Tn International Safety Analysis Report, DOS-18-011415-003-NPV-1.0, Chapter 0, Description of the TN-MTR Packaging

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TN International CHAPTER 0 TN-MTR Names Signatures Date Prepared by T.WILLEMS Ref. DOS-18-011415-003-NPV Rev.

1.0 Form: PM04-3-MO-3 rev. 2 Page 1/38 NON PROPRIETARY VERSION DESCRIPTION OF THE TN-MTR PACKAGING TABLE OF CONTENTS REVISION STATUS

SUMMARY

1. INTRODUCTION

2. PACKAGING DESIGN DRAWINGS

3. PACKAGING SUB-ASSEMBLIES

4. DESCRIPTION OF PACKAGING SUB-ASSEMBLIES

5. HANDLING AND TIE-DOWN POINTS

6. SHIELDING CONSTRUCTION

7. CONTAINMENT

8. CHARACTERISTICS OF THE MATERIALS USED IN THE PACKAGING

9. CONSTRUCTION CODES

10. CHARACTERISTICS TO BE COMPLIED WITH

11. REFERENCES LIST OF TABLES LIST OF FIGURES APPENDIX 0-1: PACKAGING DESIGN DRAWINGS

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 2/38 NON PROPRIETARY VERSION REVISION STATUS Revision Date Modifications Prepared by /

Reviewed by Old reference: DOS-16-00173678-003 6

N/A Document first issue. Revision number intentionally set to correspond to the source document revision number.

TWI / ALC New reference: DOS-18-011415-003 1.0 N/A New reference due to new document management system software.

TWI / ALC

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 3/38 NON PROPRIETARY VERSION

SUMMARY

The packaging has a cylindrical form with the following dimensions:

- height: 2008 mm

- diameter: 2080 mm The cavity is a cylinder of height 1080 mm and diameter 960 mm.

Its maximum empty mass (without basket or fuel elements) is 20600 kg.

Its maximum gross mass in transport condition (upper bound of possible contents) is 23.4 tonnes.

The packaging is composed of:

- a body, composed of radiological shielding made of lead, surrounded by thermal protection made of resin to protect from fire, enveloped in two containments made of stainless steel. The outside surface of the packaging is fitted with fins to limit the surface temperature, 2 handling trunnions and 4 tie-down lugs;

- a lid, composed of either lead radiological shielding surrounded by a stainless steel casing, or 3 distinct parts made of stainless steel. It is fitted with 2 orifices for packaging operation purposes;

- a shock-absorbing cover composed of wood enclosed in a stainless steel casing.

The containment consists of the cavity of the body, the lid, the orifice plugs and the internal seals of the lid and the plugs.

The packaging is secured by 4 chocks and 4 straps during transport.

The packaging is designed, manufactured, inspected and tested in full compliance with:

- this TN International Safety Analysis Report.

- the design drawings for the packaging.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 4/38 NON PROPRIETARY VERSION

1. INTRODUCTION The TN-MTR packaging is designed for the transport of MTR (Material Test Research) fuel assemblies, placed in the compartments of an internal fitting called the basket.

Several baskets can be used due to the large variety of MTR assemblies.

Baskets are described in chapter 0A.

Numbers given between parentheses after packaging components are items corresponding to the parts list given in table 0.1 and design drawings in Appendix 0-1.

2. PACKAGING DESIGN DRAWINGS Packaging TN-MTR is presented on design drawings in Appendix 0-1 in this chapter, these drawings show:

- the dimensions and tolerances related to the use of the packaging and the safety analysis contained in this report,

- the items identifying the various components used in the rest of this report.

3. PACKAGING SUB-ASSEMBLIES The TN-MTR packaging is composed of 3 main sub-assemblies: the body, the lid and the shock absorbing cover. The total mass of these three sub-assemblies is about 20,600 kg. Welds are listed in table 0.3, and screws and tightening torques (with uncertainties) are given in tables 0.5 and 0.6.

3.1. Body A body (1) composed of a stainless steel internal containment, a lead shielding layer, a thermal insulating layer made of resin and a stainless steel external containment.

It performs the following different functions:

- contain transported fuels and their basket,

- resist mechanical loads under normal and accident transport conditions as defined by the IAEA <1> to be able to respect thermal calculation assumptions, activity releases, shielding and analysis of nuclear safety of the package,

- remove thermal power under normal transport conditions and protect the fuels from overheating in case of fire,

- limit the dose equivalent rate around the packaging

- with the lid, confine transported radioactive elements,

- with the basket, maintain sub-criticality.

3.2. Lid A lid (3), composed of

- either a stainless steel internal disk, a lead shielding layer, a stainless steel external disk held in place by screws (fitted with captive washers) on the body.

This lid model is known as the "standard" type.

- or a stainless steel ring, a stainless steel plug and a stainless steel lid held in place by screws (fitted with captive washers) on the body. This lid model is known as the "SEC" type.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 5/38 NON PROPRIETARY VERSION Its functions are to:

- ensure the leak-tightness of the containment that it forms with the body of the packaging to confine the transported radioactive elements,

- resist mechanical loads under normal and accident transport conditions as defined by the IAEA <1> to be able to respect thermal calculation assumptions, activity releases, shielding and analysis of nuclear safety of the package,

- limit the dose rate through the lid.

3.3. Shock absorbing cover A shock-absorbing cover composed of wood enclosed in a metal casing.

Its function is to limit accelerations if the packaging is dropped and to protect the lid from mechanical and thermal stresses under normal and accident transport conditions.

The cover must not prevent handling by means of the trunnions (130), which is the reason for the recesses formed in the cover.

Tables 0.7, 0.8, 0.9 and 0.10 summarise material mechanical and thermal properties, and the masses and the dimensions respectively of these elements.

4. DESCRIPTION OF PACKAGING SUB-ASSEMBLIES 4.1. Packaging body The packaging body is cylindrical with a flat bottom and is open at the top where the lid fits. The junction between the bottom and the shell on the outside is in the form of a truncated cone.

Its mass is about 16250 kg (see table 0.9).

The body has the following components:

- A stainless steel inner containment (101 and 201).

o The diameter of the cavity (delimited by this containment) is 960 mm and its height is 1080 mm.

o The cylindrical part is 20 mm thick, the bottom is 30 mm thick.

o This containment does not have any orifices (the orifices are all located on the lid, as shown in Table 0.2).

o There is a low point (5 mm deep) machined on the bottom of the inside containment to facilitate water drainage through the dip tube (180).

o The dip tube (180) is guided on this containment through supports (181 and 182) welded onto the shell (101).

- A lead layer (102 and 202) to attenuate the dose rate.

o The lead layer is continuous on the bottom and the shells and is discontinuous at the top of the cavity. A minimum thickness of is maintained in the uninterrupted section and a high thick projection is formed in the flange (105) to improve shielding of the packaging.

o The mass of lead in the body is about kg.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 6/38 NON PROPRIETARY VERSION

- A thick insulation layer (103, 203 and 251).

o This insulation surrounds the lead layer. It is installed to limit the risk of lead melting during a fire. However, the thermal conductivity of this insulation is such that the thermal power of the content can be removed without exceeding temperatures acceptable for the packaging components and the content.

o The vertical part is composed of three sectors separated by balsa wood battens to compensate for thermal expansion of the insulation.

- A stainless steel outer containment (104, 204 and 252). This containment is composed of 25 mm thick plates and surrounds the insulation layer. The outside diameter of this containment is 1480 mm.

o This containment is drilled with 18 holes in the cylindrical part:

9 holes for the installation of sintered pellets (196) to eliminate excess pressure inside the containment inter-space (lead and insulation) caused by degassing of the resin. Each pellet is fixed on an insert (198) and is closed off by a plug fitted with a seal only when the packaging is immersed (see chapter 6A).

9 holes for the installation of thermal cutouts (195) to limit excess pressure inside the containment (lead and insulation) caused by fire.

- A stainless steel flange (105) positioned on the top of the body and machined to hold the lid.

o The minimum inside diameter of the flange is 1102 mm at the lid and 960 mm at the cavity, and the outside diameter is 1480 mm.

o This flange also acts as a support for the two trunnions and for the lid and shock absorbing cover centring pins, and the lid and shock absorbing cover fastening screws fit into it.

o Two 5 mm diameter drain holes are drilled through the flange between the bearing surface of the lid flange and the outside, to facilitate drainage of water when the lid is installed.

o Three equidistant holes (14 mm diameter) are drilled on the inside side face of the flange, for operational reasons.

- Two stainless steel trunnions (130) for handling the packaging, fixed on the flange (105) by 8 screws (131). The diameter of the trunnion bearing surface is 124 mm and the height of the bearing surface is 55 mm.

- Four tie-down lugs (135) made of stainless steel welded on the external containment (104). These lugs project from the external containment by 130 mm, their thickness is30 mm and their height is 160 mm.

- A stainless steel lid centring pin to centre the lid on the body (170 B).

- A stainless steel shock absorbing cover pin to centre the shock absorbing cover on the body (170 A).

- A stainless steel dip tube (180) connected to the lid orifice to empty or fill the packaging.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 7/38 NON PROPRIETARY VERSION o

The tube is held in position vertically by supports (181 and 182), and bears on the low point of the cavity bottom. At the top, the tube penetrates into the lid so as to connect up with and ensure leak-tightness with the suction tool fitted to the orifice B.

o The height of the dip tube is determined so that the lid docks onto the centring pin (170 B) and not onto the dip tube (180).

- 96 stainless steel fins (190) welded onto the outer shell to limit the surface temperature under normal transport conditions.

o These fins are 3 mm thick, 60 mm wide and 1120 mm long.

o Some of the fins are interrupted (at 60°, 120°, 240° and 300°) by tie-down lugs (135).

- A system to inject helium along the welds of the inner containment for leak testing during maintenance operations. A hole is drilled in the flange (105) to carry helium to the welds in the inner shell to leak test the welds in the containment during maintenance operations. A porous zone is formed in the lead at weld contacts to enable circulation of helium.

- 2 diametrically opposite name plates and manufacturer plates, on which regulatory texts are written:

o mark assigned to the package model by the competent authority o

Type B(U),

o serial number of the packaging, o

regulatory trefoil symbol, o

empty mass and gross mass.

4.2. Packaging lid 4.2.1. Standard type lid This packaging lid is a stainless steel disk enclosing a layer of lead. The lid outside radius is adapted to the packaging body.

The mass of the lid is about 2700 kg.

It is fixed to the body by 36 screws (150) fitted with captive washers (153).

The lid is composed of the elements listed below.

A 35 mm thick stainless steel bottom disk (301) in which two holes A and B are drilled (the list of orifices is given in table 0.2).

A thick lead layer (302 and 303) designed to attenuate the dose rate. This layer is reinforced by a steel shell (305) and two holes are drilled in it for orifices A and B. The mass of lead in the lid is about kg.

A stainless steel reinforcing shell (305) (10 mm thick with outside diameter 498 and 518 mm), to contribute to the mechanical strength of the lid in the case of an axial drop of the packaging. This shell has an offset to improve the protection against radiation provided by the lid.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 8/38 NON PROPRIETARY VERSION A stainless steel outer shell (306) (10 mm thick with outside diameter 1102 mm), combined with the lead casing, A stainless steel top disk (307) (65 mm thick with outside diameter 1 290 mm), fitted with seals to make a leaktight seal between the body and the lid (Table 0.4 contains a list of seals). The following holes are drilled in this disk:

2 holes for orifices A and B, 12 holes for the installation of threaded lid handling inserts, 36 holes through which lid to body attachment screws (150) pass, 1 hole for leak testing the lid internal seal.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 9/38 NON PROPRIETARY VERSION This lid of the TN-MTR packaging is also composed of the following elements:

An orifice A composed of an orifice tube (331) of a self-closing quick connect coupling (332) and a stainless steel protective plug (330)

(outside diameter 180 mm, nominal thickness 27 mm).

A hole is drilled in the orifice tube so that air or water can pass between the cavity and the quick connect coupling. A shoulder is formed on the outside diameter to improve protection against radiation, and an elbow is formed in the hole in the orifice tube that limits free flow through the vacuum. This protection is particularly good because the geometry of the fuels prevents them from being positioned underneath the orifices.

Due to symmetry, baskets other than the RHF basket do not contain any fuel under orifice A. A geometric check for the RHF basket shows that orifice A is located above the top face of the body. Orifice B described below is located above the dip tube.

The self-closing quick connect coupling is used as a vent when the cavity is being filled with water and to inject air under pressure into the cavity when draining.

The protective plug is fixed to the lid by 4 screws (350) and is fitted with seals (365 and 366) to make the containment leak tight. 2 threaded holes are drilled in it for handling and one hole is drilled for leak testing the internal seal.

An orifice B composed of an orifice tube (334) in a stainless steel cover (335) tightened by a plug (336) made of non-seize materials (stainless steel or bronze) and a stainless steel protective plug (333).

A shoulder is formed on the outside diameter of the orifice tube to improve protection against radiation, and the cover (335) is put into place to limit free flow through the vacuum. In the same way as for orifice A, this protection is particularly good because the orifice is located above the dip tube, so that there will be no radioactive elements present along the centre line of the orifice tube.

This orifice is connected to the dip tube fixed onto the cavity of the packaging.

The cover is removed when filling or draining water and when the cavity is dried. The vacuum in the cavity is also created through this orifice.

The protective plug is screwed to the lid by 4 screws (350) and is fitted with seals (365 and 366) to make the containment leak tight. 2 threaded holes are drilled in it for handling and one hole is drilled for leak testing internal seal.

Two seals (361) and (362), fitted onto the lid in trapezoidal shaped grooves.

Threaded inserts (355) for the installation of lid handling elements.

These inserts are closed off by screws when they are not being used and in the transport configuration.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 10/38 NON PROPRIETARY VERSION The standard type lid can be used on the TN-MTR packaging regardless of the internal fitting (filled or not) in the packaging cavity.

4.2.2. "SEC" type lid This packaging lid is composed of 3 main elements:

the lid (801), made of stainless steel with a shape similar to the shape of the top disk of the standard lid, and fitted with 2 holes for orifices A and B and drill-holes and inserts (355a and b) adapted for handling, attachment on the body of the packaging (150) and leak testing (see section 4.2.1). When not in use and in the transport configuration, these drill-holes and inserts are closed off by set screws (807 b and c). The outside diameter of this lid is 1289.50 mm and the total thickness is 123 mm, and it is fitted with seals to obtain a leak tight seal with the body.

the plug (802), made of stainless steel. This is a thick disk (diameter 983 mm and typical thickness 137 mm), fitted with a Poral disk (809) on its support (808) that is positioned under the lid (801) at the same level as orifice A under the self-closing quick connect coupling (814)).

The bottom face of the plug is fitted with a seal (860) providing perfect leak tightness with the outside of the cavity when the lid is removed.

The top face of the plug is fitted with 10 threaded holes to fix the special gripping parts to be used during a dry manipulation. These drill-holes are closed off by set screws (807 a) when not in use and in the transport configuration. A hole is also drilled at the centre of the top face of the SEC type plug to facilitate underwater manipulations if necessary. This drill-hole is fitted with a plug (805) into which a gripping device could be screwed, for example at the bottom of the pool. This hole is closed off by a plug (804) when not in use and/or in the transport configuration.

The orientation of the plug relative to the cavity is fixed by a cutout indexed to the top support of the dip tube welded in the cavity at orifice B.

A ring (803) made of stainless steel used to centre the plug in the cavity.

This ring is provided with a chamfer to facilitate insertion of the plug and with internal threads for handling.

It is held in place in the packaging by 3 M20 type screws oriented at 120° from each other (806).

The mass of the complete SEC lid is about 2130 kg.

The SEC type lid can only be used on the TN-MTR packaging in configurations in which the MT4-44 type internal fitting (filled or not), is located in the packaging cavity.

The SEC lid of the TN-MTR packaging is also composed of the following elements:

An orifice A composed of a self-closing quick connect coupling (814), a stainless steel protective plug (830), a bottom plug (810) held in place by 6 M6 screws (812) at the bottom of the lid (801), under the protective

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 11/38 NON PROPRIETARY VERSION plug (830). An O-ring (811) makes a leak tight seal between this bottom plug and the lid.

A hole is drilled at the self-closing quick connect coupling of the SEC type plug under the Poral disk (809) so that air or water can pass between the cavity and the quick connect coupling. An elbow is formed in the hole in the orifice tube that limits free flow through the vacuum, to improve protection against radiation. This protection is particularly good because the geometry of the fuels prevents them from being positioned underneath the orifices.

During a dry manipulation, the self-closing quick connect coupling is used to create a negative pressure or to increase the pressure in the packaging cavity. Orifice A performs a role similar to that described above for the case of a standard lid, during an underwater manipulation.

The protective plug is fixed to the lid by 4 screws (350) and is fitted with seals (365) and (366) to make the containment leak tight. 2 threaded holes are drilled in it for handling and one hole is drilled for leak testing the internal seal.

An orifice B composed of a stainless steel cover (835) tightened by a plug (336) made of anti-seize materials (stainless steel or bronze) and a stainless steel protective plug (833).

In the same way as for orifice A, the protection against radiation is particularly good because the orifice is located above the dip tube, so that there will be no radioactive elements present along the centre line of the orifice.

This orifice is connected to the dip tube fixed onto the cavity of the packaging.

This orifice is not used during a dry manipulation. On the other hand for a manipulation under water, the cover is removed when filling or draining water and when the cavity is dried. The vacuum in the cavity is also created through this orifice.

The protective plug is screwed to the lid by 4 screws (350) and is fitted with seals (365) and (366) to make the containment leak tight. 2 threaded holes are drilled in it for handling and one hole is drilled for leak testing internal seal.

Two seals (361) and (362), fitted onto the lid in trapezoidal shaped grooves.

4.3. Shock absorbing cover The shock-absorbing cover is composed of wood blocks enclosed in a metal casing.

Its mass is about 1650 kg.

Its function is to limit accelerations applied to the content during a drop and to protect the lid and its accessories.

The cover comprises:

- Two oak rings (400 to 502) damping the shock in the case of a lateral drop or a drop on a corner.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 12/38 NON PROPRIETARY VERSION

- A balsa wood ring (600 to 605) on the projecting part to limit accelerations in the case of an axial drop of the packaging or a drop on a corner.

- Two plywood disks (520 and 521) reinforced by stainless steel plates (721, 723 and 724) to protect the lid in the case of a drop onto a bar.

- A steel shear resisting shell (704) just above the trunnions.

- A stainless steel casing (700 to 726), to surround and hold the wood blocks in position.

- Six metal sleeves (730) through which shock absorbing cover attachment screws (151) are put into place. These screws are fitted with captive washers (152).

These sleeves are fitted with polyethylene plugs (797) in the upper part to prevent stagnation of water.

- Two tubes (731) for drainage of water that might stagnate at the centre of the cover.

- 4 threaded inserts (755), fixed into the bases (756), to attach handling means.

- 1 cleanliness seal (370) between the lid and the shock absorbing cover to prevent any transfers of contamination from the lid to the body.

- 2 washers for placement of a seal between the shock absorbing cover and the fins after the packaging has been closed.

5. HANDLING AND TIE-DOWN POINTS 5.1. Handling The TN-MTR packaging is transported and handled vertically (cylinder axis vertical). It is handled using the two stainless steel trunnions (130) located in the top part of the body.

Each of them is fixed onto the body by 8 screws (131), and can be removed to facilitate maintenance and for replacement if necessary.

Appendix 3 to chapter 1 describes the verification of the mechanical strength of the trunnions.

The diameter of the trunnion bearing surface is 124 mm and its length is 55 mm.

The packaging lid is handled by lifting parts that can be fitted in holes equipped with threaded inserts (355, 355 a or 355 b) present on the top surface of the lid.

The packaging shock absorbing cover is handled by lifting parts that can be fitted in holes equipped with threaded inserts (755) present on the top surface of the shock absorbing cover.

Plugs for orifices A and B are handled by lifting parts that can be fitted in threaded holes present on the top surface of the plugs.

5.2. Tie-down system The TN-MTR packaging is tied down by means of 4 straps (or other flexible system) and is restrained at its base by 4 chocks.

The straps are attached to tie-down lugs (135) welded onto the packaging body and onto the flatbed.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 13/38 NON PROPRIETARY VERSION The tie-down lugs are made of 30 mm thick stainless steel, they are 160 mm high and project 130 mm beyond the outside of the packaging.

The 4 chocks are placed at the base of the packaging cone and are fixed onto the flatbed.

6. SHIELDING CONSTRUCTION 6.1. Shielding for the bottom and the shell in the uninterrupted section The shielding for the bottom of the packaging is composed of:

30 mm Stainless steel (internal containment)

Lead Insulation 25 mm Stainless steel (external containment) 6.2. Shielding for the shell uninterrupted section The shielding for the uninterrupted section of the packaging shell is composed of:

20 mm Stainless steel (internal containment)

Lead Insulation 25 mm Stainless steel (external containment) 6.3. Shielding for the standard lid The shielding for the packaging lid is composed of:

35 mm Stainless steel (bottom disk)

Lead 65 mm Stainless steel (top disk) 6.4. Shielding for the SEC lid The shielding for the packaging lid is composed of:

137 mm Stainless steel (plug) 123 mm Stainless steel (lid) 6.5. Shielding between the shell and the lid The shielding between the shell and the lid is composed of the stainless steel in the flange (105) and the projecting part of the lead shell (102).

7. CONTAINMENT The containment is presented in figure 0.1.

The containment is the volume delimited by the following elements:

- bottom of the internal containment of the body (201);

- shell of the internal containment of the body (101);

- flange (105) as far as the internal lid seal (361);

- internal lid seal (361),

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 14/38 NON PROPRIETARY VERSION

- lid top disk (307) or (801);

- internal seals (365) of orifice A and B plugs;

- plugs for orifices A and B (330 and 333) for the standard type lid or (830 and 833) for the SEC type lid.

8. CHARACTERISTICS OF THE MATERIALS USED IN THE PACKAGING The materials used for the TN-MTR packaging are as follows:

- stainless steel for components contributing to the mechanical strength, functional elements, fins, the metal casing for the shock absorbing cover and the sintered pellets (196);

- lead for the shielding;

- resin for the thermal insulation;

- elastomer for seals;

- wood (oak, balsa and plywood) for the shock absorbing cover;

- meltable material for the thermal cutout plugs.

8.1. Stainless steels The different types of steel are:

- Steel type A - steel type J: Austenitic stainless steel (for example Z3 CN 18-10 defined by AFNOR standard NF A 35-573 or equivalent);

- Steel type B - steel type K: High yield strength stainless steel (for example Z3 CND 22-05 Az defined by AFNOR standard NF A 35-573 or equivalent);

- Steel type C: austenitic stainless steel (for example Z3 CNDU 25-07 Az defined by AFNOR standard NF A 35-574 or equivalent);

Required mechanical and thermal properties for these steels are given in Tables 0.7 and 0.8.

8.2. Steel used in fasteners Screws used for fastening the shock absorbing cover, the lids and the orifice plugs are class 10.9 (NF EN ISO 898-1).

The mechanical properties of these steels are given in Table 0.7.

Other screws are manufactured from stainless steel.

8.3. Lead Soft lead. 99.9% lead.

The melting temperature of lead is 327°C.

Minimum density: 11.2.

8.4. Insulation TN International resin type << F >> or type << Vyal B >>.

VYAL B resin has better neutron shielding properties than F resin because it has more hydrogen atoms than F resin. It also remains more efficient than VYAL B resin in the long term.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 15/38 NON PROPRIETARY VERSION These are self extinguishing resins.

The thermal properties of these two resins are given in Table 0.8.

8.5. Elastomer The seals are made of EPDM. The allowable grades are as follows:

- 48DRL13 by STACEM or

- EP8517 by JOINT FRANÇAIS.

These types of seals have the following properties:

- Hardness: 75 to 85 Shores Upper-bound bulk coefficients of expansion: K-1

- Maximum operational temperature in steady state: 160°C.

- Maximum operational temperature for a short period: (see <2>).

- Minimum operational temperature: -40°C.

8.6. Wood 8.6.1. Balsa and oak Balsa Oak Min. crush rate 71%

31%

Minimum compression stress at ambient temperature 7,8 MPa 52 MPa Maximum compression stress at ambient temperature 12 MPa 70 MPa Maximum moisture 15%

15%

8.6.2. Plywood Density: Maximum of 0.5.

Maximum moisture: 10%

8.7. Meltable material This material (bismuth, lead tin alloy, etc.) is used for thermal cutouts in the external containment of the body and the shock absorbing cover.

The melting point of this material is less than 190°C.

8.8. Welds The filler metal has mechanical characteristics at least equal to those of the metals present.

The main packaging welds are listed in Table 0.3.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 16/38 NON PROPRIETARY VERSION

9. CONSTRUCTION CODES The TN-MTR packaging is manufactured in compliance with CODAP 95 rules, or justified equivalent rules (particularly ASME rules).

10. CHARACTERISTICS TO BE COMPLIED WITH The characteristics of the package that must be respected for compliance with the assumptions used in the file are mentioned below. The other values used in this file are nominal values.

10.1. Dimensional characteristics Lead thicknesses given in Table 0.10 are minimum values to be respected.

10.2. Masses The maximum mass of the empty package (body, lid and shock-absorbing cover) must be less than the value given in table 0.9.

10.3. Characteristics of materials The yield stress, ultimate strength and rupture elongation given in table 0.7 are the minimum values to be complied with.

11. REFERENCES

<1> Applicable IAEA regulation: see chapter 00;

<2> ASN/DIT/0061/2009 letter dated 28/01/2009 corrected by the TN International letter, CEX-09-00136347-079 dated 28/07/2009.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 17/38 NON PROPRIETARY VERSION LIST OF TABLES Table Description Pages 0.1 Parts list 5

0.2 List of orifices 1

0.3 Details of welds 3

0.4 List of seals 1

0.5 List of screws and threaded inserts 1

0.6 Screw tightening torques and uncertainties 1

0.7 Mechanical properties of the materials 1

0.8 Material thermal properties 1

0.9 Breakdown of sub-assembly masses 4

0.10 Packaging dimensions 1

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 18/38 NON PROPRIETARY VERSION LIST OF FIGURES Figure Description Pages 0.1 Containment 1

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 19/38 NON PROPRIETARY VERSION TABLE 0.1 (1/5)

PARTS LIST Reference Designation Number Material 1

BODY 100 SHELL 1

101 Inner shell 1

Type A steel 102 Lead shell 1

Lead 103 Insulation shell 1

Insulation 104 Outer shell 1

Type A steel 105 Body flange 1

Type J steel 121 Regulatory plate 2

Stainless steel 122 Nameplate 2

Stainless steel 130 Trunnions 2

Type C steel.

131 Trunnion attachment screw on 16 Class 10.9 body - CHc M20 135 Tie-down lug 4

Type B steel 150 Lid attachment screw on 36 Class 10.9 body - CHc M30 151 Shock absorbing cover attachment screw 6

Class 10.9 on the body - CHc M42 152 M42 captive washers 6

Carbon steel bichromated zinc-plated 153 M30 captive washers 36 Carbon steel bichromated zinc-plated 170 A Cover centring pin 1

Stainless steel 170 B Lid centring pin 1

Stainless steel 180 Dip tube 1

Stainless steel 181 Dip tube supports 2

Stainless steel 182 1

190 Fins 96 Type A steel 195 1/4 conical gas thermal cutouts 9

Meltable material 196 Poral disks 9

Stainless steel 198 Insert for <<Poral>> disks 9

Stainless steel 198 B Insert seal for <<Poral>> disks 9

HDPE 198 T Tightening ring for <<Poral>> disks 9

Stainless steel 312 M20 plug 1

Stainless steel or bronze 2

BOTTOM 1

201 Bottom internal disk 1

Type B steel 202 Bottom lead disk 1

Lead 203 Bottom insulating disk 1

Insulation 204 Bottom external disk 1

Type A steel

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 20/38 NON PROPRIETARY VERSION TABLE 0.1 (2/5)

PARTS LIST Reference Designation Number Material 250 TRUNCATED CONES 1

251 Truncated insulation cone 1

Insulation 252 Truncated steel cone 1

Type A steel LIDS 3

STANDARD LID - Special parts list 301 Lower standard lid disk 1

Type B steel 302 Lead external shell for the standard lid 1

Lead 303 Lead central disk for the standard lid 1

Lead 305 Reinforcing shell for the standard lid 1

Type B steel 306 External shell for the standard lid 1

Type B steel 307 Upper standard lid disk 1

Type K steel 330 Plug for orifice A 1

Type B steel 331 Tube for orifice A 1

Type A steel 332 Self-closing quick connect coupling on orifice 1

Stainless steel A

333 Orifice B plug 1

Type B steel 334 Tube for orifice B 1

Type A steel 335 Orifice B cover 1

Type A steel 355 Helicoil threaded insert for handling the lid 6+6 High strength stainless steel 371 Orifice A Staubli seal 1

EPDM 8

SEC LID - Special parts list 801 SEC type top Lid 1

Type B steel 802 SEC type plug 1

Type B steel 803 SEC type ring 1

Type B steel 804 Gripping point plug 1

Stainless steel 805 Centring plug 1

Stainless steel 806 M20 ring-to-packaging attachment screw 3

A4-70 807a M24 hex head socket set screw 6 + 4 + 3 A2-50 807b M24 hex head socket set screw 6

A2-50 807c M30 hex head socket set screw 6

A2-50 808 PORAL disk support 1

Type A steel 809 Poral disk 1

Stainless steel

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 21/38 NON PROPRIETARY VERSION TABLE 0.1 (3/5)

PARTS LIST Reference Designation Number Material 810 Bottom plug for orifice A 1

Type A steel 811 Bottom plug seal for orifice A 1

EPDM 812 M6 CHC screws 6

A4-80 813 Quick disconnect coupling gasket 1

EPDM 814 Self-closing quick connect coupling on orifice A 1

Stainless steel 815 Internal retaining ring 1

Stainless steel 830 Orifice A plug for SEC lid 1

Type B steel 833 Orifice B plug for SEC lid 1

Type B steel 835 Orifice B cover for SEC lid 1

Type A steel 860 355a et 355 b Lower seal on the SEC type plug Helicoil threaded insert for handling the lid 1

6 + 6 EPDM Stainless steel Parts list common to the 2 lid types 312 M20 plug 3

Stainless steel or bronze 336 Orifice B cover compression plug 1

Stainless steel or bronze 350 Attachment screws for orifice A and 8

Class 10.9 B plugs on the lid 361 Internal lid seal 1

EPDM 362 External lid seal 1

EPDM 365 Internal plug seal 2

EPDM 366 External plug seal 2

EPDM 368 M20 plug seal 3

EPDM 369 Gasket for orifice B cover 1

EPDM 370 Cleanliness seal between the packaging flange and the shock absorbing cover.

1 EPDM

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 22/38 NON PROPRIETARY VERSION TABLE 0.1 (4/5)

PARTS LIST Reference Designation Number Material 4

SHOCK ABSORBING COVER WOOD 400 Bottom shell, around trunnions, 4

Oak radial fibres 401 Bottom shell, between stiffeners, fibrous 4

Oak Radial 402 Bottom shell, 90° from trunnions, fibrous 2

Oak Radial 500 Intermediate shell, around 2

Oak trunnions, fibrous in the radial direction 501 Intermediate shell, between 4

Oak stiffeners, fibrous in the radial direction 502 Intermediate shell, at 90° from 2

Oak trunnions, fibrous in the radial direction 520 Central bottom disk 1

Plywood 521 Central top disk 1

Plywood 600 Inner top shell, around 2

Balsa trunnions, fibrous in the vertical direction 601 Inner top shell, between 4

Balsa stiffeners, fibrous in the vertical direction 602 Inner top shell, at 90° from 2

Balsa trunnions, fibrous in the vertical direction 603 Outer top shell, around 4

Balsa trunnions, fibrous in the radial direction 604 Outer top shell, between 4

Balsa stiffeners, fibrous in the radial direction 605 Outer top shell, at 90°from 2

Balsa trunnions, fibrous in the radial direction

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 23/38 NON PROPRIETARY VERSION TABLE 0.1 (5/5)

PARTS LIST Reference Designation Number Material 7

SHOCK ABSORBING COVER PLATES 700 Inner bottom shell 1

Type A steel 701 Outer shell 1

Type A steel 702 Inner top shell 1

Type A steel 703 Portion of shell in recesses 2

Type A steel of trunnions 704 Shear resisting ring 1

Type A steel 710 Trunnion recess end plates 4

Type A steel 711 Radial stiffeners 8

Type A steel 720 Lower ring 1

Type A steel 721 Central bottom disk 1

Type A steel 722 Screw support ring 1

Type A steel 723 Central intermediate disk 1

Type B steel 724 Central top disk 1

Type B steel 725 Ring between oak and balsa 1

Type A steel 726 Shock absorbing cover top ring 1

Type A steel 730 Sleeves for screw passages 6

Type A steel 731 Water drain tube 2

Type A steel 755 Helicoil threaded insert for handling the shock absorbing cover 4

Stainless steel 756 Base of the handling point for the 4

Type A steel shock absorbing cover 195 1/4 conical gas thermal cutouts 5

Meltable material 796 Thermal cutout support 5

Type A steel 797 Cap for sleeves 4

PE

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 24/38 NON PROPRIETARY VERSION TABLE 0.2 LIST OF ORIFICES Designation Location Equipment Function Orifice A Lid orientation 330° Quick connect coupling Closing plug Cavity filling vent Injection of air under pressure when draining.

Orifice B Lid orientation 150° Sealing plug Closing plug Orifice connected to the dip tube (180)

Inject water into and drain water from the cavity.

Create vacuum in cavity

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 25/38 NON PROPRIETARY VERSION TABLE 0.3 (1/3)

DETAILS OF WELDS Reference Location Type of weld Check the weld Diagram Body S1 (101 - 201)

Containment:

Body inner shell and inner bottom.

Butt weld Full penetration X-ray inspection 100%

Dye-penetrant 100%

Body S2 (101 - 105)

Containment:

Body inner shell and flange.

Butt weld Full penetration X-ray inspection 100%

Dye-penetrant 100%

Body S3 (101 - 101)

Containment:

Body inner shell:

vertical weld Butt weld Full penetration X-ray inspection 100%

Dye-penetrant 100%

Body S4 (104 - 105)

Outer containment:

Body outer shell and flange.

Butt weld Full penetration Dye-penetrant 100%

Body S5 (104 - 252)

Outer containment:

Body outer shell and steel truncated cone Butt weld Full penetration Dye-penetrant 100%

Body S6 (252 - 204)

Outer containment:

Steel truncated cone and bottom of the outer containment Fillet weld Full penetration Dye-penetrant 100%

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 26/38 NON PROPRIETARY VERSION TABLE 0.3 (2/3)

DETAILS OF WELDS Reference Location Type of weld Check the weld Diagram Body S7 (104 - 104)

Outer containment:

Body outer

shell, vertical weld Butt weld Full penetration Dye-penetrant 100%

Lid S8 (305-307)

Reinforcing shell for the lid and outer disk Butt weld Full penetration Dye-penetrant 100%

Lid S9 (301 - 306)

Outer shell for the lid and inner disk Fillet weld Full penetration Dye-penetrant 100%

Lid S10 (306 - 307)

Outer shell for the lid and outer disk Butt weld Full penetration Dye-penetrant 100%

Lid S11 c and b

(307 - 331)

(307 - 334) lid outer disk and orifice A and B tubes Fillet weld Full penetration Dye-penetrant 100%

Lid S12 (306 - 306)

Lid outer shell Butt weld Full penetration Dye-penetrant 100%

Lid S13 (301 - 331)

(301 - 334)

Lid inner disk and orifice A and B tubes Fillet weld 12 mm continuous weld bead Dye-penetrant 100%

S11 a S11 b

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 27/38 NON PROPRIETARY VERSION TABLE 0.3 (3/3)

DETAILS OF WELDS Reference Location Type of weld Check the weld Diagram Lid S14 (301 - 305)

Lid inner disk and reinforcement shell Fillet weld 20 mm continuous weld bead Dye-penetrant 100%

Lid S15 (305 - 305)

Lid reinforcing shell Butt weld Full penetration Dye-penetrant 100%

Body S16 (104 - 135)

Body outer shell and tie-down lug Fillet weld Full penetration Dye-penetrant 100%

Body S18 (198 - 104)

Support insert for sintered pellets on outer shell Fillet weld Dye-penetrant 100%

Body S19 Poral disks on insert Fillet weld Dye-penetrant 100%

Body Fins Fins on outer shell Fillet weld Full penetration Dye-penetrant 100%

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 28/38 NON PROPRIETARY VERSION TABLE 0.4 LIST OF LEAKTIGHT SEALS Reference Designation Number Material Containment 361 Internal lid seal 1

EPDM i 1055 mm, torus diameter 7.8 mm 365 Internal seal for orifice A and B plugs 2

EPDM i 81.93 torus diameter 5 mm Others 860 Lower seal on the SEC type plug 1

EPDM i 936 torus diameter 5.33 mm 362 External lid seal 1

EPDM i 1093 torus diameter 7.8 mm 366 External seal for orifice A and B plugs 2

EPDM i 111.14 torus diameter 5 mm 368 M20 plug seal 4

EPDM i 7.59 torus diameter 2.62 mm 369 Gasket for orifice B cover 1

EPDM i 50.17 torus diameter 5.33 mm 371 Quick-connect coupling for orifice A on the Standard lid 1

EPDM i 18.4 torus diameter 2.7 mm 370 Cleanliness seal between the packaging flange and the shock absorbing cover.

1 EPDM i 1396 torus diameter 7 mm 811 Seal on the SEC lid orifice A plug i 85.32 torus diameter 3.53 mm 1

EPDM 813 Quick-connect coupling for orifice A on the SEC lid i 14 torus diameter 1.78 mm 1

EPDM

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 29/38 NON PROPRIETARY VERSION TABLE 0.5 LIST OF SCREWS AND THREADED INSERTS Reference Designation Number per package Nominal diameter Screw class 131 Trunnion attachment screw onto body 16 M20 10.9 150 Lid attachment screw onto body 36 M30 10.9 151 Shock absorbing cover attachment screw onto body 6

M42 10.9 312 M20 plugs 4

M20 Stainless steel or Bronze 350 Attachment screws for orifice plugs onto lid 8

M12 10.9 355 Helicoil threaded insert on lid 6+6 Stainless steel 755 Helicoil threaded insert on shock absorbing cover 4

Stainless steel 806 Blocking screw for the SEC type ring 3

M20 A4-70 807a Hex socket set screw 6 + 4 +3 M24 A2-50 807b Hex socket set screw 6

M24 A2-50 807c Hex socket set screw 6

M30 A2-50 812 Attachment screws for orifice A bottom plug onto SEC lid 6

M6 A4-80

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 30/38 NON PROPRIETARY VERSION TABLE 0.6 SCREW TIGHTENING TORQUES AND UNCERTAINTIES Reference Designation Nominal diameter Tightening torque Containment 150(*)

Lid attachment screw onto body M30 660 N.m 10%

350(*)

Attachment screws for orifice plugs onto lid M12 40 N.m 10%

Others 131(*)

Trunnion attachment screw onto body M20 320 N.m 5%

151(*)

Shock absorbing cover attachment screw onto body M42 660 N.m 10%

312 M20 plugs M20 20 N.m 10%

(*) Screws are lubricated with NEVER SEEZ High Temperature Stainless Nuclear Grade grease or other with equivalent coefficient of friction to maintain continuous presence of a thin film of grease on all threads around the screw perimeter and on the entire surface under the screw head.

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 31/38 NON PROPRIETARY VERSION TABLE 0.7 MECHANICAL PROPERTIES OF THE MATERIALS Yield strength e

Tensile strength r

Rupture elongation A%

Modulus of elasticity E

Coefficient of linear expansion (MPa)

(MPa)

(MPa) 10-6 /°C Type A steel Austenitic steel (for example according to the AFNOR standard:

(Z3 CN 18-10 or equivalent) 20°C 150°C 200°C 200 130 118 520 360 45 %

200,000 16 Type B steel (for example according to the AFNOR standard:

(Z3 CND 22 05 Az or equivalent) 20°C 80°C 200°C 470 370 320 660 580 25 %

200,000 16 Type C steel.

(for example according to the AFNOR standard:

Z3 CNDU 25-07 Az or equivalent) 20°C 150°C 500 420 700 185,00 Type J steel Austenitic steel (for example according to the AFNOR standard:

(Z3 CN 18-10 or equivalent) 20°C 200°C 263 179 554 432 200,000 16 Type K steel (for example according to the AFNOR standard:

(Z3 CND 22 05 Az or equivalent) 20 °C 200°C 501 373 713 600 200,000 16 Carbon steel bichromate zinc-plated 20 °C 900 1100 Class 10.9 fasteners 20 °C 900 1 000 9 %

212,000 11.5 Lead 28.67

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 32/38 NON PROPRIETARY VERSION TABLE 0.8 MATERIAL THERMAL PROPERTIES Materials Coefficient of thermal conductivity Emissivity Solar absorption capacity Specific heat Density

Cp (W/m°C)

(J/kg°C)

(kg/m3) 0.3 before the fire 0.4 before the fire Stainless steel 16 0.8 during the fire no sunshine during the fire 500 7,850 0.8 after the fire 0.9 after the fire Lead 32 130 11,300 Insulation 1 (0,83*)

(*)

Class 10.9 screws **

33,7 461 7,800

• for Vyal B resin

• • Values according to SEW 310 for screws 34CrNiMo6

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 33/38 NON PROPRIETARY VERSION TABLE 0.9 (1/4)

BREAKDOWN OF SUB-ASSEMBLY MASSES Unit Mass Selected Reference Designation mass Number per mass (kg) packaging (kg)

(kg) 1 SHELLS 101 Inner shell 538 1

538 102 Lead shell 1

103 Insulation shell 1

104 Outer shell 1,111 1

1,111 105 Lid compartment shell 1,478 1

1,478 130 Trunnions 9

2 18 135 Tie-down lug 7.4 4

30 180 Dip tube 2

1 2

181 + 182 Diptube supports 0.2 3

1 190 Fins 1.7 96 160 200 BOTTOM 1

201 Bottom internal disk 194 1

194 202 Bottom lead disk 1

203 Bottom insulating disk 1

204 Bottom external disk 244 1

244 250 TRUNCATED CONES 1

251 Truncated insulation cone 1

252 Truncated steel cone 192 1

192 Mass of the packaging body 1

16,275 16,250

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 34/38 NON PROPRIETARY VERSION TABLE 0.9 (2/4)

BREAKDOWN OF SUB-ASSEMBLY MASSES Unit Mass Selected Reference Designation mass Numbe r

per mass (kg) packaging (kg)

(kg) 3 STANDARD LID 301 Standard lid inner disk 271 1

271 302 Lead external shell for the standard lid 1

303 Lead central disk for the standard lid 1

305 Reinforcing shell for the standard lid 21 1

21 306 External shell for the standard lid 45 1

45 307 Standard lid outer disk 685 1

685 330 Orifice A plug 7

1 7

331 Orifice A tube 11 1

11 332 Quick connect coupling on orifice A 0.2 1

Insignifica nt 333 Orifice B plug 6

1 6

334 Tube for orifice B 9

1 9

335 Orifice B cover 3

1 3

Mass of the standard lid 1

2,681 2,700 MASS OF BODY AND STANDARD LID 1

18,956 19,000 8

SEC LID 801 SEC type top Lid 1042 1

1,042 802 SEC type plug 823 1

823 803 SEC type ring 208 1

208 830 Plug for orifice A 18 1

18 810 Bottom plug for orifice A 1

814 Quick connect coupling on orifice A 0.2 1

Insignifica nt 833 Orifice B plug 10 1

10 835 Orifice B cover 3

1 3

Mass of the SEC lid 1

2,104 2,130 MASS OF BODY AND SEC LID 1

18,379 18,380

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 35/38 NON PROPRIETARY VERSION TABLE 0.9 (3/4)

BREAKDOWN OF SUB-ASSEMBLY MASSES Reference Designation Unit mass (kg)

Numbe r

Mass per packaging (kg)

Selected mass (kg)

SHOCK ABSORBING COVER WOOD 400, 401, 402 Bottom shell, 303 1

303 500, 501, 502 Middle shell 362 1

362 520 Central bottom disk 44 1

44 521 Central top disk 26 1

26 600, 601, 602, 603, 604, 605 Top shell 82 1

82 Mass of wood in shock absorbing cover 1

817 PLATES IN SHOCK ABSORBING COVER 700 Bottom inner shell 37 1

37 701 Outer shell 131 1

131 702 Top inner shell 41 1

41 703 Portion of shell in trunnion recesses 3.5 2

7 704 Shear resisting ring 90 1

90 710 Trunnion recess end plates 6.5 4

26 711 Radial stiffeners 6.25 8

50 720 Disk under shock absorbing cover 51 1

51 721 Central bottom disk 44 1

44 722 Screw support ring 30 1

30 723 Central intermediate disk 62 1

62 724 Central top disk 62 1

62 725 Disk between oak and balsa 81 1

81 726 Shock absorbing cover top disk 81 1

81 730 Sleeves for screw passages 3.17 6

19 756 Base of the shock absorbing cover handling point 2.5 2

5 796 Thermal cutout support 0.1 3

0 Mass of plates in shock absorbing cover 1

817 MASS OF SHOCK ABSORBING COVER 1

1,634 1,650 MAXIMUM MASS OF THE BODY, THE STANDARD LID AND THE SHOCK ABSORBING COVER 20,590 20,600 MAXIMUM MASS OF THE BODY, THE SEC LID AND THE SHOCK ABSORBING COVER 20,035 20,040

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 36/38 NON PROPRIETARY VERSION TABLE 0.9 (4/4)

BREAKDOWN OF SUB-ASSEMBLY MASSES TN-MTR - TRANSPORT CONFIGURATION Mass (kg)

MAXIMUM MASS UNDER LOAD (Gross mass) 23,400 TN-MTR - OPERATIONAL CONFIGURATION Mass (kg)

MAXIMUM MASS UNDER LOAD (Gross mass) 30,100

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 37/38 NON PROPRIETARY VERSION TABLE 0.10 PACKAGING DIMENSIONS BODY AND COVER Cavity internal: 960 mm Internal height: 1080 mm Internal steel thickness Shell 20 mm Bottom 30 mm Standard lid 35 mm Standard lid Plug 137 mm Thickness of lead

/

Insulating thickness

/

External steel thickness Shell 25 mm Bottom 25 mm Standard lid 65 mm SEC lid 123 mm Body external Without fins: 1480 mm With fins: 1600 mm Height: 1,610 mm PACKAGING WITH SHOCK ABSORBING COVER TN-MTR external: 2080 mm Height: 2,008 mm TIED-DOWN PACKAGING WITH SHOCK ABSORBING COVER TN-MTR external: 2080 mm Height: 2,008 mm

TN International Ref. DOS-18-011415-003-NPV Rev. 1.0 Page 38/38 NON PROPRIETARY VERSION FIGURE 0.1 CONTAINMENT