 com**Edgc: Lid Outer Upper; Axial Upper!- Boral" (100] Boral Plate Bora!
(7)
(200] Unit Cell Water (4) cuboid 100 6.0325
-6.0325 0.1 511
-0.1511 13.51 28
-13. 5128 cuboid 200 6. 0325
-6.0325 0. 1511
-0. 1511 13.5128
-14. 1605 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 446 com*"Edge : Lid Outer Upper ; Axial Array-Bora l "
' 440. 442. 442. 442. 442. 442.442. 442.442.442. 444 (4) (7) (4)... (4) (7) (4)x9... (4) (7) (4) lower main cuboid 10 6. 0325
-6.0325 upper 0. 1511
-0.1511 207. 01
-207. 01 array 446 10 boundary 10 p l ace 1 1 1 O O - 192. 5828
' Boral 456 Array Lid Outer Lower unit 450 com* "Edge : Lid Outer
( 100) Boral Plate
[2001 Unit Cell cuboid 100
5. 8801 cuboid 200
5. 8801 media 7 1 100 media 4 1 - 100 200 boundary 200 unit 452 com*"Edge: Lid Outer
[100] Boral Plate (200] Unit Cell cuboid 100
5. 8801 cuboid 200 5. 8801 media 7 1 100 media 4 1 -100 200 boundary 200 unit 454 com* "Edge: Lid Outer
' {1001 Boral Plate
[2 00] Unit Cell cuboid 100 5. 8801 cuboid 200
5. 8801 Page 6/24 Lower ; Axial Lower!- Bora! "
Boral (7)
Water (4)
-5. 8801 0.1511
-0.1511 14. 4272
- 5.8801 0.1 511
- 0.1511 15 0749 Lower ; Axial Main9-Boral "
Boral (7)
Water (4)
- 5. 8801 0.1511
- 0.1511
-5. 8801 0.1511
-0.1511 Lower; Axial Upper! -
Bora!"
Boral (7)
Water (4) 19.177 19. 8247
-5. 8801 0. 1511
-0.1511 13 5128
-5. 8801 0. 1511
-0. 1511 13 5128
-14. 4272
- 14. 4272
- 19.177
-19. 8247
-13.5128
-14. 1605
..,~
media 7 l 100 media 4 l -100 200 bounda r y 200 unit 456 com- " Edge : Lid Outer Lower ; Axial Ar ray-Boral "
' 450. 452. 452. 452. 452. 452. 452. 452. 452. 452. 454 (4) (7) ( '1).. * ( 4 ) (7) (,1) x9... (4) (7) (4) lower mai n upper cuboid 10 5. 8801
-5. 8801 0.1511
- 0. 1511 207. 01
- 207. 01 array 456 10 place 1 1 1 0 0 - 192.5828 boundary 10
' 1166 Plastic / Nylon Blocks Array : Base Inner Full unit 1160 com- "part 16 plastic block ; Edge : Base Inner Full; Axial Lower !
plastic thickness removed*0. 0781 i nch *0. 19844 cm
' bevel surface ar. - x [10), +x {20]
' [100] thinned block without. bevels,
' [2001 thinned block without bevels,
without axial gaps with axial gaps plane 10 xpl*l origin x*-9. 294 37 plane 20 xpl*l origin x=9. 19437 cuboid 100 9. 24<.37
-9. 24437
).. 48828 cuboid 200 9. 24437
- 9. 244 37 1.4 8828 media 8 l 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 bounda r y 200 unit: 1162 y*l. 48828 z*O y*l. 48828 z*O
-1. 48828 14. 17876
-1. 48828 15. 07 49 (8) Nylon (4) Water (4) Water rotate a l
O a2*0 a3*45 rotate al*O a2*0 a3* 45
-14. 17876
-14. 4272 coma "pa r t 16 plastic block ; Edge : Base Inne r rull ; Axial Main9 "
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' bevel surface at -x [10), t-x {20]
' (100] thinned block without. bevels, without. axial gaps
' (200] thinned block without bevels, with axial gaps plane 10 xp *1 origin x* -9. 19437 y*l.48828 z*O plane 20 xpl*l origin x* 9. 19437 y*l. 48828 z*O cuboid 100 9.24437
-9. 24437 1.48828
-1.48828 18.92856 cuboid 200 9.24437
-9. 24437 1.48828
-1.48828 19. 8247 media 8 1 10 -20 100 media 4 1 -10 100 media 4 l 20 100 media 4 1 -100 200 boundary 200 unit 1164 (8) Nylon (4) Water 1!~t=~~e-\\~.--2~- ~ a3*45 rotate al*O a2*0 a3* 45
-1 8. 92856
-19. 8247 coma"part 16 plast i c block ; Edge: Base Inner Full ; Axial Upper!*
' pla stic thickness removed*O. 078 1 inch *O. 19844 cm
' beve l surface at - x [1 0], +x [20]
(8) Ny l on
(100] thinned block without. bevels, wit hout axial gaps (4) Water MAP12_ 0. 05_ 1_. in -
MAP12_ 0_1_. in media 7 l 100 media 4 1 - 100 200 boundary 200 unit 456 com*"Edge: Lid Outer Lower ; Axial Array-Bor a! "
' 450. 452. 452. 452. 452. 452. 452. 452.452. 452. 454
( *I) ( 7) (4)... (4) (7) (4) x9... ( '1) (7) (4) lower main upper c uboid 10 5. 8801
- 5. 8801 0.1511
- o. 1511 207. 01
-207. 01 a rray 456 10 place 1 1 1 0 0 -192. 5828 boundary 10
' 1166 Plastic/ Nylon Blocks Array : Base Inner Full unit 1160 com-"part 16 plastic block ; Edge : Base Inne r Full; Axial Lowerl "
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' bevel surface at - x [10), +x [20)
' [100) thinned block without beve ls, without axial gaps
' Pi!~~ J 1~hi ~;1~1 bl o~~i;i~ho~=-~~;:!;; with ax!!!. ~=l~a z*O plane 20 xpl*l orlgin xs 9. 24437 Y"'l. 48828 Z'""O
.cuboid 100 9. 24437
-9. 244 48 28
-1. 48828
14. 22876 cuboid 200 9. 24437
-9. 2443 7 1. 48828
-1.48828 15. 07 49 media 8 1 10 -20 100 med ia 4 1 - 10 100 media 4 l 20 100 media 4 1 - 100 200 boundary 200 unit 1162 (8) Nylon (4) Water (4) Water rotate al*O a2*0 a3*45 rotate alaO a2"'0 a3,.,.- 45
-14. 22876, ________________
_J
-14. 4272 com*"part 16 plastic block ; Edge : Base I nner Full ; Axial Main9 "
' plastic thick ness removed*O. 0781 inch *O. 19844 cm
' bevel surface at - x l 10 I, +x (20]
' [100} thinned block without bevels, without axial gaps
' [200] thinned block without beve ls, with axial aps pl ane 10 xpl*l origin x* -9.24437 y*. 48828 z*O plane 20 xpl*l origin x*9.24437 y*l.48828 z*O cuboid 100 9. 24431
-9. 24431 l 48828
-1.48828 18.97856 cuboid 200 9. 24437
- 9. 24437 1.48828
-1.48828 19.8247 media 8 1 10 -20 100 media 4 1 -10 100 media 4 l 20 100 media 4 1 -100 200 bounda ry 200 unit 1164 (8) Nylon (4) Water (4) Water rotate al*O a2*0 a3*45 rotate al*O a2*0 a3** 45
-18. 97856
-19.8247 coma
part 16 plastic block ; Edge : Base Inne r Full ; Axial Upperl "
' plastic t hickness removed*O. 078 1 inch *O.1 9844 cm
' bevel sur f a ce at - x [10), +x [20}
(8) Nyl on
' (100] t hinned block without bevels, without axial gaps (4) Wa t e r
, pi=~~ l l~hi~~1~1 blo~~i;!~ho~=-~~;;!; :, wit:h ax! : !.1:~;8 z.. o 1;~t::;=;*..
r.... a-1=-0~ a2--o aJ.. 45~--~--------~ ' [200 ) thinned block without beve ls, with a xial g!_Ps (4) Water plane 10 xpl-1 origin X"'-9.24437 y-1.48828 zcO rotate al=O a2:a.O a3... 45 pl ane 20 xpl *l origin x*9. 19437 y* l. 48828 z*O rotate al*O a2*0 a3*-45 cuboid 100 9.24437
-9.2443 1 48828
-1.48828 13.264 36
-13.26436 cuboid 200 9. 24437
-9. 24 437
1. 48828
-1. 48828 13. 5128
- 14. 1605 media 8 1 10 - 20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 1166 coms "Base Inner Full Plastic Array 1166" cuboid 10 9. 24437
-9. 24 437 1.48828
- 1. 48828 206. 8116
-206. 8116 array 1166 10 place 1 l 1 0 0 - 192.38H boundary 10
' 2166 Plastic / Nylon Blocks Array : Base Inner Full unit 2160 com* "pa r t 16 plast i c block (right) ; Edge : Base I nner Full; Axial Lowe r!"
plast:ic thickness removed*O. 0781 inch *O. 19844 cm bevel surface at - x [ l OJ, +x [ 20]
(8) Nylon
' [100] thinned block without. bevels, without axial gaps (4) Water pl ane 20 xpl*l origin x*9. 24437 y*l. 48828 z*O rotate al*O a2*0 a3*-45
~~:!~ ;~~ ::~:g~ :::~:!~~ i:!~:~0 :1::::~: i~:~i!:
6
-14. 160; 13 31436 media 8 l 10 - 20 100 media 4 1 -10 100 media 4 l 20 100 media 4 1 -100 200 boundary 200 unit 1166 com* *ease I n ne r Full Plastic Array 1166" cuboid 10 9. 24437
-9. 24437
1. 48828
- 1. 48828 206. 8116
-206. 8116 array 1166 10 place l 1 1 0 0 -192.3844 boundary 10
' 2166 Plastic / Nylon Blocks Array : Base Inner Full unit 2160 com* "part 16 plastic b l ock (right ) ; Edge : Base Inner Full; Axial Lower! "
' plastic t hickness removed*O. 078 1 inch *O. 19844 cm
' bevel s urface at - x {10 1, +x [ 20)
(8) Ny l on
' [100] thinned block without bevels, without axial gaps (4) Water Page 7/24
MAP12_ 0 05_1_. in -
MAP12_ 0_ 1_. in
' [200) thinned block without bevels, with axial gaps plane 10 xpl-1 origin x--9. 19437 y,..1.48828 z*O plane 20 xpl*l origin x=9. 19437 y-1.48828 z=O cuboid 00
.9 4 J7
-9 244 7 1.48828
-1.48828 14. 17876 cuboid 200 9.24437
-9. 24437 1.48828
-1.48828 15. 07 49 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2162 (4) Water rotate a
a *O a3*4 rotate al.. O a2*0 a3,,.-45
-14. 178 76
-14. 4272
' [200] thinned block wit hout bevels, with axi al ga s plane 1 xp *1 or g n x*-9.24437 y*l.48828 z*O plane 20 xpl*l origin X""9. 24437 ysl. 48828 z...-O cuboid 100 9. 2443
-9 24437 1.48828
-1.48828 14.22876 cuboi d 200 9. 2 44 37
-9. 24437 1.48828
-1.48828 15. 07 49 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2162 (4) Water rotate al*O a2*0 aJ:*45 rotate al:0 a2.. 0 a3"' 45
-14. 22876'-----------------
- 14. 4272 com-"part 16 plastic block (right); Edge: Base Inner Full; Axial Main9" com*"part 16 plastic block (right); Edge: Base Inner Ful l ; Axial Main9"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' plastic t hickness removed*O. 0781 inch *O.1 984 4 cm
' bevel surface at -x [10), +x [20)
(8) Nylon
' bevel surface at -x (10], +x [20]
(8) Nylon
[100] thinned block without bevels, without axial gaps
('I) Water
' [1001 thinned block without bevels, without axial gaps (4) Water
'Pl!~~ J 1~hi:~~~1 blo~~i;t~ho~:-~~~;!;; with ax~:i. ~;~:.-;;c..--ccz-:::,O,-~( ;:c~c.t-'c=~~~c'e;.:rcca-.-cl-:::,O
....-.;a-r2_:::,0.-c:a'>)-:':<"sc---~----------.. ' p [ =~~ J ~hi:;e~ blo~~i;!~ho~=-~~;:!;; with ax!,a: 'i'l r.,i~;<lpcis_ z_-~...;.c( !'-'~~t=c;~:..:~c;;*.,r,-l~-~.=-~.-.-_-.,-.--------------
plane 20 xpl*l origin x*9. 19437 y-1. 48828 z*O rotate al*O a2*0 a3*-45 plane 20 xpl*l origin x-9. 24 437 y*l.48828 z*O rotate al""O a?*O a3*-45 u oid 100 44 7
. 4437
.4 82
. 4 828 18 92856
- 18. 928 56 cuboi 100 9.24437
-9.24437 1.48828
-1.48828 18.9785 6
-18. 97856, ________________
cuboid 200 9. 24437
-9. 24437 1. 48828
-1 48828 19 8247
-19. 8247 cuboid 200 9. 244 37
-9. 24 437 1.48828
-1. 48828 19. 8247
-19. 8247 media 8 1 10 - 20 100 media 8 1 10 -20 100 media 4 1 - 10 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 20 100 media 4 1 -100 200 media 4 1 -100 200 boundary 200 boundary 200 unit 2164 unit 2164 com== "part 16 plastic block (right) ; Edge : Base Inner Full ; Axial Upperl" com* "part 16 plastic block (right) ; Edge : Base Inner Full; Axial Upper! "
' plastic t hickness removed*0. 0781 inch *0. 19844 cm
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' bevel surface at - x (10), +x [201 (8) Nylon
' bevel surface at -x {10], +x [20]
(8) Nylon
' (100) thinned block without bevels, without axial gaps (4) Water
' [100] thinned block without bevels, without axial gaps (4) Water
' pi!~~ ] thi:;e ~ blo~;i;!~ho~=- ~~~;!; ; with ax~:i. ~=~cisc.8-z_-* o-'"-(;'"~-t "':~cc~c;*;.:rcal" *~-. 2, _~
-* * **,~5-------------~ ' p [!~~ ] thi:;e~ blo~:i;i~ho~~-~~;:!; ; with ax~:i.1a3-8 *~z-- ~o ---'(-":~~t~::~er al:..O a"2~. =o-.~. =, =5-------------~
plane 20 xpl*l origin x.*9. 1 9437 y*l. 48828 z-0 rotate al*O a2*0 a3*-45 plane 20 xpl*l origin x-9. 2 4437 y*l. 48828 z*O rotate al*O a2*0 a3*-45
~~t~ ~~~ ;:~!!~~ :;~;!43~ i::::~: :i::::;: it;f~~
6 -1 4. 160; 13 26436
~:~t~ !~o 9 :~!!~1 :;:;~:~1 i :!::~8
1:!:~;:
g
~i~~ 6 - 14. 160;13*31436 ________________ _.
media 8 1 10 -20 100 media 8 1 10 - 20 100 media 4 1 -10 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 20 100 media 4 1 -100 200 media 4 1 - 100 200 boundary 200 boundary 200 unit 2166 com="Plastic block right 2166 array "
cuboid 10 9.24437
-9. 24437 1. 48828
-1. 48828 206. 7837
-206. 7837 array 2166 10 place 1 1 1 0 0 - 192. 3844 boundary 10
'1176 Array 171 Plastic/Nylon Blocks Array: Base Outer Full unit 11 70 com= "part 171 plastic block ; Edge : Base Outer Full ; Axial Lower! "
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' bevel surface at -x [10], +x [20]
' [100] thinned block without bevels, without axial gaps
' (2001 thinned block without bevels, with axial gaps plane 1 xp *l orig n x*-9. 19437 y*
1512 z*O plane 20 xpl.,,1 origin x=9. 19437 y=l.48828 z=O cuboid 100 9.244.37
-9. 24437 l.4882 l.48828 14.17876 cuboid 200 9. 24437
-9. 24437 1.48828
-1.48828 15. 0749 media 8 1 10 -20 100 media 4 1 - 10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 1172 (8) Nylon (4) Water (4) Water com="part 171 plastic block; Edge: Base Outer Ful l ; Axial Main9 "
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' bevel surface at -x [10], +x [20]
(8) Nylon
' [100] thinned block without bevels, without axial gaps (4) Water
' Pi!~~ J 1~hi:;~~l blo~~i ;~~ho~~-~~~;!;; with ax!:~.1~P;;.;*c.....--:c(!~t :~~e,.r.,.a '"'*"O....,.a 2"'-"0""'"a"'-"'*"'s------------
plane 20 xpl*l origin x*9. 19437 y*l. 48828 z*O rotate al*O a2*0 a3*-45
~~~1~ ;~~ ::~::~~
=9 :~::~~ i::::~: -~::::~: i! : :~:;6 -19. 824~18. 92856, ____ ~---------
unit 2166 com*"Plastic block right 2166 array "
cuboid 10 9. 24437
-9. 24 437 1.4 8828
-1. 48828 206. 7837
-206. 7837 array 2166 10 place 1 1 1 O O - 192. 3844 boundary 10
' 1176 Array 17L Plastic/Nylon Blocks Array: Base Outer full unit 1170 com- "part 171 plastic block ; Edge : Base Outer 1-~ull ; Axial Lowerl"
' plastic thickness removed-0, 0781 i nch *O. 19844 cm
' bevel surface at -x [10], +x [20]
(8) Nylon
' [100] thinned block without bevels, without axial gaps (4) Water
' [200] thinned block without bevels, with axial ap"'s'-----'(cc4),__..Wc,-a,c:tec.,r'-------
plane 10 xpl*l origin x*-9. 24437 y*0. 31512 z*O rotate al-0 a2*0 a3*45 plane 20 xpl='l origin X"'-9. 24437 Y""l. 48828 Z""O rotate al=O a2-0 a3= 45 C bQ d 4437 4437
1. 882
-l 8828 14.22876
-14.2 2876, ________________ _.
cuboid 200 9.24437
-9. 244 37 1. 48828
- 1 488 28 15. 07 49
-14. 4272 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 1172 com*"part 1 71 plastic block ; Edge : Base Outer Full ; Axial Main9 "
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' bevel surface at -x [ 10], +x [20]
(8) Nylon
[100] thinned block without bevels, without axial gaps (4) Water
' [200] thinned block without bevels, with axial gaps (4) W"'a~te,cr,.._ _____
plane 10 xpl*l or gin x* - 9. 24437 y*0. 31512 z*O rotate al*O a2*0 a3* 45 plane 20 xpl*l origin x*9. 24437 y*l. 48828 z*O rotate al*O a2*0 a3*-45 cubQ.i,d 100
. 24437 -9~7 1.4882
. 48828 18. 97856
-18 97856------------~---...,
cuboid 200 9. 24437
-9. 244 37 l.48828
-1 48828 19. 8247
-19. 82 47 Page 8/24
media 8 media media media boundary unit 1174 l 10 -20 100 1 -10 100 1 20 100 1 -100 200 200 com*"part 171 plaetic block; Edge: Base Outer Full; Axial Upperl "
plastic thickness removed-0. 0781 inch *O.1 9844 cm
' bevel surface at - x [10], +x [20 }
' (100] thinned block without bevels, without axial gaps
' [200 ] thinned block without bevels, with axial gaps plane 10 xpl-1 origin x=-9.19437 y*0.31512 z--0 plane 20 xpl*l origin x-9.19437 y*l.48828 z*O cuboid 100 9. 24437
-9. 21437 1 48828
-1.48828 13.26436 cuboid 200 9. 24437
-9. 24437 1.48828
-1.48828 13.5128 media e l 10 - 20 100 media 4 l -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 1176 com* "part l 7L plastic block 1176 Array" (8) Nylon (4) Water (4) water rotate ala.O a2=0 a3-45 rotate al*O a2*0 a3*-45
-13. 26436
-14. 1605 cuboid 10 9.24437
-9. 24437 1.48828
-1 48828 206. 8116
-206. 8116 array 1176 10 place 1 1 1 O O -192. 3844 boundary 10
' 2176 Array 17R Plastic/Nylon Blocks Array: Base Outer Full unit 2170 com* "part 1 7r plastic block; Edge : Base Outer Full ; Axial Lowerl"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' bevel surface at -x (10), t-x {20]
' [100] thinned block without bevels, without axial gaps
' [200 ] thinned block without bevels, with axial gaps plane 10 xpl*l origin x*-9.19437 y*l. 48828 z*O plane 20 xpl*l on.gin x*9. 19437 y*0. 31512 z*O cuboid 100 9.24437
-9. 24437 1.48828
-1 48828 14.17876 cuboid 200 9.24437
-9.24437 1.48828
-1 48828 15.0749 media 8 l 10 -20 100 media 4 l -10 100 media 4 l 20 100 media 4 1 -100 200 boundary 200 unit. 2172 (8) Nylon (4) Water (4 ) Water rotate al*O a2*0 a3*45 rotate al*O a2*0 a3* 45
-14.17876
-14. 4272 com-"part 17r plastic block ; Edge : Base Outer Full; Axial Main9"
' plastic t hickness removed*O. 0781 inch *O. 19844 cm
' bevel surface at - x [101, +x [20]
(8) Nylon
[1 00] thinned block without bevels, without axial gaps (4) Water
[200 ] thinned block without bevels, with axial aps (4) Wate.. r~-~-
plane 10 xpl*l origin x--9.19437 y.. 1. 48828 z.. o rotate al:O a2""0 a3--.45 plane 20 xpl*l origin x*9. 19437 y*0.31512 z*O rotate al*O a2*0 a3*-45 cuboid 100 9. 24437
-9.24437 l. 48828
-1.48828 18.92856
-18.92856 cuboid 200 9. 24437
-9. 24437 1.48828
-1.48828 19.8247
-19. 8247 media 8 1 10 - 20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2174 comso "part 17r plastic block ; Edge: Base Outer Full ; Axial Upperl "
plastic thickness removed*0. 0781 inch *0.19844 cm
bevel surface at - x [10), +x {20]
(8) Nylon
{100] thinned block without bevels, without axial gaps (4) Water
..-~* [ NO] thinned block without bevels, with axial gaps (4) Water pl ane 10 xpl... l origin x=-9.19437 Y'"'l,4 8828 z... Q rotate al"'-0 a -o a3-45 plane 20 xpl*l origin x*9.19437 y*0. 31512 z*O rotate al*O a2*0 a3*-45 cuboid 100 9.21137
-9. 21437
1. 48828
-1.48828 13.26136
-13.26436 cuboid 200 9. 24437
-9. 24437 1.48828
-1.48828 13.5128
-14. 1605 media 8 1 10 - 20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 MAP12_ 0 05_1_. in -
MAP12_0_1_. in media 8 1 10 - 20 100 media 4 l -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 1174 com*"part 171 plastic block; Edge: Base Outer Full; Axial Upper!"
' plastic thickness removed*0. 0781 inch *0. 19844 cm
' bevel surface at - x [10], +x [20]
' (100) thinned block without bevels, without axial gaps
' [200 ) thinned block without. bevels, with axial gar;:,s pane 10 xpl*l origin x*-9.24437 y-0. 31512 z=-0 plane 20 xpl*l origin x*9. 24437 y*l. 48828 z*O cuboid 100 9.24437
-9. 2443 l 48828
-1.48828 13.31436 cuboid 200 9. 24437
-9. 24437 1.48828
-1.48828 13.5128 media e 1 10 - 20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -1 00 200 boundary 200 unit 1176 com**part 17L plasLic block 1176 Array "
(8) Nylon (4) Water (4) Water rotate al=O a2=0 a3-4S rotate al*O a2*0 a3*-45
-13. 31436
-14. 1605 cuboid 10 9. 24437
-9.24437 1.48828
-1.48828 206. 8116
-206. 8116 array 1176 10 place l 1 1 0 0 -192. 3844 boundary 10
2176 _Array_ l 7R Plastic/Nylon Blocks Array : Base Outer Full unit 2170 com*"part 17r plastic block ; Edge : Base Outer Full; Axial Lower! "
' plastic thickness removed*0.0781 inch *0. 19844 cm
' bevel surface at -x (10], +x [20]
(8) Nylon
' [100 ) thinned block without bevels, without axial gaps (4) Water
' [200 ) thinned block without beve ls, with axial aps (4) Water plane 10 xpl*l origin x*-9.24437 y*l.48828 z*O rotate al*O a2*0 a3*45 plane 20 xpl*l origin x*9.24437 y*0.31512 z*O rotate al*O a2*0 a3*
45 cuboid 100 9. 24437
-9. 24437 1. 48828
-1. 48828 14.22876
-14. 22876 cuboid 200 9.24437
-9.24437 1.48828
-1.48828 15.0749
-14. 4272 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 - 100 200 boundary 200 unit 2172 com* "part l 7r plastic block; Edge : Base Outer Full; Axial Main9 "
' plastic thickness removed*O. 0781 inch *O.19844 cm
' bevel surface at - x [10], +x [20)
' [1001 t hinned block without. bevels, without axial gaps
' [200 ] thinned block without bevels, with axial g~
plane 10 xpl-1 origin xa-9. 24437 y'-1. 48828 z.. O plane 20 xpl*l origin x*9. 24437 y*O. 31512 z*O cuboid 100 9.24437
-9. 24437 l
8828
-1.48828 18.97856 cuboid 200 9. 2 44 37
-9. 244 37 1.48828
-1.48828 19. 8247 media 8 1 10 -20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 unit 2174 (8) Nylon (4) Water
(!~t ::~e\\1-0 a2-0 a3--45 -------------,
rotat.e al*O a2-0 a3*-45
-18. 97856
-19. 8247 com*"part 17r plastic block; Edge: Base Outer Full; Axial Upperl"
' plascic thickness removed*O. 0781 inch *O. 19844 cm
' bevel surface at - x [10], +x {20]
[100] thinned block without bevels, without axial gaps
' [200) thinned block without bevels, with ax i al gaps plane 10 xpl-1 o r i gin x* -9. 24437 y~l. 48828 z... O plane 20 xpl*l origin x*9.24437 y*0.31512 z*O cuboid 100 9. 21437
-9. 24137 1.48628
-1. 18828 13.31436 cuboid 200 9. 24437
-9.24437 1.48828
-1.48828 13.5128 media 8 1 10 - 20 100 media 4 1 -10 100 media 4 1 20 100 media 4 1 -100 200 boundary 200 Page 9/24 (8) Nylon (4) Water (4) Water rotate a1... o a2=0 a3.... 45 rotate al*O a2*0 a3*-45
-13. 31436
-14. 1605
unit 2176 com* "Array 2176 Part l 7R plastic block; Base outer full" cuboid 10 9.24437
-9. 24437 1.48828
-1.48828 206. 8116
-206. 8116 array 2176 10 place 1 1 1 0 0 -192.3844 boundary 10
'1556 Array SSL Plastic/Nylon Blocks Array : Lid Inner Lower unit 1550 com*"part 551 plastic block ; Edge : Lid Inner Lower; Axial Lower! "
plastic thickness removed-a. 0781 inch -o. 19844 cm
[100] thinned block without bevels, without axial gaps (8)
[200] thinned block without bevels, with axial gaps (4) cubo O
4. 46326
- 4. 46326 1. 48828
. 48828 14. 17876 cuboid 200 4. 51326
- 4. 51326 1. 118828
- 1. 48828 15. 0749
- 14. 11272 media a 1 100 media 4 1 - 100 200 boundary 2 0 0 unit 1552 com* "part 551 plastic block ; Edge : Lid Inner Lower ; Axial Main9 "
' plastic t hickness removed* 0. 0781 inch =0. 19844 cm
' [100] thinned block without bevels, without axial gaps (8)
' [200) thinned block without bevels, with axial gaps (4) cub i 1
4. 46326
-4. 46326 48828
-1.48828 18. 92856 cuboid 200 4. 51326
-4.51326 1.48828
-1.48828 19. 8247
-19 8247 media 8 1 100 media 4 1 -100 200 boundary 200 uni t 1554 com* "part 551 plastic block; Edge: Lid Inner Lower; Axial Upperl "
' plastic thickness removed*O. 0781 inch *O.19844 cm (100] thinned block without bevels, without axial gaps (8)
[200] thinned block without bevels, with axial gaps (4)
CUDOi d 1 0 4. 46326
- 4. 46326
l. 48828
-1.U 13. 26436 cuboid 200 4. 51326
-4. 51326 1. 48828
-1. 48828 13. 5128
-14. 1605 media 8 1 100 media 4 1 -100 200 boundary 200 unit 1556 com-="Array 1556 Part SSL plastic block ; Lid Inner Lower" cuboid 10 4. 51326
-4. 51326 1. 48828
-1. 48828 206. 8116
-206. 8116 array 1556 10 place 1 1 1 0 0 - 192.3844 boundary 10
'2556 Array SSR Plastic / Nylon Blocks Array : Lid Inner Lower unit 2550 com*"part 55r plastic block ; Edge : Lid Inner Lower; Axial Lower! "
' plastic thickness removed*0.0781 inch *0. 19844 cm
[100] thinned block without bevels, without axial gaps (200] thinned block without bevels, with axial gaps cuboid O
6. 11426
- 6. 3127
-1.'18828 48828 H. 17876 cuboid 200 6.16426
-6. 3627 1.48828
-1.48828 15. 0749
-14. 4272 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2552 com"" "part 55r plastic block; Edge : Lid Inner Lower ; Axial Main9 "
' plastic thickness removed*0. 0781 inch -0. 19844 cm
[ 100 I t hinned block without bevels, without axial gaps (200} thinned block without bevels, with axial gaps cuboid 100 6. 11426
- 6. 3127 1.48828 cuboid 200 6. 16426
-6. 3627 1.48828
-1.48828 19. 824 7 rnedia 8 1 100 media 4 1 -100 200 boundary 200 unit 2554 com-"part 55r plastic block; Edge : Lid Inner Lower ; Axial Upper!"
' plastic thickness removeda0. 0781 inch -0. 19844 cm
[100] thinned block without bevels, without axial gaps 92856 MAP12_0 05_1_. in -
MAP12_0_ 1_. in
-14. 17876 _________
-18. 92856
- 13. 26436. _________
- 14. 17876
-18. 92856. _________
unit 2176 co:n= "Array 2176 Part l 7R plastic block; Base outer full "
cuboid 10 9. 24437
-9. 24437 1. 48828
- 1. 48828 206. 8116
-206. 8116 array 2176 10 place 1 1 1 0 0 -192. 38411 boundary 10
===~-~~~~:'-SSL Plastic/Nylon Blocks Array : Lid Inner Lower unit 1550 com-"part 551 plastic block ; Edge : Lid Inner Lower; Axial Lowerl "
' plastic thickness removed""O. 0781 inch
O.19844 cm
' (1 00] thinned block without bevels, without axial gaps (8)
' [200] thinned block without bevels, with axial gaps (4) cul,o <l 4. 5132 6
- 4. 51326 l,4882
-1 48828 14. 22876 cuboid 200 4. 51326
- 4. 51326 1. 48828
- 1. 48828 15. 0749
- 14. 4272 media 8 1 100 media 4 1 -100 200 boundary 200 unit 1552 com- "part 551 plastic block; Edge : Lid Inner Lower ; Axial Main9"
' plastic t hickness removed""0. 0781 inch
0. 19844 cm (100} thinned block without bevels, without axial gaps
c~~f~ ~~~ nn:~ s~;~~k without -~~;~;;6 with axi; ~ 4i:~~: -
--i -. 4-8-'-8a-'28'--10. 97856 cuboi d 200 4. 51326
-4. 51326 1.48828
- 1. 48828 19. 8247
-19. 8247 media 8 1 100 media 4 1 - 100 200 boundary 200 unit 1554 com= "part 551 plastic block; Edge : Lid Inner Lower; Axial Upper!"
' plastic thickness removed*0. 0781 inch *0.19844 cm
[100] thinned block without bevels, wi thout axial gaps
' [200] thinned block without bevels, with axial gaps
..._cu"!bo~ i~d-!2~~~o- ! : ;i;~: -4. 5132;4
i1!~:28 -1.18!2~88f 3.5128 1~~/
1436 media 8 1 100 media 4 1 -100 200 boundary 200 unit 1556 com= "Array 1556 Part SSL plastic block; Lid Inner Lower "
cuboid 10 4. 51326
-4. 51326
1. 48828
-1.48828 206. 8116
-206. 8116 array 1556 10 place 1 1 I O o - 192. 3844 boundary 10
' 2556 Array 55R Plastic/Nylon Blocks Array : Lid Inner Lower unit 2550 com-"part 55r plastic block; Edge : Lid Inner Lower ; Axial Lower! "
' plastic thickness removed-0. 0781 inch *O. 19844 cm
' (100] thinned block without bevels, without axial gaps
' [200 ) thinned block without bevels, with axial gaps cuboid 100 6. 16426
- 6. 362 7 1.1a02a 1.48828 14. 22876 cuboid 200 6. 16426
-6. 362'7 1. 48828
-1. 48828 15. 0749
-14. 4272 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2552 com"" "part SSr plastic block ; Edge : Lid Inner Lower ; Axial Main9"
' plastic t hickness removed*O. 0781 inch -0. 19844 cm
' (100] thinned block without bevels, without axial gaps
' (200) thinned block without bevels, with axi.~a=-1 ~9,e,*,=.*---
6. 16426
-6. 362 7 8828 828 18 97856 cuboid 200 6. 16426
-6. 3627 1.48828
-1.48828 19. 8247
-19. 8247 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2554 com* "part 55r plastic block; Edge: Lid Inner Lower; Axial Upperl"
' plastic thickness removed'"'0. 0781 inch s 0. 19844 cm
' [100] thinned block without beve l s, without axial gaps Page 10/ 24
-1 4. 2287 6
-18. 97856*--~--------
-13. 31436, __________ __.
- 1'1. 22876, __________
- 18. 97856, _______ ----
, c~200J thBnn:~ 1~!~~k without-~~~~;;
with axi~~ 4i{~..;*.-~_1,._..,,>>-.ca= - u 26436 cuboid 200 6. 16426
- 6.3627 1. 48828
- 1. 48828 13. 5128
- 14 1605 media 8 l 100 media 4 l -100 200 boundary 200 unit 2556 com-"Array 2556 Part 55R plastic block ; Lid Inner Lower" cuboid 10 6.16426
- 6 3627 1.48828
- 1 48828 206. 8116
- 206.8116 array 2556 10 place 1 1 1 0 0 -192. 3844 boundary 10
' 1576 Array 57L Plastic/Nylon Blocks Array : Lid Inner Upper unit 1570 MAP12_0 05_1_. in -
MAP12_ 0_1_. in
_13 _26436;==========::::::i ' ~200] thinn:~r~!~~k without-~~;:;;* with axi~~ 4~{~"-'*---i-,**a*e= - iJ.Jl 436 cuboid 200 6. 16426
- 6. 3627 1. 48828
- 1. 48828 13.5128
- 14. 1605 media 8 1 100 media 4 1 -100 200 boundary 200 unit 2556 com- "Array 2556 Part 55R plastic block; Lid Inner Lower" cuboid 10 6. 16426
- 6. 3627 1.48828
- 1.48828 206. 8116
- 206. 8116 array 2556 10 place 1 1 1 0 0 - 192. 384.;l boundary 10
' 1576_Array_57L Plastic/Nylon Blocks Array : Lid Inner Upper unit 1570 com-"part 571 plastic block ; Edge : Lid Inner Upper ; Axial Lower! "
com- "part 571 plastic block ; Edge : Lid Inner Upper ; Axial Lowerl "
plastic thickness removed=0. 0781 inch =0. 19844 cm
' plastic thickness removed=0. 0781 inch =0. 19844 cm
[10] bevel surface at - x (8) Nylon (10] bevel surface at -x (8) Nylon
' [100] thinned block without bevels, without axial gaps (4) Water (100 ] thinned block without bevels, without axial gaps
( 4) Water
-13. 31436,--=========::::::i
' P [ !~~ J thi~~~~ blo~~ ;!~ho~=o ~;;;!;* with a;::i. ~:P;;;B;'""~z-~....;.(_c.!~c.,tcc: 7~~~e;;,;r;..,a.l --O= a*2 __ 0= a*J-.--,~s-- ------------ ' P [ =~~ l 1~hi~;~~l blo~: i~!~ho~=o ~;;;~;
with a;::i. ~;~";'°s= z~'"o,...... ( !='~c.t-=: 'c-~~c:-e.. r-=a.-l*=-o= a-..-2*~0"°"a""J=~-'"'4"'5 _____________
~
c~~~ ~g~ i~: ::::: o. 2806~
2 ~~!;02!
4
~~~! 88;~
4
~:~~ 74!
4
=~!~!212
- l4
1 7876 cuboi ~ 200 i~: ::::: o. 28063
2 f~! es2!
4
- ~~! 00;!
4
~:~~74~
4 :i:~!212
- l4
22975--------------..,,
media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 200 unit 1572 com- "part 571 plastic block ; Edge : Lid Inner Upper ; Axial Main9"
' plastic thickness removed=O 0781 inch =O. 19844 cm
' [10] bevel surface at -x (8) Nylon
' (100] thinned block without bevels, without axial gaps (4) Water
' [200) thinned block without bevels, with axial gaps (4) Water pane xp""'
or 9.tn x=0. 33063 y*- 1. 8828 z=O rotate al"'
a2=
a3=- 45 cuboid 100 10.4 4496 0. 28063 1.48828
-1. 48828 18. 92856
- 18. 92856 cuboid 200 10. 49496 0. 28063 1.48828
- 1. 48828 19. 8247
- 19. 8247 media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 200 unit 1574 media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 200 unit 1572 com- "part 571 plastic block ; Edge : Lid Inner Upper ; Axial Main9 "
' plastic thickness removed=0. 0781 inch '-0. 19844 cm (10) bevel surface at -x (8) Nylon
' (100) thinned block wi thout bevels, without axial gaps
( 4) Water
' P (!~~] ~hi:;~~1 blo~:i ~1~ho~:o ~;;;~;, with a;!:i.1:~;8 z=o-
-c(!'=~*t=c.~c';c.e...
\\ c--1.c."'o-a~2--~o-a~3""°---*, ~s-------------
110 id IO 10.4 9496 0. 28063 1.4 828
-1 48828 18. 97856
- 18. 97856 cuboid 200 10. 49496 0. 28063 1.48828
-1. 48828 19. 8247
- 19. 8247 media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 200 unit 1574 com* "part 571 plastic block; Edge : Lid Inner Upper ; Axia l Upperl "
' plastic thickness removed=O. 0781 inch =0. 19844 cm
' (10] bevel surface at -x (8) Nylon
' (100] thinned block without bevels, without axial gaps (4) Water
-'-'="--'= ;;;;;.--l-x~-=-'c".c'-c.c;a;..,.==~=~=-------------
p (!~~) thi:;e ~1 blo~~i;!~ho~:o ~;;;~;, with a;!:~l JiP.,;,....,::-,=::,;-,--(,:'!~':.tc::.: ::-~e-r""a-,l-::.* = a"-°'-O_....,a..,,3"°*---,..--------------
media 4 1 -100 boundary 200 unit 1576 com="Array 1576 Part 57L plastic block ; Lid Inner Upper" cuboid 10 10.49496 0.28063 1.48828
-1 48828 206. 8116
-206. 8116 array 1576 10 place 1 1 1 0 0 -192.3844 boundary 10
' 2576 Array 57R Plastic/Nylon Blocks Array : Lid Inner Upper uni t 2570 c~~~d 20~ i~:::::: 0. 2806~
2
~~:!02~
4
~~~!00;!
4
~~~:12~
3 :i!~f605 13 31435--------------""
media 8 1 10 100 media 4 1 -10 100 media 4 1 - 100 200 boundary 200 unit 1576 com= "Array 1576 Part 57L plastic block ; Lid Inner Upper "
cuboid 10 10. 49496 0. 28063 1.48828
-1.48828 206. 8116
-206.8116 array 1576 10 place 1 1 1 O O -192. 3844 boundary 10
' 2576 Array 57R Plastic/Nylon Blocks Array : Lid Inner Upper unit 2570 com>= "part 57r plastic block ; Edge : Lid Inner Upper ; Axial Lower!"
com= "part 57r plastic block ; Edge : Lid Inne r Upper ; Axial Lowerl "
plastic thickness removed-0. 0781 inch -0. 19844 cm
' plastic thickness removed-0. 0781 inch -0. 19844 cm
[10] bevel surface at -x (8) Nylon
[!O J bevel surface at -x (8) Nylon
(100) thinned block without bevels, without axial gaps (4) Water (100) thinned block without bevels, without axial gaps (4) Water
p [!~~)
/ hi~~e~ blo~:i~i~ho~:- ~~;;t:J with ax!::1 ~:~:28 z-O (4 ~0::~:r acr-=
a= -~
a= -~ *...-------------""" ' Pi!~~ ] thi~~~~ blo~~ 1 ~!~ho~=-~~;:t~J with axt :: ~:~s 8 z-(4 ~0::~:r a..
a u
a _ 45
~~~~~~ ;~~ =~:;:~:; =i~: :::~~
1. 4a02!
4~~~! 0a;!
4 ~~~~ 74~
4
~~!~!212 14
1 7876
, _____________ _, ~~~~t~ !~~ =~:~:~!~ =i~: :::~:
1. 4882t
4
~~~!00;~
4f~ ~~14~
4
~~:~~212 14 22876'-------------..J media 8 l -10 100 media 8 1 -10 100 Page 11/24
media 4 1 10 100 media 4 1 -100 200 boundary 200 MAP12_0.05_1_. in -
MAP12_0_ 1_. in media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 2572 unit 2572 com"" "part 57r plaztic block ; Edge : Lid Inner Upper ; Axial Main9 "
com="part 57r plaztic block ; Edge ; Lid I nner Upper ; Axial Main9" plastic thickness removed.. 0. 0781 inch -0. 19844 cm plastic thickness removed*0. 0781 inch -0. 19844 cm
' [10] bevel zurface at -x (8) Nylon
' [10] bevel zurface at -x (8) Nylon
' [100] thinned block without bevels, without axial gaps (4) Water
[100] thinned block without bevels, without axial gaps (4) Water
, Pi!~~ J 1 ~hi:;~~l blo~~i ;~~ho~~-~~;;~:J with ax~:: ga~"s"'2"'8~,~-~
-( 4-'~~o"""~a",a ~c'!'-r-ccal..,*""'~a ~-~o= a3~.*4?5--------------. ' p i !~~ J 1 ~hi:;~~1 blo~: 1; !~ho~:,-~~;:~~3 with axt::1 ~:~~:"'2~8-z---0...:,;( 40,~_o'.'.:ec:~"="r~ al~-~D~ a2~.=o-a- 3~--,~s-------------
. d 100
-0. 28063
- 10. 44496 1. 48828
-1. 48828 18. 92856
-18. 92856 cuboid 100
-0 28063
- 10. 49496
l. 48828
-1. 48828 18. 97856
-18. 97856, _____________ _.
cuboid 200
-0. 28063
- 10. 49496 1.48828
-1.48828 19. 8247
-19. 8247 cuboid 200
-0. 28063
-10.4 9496 1.48828
- 1. 48828 19. 8247
-19.8247 media 8 1 -10 100 media 8 1 -10 100 media 4 1 10 100 media 4 1 10 100 media 4 1 - 100 200 media 4 1 - 100 200 boundary 200 boundary 200 unit 2574 unit 2574 com-"part 57r plastic block ; Edge : Lid Inner Upper ; Axial Upperl "
com= "part 57r plastic block ; Edge : Lid Inner Upper ; Axial Upperl "
' plastic thickness removed*0. 0781 inch -0. 19844 cm
' plastic thickness removed*0. 0781 inch -0. 19844 cm
' {10] bevel zurface at -x (8) Nylon
[10 ] bevel zurface at -x (8) Nylon (100) thinned block without bevels, without axial gaps (4) Water
' [100) thinned block without bevels, without axial gaps (4) Water
' P [=~~ l l~hi:~1~1 blo~~1;i ~ho~:,-~~;;~:3 wi.;t,.h.,a. x;ct-=-:.=.
_"'9'"': '~~i<: " 8~ z~-o....;(,..4-'c~o~~'"':'i'~-=-! ;;.r "'a= *.c o "'a"2cc- "D "'a= - ~,s,--------------, ' Pi!~~ 11 ~hi~~~~l blo~~i;f ~ho~=-~~;:t:3.-...:;w.:;it:;.:h:..,::a:;.x~c,:,;:_;,,1*:' -a;, * ~~:"'2=s-,-.*o_..:,( 4:.,~'-o"':":~"!C:r-a 1* -*o= a2* -*o-a~3-.*,~s-------------
cuboid 100
-0.28063
- 10. 44496 1.48828
-1.48828 13. 26436
-13. 26436 c bo'd 100
-0 28063
- 10.4 9496
~8828 l 4B82.8 13. 31 436
-13. 31 4 36, ________ ~------
cuboid 200
-0. 28063
-10. 49496 1. 48828
-1. 48828 13. 5128
-14. 1605 cuboid 200
-0. 28063
-10. 49496 1. 48828
- 1. 48828 13. 5 128
-14. 1605 media 8 1 -10 100 media 8 1 -10 100 media 4 1 10 100 media 4 1 10 100 media 4 1 -100 200 media 4 1 -100 200 boundary 200 boundary 200 unit 2576 com= "Array 2576 Part 57R plaztic block ; Lid Inner Upper n cuboid 10
-0. 28063
-10. 49496 1.48828
-1.48828 206.8116
-206. 8116 array 2576 10 place 1 1 1 D O -192. 3844 boundary 10
' 1598 Plaztic/Nylon Lid Outer Upper unit 1598 com-"part 591w plastic block "
plaztic thicknezs removed=O. 07 81 inch =0. 19844 wedge 10
1. 38799 1. 38799 2. 97656 28 45753 wedge 20
. 38799
1. 38799 2 97656 37, 95713 wedge 30 38799
1. 38799 2 97656 37. 95713 wedge 40 38799
1. 38799 2 97656 37, 95713 wedge 50 38799 1. 38799 2 97656 37. 95713 wedge 60 L 38799 1. 38799 2 97656 37. 95713 wedge 70 1. 38799 1. 38799 2. 97656 37. 95713 wedge 80
1. 38799 1. 38799 2 97656 37 95713 wedge 90
1. 38799 1. 38799 2. 97656 37. 95713 wedge 100 1.38799 1. 38799 2 97656
37. 95713 wedge 110
1. 38799 1. 38799 2. 97656 26.62873 wedge 120 1. 38799 1. 38799 2. 97656 414. 02 media 8 1 10 media 8 1 20 media 8 30 media 8 40 media 50 media 60 media 70 media BO media 90 media 100 media B 110 cm origin origin origin origin origin origin origin origin origin origin origin media 4 20 40 -so 70 90 -100 -110 boundary 120
' 2598 Plastic/Nylon Lid Outer Upper
'-~---------
unit 2598 com* "part 59rw plastic block "
Nylon (Bl x*O y*O z*0. 19844 x*D y*O z-30. 34824 x:Q y:0 z=69. 99764
,-o y*D z-109. 647 x=O y=O z=l49. 2964 x*O y-0 z-188. 9458 x=O y=O z=228. 5952 x-0 y-0 z-268. 2446 X""O y=O z:307. 894 x=O y=O z=347 5434 x-0 y-0 z*387. 1928 120
' plas1:ic thickness removed=0. 078 1 inch -D. 19844 cm Nylon(8) wedge 10 1. 38799 D
2. 97656 28. 45753 origin x*O y-0 z*O 19844 unit 2576 com="Array 2576 Part 57R plastic block; Lid Inner Upper "
cuboid 10
-0 28063
-10. 49496 1. 48828
-1. 48828 206. 8116
-206. 8116 array 2576 10 place 1 1 1 O O -192. 3844 boundary 10
' 1598 Plastic/Nylon Lid Outer Upper unit 1598 com- "part 591w plastic block "
plast ic thicknezz removed=O. 0781 inch =D. 19844 cm wedge 10
1. 38799 1. 38799 2. 97656 28 45753 origin wedge 20
1. 38799 1. 38799 2. 97656 37. 95713 origin wedge 30 1. 38799 1. 38799 2. 97656 37. 95713 origin wedge 40 1. 38799 1. 38799 2. 97656 37. 95713 origin wedge 50 1. 38799 1. 38799 2. 97656 37. 95713 origin wedge 60
1. 38799
1. 38799 2, 97656 37.95713 origin wedge 70
1. 38799
1. 38799 2. 97656 37. 95713 origin wedge 80 1. 38799 1.38799 2. 97656 37. 95713 origin wedge 90 1. 38799 1. 38799 2.97656 37. 95713 origin wedge 100 1.38799 1. 38799 2. 97656 37. 95713 origin wedge 110 1. 38799
1. 38799 2. 97656 26. 62873 origin wedge 120 1.38799
1. 38799 2. 97656 414. 02 media 8 1 10 media 1 20 media 1 30 media 1 40 media 50 media 60 media 70 media 80 media 90 media 8 100 media 8 110 media 4 20 40 60 80 100 -110 boundary 120
' 2598 Plastic /Nylon Lid Outer Upper unit 2598 com- "part 59rw plastic block "
Nylon (Bl x*O y-0 z*0. 19844
)(-o y-o z-30. 3482 4 x=D y=D P69. 99764 x*O y*O z-109. 647 x=O y=O z=l49. 2964 x=D y-0 z-188, 9458 x=O y=O z=228. 5952 x-0 y-0 z-268. 2446 x =O y ::Q z=307. 894 X""O Y""D z=347 5434 x-0 y*O z-387. 1928 120
' plastic thickness removed=0. 0781 inch -D. 19844 cm Nylon(8) wedge 10 1. 38799 0
2. 97656 28. 45753 origin x*O y*O z-0. 19844 Page 12/24
wedge 20 1.38799 0
97656 37 95713 origi n x* O y:0 z*30. 3-4824 wedge 30 1.38199 0
97656 37 95713 origin x*O y*O z*69.99764 wedge 40 1. 38199 0
97656 37 95713 origin x*O y*O z*109. 647 wedge 50 1. 38199 0
97656 37. 95713 origin x* O y:0 z=149. 2964 wedge 60 1. 38199 0
97656 37. 95713 orig i n x*O y*O z*188. 9458 wedge 70 1. 38799 0
97656 37. 95713 origin x*O y*O z=228. 5952 wedge 80
1. 38199 0
97656 37. 95713 origin x*O y*O z-268. 2446 wedge 90
1. 38199 0
2. 97656 37. 95713 orig i n x* O y-0 z* 307. 894 wedge 100 1.38799 0
2. 97656 37. 95713 origin x*O y*O 2*347. 5434 wedge 110 1.38799 0
2. 97656 26. 6281 3 origin x:0 y-0 z-387. 1928 wedge 120 1.38799 0
2. 97656 414.02 media 8 1 10 media 8 20 media 8 30 media 8 40 media 8 50 media e 60 media 8 70 media 8 80 media 8 90 media 8 100 media 8 110 media 4 1 20 40 -so 70 90 -100 -110 120 boundary 120
' 1596 Array 59L Plastic/Nylon Blocks Array: Lid Outer Upper unit 1590 com* "part 591 plastic block; Edge: Lid Outer Upper ; Axial Lower! "
' plastic thickness removed*0.0781 i nch *0. 19844 cm (10] bevel surface at - x (8) Nylon
[100] thinned block without bevels, without. axial gaps (4) Water (200) thinned block without bevels, with axial gaps (4) Water p ane 10 xpl"'-1 origin X"'- 0. 33063 y=-1.48828 z-0 rotate al.:0 cuboid 100
-0.28063
-11. 322 45
!,l;28
-1. 48~28 14.17876
- 14. 1787 6 cuboid 200
- 0. 28063
- 11. 37245 1. 48828
- 1. 48828 15.0749
- 14. 4272 media 8 1 -10 100 media 4 1 1 0 100 media 4 1 -100 200 boundary 200 unit 1592 com* "part 591 plastic block; Edge : Lid Outer Upper; Axial Ma i n9 "
plast.ic thickness removed*O. 0781 inch *O. 19844 cm
' (10) bevel surface at - x (8) Nylon
[1001 thinned block without bevels, without axial gaps (4) Water
, Pi!~~l thi:;e~1 blo~~i ; ~~ho~=-~~;;~:J with ax~:: ~:~<i;o.2,,...,,,.,_,,,...:.14;.;~,.,0z: ':c:~;,;:;-'r'-:;-al'"-"'Oc-:-a2'"*"0r-:-aJ"'*"<"'""
cuboi 100
-0 8063
-11.322 45
1. 48828
-1. 48828 18.92 85 6
- 18. 9285 6 cuboid 200
- 0. 28063
- 11. 37245 1.48828
- 1.48828 19. 8247
- 19. 8247 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1594 com- "part 591 plastic block; Edge : Lid Outer Upper ; Axial Upper!"
' plastic thickness removed*O. 0781 inch *O. 19844 cm
[10] bevel surface at - x (8) Nylon (1001 thinned block without. bevels, without axial gaps (4) Water
(200) thinned block without bevels, with axial gaps (4) Water pane 1 xpl=-1 origin x--- 0. 33063 y=-1.4m z:
rotate al--0 a2=0 a:3""4 cuboid 100
-0.28063
-11. 322 4 5 1.4 8828
-1.48828 13.26436
-13. 264 36 cuboid 200
-0. 28063
-11. 37245
1. 48828
-1. 48828 13. 5128
-14. 1605 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 un i t. 1596 com* "Array 1596 Part 59R plastic block ; Lid Out er Upper "
cuboid 10
-0.28063
-11. 37245 1.48828
-1.48828 206. 8116
-206. 8116 array 1596 10 place 1 1 1 0 0 - 192. 3844 boundary 10 MAP12_ 0. 05_1_. i n -
MAP12_0_1_. in wedge 20 1. 38799 wedge 30 1. 38199 wedge 40 1. 38199 wedge 50 1. 38799 wedge 60 1. 38799 wedge 70 1. 38199 wedge 80 1. 38799 wedge 90 1. 38199 wedge 100 1. 38799 wedge 110 1. 38799 wedge 120 1. 38799 media 8 1 10 media 8 1 20 media 1 30 media 1 40 media 50 media 60 media 70 media 80 media 90 media 100 media 8 110 0
0 0
0 97656 97656 97656 97656 2. 97656 2. 97656 2. 97656
2. 97656 0
2. 91656 0
2. 97656 0
2. 91656 37 95713 37 95713 37 95713 37 95713 37. 95713 37. 95713 37. 95713 37. 95713 37, 95713 26.62873 414.02 origin X"'O yeO z* 30. 34824 origin x*O y*O z*69. 99764 origin xsO ysO z* l09. 64 7 or i gin x=O y=O z:149. 2964 origin x*O y*O z*l88, 9458 origin X"'O yaO z* 228. 5952 origin x*O y*O z*268. 2446 origin x=O y* O z* 307. 894 origin x*O y*O z*347. 5434 origin x- 0 y - 0 z-387. 1928 media 4 20 40 60 80 100 -110 120 boundary 120
' 1596 Array 59L Plastic/Nylon Blocks Array : Lid Outer Upper unit 1590 com= "part 591 plastic block ; Edge : Lid Outer Upper; Axial Lower!"
' plastic t.hickness removed*O. 0781 inch *O. 19844 cm
' [lOJ bevel surface at - x (8) Nylon
' [100) thinned block without bevels, without axial gaps (4) Water (200] thi nned block without beve l s, with axial a~
(4) Water plane 10 xpl=l origin x=-0. 28063 y* -1.48828 z>>O rotate al=O a2::0 a3=45 cuboid 100
-0. 2 8063
-11. 372 45 1. 48828
-1. 48828
14. 22876
- 1 4. 22816 cuboid 200
- 0. 28063
- 11.37245 1.48828
- 1.48828 15.0749
- 14. 4272 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1592 com* " part 591 plastic block; Edge : Lid Outer Upper ; Axial Main9 "
plastic thickness removed*O. 0781 inch *O. 1984 4 cm (10) bevel surface at - x (8) Nylon
[100] thinned block without bevels, without. axial gaps (4) Water
' (200) thinned block without bevel s, with ax i al gaps (4) Wat.er plane l xp =1 origin x=-0.28063 y... -1. 48 2 Z""'D rotate al*
a:3..,t cub d 100
-0. 28063
- 11. 37245 1. 48828
- 1. 4 828 18. 97856
- 18 97856--~-------~--_.
cuboid 200
- 0. 28063
- 11. 372 45
1. 48828
- 1. 48828 19. 8247
- 19. 8247 media 8 1 - 10 100 media 4 l 10 100 media 4 1 - 100 200 boundary 200 unit 1594 com* "part 591 plastic block; Edge : Lid Outer Upper; Axial Upperl"
' plastic t.hickness removed*O. 0781 inch *O. 19844 cm
[10] beve l surface at - x (8) Nylon
[1001 thinned block without bevels, without axial gaps (4) Water (2001 thi nned block without bevel s, with axial gaps (4) Water plane 10 xpl=l origin
>e=-0. 28063 y-*-1.48 2 Z""
rotate al=O a"'
a3=45 c uboid 100
-0. 28063
- 11. 372 45 1.48828
-1. 4882$
13. 3 14 36
- 13 31 436 cuboid 200
-0. 28063
-11. 37245 1.4 8828
-1. 48828 13. 51 28
-14. 1605 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 1596 c om* "Array 1596 Part 59R plastic block; Lid Outer Upper "
cuboid 10
-0. 28063
-11. 37245 1.48828
-1. 48828 206. 8116
-206. 8116 array 1596 10 place 1 1 1 0 0 - 192. 3844 bounda ry 10 Page 13 / 24
' 2596 Array 59R Plastic / Nylon Blocks Array : Lid Outer Upper unit 2590 com*"part 59r plastic block ; Edge : Lid Outer Upper; Axial Lower! "
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' (10] bevel surface at -x (8) Nylon
' (100] thinned block without bevels, without axial gaps (4.) Water
' (200] thinned block without bevels, with axial a s (4) Water plane 10 xpl*l origin x* 0. 33063 y*-
. 4 8 8 z*O rotate al*O a2*0 a3*-4.5 cuboid l 11. 32 245 0. 28063
.. 48828
- 1.4.8828 14. 17876
- 14. 17876 cuboid 200 11.37245 0. 28063 1. 48828
-1. 48828 15.0749
-14. 4272 media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 200 unit 2592 com- "part 59r plastic block ; Edge : Lid Outer Upper; Axial Main9 "
plastic thickness removed*O. 0781 inch *O. 19844 cm
' {10] bevel surface at -x
' [100) thinned block without bevels, without axial gaps
' (200] thinned block without bevels, with axial ga s plane 10 xpl*l origin x*0. 33063 y*-1.48828 z*O cuboid 100 11. 322 45 0.28063 1.48828
~l.4.8828 18 cuboid 200
11. 37245
0. 28063
1. 48828
-1. 48828
19. 8247 media 8 1 10 100 media 4 1 -10 100 inedia 4. 1 -100 200 boundary 200 unit 2594 (8) Nylon (4) Water (4) Water rot.ate al*O a2*0 a3*-45 92856
- 18. 92856
-19. 8247 com* "part 59r plastic block; Edge : Lid Outer Upper; Axial Upperl "
' plastic thickness removed*O. 0781 inch *O. 19844 cm
' (10] bevel surface at -x
' (100] thinned block without bevels, without axial gaps
' {200] thinned block without bevels, with axial gaps pane 10 xpl*l origin x*0. 33063 y*-l.48t28 z*O cuboid 100 11. 32 245 0. 28063 1.48828
- l.48828 13 cuboid 200 11.37245 0. 28063 1.48828
-1.48828 13. 5128 media 8 1 10 100 media 4 1 -10 100 inedia 4 1 -100 200 boundary 200 unit 2596 com-"Array 2596 Part 59R plastic block ; Lid Outer Upper "
(8) Nylon (4) Water (4) Water rotate al*O a2*0 a3*-45 26436
- 13. 26436
-14. 1605 cuboid 10 11. 37245 0. 28063
1. 48828
- 1.48828 206. 8116
-206. 8116 array 2596 10 place 1 l l O O -192. 3844 boundary 10
' 1616 Array 61L Plastic/Nylon Blocks Array : Lid Outer Lower unit 1610 com* "part 611 plastic block ; Edge : Lid Outer Lower ; Axial Lowerl "
' plastic t hickness removed*O. 0781 inch *O. 19844 cm
' (10] bevel surface at -x (8) Nylon
' (1001 thinned block without bevels, without axial gaps (4) Water
' (200) thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l origin x*-10. 66083 y... - l. 4e828 z-0 rotate al"'"O a2.. 0 a3-20 cuboid 100
-0. 24 844
-10. 71083 1. 48828
-1. 48828 14. 17876
- 14. 178? 6 cuboid 200
-0. 19844
- 10.71083 1.48828
-1.48828 15.0749
-14. 4272 media 8 1 10 100 media 4 1 -10 100 media 4 1 -100 200 boundary 200 unit 1612 com*"part 611 plastic block ; Edge : Lid Outer Lower ; Axial Ma i n9 "
' plastic thickness removed*O. 0781 inch asQ. 19844 cm
' (10] bevel surface at -x (8) Nylon
' (lOOJ thinned block without bevels, without axial gaps (4) Water
' {200] thinned block without bevels, with axial a s (4) Water plane 10 xpl*l origin xs - 10. 66083 y...
8828 2."'"0 rotate al,..O a2... 0 a3"" 20 cuboid 100
-0. 2 4844
-10. 71083 1. 48828
-1. 48828 18. 92856
- 18. 92 85 6 cuboid 200
-0. 19844
-10. 71083 1.48828
-1.48828 19. 8247
-19. 8247 media 8 1 10 100 media 4 1 -l O 100 MAP12_ 0. 05_ 1_. in -
MAP12_ 0_ 1_. in
'2596 Array 59R Plastic / Nylon Blocks Array: Lid Outer Upper unit 2590 com* "part 59r plastic block ; Edge : Lid Outer Upper ; Axial Lowerl"
' plastic t hickness removed*O. 0781 inch *O. 19844 cm
[10] bevel.!:urface at -x
[1001 t h i nned block without bevels, without axial gaps
' [200] thinned block without bevels, with axial gaps pane 10 xpl*l origin x*0. 28063 y*-1. 48828 z*O cuboid 100 11. 37245 0.28063
.48828 1.48828 14 cuboid 200 11. 372 45 0. 28063
1. 48828
-1.48828 15.0749 media 8 1 10 100 media 4 1 -10 100 media 4 l -100 200 boundary 200 unit 2592 (8) Nylon (4) Water (4) Water rotate al*O a2*0 a3*-45
~!:~:272
14. 22876. ______________
com* "part 59r plastic block; Edge : Lid Outer Upper; Axial Main9 "
plastic thickness removed*O. 0781 inch *O. 19844 cm
' {10 ) bevel surface at -x
[100] thinned block without bevels, without axial gaps
' {200J thin ned block without bevels, with axial 9a s plane 10 xpl*l origin x*0. 28063 y*-1.48828 z*O cuboid 100
11. 372 45 0 28063 1.48828 1.48828 18 cuboid 200 11. 372 45 0.28063
1. 48828
-1.48828 19.8247 media 8 1 10 100 media 4 1 - 10 100 medi.a 4 1 -100 200 boundary 200 unit 2594 (8) Nylon (4) water (4) Water rotate al*O a2*0 a3--45 97 856
- 18. 97856
-19. 8247 com* "part 59r plastic block; Edge : Lid Outer Upper ; Axial Upper!"
plastic thickness removed*O. 0781 inch *O. 19844 cm
' {10 ] bevel surface at -x
' [100] thinned block without bevels, without axial gaps
{200J thinned block without bevels, with axial a~
plane 10 xpl*l origin x*0. 28 063 y*-1. 48828 z*O cuboid 100 11. 37245 0.28063 l 48828 1. 48828 13 cuboid 200 11. 372 45 0. 28063 1. 48828
-1. 48828 13. 5128 media 8 1 10 100 media 4 1 -10 100 media 4 l -100 200 boundary 200 unit 2596 com* "Array 2596 Part 59R plastic block ; Lid Outer Upper "
18) Nylon (4) water (4) Water rotate al*O a2*0 a3--45 314 36
- 13. 31436
-14. 1605 cuboid 10 11. 37245 O. 28063
1. 48828
-1. 48828 206. 8116
- 206. 8116 array 2596 10 place 1 1 1 O O -192. 3844 boundary 10
' 1616 Array 61L Plastic/Nylon Blocks Array : Lid Outer Lower unit 1610 com* "part 611 plastic block ; Edge : Lid Outer Lower ; Axial Lower]"
' plastic thickness removed-a. 0781 inch *O. 19844 cm
{10] bevel surface at -x (8) Nylon (lOOJ thinned block without bevels, without axial gaps (4) Water
[2001 thinned block without bevels, with axial gaps (4) Water plane 10 xpl*l origin x*-10. 71083 y--1. 48828 z.. O rotate al"'O a2=0 a3"'-20 cuboid 100
- 0. 19844
-10. 1083 1.48828
-1.48828 14. 2287 6
- 14. 228 76 cuboid 200
-0. 19844
-10. 71083 1. 48828
-1.48828 15.0749
-14.4272 media 8 1 10 100 media 4 l - 10 100 media 4 1 -100 200 boundary 200 unit 1612 com* "part 611 plastic block; Edge : Lid Outer Lower; Axial Ma in9 "
plastic thickness removed-a. 0781 inch
O. 19844 cm
[10) bevel surface at -x
18) Nylon
[1001 thinned block without bevels, without axial gaps (4) Water

.. ' pi!~~] l~hi~~e~l blo~:i ; !~ho~=-~;~~i~a 3 with ax!:1 1. :ms Z'"O (4 ~0~='-;~C--="-r -acl --0~ a2""0 a3..,-20 cubo*d 100

- 0. 19844
1083 1. 48828 48828 18. 9785 6
- 18.97856 cuboi d 200
-0. 19844
-10. 71083 1.48828
-1.48828 19. 8247
-19. 8247 media 8 1 10 100 media 4 1 -10 100 Page 14 / 24
media 4 1 - 100 200 boundary 200 MAP12_ 0 05_ 1_. in -
MAP12_ 0_ 1_. in media 4 1 - 100 200 boundary 200 unit. 1614 unit. 1614 com-"part 611 plastic block ; Edge : Lid Outer Lower ; Axial Upper! "
com- "part 611 plastic block ; Edge : Lid Outer Lower ; Axia l Upper! "
' plastic thickness removed=0. 0781 inch ~0.19844 cm
' plast.ic thickness removed=0. 0781 inch -D. 19844 cm (10) bevel surface at - x (8) Nylon
' (10) bevel surface at -x (8) Nylon
[lOOJ thi nned block without bevels, wit hout axial gaps (4) Water
' (100] thinned block without be vels, without axial gaps (4) Water
pl!~~ J thi~:e ~l blo~: 1;!~ho~=- ~;~:!; a /*ith axt:= 1~'1~: 28 z=O (
4
~o::~: r al=O a2=0 a3.. -zoc------------- ' PI!~~ ] l~hi~;1~1 blo~:i ~~~ho~=- ~;~;i;a3 with ax~== l ~:~s 2 z=O (4~o~=~=r a..
a2.. o a3***20 cuboid 100
-0. 24844 Q 7 083 1.48828 -l. 4882B 13. 26436
-13 26436 cuboid 100
-0. 19844
-10.71083 1.48828
-1.48828 13. 31436
-13 31436 cuboid 200
-0. 19844
-10. '71083 1.48828
-1.48828 13. 5128
-14.1605 cuboi d 200
-0. 19844
-10. 71083 1.48828
-1.48828 13. 5128
-14.1605 media 8 1 10 100 media 8 1 10 100 media 4 1 - 10 100 media 4 1 -10 100 media 4 l -100 200 media 4 1 -100 200 boundary 200 boundary 200 unit 1616 com*"Array 1616 Part 61 L plastic block ; Lid Outer Lower n cuboid 10
-0. 19844
-10. 71083 1. 48828
-1. 48828 206. 8116
-206. 8116 array 1616 10 place 1 1 1 O O -192. 3844 boundary 10
' 2616 Array 61R Plastic/Nylon Blocks Array : Lid Outer Lower unit 2610 com* " part 61 r plastic block ; Edge : Lid Outer Lower ; Axial Lowerl "
' plastic thickness removed::0. 078 1 inch a:0. 19844 cm (10] bevel surface at -x (8) Nylon (100 ) thinned block without bevels, without axial gaps (4) Water (2 001 thinned block without bevels, with axial gaps (4) Water plane 10 xp
1 origin x* l0. 66083 y*-1. 48828 z*O rotate al*O a2*0 a3*20 cuboid 100 10.71083 0. 24844 1.48828
-1 48 28 14. 17876
-14. 17876 cuboid 200 10. 71083 0. 19844 1. 48828
-1. 48828 15. 07 49
-14. 4272 media 8 1 - 10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 200 unit. 2612 com* "part 61r plastic block ; Edge : Lid Outer Lower ; Axial Main9 "
' plast ic t hickness removed=O. 0781 inch aQ. 19844 cm (10] bevel surface at -x (8) Nylon (1001 thinned block without bevels, without axial gaps (4) Water
p [!~~J thi:;e ~ blo~:. ;t~ho~=l ~ ~:~:j with a ; !~i.1:p ; 8 z*
(4) wa_t *e rr ~=.~ --
aJ*20 cuboid 100 10. 71083 0.24844 1.48828
-1.48828 18.92856
- 18. 92856 cuboid 200 10.71083 0. 19844
1. 48828
-1.48828 19. 8247
-19. 8247 media 8 1 -10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 2 0 0 unit 2614 com- "part 61r plastic block ; Edge : Lid Outer Lower ; Axial Upperl"
' plastic thickness removed=0. 0781 inch
0. 19844 cm
[10] bevel surface at -x (8) Nylon
[100] thinned block without bevels, without axial gaps (4) Water
[200] thinned block without beve l s, with axial gaps (4) Water plane O
xp -1 origin X""l0. 66083 Y"'". 4 228 z...-o rota 7t -. -
.- -o=.- -o-
.~ -20 cuboid 1 Q 10. 71083 0. 24844 1.48828
-1.48828 13. 26436
-13. 26436 cuboid 200 10. 71083 0. 19844
1. 48828
-1.48828 13. 5128
-14. 1605 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 2616 com* "Array 2616 Part 61R plastic block ; Lid Outer Lower" cuboid 10 10. 71083 0. 19844 1.48828
-1.48828 206. 8116
-206. 8116 array 2616 10 place 1 1 1 O D -192. 3844 boundary 10
' 2 Array 61R Plastic/ Nylon Blocks Array : Lid Outer Lower unit 810 com- "alumi num door and rubber at upper edge of assy" unit 1616 com*"A.rr:ay 1616 Part 61L plastic block ; Lid Outer Lower "
cuboid 10
-0 198 44
-10. 71083 1.48828
- 1. 48828 206. 8116
-206. 8116 array 1616 10 place 1 1 1 0 O -192. 3844 boundary 10
' 2616 Array 61R Plastic/Nylon Blocks Array : Lid Outer Lower unit 2610 com* "pa r:t 61r plastic block; Edge : Lid Out er Lower ; Axial Lowerl "
' plastic t hickness removed=O. 0781 inch =O. 19844 cm
[10] bevel surface at -x (8) Nylon
[100] t hinned block without bevels, without axial gaps (4) Water
[200] thinned block without. bevels, with axial gaps (4) Water plane 10 xpl*l origin x*lO. 71083 y* 1.48828 z*O rotate al*O a2*0 a3*20 cuboid 100 10.71083 0. 19844 1.48828
-1. 48828 14. 22876
- 14. 22876 cuboid 200 10. 71083 0.19844 1.48828
-1.48828 15. 0749
-14. 4272 media 8 1 -10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 200 unit 2612 com* "part 6lr plast ic block ; Edge : Lid Outer Lower ; Axia l Ma in9 "
' plastic t hickness removed*0. 0781 inch -0. 19844 cm (10] bevel surface at -x (8) Nylon
' (100) thinned block without bevels, without axial gaps (4) Water (200] thinned block wit.bout bevels, with axial gaps (4) Wate r plane xp
or g n x*l0. 71083 y*-1. 488 8 z*
rota""t -=-e -=a*1=-o= a*2=-o= a*J=*2"'0.------~-------.
cuboid 100 l0.71083 0. 19844 1. 48828
-1. 48828 18. 97856
-18. 97856 cuboid 200 10. 71083 0. 19844 1.48828
-1.48828 19. 8247
-19. 8247 media 8 1 - 10 100 media 4 1 10 100 media 4 1 - 100 200 boundary 200 unit 261-4 com-"par:t 6lr plastic block ; Edge : Lid Outer: Lower ; Axia l Upperl"
' pla!:t.ic thickness removed=O. 0781 inch... o.19844 cm (10] bevel surface at -x (8) Nylon
[ lOOJ thinned block without bevels, without axial gaps (4) Water
' (200] thinned block without bevels, with a xial gaps (4) Water plane O
xp origin X"'lO. 71083 y*-1.4 8 rotate al"'O a2=0 a3.,20 cuboid 100 10.71083 0.1984 4 1.48828
-1.48828 13. 31436
-13. 31436 cuboi d 200 10. 71083 0. 1984 4
1. 48828
-1.48828 13. 51 28
-14. 1605 media 8 1 -10 100 media 4 1 10 100 media 4 1 -100 200 boundary 200 unit 2616 com*"A.rray 2616 Part 61R plastic block ; Lid Outer Lower "
cuboid 10 10. 71083 O. 19844
1. 48828
-1. 48828 206. 8116
-206. 8116 ar r a y 2616 10 place 1 1 1 O O - 192. 3844 bounda r y 10
' 2 _Array_ 61R Pl astic / Nylon Blocks Array : Lid Outer Lower unit 810 com*"aluminum door and rubber at upper edge of assy" Page 15/ 2 4
MAP12_0. 05_ 1_. in -
MA.P12_0_1_. in nominal aluminum dims : 0. 25 " thk by 7. 9" wide by 35.0" long tolerances : 0. 03 " by 0. 1" by 0.1" dimensions modeled : 0. 22 " by 7. 8" by 34. 9" there is a nominal O. 25" axial gap, modeled as O 25 + 0. 03 (gap toll +. 1 {half of alum length tol times two) axial gap modeled as 0. 38"
[20) this is a rubber layer, modeled as 0. 325" of Delrin
[40) this is aluminum
[60) gap cuboid 20 9. 906
-9. 906 O. 8255 cuboid 40 9. 906
- 9. 906 1.3843 cuboid 60 9. 906
-9. 906 1.3843 media 15 1 20 media 13 1 40 -20 media 9 1 60 -40 boundary 60 unit 820 44. 323
44. 323 44.8056 com* "aluminum door and rubber at upper edge of assy "
there are 4 units 810, unit. 820 is at -z end 4.. 44.8056
"" 179.2224 tot.al length here is 207. 01 -
179. 2224
27. 7876 gap is final 0.1~ " (0.1826 cm) of the length
-44. 323
- 44. 323
-44. 8056
[20) this is a rubber layer, modeled as 0. 325" of Delrio
[40) thi s is aluminum
[ 60] gap cuboid 20
9. 906
-9 906 0. 8255 cuboid 40 9. 906
-9. 906 3843 cuboid 60 9.906
-9. 906 3843 media 15 1 20 media 13 l 40 -20 media 9 1 60 - 40 boundary 60 unit. 830 com*"same as unit 820 except gap at -z end "
27. 305 27. 305 27. 7876 (20) this is a rubber layer, modeled as 0.325"
( 40) this is aluminum of Delrin I
[ 60) gap cuboid 20 9. 906
-9. 906 0. 8255 cuboid 40 9. 906
- 9. 906 1.38-43 cuboid 60 9. 906
-9. 906 1.3843 media 15 1 20 media 13 1 40 -20 media 9 1 60 -40 boundary 60 uni t. 840 com= "a xial 2 array of doors "
cuboid 10 9. 906
-9. 906 1.3843 array 2 10 place 1 1 1 0 0 -207. 01 boundary 10 uni t 860 com* "steel bar at center of package "
cuboid 20 2. 159
-2. 159 1. 778 media 11 l 20 boundary 20
' Fuel Assembl y Unit unit. 900 com= " fuel assembly, not rotated "
27. 7876
27. 7876 27.7876
o. 4846 0. 4846 0
207. 01
-207. 01 207. 01
-207. 01 cuboid 10 21.4503 0
21.4503 207. 01
-207 01 array 1 10 place 1 1 1 0. 71501 0. 71501 0 cuboid 15 21.4503
-0 21.4503
-0 207. 01
-207 01 cuboid 20 23. 863
-0. 635 23. 863
-0. 635 207. 01
-207 01 hole 840 origin x... 11. 5443 y==21. 4503 hole 840 origin x*21. 4503 y*ll. 5443 rotate a3*-90 hole 200 origin X"'lO. 795 y=-0. 3175 Z'"'O hole 200 origin x*-0. 3175 y*lO. 795 z*O rotate al*O a2*0 a3*90 media 15 1 - 10 15 media 9 1 -15 20 boundary 20 Delrin Aluminum Water Delrio aluminum Wat.er Delrin aluminum Wat er
{15)
(13)
(9)
(15)
(13)
(9)
(15)
(13)
(9) nominal aluminum dims : 0.2 5" thk by 7. 9" wide by 35 0 " long t.olerances : 0. 03 " by 0. 1" by 0. 1" dimensions modeled : 0. 22 " by 7. 8 " by 34. 9 "
there is a nominal O. 25 " a xial gap, modeled as O 25 + 0. 03 (gap tol) +. 1 (half of alum length tol times two) axial gap modeled as O. 38 "
[20) this is a rubber layer, modeled as 0. 325 " of Delrin
[40]
this is aluminum
[60) gap cuboid 20
9. 906
-9 906 0. 8255 cuboid 40 9.906
- 9 906 1.3843 c uboid 60 9. 906
-9 906 1.3843 media 15 1 20 media 13 1 40 -20 media 9 1 60 -40 boundary 60 unit 820 44. 323 44. 323 44.8056 com* "aluminum door and rubber at upper edge of assy" there are 4 units 810, unit 820 is at -z end 4.. 44.8056 -
179. 2224 total length here is 207. 01 -
179. 2224
27. 7876 gap is final 0.1 9 " (0.4826 cm) of the length
-44. 323
- 44. 323
-44. 8056
[20 ]
this is a rubber layer, modeled as 0. 325" of
[40] this is aluminum Delrin
[ 60] gap cuboid 20 9. 906
-9. 906 cuboid 40 9. 906
-9. 906 cuboid 60 9. 906
-9. 906 media 15 l 20 media 13 1 40 -20 media 9 1 60 - 40 boundary 60 unit 830 8255 3843 3843 com- "same as unit 820 e xcept gap at -z end "
27. 305 27. 305 27. 7876 (20 )
this is a rubber layer, modeled as 0.325" of Delrin
' [40] this is aluminum
[60] gap cuboid 20 cuboid 40 9. 906 9. 906 cuboid 60 9. 906 media 15 1 20 media 13 1 40 -20 media 9 1 60 -40 boundary 60 unit 840
-9. 906
- 9. 906
-9. 906 com..,"axial 2 array of doors" 0. 8255 1.3843 1.3843 cuboid 10 9. 906
-9. 906 1.3843 array 2 10 place 1 1 1 0 0 -207. 01 boundary 10 unit 860 com* "steel bar at center of package "
cuboid 20 2. 159
-2.159 1. 778 media 1'I 1 20 boundary 20
' Fue l Assembly Unit unit 900 com,., "fuel assembly, not rotated "
27. 7876
27. 7876 0
27. 7876 0. 4846
0. 4846 0
207. 01
-207. 01 207.01
-207. 01 cuboid 10 21. 4503 O
21 4503 207. 01
-207 01 array l 10 place l 1 1 0. 71501 O. 71501 O cuboid 15 21. 4503
-0 21. 4503
-0 207. 01
-207 01 cuboid 20 23. 863
-0. 635 23. 863
-0. 635 207. 01
-207 01 hole 840 origin x=ll. 5443 y=21. 4503 hole 840 origin x*21. 4503 y*ll. 5443 rotate a3*-90 hole 200 origin x=l0. 795 y=-0. 3175 z=O hole 200 origin x--0. 3175 y*lO. 795 z-0 rotate al*O a2*0 a3-90 media 15 1 - 10 15 media 9 1 -15 20 boundary 20 Page 16/ 24 Delrin Aluminum Waler Delrin aluminum Water Delrin aluminum Wat er
{15)
(13)
(9)
(15)
(13)
(9)
(15)
(13)
(9)
MAP12_ 0 05_ 1_. in -
MAP12_0_ 1_. in
Package of two fuel assemblies unit 1000 com*"one package "
' bundle c-c spacing is 15. 2 "
diamond is 10. 03 " x 9. 86 " (across outer steel surfaces) diamond diagonal is 14.0649" distance to spacers from diagonal: 8. 10 " (lower) and 8. 62 " (upper) vertical sum is 30. 78" distance to outer surface of steel wall is 4. 10" (lower) and 4. 62" (upper) horizontal span across outer steel surfaces: 41. 95 "
model steel as O. 115" thick base is 21. 5 " tall, including spacer height (54. 61 cm) top of base is at Y"" 54. 61 -
20. 574 = 34. 036 cm (21 inner steel surface hanging central blocks with steel carriers
[ 41 outer steel surface hanging central blocks with steel carriers (580] inner surface of steel (590] out.er surface of steel (600] package is 44. 98" wide by 30.78 " high by 207.98" long modeled as 42.98 " by 28.78 " by 163 (860] top of bar is O. 25 " below bottom of steel carrier 14. 7707 -
0. 25
2. 54 -
0. 7
2. 54
12 3577 (hole 300] Steel Base Inner Full (hole 310] Steel Base Outer Full
[hole 320] Steel Lid Inner rull (hole 330] Steel Lid Inner Upper
[hole 340] St.eel Lid Outer Upper
[hole 350] Steel Lid Outer Lower
[hole 406] Boral Base Inner Full
[hole 416] Baral Base Outer Full
[hole 426) Bora! Lid Inner Lower
[hole 436) Baral Lid Inner Upper
{hole 446] Baral Lid Outer Upper
[hole 456) Baral Li d Outer Lower
{hole 1166] Plastic Base Inner Full
{hole 2166] Plastic Base Inner Ful l (hole 1166) Plastic Base Outer Full
[hole 2166] Plastic Base Outer Full
[hole 1556] Plastic Lid Inner Lower
[hole 2556] Plastic Lid Inner Lower
[hole 1576] Plastic Lid Inner Upper
[hole 2576] Plastic Lid Inner Upper
[hole 1596] Plastic Lid Outer Upper
[hole 2596) Plastic Lid Outer Upper
[hole 1598} Plastic Lid Outer Upper Wedge
[hole 2598} Plastic Lid Out er Upper Wedge (hole 1616] Plastic Lid Outer Lower
[hole 2616} Plastic Lid Outer Lower cuboid 2 1. 6256
-1. 6256 22. 45 14. 9866 cuboid 4 1.8415
-1.8415
22. 45 14. 7707 wedge
1. 3518 0
1. 3518 207 01
-207. 01 207 01
-207. 01 413. 92 origin x--1. 3518 y-20. 325 z* - 206. 96 wedge 8
1. 3518 1. 3518
1. 3518 413. 92 origin xaoO y,.20 3255 zs - 20 6. 96 cuboid 10 1.3518
-1. 3518 20 3255 98 6 206. 96
-206. 96 plane 11 zpl=l origin x* O y* O zs-195. 4197 plane 12 zpl=l origin x*O y*O zs-164. 0411 pl ane 13 zpl*l origin x-0 y*O z*-105.5545 plane 14 zpl=l origin x* O y*O z=-74. 17587 plane 15 zpl-1 origin x-0 y*O z*-15. 68933 plane 16 zpl* l origin x* O y* O z=15. 68933 plane 17 zpl*l origin x-0 y*O z*74. 17587 plane 18 zpl-1 origin x*O y* O z=l05. 5545 plane 19 zpl*l origin x-0 y*O z*l64. 0411 p l ane 20 zpl*l origin x-o y*O z-195 4197 plane 31 ypl-"l origin x* O yaal6 z==O cuboid 32
-17
-30 5 34. 5 26 207. 01
-207. 01 rotate al*O a2*0 a3*20 cuboid 33 30. 5 17 34.s 26 207. 01
-207. 01 rotate al* O a2=0 a3,,.-20 cuboid 34 3. 2
-5 24. 5 0
207. 01
-207. 01 origin x*-1. 828 y-17. 942 z-0 rotate al*O a2*0 a cuboid 35 5
- 3.2 24. 5 0
207. 01
- 207. 01 origin X"'l. 828 Y"l7. 942 z* O rotate al*O a2* 0 a3 cuboid 36 41
-41 22 16 207. 01
-207. 01 cuboid 580 52. 9844
-52. 9844 47. 1675
-10.1981 207. 01
-207 01 cuboid 590 53. 2765
-53. 27 65
47. 4596
-10. 414 207. 01
-207. 01 cuboid 600 54. 5846
-54. 5846
47. 4596
-18.034 207. 01
-207. 01 hole 860 origin x=O y-12. 3577 z=O hole 900 origin x*l9. 304 y-1. 36501
,-o rotate al*O a2-0 a3*45 hole 900 origin x=- 19. 304 y* l. 36501 z=O rotate al=O a2=0 a3-45 hole 300 origin x* -10. 73161 y-8. 80588 z-0 rotate al*O a2*0 a3*45 hole 300 origin x*lO. 73161 y*B. 80588 z*O rotate al*O a 2*0 a3*-45 hole 310 origin x:-27. 39379 y-8. 32328 z=O rotate al=O a2=0 a3=-45 hole 310 origin x*27. 39379 y*8. 32328 z-0 rotate al-0 a2*0 a3*45 Page
' Package of two fuel assemblies unit 1000 com*"one package "
' bundle c - c spacing is 15. 2 "
diamond is 10. 03" x 9. 86 " (across outer steel surfaces) diamond diagonal is 14. 0649" distance to spacers from diagonal : 8.10" (lower) and 8. 62 " (upper) vertical sum is 30. 78 "
distance to outer surface of steel wall is 4. 10 " (lower) and 4. 62 " (upper) horizontal span across outer steel surfaces : 41. 95" model steel as O. 115" thick base is 21. 5 " tall, including spacer height (54. 61 cm) top of base i s at y* 54. 61 -
20. 574 -
34. 036 cm
[2]
inner steel surface hanging central blocks with steel carriers
[4]
outer steel surface hangi ng central blocks with steel carriers
[580] inner surface of steel (590] outer surface of steel
( 600] package is 44. 98 " wide by 30. 78" high by 207. 98 " long modeled as 42. 98 " by 28 78" by 163 (860) top of bar is 0.25 " below bottom of steel carrier 14. 7707 -
0.25
2. 54 -
0. 7
2. 54 -
12.3577 (hole 300] Steel Base Inner Full
[hole 310] Steel Base Outer Full (hole 320] Steel Lid Inner Full
[hole 330] Steel Lid Inner Upper
[hole 340] Steel Lid Outer Upper
[hole 350] Steel Lid Outer Lower
[hole 406) Baral Base Inner Full
[hole 416] Boral Base Outer Full
[hole 426) Bora! Lid Inner Lower
[hole 436] Boral Lid Inner Upper
[hole 446] Baral Lid Outer Upper
[hol e 456] Bora! Lid Outer Lower
[hole 1166] Plastic Base Inner rull
[hol e 2166] Plastic Base Inner rull
[hole 1166] Plastic Base Outer Full
[hole 2166] Plastic Base Outer Full
[hole 1556] Plastic Lid Inner Lower
[hole 2556] Plastic Lid Inner Lower
[hole 1576) Plastic Lid Inner Upper
[hole 2576] Plastic Lid Inner Upper
[hole 1596] Plastic Lid Outer Upper
[hole 2596] Plastic Lid Outer Upper
[hole 1598] Plastic Lid Outer Upper Wedge
[hole 2598) Plastic Lid Outer Upper Wedge
[hole 1616] Plastic Lid Outer Lower
[hol e 2616] Plastic Lid Outer Lower cuboi d 2 1. 6256
-1.6256 22. 45
14. 9866 cuboid 4
1. 8415
-1.8415 22. 45 14. 7707 wedge
1. 4018 0
1. 4018 207.01
-207. 01 207. 01
-207. 01 414. 02 origin x*-1. 4018 y-20. 3255 z--207 01 wedge 8
1. 4018 1.4018 1. 4018 1\\14. 02 origin X'"'O yoc20. 3255 z*-207. 01 d
1. 4018
-1. 4018 20. 32 207. 01
-207. 01 plane 11 zpl-1 origin X""O }'-0 Z""- 195.4197 plane 12 zpl=l origin x*O y=O z=-164.0411 plane 13 zpl*l origin x*O y*O z--105. 554 5 plane 14 zpl=l origin x* O r*O z:-74. 17587 plane 15 zpl-1 origin x*O y-0 z--15. 68933 plane 16 zpl* l origin x=O y=O Z""'l5. 68933 plane 17 zpl*l origin x*O y*O z-74.17587 plane 18 zpl* l origin x*O y*O z* l05. 5545 plane 19 zpl*l origin x*O y*O z-164. 0411 plane 20 zpl*l origin x-0 y*O z*l95 4197 plane 31 ypl=l origin x*O y=16 z=O cuboid 32
-17
-30. 5 34. 5 26 207 01
-207. 01 rotate al* O a2*0 a3*20 cuboid 33 30.5 17 34. 5 26 207 01
-207. 01 rotate al=O a2*0 a3* -20 cuboid 34 3. 2
-5 24. 5 0
207 01
-207. 01 origin x*-1.828 y*17.942 z*O rotate al*O a2*0 a cuboid 35 5
- 3.2 24. 5 0
207 01
- 20'1. 01 origin x=l. 828 y* l 7. 942 z* O rotate al* O a2- 0 a3 cuboid 36 41
-41 22 16 207 01
-20'1. 01 cuboid 580 52 9844
-52. 9844 47. 1675
- 10.1981 207. 01
-207. 01 cuboid 590 53 2765
-53. 2765 47. 4596
-10.414 207. 01
-207. 01 cuboid 600 54 5846
-54. 5846 47. 4596
-18.034 207. 01
-207. 01 hole 860 origin x- 0 y=12. 3577 z* O hole 900 origin x*l9. 304 y*l. 36501 z-0 rotat.e al*O a2*0 a3*45 hole 900 origin x*-19. 304 y=l. 36501 zsQ rotate al=O a2.. o a3-45 hole 300 origin x*-10. 73161 y*8. 80588 z*O rotate al*O a2*0 a3*45 hole 300 orig in x*lO. 73161 y*8. 80588 z*O rotate al*O a2*0 a3*-45 hol e 310 origin x--27. 39379 y=8. 32328 z* O rotate al=O a2.. o a3* -45 hole 310 origin x*27. 39379 y*8. 32328
,-o rotat.e al*O a2*0 a3*45 17 / 24
hole 320 origin x=-4. 86824 hole 320 origin x-4. 86824 hole 330 origin x=- 15.05185 hole 330 origin x:a:15. 05185 hole 340 origin x*-23. 67289 hole 340 origin x=23. 67289 hole 350 origin x--34. 23368 hole 350 origin x=34. 23368 hole 406 origin x*-11. 31247 hole 406 origin x=ll. 31247 hole 416 origin x*-27. 29553 hole 416 origin x-27. 29553 hole 426 origin x=-4. 85567 hole 426 origin x*4. 85567 hole 436 origin x""-15. 2099 hole 436 origin x-15. 2099 hole 446 origin x=- 23.87405 hole 446 origin x*23. 87405 hole 456 origin x--33. 78 217 hole 456 origin x=33. 782 17 hole 1166 origin x- -10. 15323 hole 2166 origin x=lO. 15323 hole 1166 origin x*-28. 454 77 hole 2166 origin x=28.4547 7 hole 1556 origin x* -4. 63037 hole 2556 origin x*3. 46294 hole 1576 origin x=-17.87625 hole 2576 origin x-17. 87625 hole 1596 origin x=-20. 1918 hole 2596 origin x-20. 1918 hole 1598 origin x=-28. 09172 hole 2598 origin x*27. 11026 hole 1616 origin x--29. 12357 hole 2616 origin x=29.12357 media 9 1 32 31 media 9 1 33 31 media 32 -31 media 33 - 31 media 34 -4 media 35 4 y*25 67904 y-25 67904 y-31 62397 y-31 62397 y-30 89657 y=30. 89657 y-24. 21537 y=21\\. 21537 y-7. 7778 y* 7. 7778 y-7. 7778 y-7. 7778 y-26. 03286 y-26. 03286 y-32. 14842 y-32.14 842 y-31. 06181 y*31. 06181 y-24. 66807 Y""24. 66807 y-6. 61856 y*6. 61856 y-6. 61856 y*6. 61856 y-28.1 2605 y-26. 95862 y*37. 13325 y-37. 13325 y*37. 20396 y-37. 20396 y,z27. 05787 y-28. 03933 y-28. 13077 y-28. 13077 media 36 34 32 -4 media 9 1 4 -11 31 media 4 l 4 31 media 10 1 4 -2 11 -12 media 8 l 6 11 - 12 media 8 1 8 11 -12 media 8 10 11 - 12 media 9 2 8 -10 11 -12 media 9 4 12 -13 31 media 4 1 4 12 31 media 10 1 4 -2 13 -14 media 8 1 6 13 - 14 media 8 8 13 -14 media 10 13 - H media 2 8 -10 13 -14 media 4 14 -15 31 media 4 1 4 14 31 media 10 1 4 -2 15 -16 media 8 1 6 15 - 16 media 8 1 8 15 -16 media 10 15 - 16 media 2 8 -10 15 -16 media 4 16 -17 31 media 4 4 16 31 media 10 1 4 -2 17 -18 media 8 1 6 17 -18 media 8 8 17 -18 media 8 10 17 - 18 media 9 2 8 -10 17 -18 media 9 4 18 -19 31 media 4 1 4 18 31 media 10 1 4 -2 19 -20 media 8 1 6 19 -20 media 8 8 19 -20 media 8 10 19 - 20 media 9 2 8 -10 19 -20 media 9 4 20 31 media 4 4 20 - 31 media 4 580 33 35 4 z=O rotate al*O a2=0 a3s-45 z-0 rotate al*O a2*0 a3*45 z=O rotate al=O a2-0 a3=- 45
z:=O rotate al*O a2=0 a3a 45 z-0 rotate al*O a2*0 a3*45 z-0 rotate al*O a2=0 a3... -l\\5 z-0 rotate al*O a2*0 a3*20 z*O rotate a l =O a2=0 a3=- 20 z-0 rotate al*O a2*0 a3*45 z-0 rotate al.,,O a2=0 a3.. - 45 z-0 rotate al*O a2*0 a3*-45 z-0 rotate al-0 a2*0 a3*45 z*O rotate alcO a2"'0 a3*-4 5 z*O rotate al-180 a2-0 a3*45 z=O rotate al* O a2=0 a3=-45 z-0 rotate al-180 a2-0 a3*45 z=O rotate al-0 a2=0 a3=45 z-0 rotate al-180 a2-o a3*- 45 z-0 rotate al-0 a2*0 a3*20 z-0 rotate al-180 a2=0 a3=-20 z-0 rotate al*O a2*0 a3*45 z=O rotate al-=O a2=0 a3*-45
, -o rotate al*O a2*0 a3*-45 z=O rotate al=O a2=0 a3=45 z-0 rotate al*O a2*0 a3*-45 z-0 rotate al*O a2-o a3*45 z*O rotate al-0 a2=0 a3=-45 z-0 rotate al*O a2*0 a3*45 z=O rotate al=O a2=0 a3=1\\5 z-0 rotate al*O a2*0 a3*- 45 z=- 207. 01 rotate al=O a2- 0 a3-45
z:*-207.01 rotate al*O a2*0 a3--45 z-o rotate al*O a2*0 a3*20 z*O rotate al - 0 a2=0 a3=-20 MAP12_0 05_1_. in -
MAP12_ 0_1_. in hole 320 origin x=- 4. 86824 hole 320 origin x*4. 86824 hole 330 origin X""- 15. 05185 hole 330 origin x*l5. 05185 hole 3 40 origin x*-23.67289 hole 340 origin xa23. 67289 hole 350 origin x*-34. 23368 hole 350 origin x*34. 23368 hole 406 origin x*-11.31247 hole 406 origin x=ll. 31247 hole 416 origin x*-27. 29553 hole 416 origin x*27. 29553 hole 426 origin x*-4. 85567 hole 426 origin x-4. 85567 hole 436 origin x--15.2099 hole 436 origin x-15.2099 hole 446 origin x*-23. 87 405 hole 446 origin x*23. 87405 hole 456 origin x- -33. 78217 hole 456 origin x* 33. 78217 hole 1166 origin x*-10. 15323 hole 2166 origin x=-10. 15323 hole 1166 origin x*-28. 45477 hole 2166 origin x-28.45477 hole 1556 origin x*-4. 63037 hole 2556 origin x-3.4 6294 hole 157 6 origin x*-17.87625 hole 2576 origin x*l 7. 87625 hole 1596 origin x*-20.1918 hole 2596 origin x-20.1918 hole 1598 origin x,..- 28. 09172 hole 2598 origin x*27. 11026 hole 1616 origin x*- 29. 12357 hole 2616 origin xz29. 12357 media 9 1 32 31 media 9 1 33 31 media 4 1 32 -31 media 4 1 33 - 31 media 9 34 -4 media 9 35 4 y=25. 67904 y-25. 67904 Y,,'"31. 62397 y=31. 62397 y-30. 89657 y=J0. 89657 y*2 4.21 537 y=24. 21537 y-7. 7778 y=7. 7778 y-7. 7778 y-7. 7778 y-26. 03286 y-2 6. 03286 y-32. 14842 y-32. 14842 y-31. 0618 1 y-3 1. 06181 y-24. 66807 y=24. 66807 y-6. 61856 y=6. 61856 y-6.61 856 y-6. 61856 y-28. 12605 y-26. 95862 y=37. 13325 y-37. 13325
}'"'37. 20396 y-37. 20396 y-27. 05787 y-28. 03933 y-28. 13077 y=28. 13077 media 9 36 34 32 -4
,nedia 9 1 4 -11 31 media 4 1 4 31 media 10 1 4 -2 11 -12 media 8 l 6 11 - 12 media 8 1 8 11 -12 media 8 1 10 11 - 12 media 9 1 2 8 -10 11 -12 media 9 1 4 12 -13 31 media 4 1 4 12 31 media 10 1 4 -2 13 -14 media 8 1 6 13 - 14 media 8 8 13 -1 4 media 10 13 - 14 media 2 8 -10 13 -14 media 4 14 -15 31 media 4 1 4 14 31 media 10 1 4 -2 15 -16 media 8 1 6 15 - 16 media 8 1 8 15 -16 media 8 1 10 15 - 16 media 9 1 2 8 -10 15 -16 media 9 1 4 16 -17 31 media 4 1 4 16 31 media 10 1 4 -2 17 -18 media 8 1 6 17 -18 media 8 8 17 -18 media 8 10 17 - 18 media 9 2 8 -10 17 -18 media 9 4 18 -19 31 media 4 1 4 18 31 media 10 l 4 -2 19 -20 media 8 1 6 19 -20 media 8 1 8 19 -20 media 1 10 19 - 20 media 1 2 8 -10 19 -20 media 9 4 20 31 media 4 4 20 -31 media 4 1 580 33 35 4 Page 18 / 24 z-o rotate al=O a2=0 a3=- 45
,-o rotate al*O a2*0 a3*45 z*O rotate al=O a2z0 a3*-45 z-0 rotate al=O az.. o a3*45 z*O rotate al *O a2*0 a3*45 z- 0 rotate al=O a2..:0 a3*-45
,-o rotate al*O a2*0 a3*20 z*O rotate al=O a2zO a3=- 20 z-0 rotate al*O a2-0 a3*45
, -o rotate al,.,O a2- 0 a3- - 45 z-o rotate al*O a2*0 a3*-45 z-0 rotate al*O a2*0 a3*45 z-o rotate al- 0 a2* 0 a3- -45
, -o rotate al*l80 a2*0 a3*45 z*O rotate al=O a2=0 a3..,-45 z-0 rotate al-180 a2*0 a3*45 z*O rotate al=O a2=0 a3.,.45 z-0 rotate al - 180 a2-o a3*-45 z-o rotate al*O a2*0 a3*20 z- 0 rotate al-180 a2* 0 a3* -20 z-0 rotate al-0 a2*0 a3*45 z=O rotate al=O a2=0 a3=-45 z-0 rotate al-0 a2*0 a3*-45 z*O rotate al=O a2=0 a3*45 z-0 rotate al-0 a2*0 a3*-45 z-0 rotate al*O a2*0 a3*45 z- 0 rotate al* O a2*0 a3* -45 z-0 rotate al*O a2*0 a.3-45 z-0 rotate al:::0 a2s0 a3*1\\5 z-0 rotate al*O a2*0 a.3--45 zs-207. 01 rotate al-"'0 a2.. o a3-45 z*-207. 01 rotate al-0 a2*0 a3*-45 z-0 rotate al*O a2*0 a3*20 z- 0 rotate al.. Q a2*0 a3ai-20
media 11 l - 580 590 media 4 l -590 600 boundary 600
' Single Package of two fuel assemblies flipped unit 1001 com* "zingle container flipped" cuboid 600 54. 5846
-54. 5846 47 4596
-18. 034 207.01
-207.01 hole 1000 origin x-0 y-29. 4256 z*O rotate al*O a2*0 a3*180 boundary 600
' 3x6xl Packages of two fuel assemblies flipped global uni t. 2000 com="global unit 2000 references array 2000 "
cuboid 10 545. 846 O
523. 9488 O
arra)' 2000 10 place 1 l 1 54. 5846 18. 034 207. 01 cuboid 20 575.846
-30 553. 9488
-30 media 9 1 - 10 20 boundary 20 end geometry read array
' Aluminum Door Array ara*2 nux*l nuy*l nuz-6 typ*square fill 820 810 810 810 810 830 end fill 414.02 444. 02
-30 Fuel Rod Array ara=l nux* l5 nuy-15 nuz-1 typ=square fill 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 30 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 end fill Boral Base Inner Full ara*406 nux*l nuy*l nuz*ll typ-square fill 400 40 2 402 402 402 402 402 402 402 402 404 end fill MAP12_ 0 05_1_. in -
MAP12_ 0_1_. in media 11 l - 580 590 media 4 l -590 600 boundary 600
' Single Package of two fuel asse1nblies flipped unit 1001 com* "zingle container flipped" cuboid 600 54.5846
-54. 5846 47 4596
-18. 034 207.01
-207. 01 hole 1000 origin x*O y-29. 4256 z-0 rotate al*O a2*0 a3*180 boundary 600
3x6xl Packages of two fuel azsemblies flipped globa l uni t 2000 coma"global unit 2000 references array 2000" cuboid 10 545.846 O
523. 9488 array 2000 10 place 1 1 l 54.5816 18.034 cuboid 20 575.846
-30 553. 9488 media 9 l - 10 20 boundary 20 end geometry read array
' Aluminum Door Array ara*2 nux*l nuy-1 nuz*6 typ-square f i ll 820 810 810 810 810 830 end fill 0
207. 01
-30 414. 02 444. 02
-30
' Fue l Rod Array ara* l nux* l5 nuy* l5 nuz* l typ=square fill 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 30 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 30 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 10 10 30 10 10 10 10 10 10 10 10 10 30 10 10 30 10 10 10 30 10 10 30 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 end fill I-----------------------------------------------------------------
Bora! Base Inner Full ara*406 nux*l nuy*l nuz*ll typ*square fill 400 402 402 402 402 402 402 402 402 402 404 end fill Page 19/ 24
' Bora! Base Outer f'ull ara=416 nux=l nuy""l nuz=ll typ=square fill 410 412 412 412 412 412 412 412 412 412 414 end fill
' Bora! Li d Inner Lower araz 426 nux'"' l nuy=l nuz=ll typ=square fill 420 422 422 422 422 422 422 42 2 422 42 2 424 end fill
' Bora! Li d Inner Upper ara-436 nux-1 nuy*l nuz*l l typ-square fill 430 432 432 432 432 432 432 432 432 432 434 end fill
_ Boral _ Lid Outer Upper ara=416 nux'"'l nuy* l nuz=ll typ=square fill 440 442 44 2 442 442 442 442 442 442 44 2 444 end fill
' Boral Lid Outer Lower ara-456 nux*l nuy*l nuz*ll typ*square fill 450 MAP12_0. 05_1_. in -
MAP12_0_l_. in
' Boral Base Outer f'ull ara-416 nux-1 nuy-1 nuz-ll typ=square fill 410 412 412 412 412 412 412 412 412 412 414 end fill
' Bora! Lid Inner Lower ara-426 nuxs l nuy=l nuz=ll typ=square fill 420 422 422 422 422 422 422 422 422
'22 124 end fill
Bora! Li d Inner Upper ara*436 nux-1 nuy*l nuz*ll typ*square fi ll 430 432 432 432 432 432 432 432 432 432 434 end fill
' Bora! Lid Outer Upper ara.. 416 nux=l. nuy=l nuz=ll typ=square fill 440 442 442 442 442 442 442 442 442 442 444 end fill
' Boral Lid Outer Lower ara*456 nux*l nuy*l nuz*l l t yp*square fill 450 Page 20 / 24
452 452 452 452 452 452 452 452 452 454 end fill
' Plastic Base Inner Full ara-1166 nux*l nuy*l nuz*ll t.yp*square fill 1160 1162 1162 1162 1162 1162 1162 1162 1162 1162 1164 end fill
' Plastic Base Inner Full ara*2166 nux*l nuy*l nuz*ll t.yp*square fill 2160 2162 2162 2162 2162 21 62 2162 2162 2162 2162 2164 end fill
Plastic Base Outer Full ara* ll76 nux* l nuy=l nuz =-11 t.yp*square fill 1170 1172 1172 1172 1172 1172 1172 1172 1172 1172 1174 end fill
' Plast ic Base Outer Full ara* 2176 nux*l nu}** l nuz* ll typ*square fill 2110 2172 2172 2172 2172 2172 2172 2172 2172 2172 MAP12_ 0. 05_ 1_. i n -
MAP12_ 0_1_. in 452 452 452 452 452 452 452 452 452 454 end fill
' Plastic Base Inner Full ara*ll66 nux*l nuy*l nuz*ll typ*square fill 1160 1162 1162 1162 1162 1162 1162 1162 1162 1162 1164 end fill
' Pla!ltic Base Inner Full ara*2166 nux*l nuy*l nuz*ll typ*square fill 2160 2162 2162 2162 2162 2162 2162 2162 2162 2162 2164 end fill
Plastic Base Out.er full ara*ll76 nux* l nuy* l nuz* ll typ=square fill 1170 1172 1172 1172 1172 1172 1172 1172 1172 1172 1174 end fill
' Plastic Base Outer Full ara*2176 nux*l nuy* l nuz* ll typ*square fill 2170 2172 2172 2172 2172 2172 2172 2172 2172 2172 Page 21 / 24
2174 end fill
' Plastic Lid Inner Lower ara*1556 nux*l nuy*l nuz-11 typ-square fill 1550 1552 1552 1552 1552 1552 1552 1552 1552 1552 1554 end fill
' Plastic Lid Inner Lower ara-2556 nux-1 nuy*l nuz*ll typ*square fill 2550 2552 2552 2552 2552 2552 2552 2552 2552 2552 2554 end fill
' Plastic Base Outer Full ara*1576 nux*l nuy*l nuz*ll typ-square fill 1570 1572 1572 1572 1572 1572 1572 1572 1572 1572 1574 end fill
' Plastic Base Outer Full ara-2576 nux*l nuy*l nuz*ll typ*square fill 2570 2572 2572 2572 2572 2572 2572 2572 2572 2572 2574 end fill
' Plastic Lid Outer Upper ara-1596 nux* l nuy==l nuz,..11 typ* squar e fill MAP12_ 0.05_1_. in -
MAP12_0_1_.in 2174 end fill
' Plastic Lid Inner Lower ara*1556 nux*l nuy*l nuz*ll typ*square fill 1550 1552 1552 1552 1552 1552 1552 1552 1552 1552 1554 end fill
' Plastic Lid Inner Lower ara-2556 nux*l nuy*l nuz*ll typ*square fill 2550 2552 2552 2552 2552 2552 2552 2552 2552 2552 2554 end fill
' Plastic Base Out.er Full ara*l576 nux*l nuy*l nuz*ll t.yp*square fill 1570 1572 1572 1572 1572 1572 1572 1572 1572 1572 1574 end fill
' Plastic Base Outer Full ara*2576 nux*l nuy*l nuz*ll t.yp*square fill 2570 2572 2572 2572 2572 2572 2572 2572 2572 2572 2574 end fill
-~=~~==~ Lid Outer Upper ara*l596 nux=l nuyal nuz* ll t yp-square fill Page 22/24
1590 1592 1592 1592 1592 1592 1592 1592 1592 1592 1594 end fill
' Plastic Lid Outer Upper ara=-2596 nux=l nuy=l nuz=ll typ-square fill 2590 2592 2592 2592 2592 2592 2592 2592 2592 2592 2594 end fill
' Plastic Lid Outer Lower ara-1616 nux-1 nuy-1 nuz-11 typ-square fill 1610 1612 1612 1612 1612 1612 1612 1612 1612 1612 1614 end fill
' Plastic Lid Outer Lower ara-2616 nux-1 nuy-1 nuz-11 typ-square fill 2610 2612 2612 2612 2612 2612 2612 2612 2612 2612 2614 end fill
' Facility ara=2000 nux:5 nuy:8 nuz=l fill 5rl001 5r1000 5rl001 5r1000 5rl001 5rl000 SrlOOl 5rl000 end fill MAP12_ 0 05_ 1_. in -
MAP12_0_ 1_. in 1590 1592 1592 1592 1592 1592 1592 1592 1592 1592 1594 end fill
' Plastic Lid Outer Upper ara=2596 nux=l nuy=l nuz-11 typ-=square fill 2590 2592 2592 2592 2592 2592 2592 2592 2592 2592 2594 end fill
' Plastic Lid Outer Lower ara*l616 nux-1 nuy-1 nuz-11 typ-square fill 1610 1612 1612 1612 1612 1612 1612 1612 1612 1612 1614 end fill
' Plastic Lid Outer Lower ara-2616 nux-1 nuy-1 nuz-11 typ-square fill 2610 2612 2612 2612 2612 2612 2612 2612 2612 2612 2614 end fill
' Facility ara=2000 nux=5 nuy=S nuz.. 1 fill SrlOOl 5r10DO SrlOOl 5r1DD0 5rl001 SrlOOO SrlOOl SrlOOO end fill Page 23 /2 4
end array
' read bnds XFC=periodic YFC,.,periodic
+ZB*h2o
-ZBa* conc-4 end bnds read start nzt=l end start end dat a end
!eof nice -30 scale44a -o this_case MAP 12_0 05_ 1_. i n -
MAP12_ 0_ 1_. in end array
' read bnds XFC=periodic YFC.. periodic
+ZB*h2o
-ZB=conc-4 end bnds read start nzt=l end start end data end
!eof nice -30 scale4 4a -o this_ case Page 24 / 24

v t e Letter Sequence Request
EPID:L-2018-LLA-0164, Package: Revision No. 10 of Certificate of Compliance No. 9319, for the Model Nos. MAP-12 and MAP-13 Transportation Packages (Open)
Initiation Request, Request Acceptance... Administration Questions Answers Results Approval... Other: ML18172A047, ML18172A048
MONTHYEAR2018-06-12 [Table View]

ML18166A180

Text

SUBJECT:

References:

=-===============---

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