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ROBATEL technologies U.S. NRC Request for Supplemental Information Docket No. 71-9365 Model No. RT-100 Package November 22, 2022 Prepared by:

Robatel Technologies, LLC 5115 Bernard Dr., Suite 304 Roanoke, VA 24018 For:

U.S. Nuclear Regulatory Commission Attn: Document Control Desk One White Flint North 11555 Rockville Pike Rockville, MD 20852

Subject:

Robatel Technologies Responses to the US NRC Request for Supplemental Information for Model No. RT-100 Package, Docket No. 71-9365

References:

Supplemental Information Needed Letter, dated November 21, 2022 The NRC request for supplemental information {RSI) letter identifies information needed by the staff in connection with its review of Robatel's Safety Analysis Report, Revision No. 8, dated August 29, 2022.

NUREG-2216, "Standard Review Plan for Transportation Packages for Spent Fuel and Radioactive Material," was used by the NRC staff in its review of the application .

Each individual RSI describes information needed by the U.S. Nuclear Regulatory Commission (NRC) staff to complete its review of the application to determine whether the applicant has demonstrated compliance with the regulatory requirements.

The RSI comments are grouped by chapter number and title from the Safety Analysis Report, along with the Robatel response. The response addresses the comment and where applicable, references the locations in the SAR and/or supporting documents where revised information can be located.

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RCBATEL technologies Chapter 1: General Information Question 1.1 Provide updated drawings that have legible title blocks.

The t itle blocks of all drawings are either very difficult or impossible to read even after significantly increasing the magnification. Staff needs legible copies of all drawings.

This information is necessary for the staff to evaluate compliance Title 10 of the Code of Federal Regulations (10 CFR) 71.33{a).

Response 1.1 (Proprietary Response)

Attached to this response are the following PDF drawings,

1. RT100 PE 1001-1 Rev. H - Robatel Transport Package RT- 100 General Assembly Sheet 1/2 (Proprietary)

2. RT100 PE 1001-2 Rev. H - Robatel Transport Package RT- 100 General Assembly Sheet 2/2 (Proprietary)

3. RT100 PRS 1011 Rev. E - Robatel Transport Package RT-100 Cask Sub Assembly Weld Map Cask Body (Proprietary)

4. RT100 PRS 1013 Rev. C - Robatel Transport Package RT-100 Cask Sub Assembly Weld Map Secondary Lid (Proprietary)

5. RTl00 PRS 1031 Rev. D - Robatel Transport Package RT-100 Cask Sub Assembly Weld Map Lower Impact Limiter (Proprietary)

6. RT100 PRS 1032 Rev. D - Robatel Transport Package RT-100 Cask Sub Assembly Weld Map Upper Impact Limiter (Proprietary)

7. 102885 MD 1031-06 Rev. F - Robatel Transport Package RT-100 Sub Assembly Fabrication Drawing Impact Limiter Foam (Proprietary)

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ROBATEL technologies Chapter 2: Structural Chapter Question 2.1 Explain whether prying action effects were considered for vibration-induced loads in the lid closure bolts, and the total vibration loads were included in the calculation of Normal Conditions of Transport (NCT) Load Combinations.

It appears that Safety Analysis Report (SAR) Rev. 8, Section 2.6.5, which presents vibration effects on closure bolts, does not determine the portion of tensile loads induced by prying action . It also appears that the total vibration-induced bolt tensile loads are omitted from NCT load combinations determined in SAR Section 2.13.2.4.2. Section 8 of NUREG/CR-6007 provides guidance that the total vertical vibration-induced bolt loading includes the effects of prying action. NUREG/CR-6007, Tables 6.1 and 6.2, and NUREG-2216, Section 2.4.5.5, provide guidance that the total vibration-induced bolt loads also be combined with others generated by NCT loads.

This information is necessary to evaluate compliance with 10 CFR 71.71(c)(5).

Response 2.1 Robatel considered the prying effect due to vibration-induced loads as shown in the following supplemental calculations. The calculations and the stress ratio comparison tables (Table 1 and Table 2) show that the effect of adding vibration-induced loads to the primary and secondary lid bolts is not significant. The calculations below were done in accordance with the equations listed in Tables 4.7 and 4.8 in NUREG 6007, VTR = Vibration transmissibility I (NUREG 6007, Section 4.8) ava = Maximum transverse acceleration (g) 2g (10 CFR 71.45b(l))

Wlp = Weight of the primary closure lid

= 3650 kg (RT-100 SAR, Revision 8)

Wis Weight of the secondary closure lid 860 kg (RT-100 SAR, Revision 8) xi Impact angle, RT-100 is shipped vertically

= 90° (RT-100 SAR, Revision 8)

Dlb = Lid diameter at bolt circle 1.92 m for primary lid (RT- I 00 SAR, Revision 8) 0.926 m for secondary lid (RT-100 SAR, Revision 8)

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RDBATEL technologies The tensile bolt force per bolt for the primary lid (Fa):

Fa= VTR x ava x (Wlp + Wls)

= (l) x (19.62 ;) x (3650kg+860kg )x ( :kN) = 2.765kN 100 The fixed edge primary closure-lid force (Ft) :

sin(x i) x ava x (Wlp + Wls)

Fr = rr x Dlb

_ sin(90) x (19.62 m/s 2 ) x (3650 kg+ 860 kg) ( N )-

- rr x 1.92 m x 1000 kN - 14.67 kN /m The fixed edge primary closure-lid moment (Mtl.:

sin(x i) x ava x (Wlp + Wls)

Mr= 8 x rr sin(90) x (19.62 m/s 2 ) x (3650 kg+ 860 kg) ( N )

= rr x 8

x 1000 kN = 3.521 kN - m/m The NCT stress ratios of the primary lid bolts were calculated following the procedure outlined in the RT-100 SAR, Revision 8. As shown in Table 1 below, the impact of including vibration-induced loads is not significant in comparison with the stress ratios without vibration loads. Additionally, there is a significant safety margin on the primary lid bolts for NCT loads.

Table 1. Primary Lid Bolts (NCT) Stress Ratio Comparison Stress Ratio With Vibration Loads Without Vibration Loads Axial stress ratio (Rt) 0.63 0.62 Combined stress ratio (Rt 2 + Rs 2 ) 0.39 0.39 Stress intensity ratio (Ri) 0.65 0.64 The tensile bolt force per bolt for the secondary lid (Fa):

Fa = VTR x ava x Wls

= (1) x ( 19.62 ; ) x (860 kg) x (lOO: kN) = 0.937 kN The fixed edge secondary closure-lid force (Ft):

sin(x i) x ava x Wls Fr = ___ rr_x_D_l_b_ _

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RDBATEL technologies 2

= sin(90) x (19.62 m/s ) x (860 kg) x ( N ) = N 5 80 rr x 1.92 m 1000 kN

• k /m The fixed edge secondary closure-lid moment (Mf}:

sin(xi) x ava x Wls Mr= 8 xrr

_ s in(90) x (19.62 m/s 2 ) x (860 kg) ( N ) _

- 1T x 8 x 1000 kN - 0.671 kN - m/m The NCT stress ratios of the secondary lid bolts were calculated following the procedure outlined in the RT-100 SAR, Revision 8. As shown in Table 2 below, the impact of including vibration -induced loads is not significant in comparison with the stress ratios without vibration loads. Additionally, there is a significant safety margin on the secondary lid bolts for NCT loads.

Table 2. Secondary Lid Bolts (NCT) Stress Ratio Comparison Stress Ratio With Vibration Loads Without Vibration Loads Axial stress ratio (Rt) 0.53 0.52 Combined stress ratio (Rt 2 + Rs 2 ) 0.28 0.27 Stress intensity ratio (Ri) 0.56 0.56 In summary, Robatel didn't combine the vibration-induced load with NCT loads from other sources since it does not cause a significant reduction in the safety margins of the primary and secondary lid bolts.

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