COL Docs - Vogtle Electric Generating Plant (VEGP) Unit 3 and Unit 4, Draft Completion Plan for Uncompleted ITAAC 2.2.03.10 (Index Number 206)

ML19231A345
Person / Time
Site:	Vogtle
Issue date:	08/19/2019
From:	NRC
To:	NRC/NRO/DLSE/LB4
References
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1 Vogtle PEmails From:

Habib, Donald Sent:

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Subject:

Vogtle Electric Generating Plant (VEGP) Unit 3 and Unit 4, DRAFT Completion Plan for Uncompleted ITAAC 2.2.03.10 [Index Number 206]

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Vogtle Electric Generating Plant (VEGP) Unit 3 and Unit 4, DRAFT Completion Plan for Uncompleted ITAAC 2.2.03.10 [Index Number 206]

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U.S. Nuclear Regulatory Commission ND Enclosure Page 1 of 12 Southern Nuclear Operating Company ND Enclosure Vogtle Electric Generating Plant (VEGP) Unit 3 and Unit 4 Completion Plan for Uncompleted ITAAC 2.2.03.10 [Index Number 206]

U.S. Nuclear Regulatory Commission ND Enclosure Page 2 of 12 ITAAC Statement Design Commitment

10. Safety-related displays of the parameters identified in Table 2.2.3-1 can be retrieved in the MCR.

11.a) Controls exist in the MCR to cause the remotely operated valves identified in Table 2.2.3-1 to perform their active function(s).

11.b) The valves identified in Table 2.2.3-1 as having PMS control perform their active function after receiving a signal from the PMS.

12.b) After loss of motive power, the remotely operated valves identified in Table 2.2.3-1 assume the indicated loss of motive power position.

13. Displays of the parameters identified in Table 2.2.3-3 can be retrieved in the MCR.

Inspections/Tests/Analyses Inspection will be performed for the retrievability of the safety-related displays in the MCR.

ii) Stroke testing will be performed on remotely operated valves other than squib valves identified in Table 2.2.3-1 using the controls in the MCR.

ii) Testing will be performed on the remotely operated valves other than squib valves identified in Table 2.2.3-1 using real or simulated signals into the PMS.

iii) Testing will be performed to demonstrate that remotely operated PXS isolation valves PXS-V014A/B, V015A/B, V108A/B open within the required response times.

Testing of the remotely operated valves will be performed under the conditions of loss of motive power.

Inspection will be performed for retrievability of the displays identified in Table 2.2.3-3 in the MCR.

Acceptance Criteria Safety-related displays identified in Table 2.2.3-1 can be retrieved in the MCR.

ii) Controls in the MCR operate to cause remotely operated valves other than squib valves to perform their active functions.

ii) Remotely operated valves other than squib valves perform the active function identified in the table after a signal is input to the PMS.

iii) These valves open within 20 seconds after receipt of an actuation signal.

U.S. Nuclear Regulatory Commission ND Enclosure Page 3 of 12 After loss of motive power, each remotely operated valve identified in Table 2.2.3-1 assumes the indicated loss of motive power position.

Displays identified in Table 2.2.3-3 can be retrieved in the MCR.

ITAAC Completion Description Multiple ITAAC are performed to verify by inspections and tests that:

Safety-related displays of the parameters identified in the Combined License (COL)

Table 2.2.3-1 (Attachment A) can be retrieved in the Main Control Room (MCR).

Controls exist in the MCR to cause the remotely operated valves identified in COL Table 2.2.3-1 (Attachment B) to perform their active function(s).

The valves identified in Table 2.2.3-1 (Attachment C) as having Protection and Safety Monitoring System (PMS) control perform their active function after receiving a signal from the PMS.

Remotely operated PXS isolation valves PXS-V014A/B, V015A/B, V108A/B open within the required response times.

After loss of motive power, the remotely operated valves identified in COL Table 2.2.3-1 (Attachment E) assume the indicated loss of motive power position.

Displays of the parameters identified in COL Table 2.2.3-3 (Attachment F) can be retrieved in the MCR.

Safety-related displays identified in Table 2.2.3-1 can be retrieved in the MCR.

Inspection performed in accordance with Unit 3 and Unit 4 component test work packages, SNC921612 and SNCYYYYYY (References 1 and 2) visually confirm that when each of the displays of the plant parameter identified in Attachment A is summoned using the MCR PMS Visual Display Units (VDUs), the expected display appears on the PMS VDU.

The completed inspection results (References 1 and 2) confirm that safety-related displays identified in Table 2.2.3-1 can be retrieved in Unit 3 and Unit 4 MCR.

ii) Controls in the MCR operate to cause remotely operated valves other than squib valves to perform their active functions.

Stroke testing is performed in accordance with Unit 3 and Unit 4 component test work packages, SNC921614 and SNCYYYYYY (References 3 and 4) using controls in the MCR to confirm that the remotely operated valves identified in COL Table 2.2.3-1 (Attachment B) perform their active function.

The remotely operated valves identified in Attachment B are stroke tested using an operator work station in the MCR. The valves are stroked to their active function position using the Plant Control System (PLS) and verified locally to have travelled to their active function position.

The completed test results (References 3 and 4) confirm that controls in the Unit 3 and Unit 4 MCRs operate to cause remotely operated valves other than squib valves to perform their active functions.

U.S. Nuclear Regulatory Commission ND Enclosure Page 4 of 12 ii) Remotely operated valves other than squib valves perform the active function identified in the table after a signal is input to the PMS.

Testing is performed in accordance with Unit 3 and Unit 4 component test packages SNCXXXXXX and SNCYYYYYY (References 5 and 6). These component test packages utilize B-GEN-ITPCI-039 (Reference 7) to direct the performance of test procedures 3/4-GEN-OTS 001 (References 8 and 9), 3/4-GEN-OTS-10-002 (References 10 and 11), 3/4-GEN-OTS 003 (References 12 and 13 ), 3/4-GEN-OTS-10-004 (References 14 and 15 ), and 3/4-PXS-OTS-10-001 (References 16 and 17) to confirm that the remotely operated valves other than squib valves perform the active function identified in Attachment C after a signal is input to the PMS.

References 8 through 17 establish initial conditions with each valve verified locally and in the MCR to be in the required position. An actuation signal is generated by PMS using the PMS Maintenance and Test Panel (MTP) to generate a signal to cause the valves in Attachment C to transfer to the active function position and each valve is verified locally and in the MCR.

The completed test results (References 5 and 6) confirm the remotely operated valves other than squib valves perform the active function identified in the table after a signal is input to the PMS.

iii) These valves open within 20 seconds after receipt of an actuation signal.

Testing is performed in accordance with Unit 3 and Unit 4 component test packages SNCXXXXXX and SNCYYYYYY (References 5 and 6). These component test packages utilize B-GEN-ITPCI-039 (Reference 7) to direct the performance of test procedures 3/4-GEN-OTS 001 (References 8 and 9), 3/4-GEN-OTS-10-002 (References 10 and 11), 3/4-GEN-OTS 003 (References 12 and 13 ), 3/4-GEN-OTS-10-004 (References 14 and 15 ), and 3/4-PXS-OTS-10-001 (References 16 and 17) to confirm that remotely operated PXS isolation valves PXS-V014A/B, V015A/B, V108A/B open within 20 seconds after receipt of an actuation signal.

References 8 through 17 establish initial conditions with each valve verified locally and in the MCR to be in the closed position and a digital trend is established to time the valve actuations.

An actuation signal is generated by PMS using the PMS Maintenance and Test Panel (MTP) to generate a signal to cause the valves in Attachment D to transfer open and each valve is verified locally and in the MCR.

The completed test results (References 5 and 6) confirm that remotely operated PXS isolation valves PXS-V014A/B, V015A/B, V108A/B open within 20 seconds after receipt of an actuation signal for Unit 3 and Unit 4 and the test results are documented in Attachment D.

After loss of motive power, each remotely operated valve identified in Table 2.2.3-1 assumes the indicated loss of motive power position.

Testing is performed in accordance with Unit 3 and Unit 4 component test work packages, SNCXXXXXX and SNCYYYYYY (References 18 and 19) to verify that each remotely operated valve, other than squib valves, identified in Attachment E assumes the indicated loss of motive power position upon a loss of motive power.

U.S. Nuclear Regulatory Commission ND Enclosure Page 5 of 12 Testing is performed on the Motor-Operated Valves (MOVs) listed in Attachment E by opening the power supply to the MOVs when they are closed and verifying they remain closed. Power is restored to the MOVs and they are opened. The power supply to the MOVs is opened and they are verified to remain open.

Testing on the air operated valves is performed by placing the valves in a position opposite their loss of motive power position and opening the power supply to their air supply solenoid. This causes the solenoid to deenergize which closes the air supply to the valve and opens a vent port to vent off the air in the actuator. The valves are verified locally and in the MCR to transfer to their loss of motive power position.

The motive power for the squib valves is a single-use explosive device powered by Direct Current (DC) Power. By design, this configuration results in the squib valves maintaining their as-is position upon a loss of motive power, as power is required to ignite the explosive device which repositions the valve. As a result, no testing is required for the squib valves.

The completed test results (References 18 and 19) confirm that after loss of motive power, each remotely operated valve identified in Table 2.2.3-1 assumes the indicated loss of motive power position for Unit 3 and Unit 4.

Displays identified in Table 2.2.3-3 can be retrieved in the MCR.

An inspection is performed in accordance with Unit 3 and Unit 4 component test work packages, SNC921612 and SNCYYYYYY (References 1 and 2) to confirm displays identified in Attachment F can be retrieved in the MCR.

Testing is performed at an operator work station in the Unit 3 and Unit 4 MCR. Each display identified in Attachment F is located and verified to be retrievable and displayed on the operator work station.

The completed test results (References 1 and 2) confirm that the displays identified in Table 2.2.3-3 can be retrieved in Unit 3 and Unit 4 MCR.

References 1 through 19 are available for NRC inspection as part of Unit 3 and Unit 4 ITAAC Completion Packages (Reference 20 and 21).

List of ITAAC Findings In accordance with plant procedures for ITAAC completion, Southern Nuclear Operating Company (SNC) performed a review of all findings pertaining to the subject ITAAC and associated corrective actions. This review found there are no relevant ITAAC findings associated with this ITAAC.

References (available for NRC inspection)

1. SNC921612, PXS Indication Verifications - ITAAC: SV3-2.2.03.10 Items 10 and 13

2. SNCYYYYYY, PXS Indication Verifications - ITAAC: SV3-2.2.03.10 Items 10 and 13

3. SNC921614, PXS Remotely Operated Valve Stroke Test - ITAAC: SV3-2.2.03.10, Item 11a.ii

U.S. Nuclear Regulatory Commission ND Enclosure Page 6 of 12

4. SNCYYYYYY, PXS Remotely Operated Valve Stroke Test - ITAAC: SV3-2.2.03.10, Item 11a.ii

5. SNCXXXXXX

6. SNCYYYYYY

7. B-GEN-ITPCI-039, PMS CIM Component Test Procedure

8. 3-GEN-OTS-10-001, DIVISION A QUARTERLY VALVE STROKE TEST

9. 4-GEN-OTS-10-001, DIVISION A QUARTERLY VALVE STROKE TEST

10. 3-GEN-OTS-10-002, DIVISION B QUARTERLY VALVE STROKE TEST

11. 4-GEN-OTS-10-002, DIVISION B QUARTERLY VALVE STROKE TEST

12. 3-GEN-OTS-10-003, DIVISION C QUARTERLY VALVE STROKE TEST

13. 4-GEN-OTS-10-003, DIVISION C QUARTERLY VALVE STROKE TEST

14. 3-GEN-OTS-10-004, DIVISION D QUARTERLY VALVE STROKE TEST

15. 4-GEN-OTS-10-004, DIVISION D QUARTERLY VALVE STROKE TEST

16. 3-PXS-OTS-10-001, Passive Core Cooling System Valve Stroke Test

17. 4-PXS-OTS-10-001, Passive Core Cooling System Valve Stroke Test

18. SNCXXXXXX, PXS Remotely Operated Valve Loss of Motive Power Test - ITAAC: SV3-2.2.03.10, Item 12b

19. SNCYYYYYY, PXS Remotely Operated Valve Loss of Motive Power Test - ITAAC: SV3-2.2.03.10, Item 12b

20. 2.2.03.10-U3-CP-Rev0, ITAAC Completion Package

21. 2.2.03.10-U4-CP-Rev0, ITAAC Completion Package

22. NEI 08-01, Industry Guideline for the ITAAC Closure Process Under 10 CFR Part 52

U.S. Nuclear Regulatory Commission ND Enclosure Page 7 of 12 Attachment A

• Excerpt from COL Appendix C Table 2.2.3-1 Table 2.2.3-1

• Equipment Name

• Tag No.

• Safety-Related Display CMT A Inlet Isolation Motor-operated Valve PXS-PL-V002A Yes (Position)

CMT B Inlet Isolation Motor-operated Valve PXS-PL-V002B Yes (Position)

CMT A Discharge Isolation Valve PXS-PL-V014A Yes (Position)

CMT B Discharge Isolation Valve PXS-PL-V014B Yes (Position)

CMT A Discharge Isolation Valve PXS-PL-V015A Yes (Position)

CMT B Discharge Isolation Valve PXS-PL-V015B Yes (Position)

Nitrogen Supply Containment Isolation Valve PXS-PL-V042 Yes (Position)

PRHR HX Inlet Isolation Motor-operated Valve PXS-PL-V101 Yes (Position)

PRHR HX Control Valve PXS-PL-V108A Yes (Position)

PRHR HX Control Valve PXS-PL-V108B Yes (Position)

Containment Recirculation A Isolation Motor-operated Valve PXS-PL-V117A Yes (Position)

Containment Recirculation B Isolation Motor-operated Valve PXS-PL-V117B Yes (Position)

Containment Recirculation A Squib Valve PXS-PL-V118A Yes (Position)

Containment Recirculation B Squib Valve PXS-PL-V118B Yes (Position)

Containment Recirculation A Squib Valve PXS-PL-V120A Yes (Position)

Containment Recirculation B Squib Valve PXS-PL-V120B Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V123A Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V123B Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V125A Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V125B Yes (Position)

IRWST Gutter Isolation Valve PXS-PL-V130A Yes (Position)

IRWST Gutter Isolation Valve PXS-PL-V130B Yes (Position)

CMT A Level Sensor PXS-011A Yes CMT A Level Sensor PXS-011B Yes CMT A Level Sensor PXS-011C Yes CMT A Level Sensor PXS-011D Yes CMT B Level Sensor PXS-012A Yes CMT B Level Sensor PXS-012B Yes CMT B Level Sensor PXS-012C Yes CMT B Level Sensor PXS-012D Yes CMT A Level Sensor PXS-013A Yes

U.S. Nuclear Regulatory Commission ND Enclosure Page 8 of 12 Attachment A (cont)

Table 2.2.3-1

• Equipment Name

• Tag No.

• Safety-Related Display CMT A Level Sensor PXS-013B Yes CMT A Level Sensor PXS-013C Yes CMT A Level Sensor PXS-013D Yes CMT B Level Sensor PXS-014A Yes CMT B Level Sensor PXS-014B Yes CMT B Level Sensor PXS-014C Yes CMT B Level Sensor PXS-014D Yes IRWST Wide Range Level Sensor PXS-046 Yes IRWST Wide Range Level Sensor PXS-047 Yes IRWST Wide Range Level Sensor PXS-048 Yes PRHR HX Flow Sensor PXS-049A Yes PRHR HX Flow Sensor PXS-049B Yes Containment Flood-up Level Sensor PXS-050 Yes Containment Flood-up Level Sensor PXS-051 Yes Containment Flood-up Level Sensor PXS-052 Yes IRWST Lower Narrow Range Level Sensor PXS-066 Yes IRWST Lower Narrow Range Level Sensor PXS-067 Yes IRWST Lower Narrow Range Level Sensor PXS-068 Yes IRWST Lower Narrow Range Level Sensor PXS-069 Yes Attachment B

• Excerpt from COL Appendix C Table 2.2.3-1 Table 2.2.3-1

• Equipment Name

• Tag No.

• Remotely Operated Valve

• Active Function CMT A Discharge Isolation Valve PXS-PL-V014A YES Transfer Open CMT B Discharge Isolation Valve PXS-PL-V014B YES Transfer Open CMT A Discharge Isolation Valve PXS-PL-V015A YES Transfer Open CMT B Discharge Isolation Valve PXS-PL-V015B YES Transfer Open Nitrogen Supply Containment Isolation Valve PXS-PL-V042 YES Transfer Closed PRHR HX Control Valve PXS-PL-V108A YES Transfer Open PRHR HX Control Valve PXS-PL-V108B YES Transfer Open IRWST Gutter Isolation Valve PXS-PL-V130A YES Transfer Closed IRWST Gutter Isolation Valve PXS-PL-V130B YES Transfer Closed

U.S. Nuclear Regulatory Commission ND Enclosure Page 9 of 12 Attachment C

• Excerpt from COL Appendix C Table 2.2.3-1 Table 2.2.3-1

• Equipment Name

• Tag No.

• Control PMS

• Active Function CMT A Discharge Isolation Valve PXS-PL-V014A YES Transfer Open CMT B Discharge Isolation Valve PXS-PL-V014B YES Transfer Open CMT A Discharge Isolation Valve PXS-PL-V015A YES Transfer Open CMT B Discharge Isolation Valve PXS-PL-V015B YES Transfer Open Nitrogen Supply Containment Isolation Valve PXS-PL-V042 YES Transfer Closed PRHR HX Control Valve PXS-PL-V108A YES Transfer Open PRHR HX Control Valve PXS-PL-V108B YES Transfer Open IRWST Gutter Isolation Valve PXS-PL-V130A YES Transfer Closed IRWST Gutter Isolation Valve PXS-PL-V130B YES Transfer Closed Attachment D

• Excerpt from COL Appendix C Table 2.2.3-1 Table 2.2.3-1 Unit

• Equipment Name

• Tag No.

• Remotely Operated Valve

• Control PMS Open Time 3

CMT A Discharge Isolation Valve PXS-PL-V014A Yes Yes XX sec 3

CMT B Discharge Isolation Valve PXS-PL-V014B Yes Yes XX sec 3

CMT A Discharge Isolation Valve PXS-PL-V015A Yes Yes XX sec 3

CMT B Discharge Isolation Valve PXS-PL-V015B Yes Yes XX sec 3

PRHR HX Control Valve PXS-PL-V108A Yes Yes XX sec 3

PRHR HX Control Valve PXS-PL-V108B Yes Yes XX sec 4

CMT A Discharge Isolation Valve PXS-PL-V014A Yes Yes XX sec 4

CMT B Discharge Isolation Valve PXS-PL-V014B Yes Yes XX sec 4

CMT A Discharge Isolation Valve PXS-PL-V015A Yes Yes XX sec

U.S. Nuclear Regulatory Commission ND Enclosure Page 10 of 12 Attachment D (cont)

Attachment E

• Excerpt from COL Appendix C Table 2.2.3-1 Table 2.2.3-1

• Equipment Name

• Tag No.

• Remotely Operated Valve

• Loss of Motive Power Position CMT A Inlet Isolation Motor-operated Valve PXS-PL-V002A Yes As Is CMT B Inlet Isolation Motor-operated Valve PXS-PL-V002B Yes As Is CMT A Discharge Isolation Valve PXS-PL-V014A Yes Open CMT B Discharge Isolation Valve PXS-PL-V014B Yes Open CMT A Discharge Isolation Valve PXS-PL-V015A Yes Open CMT B Discharge Isolation Valve PXS-PL-V015B Yes Open Accumulator A Discharge Isolation Valve PXS-PL-V027A Yes As Is Accumulator B Discharge Isolation Valve PXS-PL-V027B Yes As Is Nitrogen Supply Containment Isolation Valve PXS-PL-V042 Yes Closed PRHR HX Inlet Isolation Motor-operated Valve PXS-PL-V101 Yes As Is PRHR HX Control Valve PXS-PL-V108A Yes Open PRHR HX Control Valve PXS-PL-V108B Yes Open Containment Recirculation A Isolation Motor-operated Valve PXS-PL-V117A Yes As Is Containment Recirculation B Isolation Motor-operated Valve PXS-PL-V117B Yes As Is Containment Recirculation A Squib Valve PXS-PL-V118A Yes As Is Table 2.2.3-1 Unit

• Equipment Name

• Tag No.

• Remotely Operated Valve

• Control PMS Open Time 4

CMT B Discharge Isolation Valve PXS-PL-V015B Yes Yes XX sec 4

PRHR HX Control Valve PXS-PL-V108A Yes Yes XX sec 4

PRHR HX Control Valve PXS-PL-V108B Yes Yes XX sec

U.S. Nuclear Regulatory Commission ND Enclosure Page 11 of 12 Attachment E (cont)

Table 2.2.3-1

• Equipment Name

• Tag No.

• Remotely Operated Valve

• Loss of Motive Power Position Containment Recirculation B Squib Valve PXS-PL-V118B Yes As Is Containment Recirculation A Squib Valve PXS-PL-V120A Yes As Is Containment Recirculation B Squib Valve PXS-PL-V120B Yes As Is IRWST Injection A Squib Valve PXS-PL-V123A Yes As Is IRWST Injection A Squib Valve PXS-PL-V123B Yes As Is IRWST Injection A Squib Valve PXS-PL-V125A Yes As Is IRWST Injection A Squib Valve PXS-PL-V125B Yes As Is IRWST Gutter Isolation Valve PXS-PL-V130A Yes Closed IRWST Gutter Isolation Valve PXS-PL-V130B Yes Closed Attachment F

• Excerpt from COL Appendix C Table 2.2.3-3 Table 2.2.3-3

• Equipment

• Tag No.

• Display CMT A Discharge Isolation Valve PXS-PL-V014A Yes (Position)

CMT B Discharge Isolation Valve PXS-PL-V014B Yes (Position)

CMT A Discharge Isolation Valve PXS-PL-V015A Yes (Position)

CMT B Discharge Isolation Valve PXS-PL-V015B Yes (Position)

Accumulator A Nitrogen Vent Valve PXS-PL-V021A Yes (Position)

Accumulator B Nitrogen Vent Valve PXS-PL-V021B Yes (Position)

Accumulator A Discharge Isolation Valve PXS-PL-V027A Yes (Position)

Accumulator B Discharge Isolation Valve PXS-PL-V027B Yes (Position)

PRHR HX Control Valve PXS-PL-V108A Yes (Position)

PRHR HX Control Valve PXS-PL-V108B Yes (Position)

Containment Recirculation A Isolation Motor-operated Valve PXS-PL-V117A Yes (Position)

Containment Recirculation B Isolation Motor-operated Valve PXS-PL-V117B Yes (Position)

Containment Recirculation A Squib Valve PXS-PL-V118A Yes (Position)

Containment Recirculation B Squib Valve PXS-PL-V118B Yes (Position)

U.S. Nuclear Regulatory Commission ND Enclosure Page 12 of 12 Attachment F (cont)

Table 2.2.3-3

• Equipment

• Tag No.

• Display Containment Recirculation A Squib Valve PXS-PL-V120A Yes (Position)

Containment Recirculation B Squib Valve PXS-PL-V120B Yes (Position)

IRWST Line A Isolation Valve PXS-PL-V121A Yes (Position)

IRWST Line B Isolation Valve PXS-PL-V121B Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V123A Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V123B Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V125A Yes (Position)

IRWST Injection A Squib Valve PXS-PL-V125B Yes (Position)

IRWST Gutter Isolation Valve PXS-PL-V130A Yes (Position)

IRWST Gutter Isolation Valve PXS-PL-V130B Yes (Position)

Accumulator A Level Sensor PXS-JE-L021 Yes Accumulator B Level Sensor PXS-JE-L022 Yes Accumulator A Level Sensor PXS-JE-L023 Yes Accumulator B Level Sensor PXS-JE-L024 Yes PRHR HX Inlet Temperature Sensor PXS-JE-T064 Yes IRWST Surface Temperature Sensor PXS-JE-T041 Yes IRWST Surface Temperature Sensor PXS-JE-T042 Yes IRWST Bottom Temperature Sensor PXS-JE-T043 Yes IRWST Bottom Temperature Sensor PXS-JE-T044 Yes