NMP1L3469, Constellation Energy Company, LLC, Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits

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Constellation Energy Company, LLC, Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits
ML22181A094
Person / Time
Site: Calvert Cliffs, Dresden, Peach Bottom, Nine Mile Point, Byron, Braidwood, Limerick, Ginna, Clinton, Quad Cities, LaSalle  Constellation icon.png
Issue date: 06/30/2022
From: David Helker
Constellation Energy Company
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
NMP1L3469, RS-22-088
Download: ML22181A094 (65)
v  d  e


Text

200 Exelon Way Kennett Square, PA 19348 www.ConstellationEnergy.com 10 CFR 20.1703 10 CFR 20.1705 RS-22-088 NMP1L3469 June 30, 2022 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001 Braidwood Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-72 and NPF-77 NRC Docket Nos. STN 50-456 and STN 50-457 Byron Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-37 and NPF-66 NRC Docket Nos. STN 50-454 and STN 50-455 Calvert Cliffs Nuclear Power Plant, Units 1 and 2 Renewed Facility Operating License Nos. DPR-53 and DPR-69 NRC Docket Nos. 50-317 and 50-318 Clinton Power Station, Unit 1 Facility Operating License No. NPF-62 NRC Docket No. 50-461 Dresden Nuclear Power Station, Units 2 and 3 Renewed Facility Operating License Nos. DPR-19 and DPR-25 NRC Docket Nos. 50-237 and 50-249 LaSalle County Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-11 and NPF-18 NRC Docket Nos. 50-373 and 50-374 Limerick Generating Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-39 and NPF-85 NRC Docket Nos. 50-352 and 50-353 Nine Mile Point Nuclear Station, Units 1 and 2 Renewed Facility Operating License Nos. DPR-63 and NPF-69 NRC Docket Nos. 50-220 and 50-410 Peach Bottom Atomic Power Station, Units 2 and 3 Subsequent Renewed Facility Operating License Nos. DPR-44 and DPR-56 NRC Docket Nos. 50-277 and 50-278 Constellation

U.S. Nuclear Regulatory Commission Use of Honeywell Mururoa V4F1 R Air-Supplied Suits June 30, 2022 Page 2 Quad Cities Nuclear Power Station, Units 1 and 2 Renewed Facility Operating License Nos. DPR-29 and DPR-30 NRC Docket Nos. 50-254 and 50-265 R. E. Ginna Nuclear Power Plant Renewed Facility Operating License No. DPR-18 NRC Docket Nos. 50-244

References:

1) Letter from Entergy Nuclear Operations Inc. to U.S. Nuclear Regulatory Commission - "Request for Use of Delta Protection Mururoa V4F1 R Supplied Air Suits," dated May 16, 2006 (ML061440167) 2)

Letter from U.S. Nuclear Regulatory Commission to Entergy Nuclear Operations Inc. - "Arkansas Nuclear One, Unit 2, and James A. FitzPatrick Nuclear Power Plant - Request for Use of Delta Protection Mururoa V4F1 R Supplied Air Suits," dated August 14, 2006 (ML062230266)

Subject:

Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits In the Reference 1 letter, and as supplemented by letter dated July 13, 2006, Entergy Operations, Inc. (Entergy), pursuant to the provisions of 10 CFR 20, Section 1703(b), requested U.S. Nuclear Regulatory Commission (NRC) authorization for use of Delta Protection Mururoa V4F1 R supplied air suit at Arkansas Nuclear One, Unit 2 (ANO-2), and James A. Fitzpatrick Nuclear Power Plant (JAF) that had not been tested or certified by the National Institute for Occupational Safety and Health. Additionally, Entergy requested pursuant to 10 CFR 20, Section 1705, an assigned protection factor (APF) of 5,000 for this suit, which exceeds the APFs permitted by Appendix A of 10 CFR Part 20.

In the Reference 2 letter, and supporting Safety Evaluation Report (SER), the NRC authorized Entergy's request permitting use of the Delta Protection Mururoa V4F1 R supplied air suits with an APF of 5,000 at ANO-2 and JAF. Note that the manufacturer "Delta Protection" referenced in Reference 1 is now "Honeywell" and, therefore, the suit is now considered the Honeywell Mururoa V4F1 R supplied air suit.

Constellation Energy Generation, LLC (CEG) is the current licensee for JAF and the authorization for use of the Mururoa V4F1 R supplied air suits would still apply as the station continues to use the suits as approved by the NRC. Accordingly, pursuant to the provisions of 10 CFR 20.1703(b),

CEG is requesting authorization for extended use of the Mururoa V4F1 R supplied air suits by other CEG plants as specified above. to this letter, along with the supporting enclosures, provide additional documentation and justification to support the request to use the Mururoa V4F1 R supplied air suits at additional CEG plants. Other CEG plants currently have NRC authorization to use other style Mururoa suits (e.g., Mururoa V4 F1 and Mururoa V4 MTH2). Due to breathable network capabilities and potential manufacturing supply chain shortages, CEG determined that the addition of the Mururoa V4F1 R suit would provide further flexibility in support of respiratory protection programs that would help in addressing breathable network variables and suit alternatives under current marketing conditions.

U.S. Nuclear Regulatory Commission Use of Honeywell Mururoa V4F1 R Air-Supplied Suits June 30, 2022 Page 3 The Mururoa V4F1 R supplied air suits have the capability of adjusting to incoming pressures between 35-100 psig (2.5 Bar to 7 Bar) via a self-adjusting regulator on the suit. This self-regulating feature (Deltaflow) controls air flow within the above pressure range without requiring user intervention.

The Mururoa V4F1 R supplied air suits will be used at other CEG plants within the fleet in the same fashion and under similar conditions as authorized by the NRC for JAF in the Reference 2 letter., including supporting enclosures, of this letter provides information to justify use of the Mururoa V4F1 R supplied air suits. Attachment 2 summarizes the list of regulatory commitments to be implemented to support use of the Mururoa V4F1 R supplied air suits for the other cited plants, which are essentially the same commitments previously approved at JAF in Reference 1.

Approving the use of the Mururoa V4F1 R supplied air suits as specified will allow CEG to proceed with procedure changes and complete training as necessary that could potentially allow the suits to be used later this year during fall 2022 refueling outages. Therefore, CEG is requesting approval by October 31, 2022.

If you have any questions, please contact Richard Gropp at 610-765-5557.

Respectfully, David P. Helker Sr. Manager, Licensing Constellation Energy Generation, LLC Attachments:

1)

Approval Request for Honeywell Mururoa V4F1 R Encapsulating Suits

-.1 to Attachment 1, General Description of the Honeywell Mururoa V4F1 R Supplied Air Suit

- Enclosure 5.2 to Attachment 1, European Standard EN 1073-1: 1998 for Ventilated Protective Clothing

- Enclosure 5.3 to Attachment 1, Certificate No. 0073/197/162/02/01/0005 for Mururoa V4F1 R

- Enclosure 5.4 to Attachment 1, Honeywell Donning and Removal Instructions for Mururoa V4F1 R Suit

-.5 to Attachment 1, Honeywell Safety and Productivity Solutions Product Recall Policy

2)

Summary of Regulatory Commitments cc: (w/ Attachments/Enclosures)

Regional Administrator - NRC Region I Regional Administrator - NRC Region III NRC Project Manager, NRR - Constellation Generation Fleet

~~176

U.S. Nuclear Regulatory Commission Use of Honeywell Mururoa V4F1 R Air-Supplied Suits June 30, 2022 Page 4 cc: continued (w/o Attachments/Enclosures)

NRC Senior Resident Inspector - Braidwood Station NRC Senior Resident Inspector - Byron Station NRC Senior Resident Inspector - Calvert Cliffs Nuclear Power Plant NRC Senior Resident Inspector - Clinton Power Station NRC Senior Resident Inspector - Dresden Nuclear Power Station NRC Senior Resident Inspector - LaSalle County Station NRC Senior Resident Inspector - Limerick Generating Station NRC Senior Resident Inspector - Nine Mile Point Nuclear Station NRC Senior Resident Inspector - Peach Bottom Atomic Power Station NRC Senior Resident Inspector - Quad Cities Nuclear Power Station NRC Senior Resident Inspector - R. E. Ginna Nuclear Power Plant NRC Project Manager, NRR - Braidwood Station NRC Project Manager, NRR - Byron Station NRC Project Manager, NRR - Calvert Cliffs Nuclear Power Plant NRC Project Manager, NRR - Clinton Power Station NRC Project Manager, NRR - Dresden Nuclear Power Station NRC Project Manager, NRR - LaSalle County Station NRC Project Manager, NRR - Limerick Generating Station NRC Project Manager, NRR - Nine Mile Point Nuclear Station NRC Project Manager, NRR - Peach Bottom Atomic Power Station NRC Project Manager, NRR - Quad Cities Nuclear Power Station NRC Project Manager, NRR - R. E. Ginna Nuclear Power Plant Illinois Emergency Management Agency - Division of Nuclear Safety Director, Bureau of Radiation Protection - Pennsylvania Department of Environmental Resources W. DeHaas - Pennsylvania Bureau of Radiation Protection S. Seaman - State of Maryland A. L. Peterson, NYSERDA B. Frymire, NYSPSC

ATTACHMENT 1 Approval Request for Honeywell Mururoa V4F1 R Encapsulating Suits Supporting

Enclosures:

-.1 to Attachment 1, General Description of the Honeywell Mururoa V4F1 R Supplied Air Suit

- Enclosure 5.2 to Attachment 1, European Standard EN 1073-1: 1998 for Ventilated Protective Clothing

- Enclosure 5.3 to Attachment 1, Certificate No. 0073/197/162/02/01/0005 for Mururoa V4F1 R Suit

- Enclosure 5.4 to Attachment 1, Donning and Removal Instructions for Honeywell Mururoa V4F1 R Suit

-.5 to Attachment 1, Honeywell Safety and Productivity Solutions Product Recall Policy Page 1 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS

1.0 INTRODUCTION

................................................................................................................ 2 1.1 PURPOSE................................................................................................................. 2

1.2 BACKGROUND

......................................................................................................... 2 1.2.1 Regulatory Requirements.............................................................................. 3 1.2.2 Suit Construction............................................................................................ 4 1.2.3 Safety Features of the Mururoa Model V4F1 R Suit...................................... 5 1.2.4 Implementation............................................................................................... 5 2.0 TECHNICAL JUSTIFICATION............................................................................................ 6 2.1 EVALUATION...................................................................................................................... 6 2.2 PRECEDENT....................................................................................................................... 7

3.0 CONCLUSION

..................................................................................................................... 7

4.0 REFERENCES

..................................................................................................................... 7 5.0 ENCLOSURES 5.1 - GENERAL DESCRIPTION OF THE HONEYWELL MURUROA V4F1 R SUPPLIED AIR SUIT.

5.2 - EUROPEAN STANDARD EN 1073-1: 1998 FOR VENTILATED PROTECTIVE CLOTHING 5.3 - CERTIFICATE NO. 0073/197/162/02/01/0005 FOR MURUROA V4F1 R ISSUED BY THE INSTITUTE FOR NUCLEAR PROTECTION AND SECURITY 5.4 - DONNING AND REMOVAL INSTRUCTIONS FOR HONEYWELL MURUROA V4F1 R 5.5 - HONEYWELL SAFETY AND PRODUCTIVITY SOLUTIONS PRODUCT RECALL POLICY Page 2 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS

1.0 INTRODUCTION

1.1 PURPOSE 10 CFR 20, Appendix A, "Assigned Protection Factors for Respirators," states that an air-supplied suit may be used in a continuous-flow mode; however, an Assigned Protection Factor (APF) has not been designated. A footnote to this equipment application indicates that the suit can be used in a respiratory protection program if the minimum program requirements are met (e.g., 10 CFR 20.1703, "Use of Individual Respiratory Protection Equipment"). 10 CFR 20.1703 states that use of non-National Institute for Occupation Safety and Health (NIOSH) equipment is acceptable only if approved for use by the U.S. Nuclear Regulatory Commission (NRC). Since 10 CFR 20, Appendix A, does not specify an APF for Mururoa V4F1 R supplied air suits, 10 CFR 20.1705, "Application for Use of Higher Assigned Protection Factors," requires NRC approval for exceeding the APF requirements of 10 CFR 20, Appendix A.

Mururoa style suits have been widely used in western European nuclear power plants as well as many plants in North America. The Delta Protection Mururoa V4F1 R supplied air suit has been previously authorized for use by the NRC, with an APF of 5,000, at the James A. Fitzpatrick Nuclear Power Plant (JAF) (Reference 2), which is now a facility owned and operated by Constellation Energy Generation, LLC (CEG). Note that the manufacturer "Delta Protection" referenced is now "Honeywell" and, therefore, the suit is considered the Honeywell Mururoa V4F1 R supplied air suit.

The purpose of this request is to obtain NRC approval for broader use of the Mururoa V4F1 R supplied air suits at other CEG facilities, in addition to JAF.

1.2 BACKGROUND

By letter dated May 16, 2006 (Reference 1), and as supplemented by letter dated July 13, 2006, Entergy Operations, Inc. (Entergy), pursuant to the provisions of 10 CFR 20, Section 1703(b),

requested NRC authorization for use of the Delta Protection Mururoa V4F1 R equipment (now Honeywell) at Arkansas Nuclear One, Unit 2 (ANO-2), and JAF that had not been tested or certified by the National Institute for Occupational Safety and Health. Additionally, Entergy requested pursuant to 10 CFR 20, Section 1705, an assigned protection factor (APF) of 5,000 for the Mururoa V4F1 R equipment, which exceeds the APFs permitted by Appendix A of 10 CFR Part 20.

Subsequently, and as documented in an NRC letter and supporting Safety Evaluation Report (SER) dated August 14, 2006 (Reference 2), the NRC authorized Entergy's request permitting use of the Delta Protection Mururoa V4F1 R supplied air suits with an APF of 5,000 for use of the subject suits at ANO-2 and JAF. As noted above, the manufacturer "Delta Protection" is now "Honeywell" and the suit is considered the Honeywell Mururoa V4F1 R supplied air suit.

CEG is currently the licensee for JAF and the authorization for use of the Mururoa V4F1 R supplied air suits would still apply as the station continues to use the suits as approved by the NRC. CEG is now requesting authorization for broader use of the Mururoa V4F1 R supplied air suits for other CEG plants within the fleet as noted below.

Page 3 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS Braidwood Station, Units 1 and 2 Byron Station, Units 1 and 2 Calvert Cliffs Nuclear Power Plant, Units 1 and 2 Clinton Power Station, Unit 1 Dresden Nuclear Power Station, Units 2 and 3 LaSalle County Station, Units 1 and 2 Limerick Generating Station, Units 1 and 2 Nine Mile Point Nuclear Station, Units 1 and 2 Peach Bottom Atomic Power Station, Units 2 and 3 Quad Cities Nuclear Power Station, Units 1 and 2 R. E. Ginna Nuclear Power Plant CEG facilities also use other style Mururoa air-supplied suits with an APF as approved by the NRC.

1.2.1 Regulatory Requirements CEG proposes the broader use of the Mururoa "fully enclosed suit" model V4F1 R now manufactured by Honeywell Protective Clothing, France. The purpose of this submittal is to request approval for the use of this particular suit and for authorization to apply an APF of 5,000.

Additionally, due to the advanced safety features for emergency breathing and emergency escape built into these suit models, CEG may choose to use the Mururoa V4F1 R supplied air suits without dedicated rescue personnel being assigned. In addition, this particular suit is designed to operate with variable pressures from 35 - 100 PSIG (2.5 Bar to 7 Bar) via a self-adjusting regulator on the suit. This self-regulating feature (Deltaflow) controls air flow within the above pressure range without requiring user intervention.

The following regulatory requirements are relevant to this request.

10 CFR 20.1703, "Use of Individual Respiratory Protection Equipment," requires that if a licensee assigns or permits the use of respiratory protection equipment to limit the intake of radioactive material, (a) the licensee shall use only respiratory protection equipment that is tested and certified by NIOSH.

10 CFR 20.1703(b) permits that if the licensee wishes to use equipment that has not been tested or certified by NIOSH, or for which there is no schedule for testing or certification, the licensee shall submit an application to the NRC to authorize use of the equipment.

10 CFR 20.1705, "Application for Use of Higher Assigned Protection Factors," requires that a licensee shall obtain authorization from the NRC before using assigned protection factors in excess of those specified in 10 CFR 20, Appendix A.

10 CFR 20, Appendix A, "Assigned Protection Factors for Respirators," Item II, "Atmosphere Supplying Respirators (particulate, gases and vapors)," indicates that for a suit in a continuous flow operating mode, no APF is assigned nor is a NIOSH approval schedule currently available for the evaluation of such suits. Such equipment may be used in an acceptable respiratory protection Page 4 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS program as long as all the other minimum program requirements, with the exception of fit testing, are met (i.e., 10 CFR 20.1703).

Based on these regulatory requirements, CEG is seeking prior NRC authorization for both the use of and the APF of 5,000 for the Honeywell Mururoa V4F1 R supplied air suit for the CEG plants noted above. The JAF facility has already been approved for use of the Mururoa V4F1 R supplied air suit as described in the Reference 2 letter.

1.2.2 Suit Construction The Mururoa Model V4F1 R supplied air single-use suit manufactured by Honeywell meets International Organization for Standardization (ISO) Standard 9100 and the European Standard EN 1073-1:1998. The suits have the following desirable features that are not available in the "bubble hoods" and "rain suits" manufactured in the United States:

1. One-piece single use suit that includes welded gloves and booties with tie straps, made of flexible PVC with reinforced elbows, feet and knee areas,
2. Dual zippers - metal zipper inside and plastic zipper outside,
3. Transparent helmet and optical quality visor providing distortion free vision with sufficient headroom to wear a headset,
4. Welded sleeve to insert communication cable,
5. Tearable safety strip near the mouth that could be used for emergency breathing in the event of loss of supplied air,
6. An egress strip stretching from left arm, over the head, to right arm that is used for undressing and for self-rescue in an emergency, such as loss of supplied air,
7. Air intake located at the waist with a built-in regulator (Deltaflow) which self-adjusts airflow,
8. Two patented exhalation valves which prevent suit over pressurization,
9. Low noise level within the garment (<75 db) at maximum air flow, and
10. Integral air distribution to the head, arms and legs for maximum comfort.

Air hoses of any length may be used; however, air supplied to the Mururoa V4F1 R suits shall be between 35-100 psig (2.5 Bar to 7 Bar) resulting in airflow between 450 and 750 liters per minute (lpm) as measured at the inlet. A regulator at the inlet automatically adjusts the airflow without user intervention to meet the desired operating range. To ensure user safety, the regulator cannot shut off the air supply. There are two (2) exhaust vents on the back, one (1) behind the neck and one (1) at the lower back. The exhaust vents have patented magnetic seals to prevent any intrusion of contaminants if supplied air is lost. The Honeywell Mururoa suit is approved for use with different fittings in Europe and can be fitted with Schrader or Foster or CEJN-type fittings used at CEG facilities.

The Mururoa V4F1 R supplied air suit is made of flexible PVC material. Examination of the suit shows there are two (2) air vents near the chin for cooling the face, as well as a distribution network for air to reach the arms and the legs.

Page 5 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS 1.2.3 Safety Features of the Mururoa Model V4F1 R Suit The Honeywell Mururoa V4F1 R supplied air suit is lightweight (< 1.8 kg or 4 lbs.), made of fire-retardant material (M1 classification) and can be used in temperatures up to 140oF, as per European Standard EN 1073-1. The suits have built-in gloves, booties with binding ties, and have reinforced elbows, feet, and knees. A transparent helmet with 6-inch x 8-inch clear faceplate provides distortion-free view. Dual magnetic ventilation valves provide needed ventilation and relief of excess pressure in the event the suit is squeezed/pinched unexpectedly. Should a loss of air occur, the user can remove the mouth strip, adjust the opening closer to their face, or enlarge the opening to access and breathe outside air. Alternatively, the user can pull the escape strip from either forearm, over the head and towards the other forearm, and rip the suit in two (2) halves. This escape strip is normally used for egress from the suit when the work activity has been completed.

The Mururoa V4F1 R supplied air suit's design does not permit its use in an Immediately Dangerous to Life and Health (IDLH) atmosphere. CEG plans to use this suit for protection against radioactive particulate contamination only. All suits will be treated as "Single-Use" only.

1.2.4 Implementation CEG sites have respiratory protection programs in full compliance with 10 CFR 20. Existing Mururoa training for the currently NRC-approved suits (V4F1 and V4 MTH2) for workers as well as Radiation Protection personnel contain information on the Mururoa V4F1 R suit but will be revised to address fleet use. Similarly, existing procedures for operation, inspection, and use of the currently approved suits (i.e., V4F1 and V4 MTH2) will be revised to incorporate the Mururoa V4F1 R suit fleet changes and pressure requirements.

CEG sites have had much success with the use of Mururoa suits. The Mururoa suits' safety features, namely the tear-off mouth strip and the emergency tear-off strip, make it unnecessary for any standby rescue personnel. Additionally, the workers are in direct contact with Radiation Protection personnel or support personnel via audio headsets, remote monitoring, and camera observation. The distribution of air via the manifold system aids in worker comfort to the extent that they can remain in wet, humid areas with little impact of heat stress. Similar to the other Mururoa suits in use, the Mururoa V4F1 R supplied air suit may be used for Steam Generator platform work, reactor cavity decontamination, control rod drive (CRD) exchange and equipment decontamination.

These are a few examples of its application.

CEG will use the Corrective Action Program (CAP) process to document and evaluate any unexpected problems with the Mururoa V4F1 R supplied air suits and will report any defects in a timely manner to the U.S. nuclear industry through the operating experience (OPEX) process. The manufacturer is subjected to checks from the IRSN, Institut de radioprotection et de sûreté nucléaire (Institute for Nuclear Protection and Security), to ensure the product has no risk of injury to the user. A second organization called ASQUAL, Association Qualité dans la filire Textile (an advisory group to regulators), performs annual inspections of the factory to certify that the manufactured product is of the same quality approved by the IRSN. Several destructive/non-destructive tests are performed by the manufacturer for each order received from clients. Any defects reported by clients, investigations, and corrective actions are documented by Honeywell.

Page 6 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS Customers are notified of significant problems and product recalls in accordance with Honeywell SPS-POL-0018, Safety and Productivity Solutions (SPS) Product Recall Policy (Enclosure 5.5).

This information is made available to ASQUAL for their annual inspections.

CEG currently uses other style Mururoa suits that have been approved for use by the NRC for work involving overhead contaminated water or high potential for skin contamination from discrete radioactive particles, and to prevent intake of airborne contaminants. Because the other style Mururoa suits used operate at a higher-pressure range with an adjustable valve, the V4F1 R supplied air suit offers the opportunity to use these suits with the same level of safety; however, with breathable network variability. The single suit construction and ease of removal provides protection against facial/skin contamination as well as airborne radioactivity. The tearable strips offer an effective method of suit removal and, therefore, minimize chances of cross-contamination during undressing/exit from contaminated areas. Approval of an APF of 5,000 for the Honeywell Mururoa V4F1 R supplied air suits would allow use of the suits to further enhance CEG's efforts to control contamination incidents and prevent intakes during operational activities at the other CEG facilities.

2.0 TECHNICAL JUSTIFICATION 2.1 EVALUATION CEG reviewed the following documents obtained from Honeywell:

General Description of the Honeywell Mururoa Model V4F1 R Ventilated Suits (refer to.1),

European Standard EN 1073-1:1998 for Ventilated Protective Clothing (refer to Enclosure 5.2),

Certificate No. 0073/197/162/02/01/0005 for Mururoa Model V4F1 R Issued by the Institute for Nuclear Protection and Security (refer to Enclosure 5.3),

Donning and Removal Instructions for Mururoa V4F1 R (refer to Enclosure 5.4), and Honeywell Safety and Productivity Solutions (SPS) Product Recall Policy (Enclosure 5.5).

Based on a review of this documentation, the Honeywell Mururoa V4F1 R supplied air suits provide a design equal to the formerly approved Delta Protection Mururoa V4F1 R supplied air suits, which offers an additional benefit of a lower operating pressure and data supporting an APF of at least 5,000.

A key element of this review was the application of the European Standard and the Certificate issued by IRSN (Institute for Nuclear Protection and Security) for the Mururoa suits. The European Standard (Enclosure 5.2) requires that the suit material be tested for resistance to abrasion, flex cracking, puncture, blocking, tear and flammability, strength of seams, joints and assemblies, damage resistance of exhaust valves, designed flow rates for pressure range of supplied air, noise level, and quality of the visor. According to the testing standard, three (3) workers were monitored performing standard exercises, each wearing two (2) different suits inside a chamber filled with a test agent (sodium chloride) and leakage was measured during the exercise regimen which lasted 20 minutes. Operating parameters were set to manufacturer's instructions. Standard exercises included walking on a treadmill at 2 mph (3 minutes), moving arms up and down above head while Page 7 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS looking upward (3 minutes), and squatting continuously (3 minutes). To ensure workers' comfort, two (2) additional practical exercises - walking at 2 mph (5 minutes) and loading a bucket with wood chips from the base of a hopper and emptying it into the opening on top (15 minutes) - were performed by two (2) workers at specified air flow rates. Certificate No. 0073/197/162/02/01/0005 (Enclosure 5.3) states that the Mururoa V4F1 R suit passed in all categories tested and provided a protection factor greater than 50,000. It should be noted that the term "protection factor" used in the referenced European Standard is equivalent to the "fit factor" used in the United States and is not the same as the APF used in 10 CFR 20.

CEG has successfully incorporated the use of the V4 MTH2 and the V4F1 suits. Through practical use during outages (specifically CRD replacement), these suits have provided better radiological protection, comfort, and safety over bubblehood and rainsuits used in the past. Similarly, the V4F1 R supplied air suit has demonstrated equivalent beneficial use compared to past practices due to suit construction and design features. It is expected that use of the V4F1 R supplied air suits at other CEG facilities will afford the same benefits.

2.2 PRECEDENT As previously noted, Mururoa suits have been widely used in western European nuclear power plants as well as many plants in North America. Use of the Mururoa V4F1 R supplied air suit was accepted by the NRC as documented in a September 14, 2005, letter (ML052570106) for use by Callaway station as respiratory equipment with a protection factor of 5,000. Additionally, by letter dated April 8, 2005 (ML050980119), the NRC approved the use of the respiratory device with a protection factor of 5,000 for the St. Lucie, Turkey Point, and Seabrook facilities. The Mururoa V4 F1 R supplied air suit has also been approved for use at the JAF station (Reference 2) with a protection factor of 5,000, which is now a CEG facility. Use of the Mururoa V4F1 R suit at JAF from 2006 to the present has been successful.

3.0 CONCLUSION

Pursuant to 10 CFR 20.1703(a), CEG requests NRC approval for use of the Honeywell Mururoa V4F1 R suit for the CEG plants noted, which requires use of respiratory protection equipment that is tested and certified by NIOSH or alternatively which is approved for use by the NRC. Based on in-house use of Mururoa V4F1 R suits and review of industry and manufacturer test documentation, CEG has determined that the Mururoa V4F1 R supplied air suits offer a safer and more efficient means to protect workers in areas of either high radiological contamination and/or high potential for airborne contamination. Ease of removal of the Mururoa V4F1 R suit provides for more desirable self-rescue features. Additionally, the Mururoa V4F1 R suit provides a means to undress that minimizes the potential for personnel contamination events. Furthermore, the Mururoa V4F1 R suit has been designed to handle variable pressures at the inlet, thereby providing more flexibility supporting operations during outages.

4.0 REFERENCES

1) Letter from Entergy Nuclear Operations Inc. to U.S. Nuclear Regulatory Commission -

"Request for Use of Delta Protection Mururoa V4F1 R Supplied Air Suits." dated May 16, 2006 (ML061440167)

Page 8 of 8 APPROVAL REQUEST FOR HONEYWELL MURUROA V4F1 R ENCAPSULATING SUITS

2) Letter from U.S. Nuclear Regulatory Commission to Entergy Nuclear Operations Inc. -

"Arkansas Nuclear One, Unit 2, and James A. FitzPatrick Nuclear Power Plant - Request for Use of Delta Protection Mururoa V4F1 R Supplied Air Suits," date August 14, 2006 (ML062230266)

3) 10 CFR 20.1703, "Use of Individual Respiratory Protection Equipment"
4) 10 CFR 20.1705, "Application for Use of Higher Assigned Protection Factors"
5) 10 CFR 20, Appendix A, "Assigned Protection Factors for Respirators"
6) Regulatory Guide 8.15 (Revision 1), "Acceptable Programs for Respiratory Protection"
7) NUREG-0041, "Manual of Respiratory Protection Against Airborne Radioactive Materials"
8) European Standard EN 1073-1:1998 (refer to Enclosure 5.2)
9) EC Type Examination Certificate No. 0073/197/162/02/01/0005 for the V4F1 R suit dated February 21, 2001 (refer to Enclosure 5.4) 5.0 ENCLOSURES

ENCLOSURE 5.1

.1 to Attachment 1 General Description of the Honeywell Mururoa V4F1 R Supplied Air Suit

Ind A - 24June2016 Honeywell Protective Clothing : ZA de Berret 30200 Bagnols sur Cze - France Tél: +33 (0)4 66 89 18 36 - Fax : +33 (0)4 66 89 36 31 www.honeywell.com MURUROA V4F1 R REF.: CC8481XYT Single-use, ventilated, pressurized type garment, approved for protection against particulate radioactive contamination Suit designed with an air power regulation system delivering a constant air flow on networks with relative pressures between 2.5 and 7 bar This type of airtight overall has a double back closure, an internal distribution, a Deltaflow air flow control valve, various reinforcements, a loop for the air supply pipe, a back sleeve for a harness and anti-skip feet.

The exhaust is through two patented exhalation valves.

This garment is flame-retardant, mainly made of PVC 20/100. Assembly by High Frequency welding which does not impair the qualities of the PVC Industries: nuclear, pharmaceutics, chemistry

1. Transparent helmet & optical quality visor: Excellent field of vision
2. Integral air distribution & low noise level: head, arm and leg ventilation for an excellent comfort
3. Tearable safety strip: easy suit opening in case of air default
4. Deltaflow air regulator: constant air flow (not adjustable by the user)
5. Under-foot antiskid and laces to tie booties: reinforced protection at feet level
6. Loop for the feeding pipe : visible and resistant
7. Two patented exhalation valves: constant overpressure inside the suit
8. Double zipper: reinforced tightness
9. Elbow, feet and knee reinforcements: reinforced protection for demanding environments
10. Fireproof (M1 classification)
11. Light (< 1,8 kg)

DESCRIPTION TECHNICAL DESCRIPTION Y: Undressing strip X: Nipple types 2

3 9

5 7

Flow rate (l/min)

Pressure (bar)

Pressure range of use (bar)

Approval limit Graph Flow / Pressure Deltaflow 1

6 T: Sizes from T1 to T5 (S, ML, XL) 4 ENCLOSURE 5.1 Page 1 of 3 Honeywell BOO

~!Iii

/

V

/

/

/

~

/

1 2

l 4

5 S

7 e

Ind A - 24June2016 Honeywell Protective Clothing : ZA de Berret 30200 Bagnols sur Cze - France Tél: +33 (0)4 66 89 18 36 - Fax : +33 (0)4 66 89 36 31 www.honeywell.com The suit is available with or without an undressing strap:

Y values CC848XYT Y=5 With undressing strap Y=6 Without undressing strap With 6 different nipples:

X values Nipples CC848XYT X=0 ISO 6150B CC8480YT X=2 ISO 6150C CC8482YT X=4 CEJN 342 CC8484YT X=5 Walther LP06 CC8485YT X=8 AQR06 CC8488YT X=9 Walther KL06 CC8489YT In the following sizes:

Size A: Height (cm)

B : Waist (cm)

T1 164-170 64-68 T2 170-176 68-72 T3 176-182 72-76 T4 182-188 76-80 T5 188-200 80-88

 Reinforced protection thanks to the safety strip, anti-skid feet, reinforced arms and knees, the two patented exhalation valves, the double tight zipper and the loop to maintain the air supply pipe

 Increased comfort thanks to the integral air distribution, the Deltaflow control air flow valve, the low noise level and the large field of vision provided by the transparent hood

 High protection factor (FP > 50 000) thanks to the air regulation and the two patented exhalation valves

 Fire proof (M1 classification)

 Light (< 1,8 kg)

 Packaging: 10 outfits per carton and per size

 Colour : Pink

 Skin composition: Fire proof PVC 20/100 (M1 classification)

 Accessories:

  • Can be equipped with a hood aluminized Kevlar Carbon and an optoelectronic filter shield for welding work ADVANTAGES ADDITIONAL INFORMATION OPTIONS ENCLOSURE 5.1 Page 2 of 3 Honeywell J

Ind A - 24June2016 Honeywell Protective Clothing : ZA de Berret 30200 Bagnols sur Cze - France Tél: +33 (0)4 66 89 18 36 - Fax : +33 (0)4 66 89 36 31 www.honeywell.com



Certified according to the following conditions:



Feeding breathable air pressure included from 2.5 to 7 bar



Minimum air flow rate : 27 N m3.h-1 (450 l/min)



Maximum air flow rate : 45 N m3.h-1 (750 l/min)



No adjustable flow valve



The noise level within the garment is below 75 dB (at maximum flow rate)



Storage information: Keep equipment in the original packaging in a cool and dry place, not dusty, far from heat sources and far from direct light (+5°C / +35°C)



Carefully follow the user manual instructions

 EC Personal Protective Equipment Category: 3 - Personal Protective Equipment with a complex design, designed to protect against serious or fatal risks

 Standards:

EN 1073-1:1998 - Protective clothing against radioactive contamination - Requirements and test methods for ventilated protective clothing against particulated radioactive contamination. IL: Class 5.

Indicate nominal protection factor of the suit (Class 5: Protection factor 50 000)

Fire classification: M 1 under NFP 92 507

 European Directive: 89/686/EEC

 EC Certification Number: N° 0073 / 197 / 162 / 02 / 01 / 0005 / ext N°01/11/06 (November 27, 2006)

 Quality Assurance: ISO 9001 / 2008

 Delivered by :

IRSN/CTHEN CEA Saclay Bâtiment 389 91 192 Gif Sur Yvette France PERFORMANCES CERTIFICATIONS ENCLOSURE 5.1 Page 3 of 3 Honeywell Mt

ENCLOSURE 5.2

.2 to Attachment 1 European Standard EN 1073-1:1998 for Ventilated Protective Clothing

ENCLOSURE 5.2 Page 1 of 12 EUROPEAN STANDARD NORME EUROPEENNE EUROPEAi"SCHE NORM ICS 13280; 13.340.10 Descriptors: Personal protective equipment, clothing, radioactive contamination.

English version EN 1073-1 January 1998 Protective clothing against radioactive contamination Part 1 : Requirements and test methods for ventilated protectlve dothing against particulate radioactive contamination VAtements de protection contre la contamination radioactive-Partie 1:

Exigences et methodes d'essal des vAtements contra la contamination radioactive sous tonne de particules Schutzfdeldung g~en radioalctlve Kontamlnation-Te,I 1: Anforderungen und Prllfverfahren fur bellfftete Schutzxleldung gegen radloaktlve Konlamlnation durch feste Partikel This European Standard was approved by CEN on 1997-11-23. CEN members are boc.nd to oompty \\Wh 1he CEWCENEl...EC Internal Regwtions which stipulate 1he conditions for giving this European Standard the status of a national sta.ndard without any alteration.

Up-to-date lists and blbfiographlcal references concerning such national standards may be obtalned on appficatlon to the Central Secretariat or to any CEN member.

The Eu-opean Standards exist in three official versJons (English, French, Goonan). A version In any other language made by translation under the responsibility of a CEN member nto ks own language and notified to the Cen1raJ Sectetariat has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, the Czech Republic, Denmark, Finland, France, Germany, Greece, Iceland, Ireland, Italy, Luxembourg, the Nether1ands, Norway, Portugal, Spain, Sweden, Switzer1and, and the United Kingdom.

CEN European Committee fOf Standardization Comite Europeen de Nonnallsatlon Europaisches Komltee fur Normung Central Secretariat rue de Stassart 36, B-1050 Brussels Cl 1998.

CEN

  • All rights or exploitation In any form and by any means reserved worldwide for CEN nallonal members.

Ref. No. EN 1073-1 : 1998 E

ENCLOSURE 5.2 Page 2 of 12 Page2 EN 1073-1 : 1998 Contents Forev.orcl....................................................................................................

2 1 Scope.....................................................................................................

3 2 Nonnative references.....................................................................*.......

3 3 Definitions........................................................... *********:******************.........

3 4 Requirements............................................................................................

4 5 Test methods 8

6 Matking 10 7 lnfonnatlon supplied by the manufacturer...............................................

  • 10 Annex A (nonnative)

Activity sequence for the testing of the protection factor...........................

11 Annex ZA 0nfonnatlve)

Clauses of this European Standard addressing essential requirements or other provisions of EU Directives.......................................................................

12 Foreword This European Standard has been prepared by Technical Committee CEN/TC 162 "Protective dothing induding hand and arm protection and lifejackets", the secretariat of which is held by DIN.

This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by July 1998, and conflicting na~onal standards shall.be withdrawn at the latest by July 1998.

This European Standard has been pr:epared under a mandate given to CEN by the European Commission and the European Free Trade Association and supports essential requirements of EU Directive(s).

For relationship with EU Directive(s), see lnfonnative Annex ZA, which Is an Integral part of this standard.

The annex A Is normative and contains the activity sequence for the testing of.the protection factor.

Further parts of this standard will deal with. requirements and test methods for unventilated protective dothlng and protection against liquids and gases.

According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Czech Republic, Denmark, Finland, France, Gennany, Greece, Iceland, Ireland, Italy; Luxembourg, Netherlands, Norway, Portugal, Spain, Sweden, Switzerland and the United Kingdom.

ENCLOSURE 5.2 Page 3 of 12 Page3 EN 1073-1 : 1998 1 Scope This European Standard specifies the requirements and test methods for ventilated protective clothing protecting the wearer ag*ainst particulate radioactive contamination.

This European Standard does not apply for the protection against Ionizing radiation and the protection of patients against contamination with radioactive substances by diagnostical and/or therapeutical measures.

2 Normative references This European standard incorporates by dated or undated reference, provisions from other publications. These normative references are cited at the appropriate places In the text and the publications are listed hereafter. For dated references, subsequent amendments to or revisions of any of these publlcatlons appiy to this European standard only when incorporated in it by amendment or revision. For undated references the latest edition of the publication referred to applies.

EN 146 Respiratory protective devices - Powered filtering devices incorporating helmets or hoods

  • Requirements, testing, marking EN 270 Respiratory protective devices - Compressed air line breathing apparatus incorporating a hood - Requirements, testing, marking EN 340 Protective clothing - General requirements EN530 Abrasion resistance of protective clothing material* Test methods EN 863 Protective clothing - Mechanical properties - Test method: Puncture resistance prEN 943-1 Protective clothing for use against liquid and gaseous chemicals, including liquid aerosols and solid parUcles -

Performance requirements for ventilated and non-ventilated "gas-tight" (Type 1) and "non-gas-tight" (Type 2) protective clothing 8'l1146 Respiratory protective devices for self-rescue - Self-contained open-circuit compressed air breathing apparatus Incorporating a hood (compressed air escape apparatus with hood) - Requirements, testing, marking EN 25978 Rubber-or plastics-coated fabrics

  • Determination of blocking resistance (ISO 5978 : 1990)

EN 29073-4 Textiles* Test methods for nonwovens

  • Part 4: Determination of tear resistance ISO 5082 : 1982 Textiles - woven fabrics
  • Determination of breaking strength - Grab method ISO 7854 Rubber-or plastics-coated fabrics - Determination of resistance to damage by flexing 3 Definitions For the purposes of this standard, the following definitions apply:

3.1 Protective clothing against radioactive contamination Protective clothing intended to provide protection to the skin and if required to the respiratory tract against radioactive contamination.

ENCLOSURE 5.2 Page 4 of 12 Page4 EN 1073-1 : 1998 3.2 Ventilated protective clothing (against particulate radioactive contamination)

Protective clothing which is supplied with breathable air ensuring internal ventilation and overpressure. This protective clothing provides protection against particulate radioactive contamination for the respiratory tract and the whole body.

3.3 Nominal protection factor (100: Inward leakage (IL))

The ratio of the concentration of contaminant In the ambient atmosphere to the concentration of the contaminant In the suit. The concentrations taken Into account are the average concentrations recorded during a standardized test.

3.4 Panlculate radioactive contamination Presence of radioactive substances In or on a material or in a place where they are undesirable or could be harmful.

3.5 Seam A permanent fastening between two or more pieces of protective clothing material.

3.6 Assemblage A permanent fastening between two or more different garments, or between protective clothing and accessories, obtained, for example by sewing, welding, vulcanising, gluing.

3.7 Join A non-permanent fastening between two different garments, or between protective clothing and accessories.

3.8 Closure A device, for example, zipper, *touch and close* fastener, etc., to close openings for donning or removing the protective clothing.

4 Requirements 4.1 Design 4.1.1 Protective clothing against radioactive contamination shall comply with the general requirements specified in EN 340.

4.1.2 The design of the protective clothing shall be such that the protective clothing is straightforward to put on and take off, and to minimize the risk of contamination. Testing according to "practical performance tesr (see 5.2).

4.1.3 The clothing can be designed for single or multiple use.

4.1.4 The ventilated protective clothing (see 3.2} may consist of one or several parts. The clothing may be fitted with a respiratory protective device to enable the wearer to breath In case of failure of the primary air supply.

4.2 Materials

  • The materials used for. protective clothing against particulate radioactive contamination shall meet the requirements according to table 1 after the pretreatment in accordance with 5.1.1 and after the condilioning according to 5.1.2.

ENCLOSURE 5.2 Page 5 of 12 Requirement Abrasion resisfaral Flex cracking resistance Puncture resislcn:8 Resistance to blocking (see note 1)

Tear resistance Flammability of materials, visor and ancmary parts Table 1: Requirements for the materials Classlficatlon Test according to 6 > 2000 Cycles EN 530, Method 2 00 5 > 1 500 Cycles abrasive paper 4 > 1000 Cycles according to prEN 943-3> 500 Cycles 2>

100Cycles 1 and 9 kPa downward 1 >

10Cydes pressure 6 > 100000 Cycles 5> 40000 Cycles 4>

1 5000 Cycles ISO 7854 Method B 3>

5000 Cycles 2>

2500Cycles 1 >

1000~

3>

100N 2>

SON EN863 1 >

10N 2 no blocking EN25978 1 blocking 6>

150N 5>

BON 4>

40N EN29073-4 3>

20N 2>

10N 1 >

2N Shall not continue to EN 1146 (single tun burner test)

Pages EN 1073-1 : 1998 Applicable for reusable single use materials yes yes yes no yes yes yes no yes yes yes yes NOTE 1 :.Uncoated materials shall not be tested against resistance to blocklng. The test report shall be marked *Not tested against.........

  • NOTE 2: If protection against hazardous chemicals Is required then testing has to be carried out according to the relevant chemical standards.

... 3 Nominal protection factor (100:IL)

Ventilated protective clothing shall be classified according to table 2. Testing according to 5.4 with the necessary activity sequence according to annex A, at the minimum design air flow rate.

ENCLOSURE 5.2 Page 6 of 12 Page6 EN 1073-1 : 1998 Table 2: Leakage Class Maximum value of mean Inward leakage Into the Nominal protection hood during exercise of factor One actlv~ty All activities o/o 5

0,004 0,002 50000 4

0,01 0,005 20000 3

0,02 0,01 10000 2

0,04 0,02 5000 1

0,10 0,05 2000 NOTE 1: Maximum value is calculated as the average performance over all test sequences. NOTE 2: Nominal protection factor is the reciprocal of the IL obtained during all activities (100: IL) 4.4 Seam strength, Joins and Assemblages 4.4.1 Seam strength A sample of each type of straight seam construction shall be tested In accordance with A.2 of ISO 5082

1982 (Constant-rate-of-traverse). Three specimens of each type of seam shall be tested and the mean of each set of three samples calculated. The garment seam performance shall be classified according to the levels of performance given In table 3 using the lowest result, I.e. the weakest seam type.

NOTE: The test method described in ISO 5082: 1982 ls only applicable to straight seams Joining two pieces of material.

Table 3: Classification of seam strength Class Seam strength N

5

>300 4

>125 3

>75 2

>50 1

> 30 4.4.2 Joins and assemblages The joins and assemblages between the suit and detachable parts e.g. between gloves and sleeves, boots and trouser legs, shall be tested in accordance with 5.5 and withstand a pull of 100 N.

4.5 Visor The visor shall comply with table 4. Where antifogging compounds are used or specified by the manufacturer they shall not have an a_dverse affect on the health of the wearer, or on the clothing.

ENCLOSURE 5.2 Page 7 of 12 Table 4: Requirements for the visor Properties of the visor Requirement Testing Page7 EN 1073-1 : 1998 the loss of sight shall not exceed to read letters on a chart at a Distortion of vision two scales on the optometrlcal distance of 5 m during the practical chart performance test according to 5.2 shall not be visibly damaged in Mechanical stren9th such a way as to be likely to affect according to EN 146 the performance of the suit system 4.6 Air supply system Couplings and connections shall comply with EN 270.

The connection between the compressed air supply tube and the suit, Including attachments, threaded parts, belt or other parts, or means of stabilising the suit to the body shall. withstand a 250 N pull when tested according to 5.5.

NOTE: The test should be performed before the Inward leakage test.

4. 7 Breathing hose The breathing hose shall comply with the requirements of EN 270.

4.8 Air flow rate Two suit systems shall be tested, one of which has to be preconditioned as specified In 5.1.4. When tested the air flow rate Into the suit system shall not be less than the manufaqturers' minimum design flow rate. The maximum flow rate shall not exceed the maximum as stated by the manufacturer. Test In accordance with 5.3 The flow rate and the distribution of the air Into the suit system shall not cause distress to the wearer by local cooling. The heat stress has to be considered. Test in accordance with 5.2.

4.9 Air flow rate warning device If an audible warning device Is Incorporated in the suit system It shall comply to EN 270, except for the sound pressure level which may be In the range 85dB(A) to 90 dB(A) when measured at the ears of the wearer. The frequency range of the warning device shall be between 2 000 Hz to 4 000 Hz.

Five warning devices shall be tested, one of which has to be preconditioned as specified In 5.1.4. Testing according to EN 270.

4.1 O Supply valve If a variable contlnous flow valve Is fitted, it shall comply to EN 270. The valve shall permit to adjust the air flow rate In the range from the minimum to the maximum as specified In 4.8. It shall not be possible to dose the valve to restrict the air flow below the minimum design air flow rate.

4.11 Exhaust devices The suit shall be provided with exhaust devices which shall continue to work correctly after the testing of the pressure In the suit (see 4.1 2), during the practical performance test (see 5.2) and during the determination of the protection factor (see 5.4). Testing In accordance with 5.6.

4.12 Pressure In the suit The overpressure shall not exceed 1 000 Pa mean and 2 000 Pa peak. A positive pressure shall be maintained.

Testing with the maximum air flow rate during the activity sequence as specified In Annex A.

4.13 Carbon dioxide content of the lnhalatlon air The carbon dioxide content of the inhalation air, determined at the minimum air flow rate, shall not exceed an average of 1,0 % (by volume), tested according to EN 270. Two suits shall be tested, one of which has to be pretreated as specified in 5. 1. 1.

ENCLOSURE 5.2 Page 8 of 12 Pages EN 1073-1: 1998 4.14 Noise associated with the air supply to the suit The noise measured In the suit at the ears shall not exceed 80 dB(A) at the maximum manufacturers' design flow rate. Testing in accordance with EN 270. Two suits shall be tested, one of which has to be pretreated as specified in 5. 1.1.

5 Test methods 5.1 Test preparations 5.1.1 Pretreatment When the clothing is Intended to be reusable the requirements for the materials or the complete clothing shall be proved after five cycles of cleaning and disinfection according to the manufacturer's Instructions for use before testing.

5.1.2 Conditioning All material samples shall be conditioned by storage at (20 :I: 2) 'C and (65 :I: 5) % relative humidity for at least 24 h. Start each of the tests as specified in 5.1.3 and 5. 1.4, within 5 min after removal from the conditioning atmosphere.

5.1.3 Visual Inspection A visual inspection shall be carried out by the test house prior to the laboratory or the practical performance test. This may entail a certain amount of dismantling of the components of the protective clothing in accordance with the manufacturer's Information for maintenance.

5.1.4Precondltlonlng for the practical perfonnance test If the manufacturer does not state the preconditioning atmosphere for the practical performance test, the complete clothing shall be exposed:

a) for 4 h to a temperature of (-30 +/- 3) *c and allowed to return to ambient conditions, followed by b) for 4 h to an atmosphere of (60 :I: 3) *c at 95 % relative humidity. It shall then be allowed to return to ambient temperature.

5.2 Practical performance test 5.2.1 General The tests,shall be carried out by two test persons at (20 +/- 5) *c and a relative humidity of less than 60 %. The test temperature and humidity shall be recorded. The background noise shall not be greater than 75 dB(A).

The test persons shall be selected who are famillar with using such or similar protective dothing. The persons will be drawn from those people certified as fit to do so by the medical officer. The necessity of a medical examination before or supervision during the tests shall be at the testing officers discretion.

Prior to the test there shall be an examination that the suit Is In working-condition and that it can be used without danger. If more than one size of clothing is manufactured the subjects are asked to select the appropriate size. Ensure that the air supply Is within the specified parameters. Two suits shall be tested, each being tested on one test person.

After fitting the suit each test person Is asked "Does the suit fit?". If the answer Is "Yes*, continue the test. If the answer Is "No", replace the test person or the suit.

5.2.2 Procedure During the test the following activities shall be done In simulation of the practical use of the suit:

a) the test shall be completed within a total working time of 20 min b) walking on the level with regular rate of 5 km/h for 5 min

ENCLOSURE 5.2 Page 9 of 12 Page9 EN 1073-1 : 1998 c} filling a small basket (see figure 1, approximate volume 8 I) with 12 mm chippings (e.g. limestone chippings}

or other suitable material from a hopper which stands 1,5 m high and has an opening at the bottom to allow the contents to be shovelled out and a further opening at the top where the chippings may be returned. The person stoops or kneels as he wishes and fills the basket with chippings. He then lifts the basket and empties the contents back Into the hopper. This shall be repeated 1 5 to 20 times In 10 min.

Figure 1: Hopper and basht 5.2.3 Information to be recorded During the practical performance test the clothing shall be subjectively assessed by the wearer and the following shall be recorded:

a}hamess comfort (see 5.6);

b)security of fastening and couplings; c)accesslbllity of controls and pressure gauge (if fitted);

d) clarlty and field of vision from llhe facepiece and/or visor; e}clothing comfort; f) ease of speech transmission; g}any other comments volunteered by the wearer.

5.3Measurement of minimum and maximum air flow rate Connect the ends of the distribution system _collectively to a suitable measuring device. Record the maximum air flow delivered at the manufacturers' specified air supply, if a control valve Is fitted, record the maximum delivered air flow and the minimum delivered air flow.

The value of minimum and maximum air flow rate shall be determined under the condition of exercise 6 of Annex A (person standing still).

5.4 Determination of the protection factor The protection factor shall be determined In accordance with prEN 943-1. Sodium chloride test method shall be used. Activity sequences for testing*are given In Annex A of this standard.

The determination has to be done at the minimum design air flow rate (see 4.8).

On two test subjects four new suits shall be tested. Two suits per test subject.

ENCLOSURE 5.2 Page 10 of 12 Page 10 EN 1073-1 :1998 For each Individual test calculate the arithmetic mean over the time period. Calculate the percentage inward leakage (IL) as follows: :_

IL=

where:

C2x100%

C, C,

Is the challenge concentration in the test chamber, C2 Is the mean concentration In the breathing zone for each exercise. For classification according to table 2, the average value for the four suits shall be taken.

5.5 Join and assemblage pull test Assemble the means of attachment according to the manufacturers' infonnation. If the assembled Item (e.g.

glove or boot) Is Itself not strong enough to apply the required pull substitute an item that Is. Securely attach one part to a fixed clamp. Apply the required force longitudinally. Record at which force it parts or state that at the required force it was still complete.

5.6 Exhaust device pull test Mount the suit on to a dummy torso which can be adjusted so that the load can be applied axially to the exhaust device. A system of retaining straps or bands Is fitted over the suit around the exhaust device so that the load is applied as directly as possible to the frtting of the exhaust device In the suit.

Exert a force of (50 +/- 2,5) N to the exhaust device and hold for 10 s. Repeat 10 times.

Examine the exhaust device for signs of damage or failure.

6 Marking The maricing shall comply with the specifications of EN 340 with the pictogram as given In figure 2.

The level of performance of the Inward leakage (IL) shall be mariced as:

IL : class x (x = class number according to table 2).

I

  • .a*
e Figure 2: Pictogram 7 Information supplied by the manufacturer The lnfonnation supplied shall be at least In the official language(s) of the country or region of application. The manufacturers' Information shall comply with the specifications of EN 340. The following infonnation shall be supplied additionally:

- instructions for donning, ustng, fitting, removing and storing;

- application, limitations of use (classification, temperature range etc.);

- tests to be carried out by the wearer before use (If required);

- maintenance and cleaning e.nd decontamination by e.g. showering (If required).

The manufacturers shall specify the required supply pressure and flow range necessary to maintain protection.

Warnings (if appropriate) shall be given against problems likely to be encountered, as e.g. heat stress, J

depending on the air flow rate, woric load, environmental atmosphere etc.

ENCLOSURE 5.2 Page 11 of 12 Annex A (normative)

Activity sequence for the testing of the protection factor Table A.1: Activity sequence for the testing of the protection factor No Activity sequence for the testing Time of activjtles mlll 1

dress person in the suit 2

don boots, gloves etc. as required according to the manufacturers Instructions 3

person to enter test chamber, connect tubing to the sample point -

3 no test agent 4

establish baci<ground reading at sample point with person standing 3

still - no test agent 5

start test agent and allow to stabilize 3

6 record leakage and pressure at sample point with the person stan-ding still 3

7 start treadmill 8

walk 3

9 record leakage and pressure at sample point with the person wal-king at about 5 km/h 10 stop treadmill 11 record leakage and pressure at sample point, person moving anns up and down above head height and looking upward, e.g. lifting object (half brick) from desk to shelf level 3

12 record leakage and pressure at sample point, person doing conti-3 nuous squats 13 stop test agent and allow to 'desperse with person in chamber 3

14 disconnect sample tubes and remove person from test chamber and undress subject NOTE: The r lrlal may vary, all times are approximate and are to stable conditions.

When doing squats, a slow deliberate action Is required, say continuously during about 3s.

Analyse res Its over final 2 min of each exercise period to avoid carry over of result from one ex rclse to the other.

Record cha! enge chemical continuously using a separate detector (If possible). Record the pressure inside the suit over the whole time.

Page 11 EN 1073-1: 1998

ENCLOSURE 5.2 Page 12 of 12 Page12 EN 1073-1: 1998 Annex "ZA (informative)

Clauses of this European Standard addressing essential requirements or*ottier provisions of EU Directives This European Standard has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association and supports essential requirements of EU Directive 89/686/EEC.

WARNING: Other requirements and other EU Directives may be applicable to the product(s) falling within the scope of this standard.

The following clauses of this standard are likely to support requirements of Directive 89/686/EEC, Annex II:

EU-Directive 89/686/EEC, Annex II clauses of this standard 1. 1 Design principles 4.1, 4.2, 4.3, 5.5.1 to 5.6 1.2 Innocuousness of PPE 4.1, 4.5, 4.14, 5.2 1.3 Comfort and efficiency 4.1, 4.3, 5.2, 5.4, annex A 1.4 Information supplied by the manufacturer clause 7 2.2 PPE 'enclosing' the parts of the body to be protected 4.1.4, 4.5, 4.8, 5.2 2.3. P.PE for the face, eyes and respiratory tracts 4.5, 5.2 2.1 2 PPE bearing one or more Identification or recognition clause 6 marks directly or indirectly relating to health and safety 3.9.2.1 Protection against external radioactive contamination clause 4, 5, 6, 7 Compliance with the clauses of this standard provides one means of conforming with the specific essential requirements of the Directive concerned and associated EFTA regulations.

ENCLOSURE 5.3

.3 to Attachment 1 Certificate No. 0073/197/162/02/01/0005 for Mururoa V4F1 R

ENCLOSURE 5.3 Page 1 of 16 AET 01 / 0005 Page 1/16 INSTITUTE FOR NUCLEAR PROTECTION AND SECURITY Technical Center for Nuclear Equipment Certification In accordance with the directive 89/686/EEC dated December 21th 1989 comparing the laws of the States Members Legislations relative to the Personal Protective Equipments, and the decrees n* 92-765, 766 and 768 dated July 29th 1992 transposing the directive into French Laws.

The organisation herebelow mentioned (PSN / CTHEN) whose references are as follows:

Address: CEA/ Saclay-Building 389 - 91191 Gif-Sur-Yvette Cedex - France.

Empowered by Order of the Ministries of Employement and Agriculture dated December 241h 1996.

Identified under the n* 0073 (published in the EEC Official Publication dated July 23th 1994).

Assigns the :

EC TYPE EXAMINATION CERTIFICATE N° 0073 / 197 / 162 / 02 / 01 / 0005 To the following Personal Protective Equipment model:

Designation: Ventilated Protective Suit against Radioactive Contamination due to particles, pressurised for a single use only.

Commercial reference: MURUROA V4F1R-ref. 8481X5 T.

Manufacturer : DEL TA PROTECTION / REDI - 69210 Saint-Germain-Sur-L'Abresle.

Certificat applicant : DEL TA PROTECTION - Z.A. De Berret-30200 Bagnols-sur-Cllze.

Essential Requirements

Reference:

EN 1073-1 (March 1998), EN 340 (December 1933).

Date : February 21 TH 2001 J. CORBIERE/ Chief of CTHEN Nota : According to article R 223-62 of the "Working Law", the empowered organisation should be informed of any modification made to the material subject of this EEC type examination certificate, as well as of any modification made to the contents of this technical file on which the delivered type certificate was based on (address, manufacturer name, quality insurance certificate extract,... )

This certificate contains 16 pages n* 1/16 to 16/16.

ENCLOSURE 5.3 Page 2 of 16 AET 01 I 0005 Page 2/16

1. DESCRIPTION It is a Ventilated Protective Suit against Radioactive Contamination due to particles ventilated type -

pressurised for one use only, its name is:

MURUROA V4F1 R-ref. 848 1X5 T.

The X values are defined according to the pipe butt (Staubli or CEJN) allowing to connect the suit to the breathable compressed air supply system.

The T values are defined according to the size of the suit.

The attached list - annex 1 - gives all the references defined by this AET.

Diagrams and pictures of the MURUROA V4F1 R-ref. 848 1X5 Tare presented in annex 2 & 3.

It includes mainly the following elem~nts:

A air tight suit with an incorporated hood.

A suit fastening system located on the back of the suit.

A breathable air flow supply system including a flow control valve named "flow control valve*

describe at the end of the chapter.

A air exhaust device.

A safety strip for emergency opening.

A undressing strip.

Reinforced pieces on elbows, feet and knees.

Accessories: A tunnel for the phonic link cable and one for safety harness, a protective sleeve for the flow control valve, a dosimeter window, a loop placed on the back for holding the air supply pipe.

The internal clothing flow rate cannot be adjusted directly by the user with a valve. Connection to the breathable air network carried out by a system named "Flow control valve", provided with Staubli or CEJN butt, this device control the feeding flow rate within the limits fixed by the manufacturer, when pressure of the breathable air network is between 2.5 and 7 bar 1.1. MAIN MATERIALS Skin of the suit:

PVC 9013 formulation 1010, 20/100 mm thickness (pink color).

Hood :

PVC Cristal 068 -30/100 mm thickness.

ENCLOSURE 5.3 Page 3 of 16 Ocular:

PVC (astraglass) 50/100 mm thickness.

Gloves:

AET 01 / 0005 Page 3/16 PVC model DELTASOFT (distributed by the firm DELTA PROTECTION), size g.9 1/2 whatever to the size of the suit.

Slippers:

PVC 9013-formulation 1010-20/100 mm thickness Non slippy PVC sole type Mdiligence".

1.2.

COMPONENTS Internal Ventilation System:

The suit is connected to the breathable pressurised air supply system through a device named* flow control valve* with a STAUBLI or CEJN type butt. The air flow, inside the suit, is distributed by an internal network, manufacturer reference "Integral ventilation V4 type*.

Exhaust:

The exhaust system is composed of two exhaust valves located on the back of the hood and on the back of the suit.

Fastening device:

A dual zipper system located vertically on the back of the suit.

Other components:

The suit includes:

A safety strip for an emergency opening located on the hood.

A undressing strip.

A tunnel for phonic link.

A Loop, on the back of the suit, for holding the air supply pipe system.

Several reinforced pieces on the elbows, knees, between legs, and the air supply inlet.

Accessories: A tunnel for safety harness, a protective sleeve for the flow control valve, a dosimeter window.

ENCLOSURE 5.3 Page 4 of 16 AET 01 / 0005 Page 4/16

2.

CONFORMl1Y TO REQUIREMENTS 2.1.

REQUIREMENTS FOR THE MATERIALS {except accessories: Gloves, slippers... )

(see paragraph 4.2. of EN 1073-1) 2.1.1. Abrasion Resistance Test according to the EN 530 - method 2 (abrasive paper 00) standard. The classification is carried out according to the following diagram :

Results:

Class Number of cycle 6

> 2 OO0cycle 5

> 1500 cycle 4

> 1 OO0cycle 3

> 500cycle 2

> 100cycle 1

10 cycle Class 6 for PVC 9013 formulation 1010 - 20/100 mm thickness.

Class 6 for PVC Cristal - 30/100 mm thickness.

2.1.2. Flexcracklng Resistance Test according to the ISO 7854 -

method B standard. The classification is carried out according to the following diagram:

Class Number of cycle 6

> 100 000 cycle 5

> 40 000 cycle 4

> 15 000 cycle 3

5 000 cycle 2

2 500 cycle 1

1 000 cycle This test is not applicable to suits for single use only.

Ftlnch... ~

orly lhal bewld.,._. d.,te

ENCLOSURE 5.3 Page 5 of 16 AET 01 / 0005 Page 5/16 2.1.3. Puncture Resistance Test according to the EN 863. The classification is carried out according to the following diagram :

Results:

Class Puncture resistance 3

> 100N 2

> 50 N 1

> 10 N Class 1 for PVC 9013 fonnulation 1010- 201100 mm thickness.

Class 2 for PVC Cristal - 30/100 mm thickness.

2.1.4. Blocking Resistance Test according to the EN 25978 standard. The classification is carried out according to the following diagram:

Class Comments 2

non stick 1

sticky This test is not applicable to single use suit and to non coated materials.

2.1.5. Tear Resistance Test according to the EN 29073-4. The classification is according to the following diagram:

Results:

f __

crly_

Class Applied strength 6

> 150N 5

> 80 N 4

> 40N 3

> 20 N 2

> 10N 1

> 2N Class 3 for PVC 9013 fonnulation 1010 - 20/100 mm thickness.

Class 4 for PVC cristal 301100 mm thickness.

ENCLOSURE 5.3 Page 6 of 16 AET 01 / 0005 Page 6/16 2.1.6. Flammabllity of materials, visors, and auxiliary parts Tests are carried out according to the EN 1156 standard-single burner test (paragraph 7.5.3).

Results: Test requirements entirely fulfilled.

2.2.

ACCESSORIES REQUIREMENTS 2.2.1. Gloves The MURUROA V4F1R ref. 848 1X5 T suit is fitted with gloves which comply with the specific requirements for this type of individual protective equipment, more particularly with the requirements of the norm EN 421 "Protective gloves against ionizer rays and radioactive contamination*. They have a particular EC Type examination based on the contracted tests.

2.2.2. Slippers The slippers are integrated part of the suit. They are made of the same material; They include a non-slippy sole, they comply with the requirements of the norm EN 1073-1; Therefore, considering the important risk of damage which can happen at the level of the feet and consequently the loss of tightness against radioactive contamination, this equipment must not be used without an additionnal protection (boots or over boots with EC marking).

2.3.

REQUIREMENTS FOR THE PROTECTIVE SUIT 2.3.1. Sult design the suit must comply with the general requirements of lhe EN 340 standard.

2.3.1.1. Ergonomics ( paragraph 4 of EN 340 standard)

Materials and t4mponents of the suit : Must be reputed good for the user.

Results : The parts of the suit which can be in contact with the wearer skin are made of PVC (see paragraph 1.1 ); The manufacturer certifies, in the technical file and the user manual, that the materials of the suit are well known for having no bad effects on the skin.

Protection and comfort level : See paragraph 2.3.2. (Practical Pelformance Test).

Results : Requirements entirely fulfilled.

Parts of the suit being In contact with the wearer : they must be without any roughness nor sharp edges that could create inflammations or wounds.

Result : Requirements entirely fulfilled.

ENCLOSURE 5.3 Page 7 of 16 AET 01 / 0005 Page 7/16 Adjustment of the suit: This requirement is tested during the Practical Performance Test (the suit has no adjusting device, size must be choosen according to the user height).

Result : Requirement enitrely fulfilled.

Weight of the suit : It must be as light as possible and therefore resistant and efficient. This requirement is evaluated during the tests on the materials and on the complete suit.

Result : Requirements entirely fulfilled.

Steam Penneablllty: This requirement cannot be tested due the the suit design (PVC material) and due to its protective level. The user comfort is due to the internal air flow supply.

2.3.1.2. Weariness (EN 340 - paragraph 5 )

The suit is for single use only.

2.3.1.3. Sizes - Marks-Manufacturer lnfonnatlon (EN 340- paragraph 6 to 8)

The controls results are mentioned in chapter 3 annex 1.

2.3.1.4.Dresslng I Undressing (EN 1073 paragraph 4.1.2.)

The suit must be designed to be put on and out very easily and to reduce the risk of Contamination. This requirement is evaluated during the Practical Performance Test (see paragraph 2.3.3.)

The dressing and the undressing must comply with the user manual and the Operating advices; the user is helped by an assistant. Using safety strips limits the risks of contamination when undressing. They are also used in case of emergency.

Result : Requirements entirely fulfilled.

2.3.2 Practical Performance Test The Practical Performance Test is carried out according to the EN 1073-1 (paragraph 5.2.).

The conditioning is according to the manufacturer instructions for use.

Parameters a) Harness comfort b) Security of fastenings & couplings c) Accessibility of adjusting devices d) Clarity of vision through visor e) Suit comfort f) Speaking transmission facility g) Other parameters Valuations Aimless Good Aimless Conform (see Chapter 2.3.6)

Good Aimless No particular notice

ENCLOSURE 5.3 Page 8 of 16 AET 01 I 0005 Page 8/16 2.3.3. Airflow supply system (EN 1073-1-paragraph 4.8.)

The manufacturer estimated air flow rates, for a relative air flow supply pressure between 2.5 to 7 bar, as indicated herebelow:

Out~ut Output Relative pressure (Nm.h.1)

(N l.min-1)

Of Air flow supply (bar)

Minimum 27 450 2.5 Maximum 45 750 7

The internal flow rate cannot be adjusted directly by the user with a valve, the flow rate is adjusted by the *FJow control valve", depending of the breathable air network pressure.

According to the EN 1073-1 (paragraph 5.3); the suit have been test with the manufacturer pressure specified.

The air flow rate inside the suit must not be :

Below the minimum value estimated by the manufacturer (Dmin),

Superior to the maximum value esitimated by the manufacturer (Dmax)

The air flow feeding the suit have been check through a massic flow meter and according this parameter:

lncreasi1ng the pressure from 0 to 7 bar by 1 bar step, plus one check at 2.5 bar.

Decreasing the pressure from 7 to 1 bar by 1 bar step, plus one check at 2.5 bar.

Direct connexion to 10 bar, adjustment to 7 bar, decreasing the pressure from 7 to 1 bar by 1 bar step, plus one check at 2.5 bar.

Connexion/Disconnexion at 2.5 bar.

During the test, the flow rate was conform to the manufacturer specification.

Results: Requirements entirely fulfilled.

2.3.4. Inward leakage average - Flt Factor (paragraph 4.3. of EN 1073-1)

The ratio of the average inward leakage has been measured according to the draft pr EN 943-1 (annex A) standard. According to the Sodium Chloride Method.

The Fit Factor is equal to 100/IL. (IL) being the average value of the Inward Leakage (In%)

calculated on the whole lot of trainings and the whole lot of suits.

Measurements have been performed under the following conditions :

Air flow rate: Adjusted and maintained on minimum flow rate (D min) as indicated in paragraph 2.3.3.

Trainings sequence: According to the EN 10731 Annex A list.

Suit preliminary conditioning: According to the advice of the user manual.

ENCLOSURE 5.3 Page 9 of 16 The samplings are taken from the hood, outside the breathing device.

The ratio of the average inward leakage gives the following classification:

Maximum accepted values, In %, of the ratio of the Ventilated average Inward Leakage Inside the hood, pressurised calculated on the whole lot of suits Sult classification For One activity For all activities 5

0.004 0.002 4

0.010 0.005 3

0.020 0.010 2

0.040 0.020 1

0.100 0.050 Results: The suit is classified Class 5 suit.

2.3.5. Seams, Joins and Assemblages pull test resistance 2.3.5.1.

Seams / welds (paragraph 4.4.1. - EN 1073-1)

AET 01 / 0005 Page 9/16 FIT FACTOR 50000 20000 10000 5000 2000 A sample of each type of weld is tested according to the Norm ISO 5082 (annex 2). The weld performance level is according to the following classification:

Class Seam resistance (N) 5

>300 4

> 125 3

> 75 2

> 50 1

> 30 Results: All the welds are classified 4.

2.3.5.2.

Joins and Assemblages (paragraph 4.4.2. - EN 1073-1)

This suit has no joins nor assemblages. This paragraph Is aimless.

ENCLOSURE 5.3 Page 10 of 16 AET 01 / 0005 Page 10/16 2.3.6. Ocular (paragraph 4.5. - EN 1073-1)

The vision distortion is measured, during the Practical Performance Test, by reading letters on an optometrical chart placed at a distance of 5 m; The loss of vision must not exced 2 degrees.

The mechanical resistance test of the visor is according to the EN 146 (paragraph 6.7.).

Results:

Vision distortion : Up to requirement.

Mechanical resistance: up to requirement.

2.3.7. Air supply system (paragraph 4.6. of EN 1073-1)

The connection between the compressed breathable air supply pipe and the suit must correspond to the paragraphs 6.7.1., 6.7.2., and 6.11.7. of the EN 270 standard. It must withstand a 250 N pull.

This connection is achieved, on the flow control valve, through a quick coupling, air proof, with automatic stop valve, model ST AUBLI or CEJN; This device allows the air supply pipe to tum freely around its axle In order to avoid accidental disconnections.

Results: Conformity for design and mechanical resistance.

2.3.8. Breathing Hose (paragraph 4.7 of EN 1073-1)

Tests are performed according to the EN 270 (paragraphs 7.2. and 7.6.) The pipe must not block the movements, nor cause disconnection during the practical performance test.

Results: Requirements entirely fulfilled.

2.3.9 Airflow rate warning device (paragraph 4.9 of EN 1073-1)

If a warning is fitted, it must comply to the EN 270 standard (paragraph 6.13.3. and 7.12.) The sound level must been between 85 dB(A) and 90d8(A).

Results: Aimless (there is no warning device).

Remarks: The Mururoa V4F1R does not include low rate flow indicator; Air flow rate control devices have to be placed at the wearer disposal. (See paragraph 3.2 "Manufacturer information").

2.3.10 Air supply valve (paragraph 4.10 of EN 1073-1)

The air flow rate supplied in the suit has a relative pressure whose limits are fixed by the manufacturer. Tlhe air supply valve allows to adjust the flow between the minimum and the maximum values as indicated in the technical manual. The valve cannot be closed to reduce the air flow rate under the minimum given value.

Result: Aimless, the suit have not an adjustable valve.

ENCLOSURE 5.3 Page 11 of 16 AET 01 / 0005 Page 11/16 2.3.11. Exhaust devices (paragraph 4.11. of EN 1073-1)

The exhaust devices must work correctly after the testing of the pressure in the suit, during the Practical Performance Test and during the determination of the Fit Factor. Test in accordance with the EN 1073--1 standard(paragraph 5.6.).

Results:

Good exhaust system working.

Pull resistance superior to the fixed limit.

2.3.12. Pressure In the suit (Paragraph 4.12. of EN 1073-1)

During the activity sequence as specified in Annex A of the EN 1073--1 standard, the overpressure shall not exceed 1000 Pa mean and 2000 Pa peak. A positive pressure shall be maintained.

Test is performed with maximum air flow rate D max, as stipulated in paragraph 2.3.3.

Result: Requirements entirely fulfilled.

2.3.13 Carbon dioxide content In Inhalation air (paragraph 4.13. - EN 1073-1)

The CO2 content of the inhalation air, determined at the minimum air flow rate, shall not exceed an average of 1 % (by volume), tested according to the EN 270 standard(paragraph 7.15) with the minimum air flow rate D min indicated in paragraph 2.3.3.

Result: Requirement entirely fulfilled.

2.3.14 Noise associated with the air supply to the suit (paragraph 4.14 - EN 1073-1)

Test according to the EN 270 standard (paragraph 7.16). The noise measured in the suit at the ears shall not exceed 80 dB(A) at the maximum air flow rate as indicated by the manufacturer.Tested at the maximum air flow rate D max as stipulated in paragraph 2.3.3.

To check the flow control valve functioning, measurement has been done during the flow rate control (cf paragraph 2.3.3) at each flow rate step.

Result: Requirement entirely fulfilled.

3 CHECKINGS 3.1.

MARKING (paragraph 6 of EN 1073-1)

The marking complies with the re~uirements of the Norms EN 340 and EN 1073-1. According to the Decree dated February 71 1997 "relative to EEC mar1<ing of the working equipment and of the Personal Protective Equipment", It Includes the distinctive number of the entitled organisation for the procedure of controls of the manufactured PPE (article 11 of the EEC Directive 89/686/EEC).

The symbol "i" Is Included in the pictogram, in order to show that the manufacturer instructions should be read by the user.

ENCLOSURE 5.3 Page 12 of 16 AET 01 / 0005 Page 12/16 3.2 MANUFACTURER INFORMATION Firstly, the manufacturer reminds the user of refering to the requirements of the European Directive 89/656/EEC dated November 30th 1989, which defines the duties of the employers concerning the choice and the use of PPE.

This Directive precises (section II -

articles 4 & 5) that, before choosing an individual protection suit, "the employer must value the PPE he is going to use* according to the following:

  • Analysis and valuation of the risks" "Definition of the necessary characteristics in order the PPE complies with the risks" "Valuation of the characteristics of the available PPE".

The employer has to "define the conditions of use, specially the wearing time according to the risks importance" (in case of this suit : according to the radioactive contamination level",

"frequency of exposure to the risk and the working conditions of each worker together with the performances of the individual protection equipment".

The content of the inforr,:iation note complies with the requirements of the Directive 89/686/EEC dated December 21th 1989 (annex II - article 1.4.), to the specifications of the Norms EN 340 paragraph 8 and EN 1073-1 paragraph 7; The manufacturer directives are mainly as follows :

Storage : Environmental conditions and maximum period.

Cleaning, maintenance and revision : This chapter is aimless. The MURUROA V4F1R is a single use suit.

Protection levels according to the Norm EN 1073-1 : Protection Factor, mechanical resistance of the suit components and of the gloves.

Conditions for good protection levels : Air flow rate between 450 N l.min-1 and 750 N l..min-1 when the suit is supplied with a relative pressure between 2.5 to 7 bar.

The compulsory accessories for the good working of the MURUROA V4F1 R : One pair of boots or overshoes, or safety boots having the EC marking.

The conditions of use : Mostly the characteristics of the air flow supply connections, the ancillary controls devices, the supervision and emergency devices for the user.

The instruction for use :

o How to put the suit on and how to put it out.

o Emergency devices and reaction of the user in case of failure of the air flow supply system.

- The limits of use of the MURUROA V4F1 R suit :

Delivered without air flow rate Indicator; Before any work, the user will have to provide himself with necessary devices to check if the minimum air flow rate, as Indicated by the manufacturer, is reached or exceeded before and during wearing the suit.

The date of manufacturing and life time limit.

The marking meaning.

The references of the notified organisations having taking part in the "designing* phase.

ENCLOSURE 5.3 Page 13 of 16 AET 01 / 0005 Page 13/16 3.2.

MAINTENANCE MARKING This is aimless. The suit being for single use only.

4.

CONCLUSIONS Upon presentation of the tests results and of the controls carried out, and after investigations of the manufacturer technical manual, the Ventilated Protective Suit against Radioactive Contamination, Pressurised, for Single Use Only, MURUROA V4F1 R-Ref. 848 1X5 T, is certified to assure protection against radioactive particles contamination according to the following conditions :

Feeding breathable air pressure included from 2.5 to 7 bar.

Minimum air flow rate: 27 N m3.h-1 (450 N l.min-1)

Maximum air flow rate : 45 N m3.h-1 (750 N l.min-1 This have not adjustable flow valve.

ENCLOSURE 5.3 Page 14 of 16 AET 01 / 0005 Page 14/16 ANNEX 1 Description and references of the equipments certified In the EC Type Examination Certificate The different models of equipment, whose generic appellation is MURUROA ref. 848 1X5 T., and which are the subject of this EC type examination certificate, are only different on the following points The butt type connecting the equipment-to the breathable compressed air supply system.

The size.

X Indicates the butt type according to the following values:

Type of butt for connection to References of MURUROA References the compressed air Supply V4F1 R associated system X=2 Staubli RBE 06 6150 848125 T X=4 CEJN 342 843145 T X=B Staubli RBE 06 OR 843185 T Y indicates the size of the suit according to the following values:

REFERENCE Height (cm)

Waist measurement (cm)

T=O 152-164 56-64 T=1 164-170 64-68 T=2 170-176 68-72 T=3 176-182 72-76 T=4 182-188 76-80 T=5 188-200 80-88 GT 182-188 80 flat (1,60 m of waist)

ENCLOSURE 5.3 Page 15 of 16 ANNEX2 Diagrams of the suit MURUROA V4F1R-ref. 8481X5 T

-v '-'l_J VUII DI PACE

-,,u. ~

VUE DE DOS AET 01 / 0005 Page 15116

ENCLOSURE 5.3 Page 16 of 16 Annex 3 Picture of the suit MURUROA V4F1R - ref. 8481X5 T AET O I I 0005 Page HSI US

ENCLOSURE 5.4

.4 to Attachment 1 Donning and Removal Instructions for Honeywell Mururoa V4F1 R

MURUROA V4F1 R User guide ref CC8481X5T / rev G / 03-19.4 Page 1 of 5 Honeywell

CLOTHING LABEL / ETIQUETTE DU VTEMENT GLOVES LABEL / ETIQUETTE DU GANT Taille /

Size A(cm)

Hauteur/Height B (cm) Tour taille/Waist**

C (cm)

Tour poitrine/

Chest T0 158 - 164 80 - 84 90 - 94 T1 164-170 84 - 88 94 - 98 T2 170 - 176 88 - 92 98 - 102 T3 176 - 182 92 - 96 102 - 106 T4 182 - 188 96 - 100 106 - 110 T5 188 - 200 96 - 100 106 - 110 T6

> 200 100 - 104 110 - 114 Pour choisir la taille, se référer en premier lieu la stature. Surclasser dune taille si besoin en fonc-tion des autres paramtres To choose the size, please refer first to the stature.

Outperform of one size if needed depending on the other parameters.

    • Version XL nous consulter / ** : XL Version, contact us Test results according to EN 388:2016 Performance Abrasion resistance 500 cycles (class 2)

Cutting resistance

< 1.2 (class 0)

Tear resistance

< 10 N (class 0)

Puncture resistance

< 20 N (class 0)

Test results according to EN ISO 374-1:2016 Performance (K) Sodium hydroxide 40%

> 480 min (class 6)

(L) Sulfuric Acid 96%

> 240 min (class 5)

(M) Nitric acid 65%

> 60 min (class 3)

(T) Formaldehyde 37%

> 60 min (class 3)

Tests / Type of test Norme Standard Niveaux de performance / Level of Performance PVC 20/100 Pink Résistance la flexion / Flexion resistance Résistance labrasion / Abrasion resistance Résistance la perforation / Perforation resistance Résistance la déchirure / Tear resistance Résistance au feu / Resistance to flame EN 1073-1:1998 N/A - vtement usage unique / single use clothing Class 6 (> 2000 cycles NF EN 530:2010)

Class 1 (> 10 N NF EN 863:1995)

Class 3 (> 20 N NF EN ISO 9073-4:1997)

Conform (EN 1146:2006)

PVC 30/100 cristal Hood Résistance la flexion / Flexion resistance Résistance labrasion / Abrasion resistance Résistance la perforation / Perforation resistance Résistance la déchirure / Tear resistance EN 1073-1:1998 Class 6 (> 100 000 cycles NF EN ISO 7854 :1997 meth B)

Class 6 (> 2000 cycles NF EN 530:2010)

Class 1 (> 10 N NF EN 863:1995)

Class 4 (> 40 N NF EN ISO 9073-4:1997)

PVC 50/100 Clear Visor Résistance la flexion / Flexion resistance Résistance labrasion / Abrasion resistance Résistance la perforation / Perforation resistance Résistance la déchirure / Tear resistance Résistance au feu / Resistance to flame EN 1073-1:1998 N/A -vtement usage unique / single use clothing Class 6 (> 2000 cycles NF EN 530:2010)

Class 1 (> 10 N NF EN 863:1995)

Class 5 (> 80 N NF EN ISO 9073-4:1997)

Conform (EN 1146:2006)

Résultats sur la combinaison entire Results on the whole suit EN 1073-1:1998 Vtement classe 5 (facteur protection nominal est 50 000)

Clothing class 5 (nominal protection facteur is 50 000)

Résistance soudures : Class 4 (>125 N-NF EN ISO 13935-2:2014)

Welding resistance: Class 4 (>125 N - NF EN ISO 13935-2:2014) 7 11 18 17 16 15 14 13 12 19 10 20 21 9

8 GLOVES / GANT CLOTHING / VTEMENT 7

0161 G23N SIZE D

Z.A.DE BERRET 30200 BAGNOLS / CEZE FRANCE 2000X KLMPT EN 421 EN 388 EN ISO 374-5 EN ISO 374-1 TYPE B 1

6 19 4

3 2

5 9

EC approval delivered by Notified Body no 0073 - IRSN/CTHEN, CEA Saclay Batiment 389, 91 192 Gif sur Yvette.

Quality management followed by Notified Body no 0334 - ASQUAL, Association Qualité dans la filire Textile-Habillement, 14 rue des Reculettes, 75013 PARIS Manufacturer / Fabricant :Honeywell Protective Clothing, Z.A du Berret, 30200 Bagnols-sur-Cze - FRANCE, Phone + 33 (0) 4 66 89 18 36, Fax +33 (0) 4 66 89 36 31.4 Page 2 of 5 MURUROA V4F1 R.-

-. Honeywell PVC 20/100 M1

___..T,_ 0 11!7 ~ ~

L-!:!:J ~ ~

-t*"*c

.s*c J

Storage conditions liJCE HONEYWELL PROTECTIVE CLOTHING* Z.A. de Berret - 30200 Bagnols-sur-Ce:ze

  • FR C

B A

WARNING The choice and use of an item of personal protective equipment must comply with Directive number 89/656/CEE. The employer must have first analysed and assessed the risks involved in the intervention and those generated by the use of the personal protective equipment selected.

In doing so, he may by default base his assessment on the recommendations of the EN529:2006 standard concerning the choice, use, servicing and mainte-nance of respirators. The operators analysis must also take into account any obstacles to the rapid removal of the equipment in the event of an incident as well as the radiological consequences for the worker concerned by this removal.

FOREWORD This single-use garment has been developed to provide protection against par-ticulate radioactive contamination according to EN1073-1:1998 standard.

This garment has to be used under the supervision of the person in charge of the intervention who must have ensured in advance that:

  • This garment offers adequate protection for the category of risks encountered during the intervention.
  • The wearer is in possession of the necessary alarm devices him to check that the minimum air flow recommended by the manufacturer is reached or exceeded before or during the use of the equipment (for the necessary equip-ment, please contact us)
  • The air supply hoses are compliant with EN14594:2014 standard and are of sufficient length.
  • Breathable Air intakes (compliant with EN12021:2014 standard) fitted with connectors compatible with those on the garment are in fact placed at differ-ent places where the user may have to go; and that these air intakes provide a sufficient quantity of air (the pressure measurements are taken at the inlet into the garment in normal conditions of temperature and pressure):

Entrance garment valve pressure allowed 2,5 to 7 bar resulting in an airflow between 450 and 750l/min.

  • The whole intervention is done under supervision (human presence or by audiovisual means) and that all the appropriate first aid and rescue equip-ment is available in case of any incident during the intervention.
  • Remarks: The garment doesnt have any manual valve; the feeding airflow is automatically controlled.

DONNING

  • The wearer, with a helper, visually inspects the state of the garment and its components then removes the shipping protection (cardboard on the visor and inside the garment, and removable cristal film on the visor).
  • He slips on the bottom of the garment through the rear opening.
  • He connects to the breathable air network circuit by passing the supply pipe through the loop at the rear of the garment, at the same height as the supply valve.
  • The helper zips up the dual zipper system and applies a large strip of adhesive tape (similar DELTA 300 ref CC5641306) to the full length of the zippers to ensure they are sealed; he ties the over boot laces around the ankles.
  • The wearer controls the correct functioning of the air supply; the correct functioning of the valve and the over pressure valves by crouching rapidly a few times.
  • Case of safety harness use: open the harness sleeve in the back of the suit, get through the lanyards and adjust its length (take care that the strength is applied on the lanyards and not on the suit). For the sealing, tape the sleeve and the lanyards with Delta 300 tape.
  • He can go to the work zone.

DOFFING

  • If the garment has an undressing strip, removal may be done with the strap provided for this us age in the following manner. While the garment is still being supplied with air, the helper pulls on the orange strap, which runs from one wrist to the other over t he helmet, and rolls up the front and rear parts in a way that traps the contamination and avoids all contact with the intervening person.
  • In case of necessity, the hood of the garment should be removed quickly.

Pay attention on the complementary devices which could hinder the doffing (external harness, tapes).

IMPORTANT If the clothing deflates during the intervention, if the helmet fogs, if the person has a feeling of excessive warmth Leave the work zone immediately.

Remember that the suit is still under pressure for a moment after in case of air cut.

Protective clothing manufactured to meet Standard EN 1073-1:1998 provides protection against particulate radioactive contamination.

THIS PROTECTIVE CLOTHING DOES NOT PROVIDE PROTECTION AGAINST RADIATION.

STORAGE In the original packaging, out of light and dust, between + 5°C and + 35°C. To avoid the risk of deterioration (crushing, deformation, etc.), this Personal Pro-tective Equipment should be stored in its initial packaging (cardboard box) until used. The clothing should be used by the third year from the date of manufac-ture.

EMERGENCY MEASURE Air outside of the garment can be breathed by removing the strap at the front of the helmet. If the clothing deflates during wearing, if the helmet fogs up, if the person has a feeling of excessive warmth: Leave the work zone immediately and remove the suit.

ERGONOMICS / SAFETY MATERIALS The materials employed as combined and presented are not hazardous or in any particular respect noxious (e.g. irritant to the skin) for the wearer of the equipment. The materials used in the manufacturing of the suit meet the REACH directive. However, we ask you to avoid direct contact between the materials and mucous membranes.

WASTE MANAGEMENT Refer to the local legislation USAGE The air supply (conform to the EN 12021:2014 standard) should be between

+15°C and + 35°C.

REMARKS Single use Clothing. Do not reuse.

MARKING

  • 1. Manufacturer name
  • 2. Glove model name (G23N)
  • 3. EC marking of the gloves. The gloves comply with all standards relating to module D manufacture follow-up. 0161 is the identification number of the organisation responsible for production control
  • 4. EN 374-1: Pictogram indicated that the gloves offer a protection against chemical risks. Test results according to EN 374-1:2016.
  • EN 374-5: Pictogram indicated that the gloves offer a protection against micro-organic risks. Test results according to EN 374-5:2016.

Air permeability: pass.

  • EN 388 : Pictogram indicated that the gloves offer a protection against me-chanical risks. Test results according to EN 388:2016.
  • EN 421: Pictogram indicated that the gloves offer a protection against partic-ulate radioactive contamination according to EN421:2010.
  • 5. Gloves size
  • 6. D : right hand / G : left hand
  • 7. Suit model name
  • 8. Main material of the garment a
  • 9. <<Open book>> pictogram: indication that the instructions for use should be read
  • 10. EC marking. The garment complies with all standards relating to module D manufacture follow-up. 0334 is the identification number of the organisation responsible for production control
  • 11. EN 1073-1: Requirements and test methods for ventilated protective clothing against particulate radioactive contamination. IL: Class 5 defines the nominal protection factor of the clothing (class 5 nominal protection factor 50 000).
  • 12. Pictogram indicating that the garment provides protection against particulate radioactive contamination, in accordance with standard EN 1073-1:1998.
  • 13. Garment size
  • 14. Measurements of the different sizes
  • 15. Position for date of manufacture, goods batch number and expiry date
  • 16. Number and reference of label checking
  • 17. Single use clothing
  • 18. Storage conditions
  • 19. Manufacturer address
  • 20. PPER compliant
  • 21. Country of manufacturing DECLARATION OF CONFORMITY:

DoC is available on: https://doc.honeywellsafety.com/

USER GUIDE GARMENT PROTECTING AGAINST PARTICULATE RADIOACTIVE CONTAMINATION, VENTILATED-PRESSURISED TYPE, FOR SINGLE USE, IN ACCORDANCE WITH STANDARD EN 1073-1:1998.

EN.4 Page 3 of 5

NOTICE D'UTILISATION VETEMENT DE PROTECTION CONTRE LA CONTAMINATION RADIOACTIVE SOUS FORME DE PARTICULES DE TYPE VENTILE-PRESSURISE, A USAGE UNIQUE, CONFORMEMENT A LA NORME EN 1073-1:1998 FR AVERTISSEMENT Le choix et lutilisation dun équipement de protection individuelle doit tre conforme la directive européenne 89/656/CEE.

Lemployeur doit avoir procédé au préalable lanalyse et lévaluation des risques liés lintervention et ceux générés par lutilisation de léquipement de protection individuelle sélectionné.

Dans cette démarche, il pourra par défaut sinspirer de la norme sur les recom-mandations pour le choix, lutilisation, lentretien et la maintenance des appareils de protection respiratoire NF EN 529:2006. Lanalyse de lexploitant devra égale-ment prendre en compte les obstacles un retrait rapide de léquipement en cas dincident ainsi que les conséquences radiologiques pour lintervenant concerné par ce retrait.

AVANT-PROPOS :

Ce vtement usage unique, a été développé pour offrir une protection contre la contamination radioactive sous forme de particules suivant la norme EN 1073-1:1998.

Lutilisation de ce vtement se fait sous lautorité du responsable de lintervention qui sest en particulier assuré au préalable que :

  • Ce vtement offre la protection adéquate pour la catégorie de risques rencontrés pendant lintervention.
  • Le porteur dispose des dispositifs dalerte nécessaires permettant de vérifier que le débit minimum dair prévu par le fabricant est atteint ou dépassé avant et pendant lutilisation de léquipement. (Dispositif nécessaire, nous consulter)
  • Les tuyaux dalimentation en air soient conformes la norme EN 14594:2016 et possdent une longueur suffisante.
  • Des prises dAir Respirable (conforme la norme EN 12021:2014) équipées de raccords compatibles avec ceux du vtement sont bien disposées aux différents endroits o lutilisateur aura se déplacer ; et que ces prises dair délivrent une quantité dair suffisante (les mesures de pression sont faites lentrée du vtement et dans les conditions normales de température et de pression) :

Plage dalimentation allant de 2,5 7 bar se traduisant par un débit dair compris entre 450 et 750 l/min.

  • Toute lintervention se fait sous surveillance (présence ou moyen audiovisuel) et que tous les moyens de secours sont disponibles en cas dincident en cours dintervention.
  • Remarque : La tenue ne possde pas de robinet de réglage du débit manuel ; le débit dalimentation est régulé automatiquement.

HABILLAGE

  • Le porteur aidé dun habilleur, effectue les contrles visuels de létat de la tenue et de ses composants, puis enlve les protections de transport (carton sur la visire, lintérieur de la tenue et <<cristal>> détachable sur la visire).
  • Il enfile le bas de la tenue par la fermeture dorsale.
  • Il se connecte sur le réseau dair respirable en faisant passer son tuyau dali-mentation par le passant situé larrire de la tenue la hauteur du systme dalimentation.
  • Lhabilleur ferme ensuite les deux fermetures glissires et applique sur toute la longueur une bande dadhésif (type DELTA 300 référence CC5641306) pour assurer son étanchéité; il attache les lacets des surbottes autour des chevilles.
  • Le porteur contrle la bonne alimentation dair, le bon fonctionnement du robinet et des soupapes de surpression en saccroupissant plusieurs fois rapidement.
  • Cas dutilisation dun harnais de sécurité : ouvrir lextrémité du manchon dos, passer et ajuster la longueur de la longe de sécurité travers le manchon (sassurer que la tension de la longe sapplique au harnais et pas la tenue).

Etancher lextrémité du manchon/longe avec de ladhésif type DELTA 300.

  • Le porteur peut se rendre dans la zone de travail.

DESHABILLAGE

  • Le déshabillage peut seffectuer par lutilisation de la bande prévue cet effet.

Pour ce faire, le vtement étant encore alimenté en air ; le déshabilleur tire sur la bande orange qui va dun poignet lautre en passant par le dessus du heaume et roule sur elles -mmes les parties avant et arrire du vtement de façon emprisonner la contamination et éviter tout contact avec lintervenant.

  • En cas de nécessité le heaume doit pouvoir tre retiré rapidement. Attention aux dispositifs complémentaires qui entraveraient ce déshabillage (harnais extérieur, adhésifs).

IMPORTANT Si lors de lintervention le vtement se dégonfle, si de la buée apparat sur le heaume, ou si lintervenant a une sensation de chaleur excessive ; il faut immédiatement quitter la zone de travail.

Se souvenir que : le vtement reste pressurisé quelques instants mme en cas de coupure dair.

Cet équipement de protection individuel satisfait les exigences de la norme EN1073-1:1998 contre la contamination de particules radioactives.

CET ÉQUIPEMENT NE PROTGE PAS CONTRE LES RADIATIONS.

STOCKAGE Dans le conditionnement dorigine ; labri de la lumire ; une température comprise entre + 5°C et + 35 °C. Durée possible de stockage : 3 ans dans lembal-lage dorigine.

DISPOSITIFS DURGENCE La bande de sécurité placée lavant du heaume, lorsquelle est arrachée, permet de respirer lair de lextérieur du vtement. Si la tenue se dégonfle, si de la buée apparat sur la visire, ou que le porteur ressent une chaleur excessive, quitter immé diatement la zone de travail et enlever la tenue.

ERGONOMIE/INNOCUITE DES MATERIAUX Compte tenu de leur composition et de leur présentation, les matériaux utilisés ne présentent pas de danger ni de nocivité particulire (risque cutané ou respira-toire) pour le porteur de léquipement. Les matériaux utilisés dans la fabrication de cet équipement sont compatibles avec la directive REACH. Cependant, nous vous demandons déviter tout contact direct avec les muqueuses.

GESTION DES DECHETS Se reporter la législation locale en vigueur.

UTILISATION Lair dalimentation conforme la norme NF EN 12021:2014 doit avoir une tem-pérature comprise entre +15°C et +35°C.

REMARQUE Vtement usage unique. Ne pas réutiliser.

MARQUAGE

  • 1 : Nom du fabricant
  • 2 : Identification du modle de gant (G23N)
  • 3 : Marquage CE. Le gant satisfait aux normes relatives aux suivis de fabri-cation de module D. 0161 est le numéro didentification de lorganisme en charge du contrle de la production.
  • 4 : EN 374-1 : Pictogramme indiquant que le gant offre une protection contre les risques chimiques EN 374-1:2016
  • EN 374-5: Pictogramme indiquant que le gant offre une protection contre les risques micro-organiques. Résultats aux essais de lEN 374-5:2016, essai de perméabilité lair : passe
  • EN 388: Pictogramme indiquant que le gant offre une protection contre les risques mécaniques. Résultats aux essais de lEN 388:2016
  • EN 421: Pictogramme indiquant que le gant offre une protection contre la contamination radioactive sous forme de particules, conformément la norme EN 421:2010
  • 5 : Taille du gant
  • 6 : D : main droite / G : main gauche
  • 7 : Identification du modle de vtement
  • 8 : Matire principale du vtement
  • 9 : Le pictogramme << livre ouvert >> incite prendre connaissance de la notice dutilisation
  • 10 : Marquage CE. Le vtement satisfait aux normes relatives aux suivis de fabrication de module D.0334 est le numéro didentification de lorganisme en charge du contrle de la production.
  • 11 : EN 1073-1 : Exigences et méthodes dessais des vtements de protection ventilés contre la contamination radioactive sous forme de particule. IL : Classe
5. Indique un facteur de protection nominal lintérieur du vtement 50 000
  • 12 : Pictogramme indiquant que le vtement offre une protection contre la contamination radioactive sous forme de particules, conformément la norme EN 1073-1:1998
  • 13 : Taille du vtement
  • 14 : Indique la grandeur des différentes tailles
  • 15 : Emplacement pour la date de fabrication, numéro de lot et date limite dutilisation
  • 16 : Numéro et indice de révision de létiquette
  • 17 : Vtement usage unique
  • 18 : Conditions de stockage
  • 19 : Adresse du fabricant
  • 20 : Conforme la PPER
  • 21 : Pays de fabrication DECLARATION DE CONFORMITE :

disponible sur https://doc.honeywellsafety.com/.4 Page 4 of 5

BENUTZERHANDBUCH SCHUTZANZUG GEGEN RADIOAKTIVE KONTAMINATION DURCH FESTE PARTIKEL, BELÜFTETE, UNTER DRUCK STEHENDE AUSFÜHRUNG, ZUM EINMALIGEN GEBRAUCH, GEMSS NORM EN 1073-1:1998.

FR WARNUNG Die Auswahl und Nutzung eines Ausrüstungsgegenstandes aus dem Bereich der persnlichen Schutzausrüstung (PSA) muss den Anforderungen gem Richtlinie 89/656/EWG entsprechen. Der Arbeitgeber muss zunchst alle Risiken analysiert und bewertet haben, die bei einem Eingreifen und durch die Nutzung der ausgewhlten persnlichen Schutzausrüstung entstehen knnten.

Dabei kann er eine Bewertung standardmig auf die Empfehlungen gem der Norm EN529:2006 zu Auswahl, Einsatz, Pflege und Instandhaltung von Atem-schutzgerten stützen. Bei der Analyse des Arbeitgebers muss auerdem noch jedes Hindernis, das bei einem Ereignis das schnelle Entfernen der Ausrüstung behindern knnte, sowie die radiologischen Auswirkungen auf den vom Entfernen der Schutzausrüstung betroffenen Arbeiter einkalkuliert werden.

VORWORT :

Dieser Schutzanzug zum einmaligen Gebrauch wurde entwickelt, um Schutz vor radioaktiver Kontamination durch feste Partikel gem der Norm EN10731:1998 zu gewhrleisten.

Der Schutzanzug darf nur unter Beaufsichtigung der Person verwendet werden, die für den Eingriff verantwortlich ist und die im Vorfeld sichergestellt hat, dass:

  • der Trger im Besitz der erforderlichen Alarmsysteme ist, um zu messen, ob vor oder whrend der Verwendung der Ausrüstung die minimale vom Hersteller empfohlene Durchflussrate erreicht oder sogar bereits unterschritten ist (wir unterstützen Sie gern bei der Auswahl der ntigen Ausrüstung).
  • die Schluche für die Atemluftversorgung den Anforderungen gem EN14594:2016 entsprechen und eine ausreichende Lnge aufweisen.
  • AtemluftEinlsse (gem den Anforderungen in EN12021:2014), die mit den Anschlüssen am Schutzanzug kompatibel sind, an verschiedenen Orten platziert sind, zu denen der Nutzer eventuell geht, und dass diese Einlsse einen ausreichenden Luftdurchfluss liefern (die Druckmessungen erfolgen am Einlass in die Schutzbekleidung und unter normalen Temperatur und Druck-bedingungen):

Der Eingangsdruck am Anzug darf 2,5 bis 7 bar betragen, was zu einem Luftstrom zwischen 450 und 750 l/min führt

  • Der gesamte Eingriff muss unter Aufsicht durchgeführt werden (mensch-liche Prsenz oder audiovisuelle Mittel) und die erforderliche ErsteHilfe und Rettungsausrüstung muss zur Verfügung stehwb, falls sich ein Vorfall whrend des Eingriffs ereignet.
  • Anmerkungen: Der Anzug hat kein manuelles Ventil; der Zufuhrluftstrom wird automatisch gesteuert ANLEGENDER SCHUTZKLEIDUNG
  • Der Trger überprüft mit einem Helfer den Zustand des Kleidungsstücks und seiner Bestandteile visuell und entfernt dann den Transportschutz (Pappe auf dem Visier und im Inneren des Kleidungsstücks sowie abnehmbarer Kris-tallFilm auf dem Visier).
  • Er zieht die Unterseite des Anzugs durch die hintere ffnung an.
  • Er verbindet sich mit dem Atemluftnetzwerkkreislauf, indem er den Versor-gungsschlauch durch die Schlaufe an der Rückseite des Anzugs auf derselben Hhe wie das Versorgungsventil führt.
  • Der Helfer verschliet das Doppelreiverschlusssystem und bringt einen groen Streifen Klebeband ( DELTA 300 Art.Nr. CC5641306 oder hnlich) auf die gesamte Lnge der Reiverschlüsse auf, um sicherzustellen, dass sie dicht sind. Dann bindet er die Schnürsenkel der Stiefel üm die Knchel.
  • Der Trger kontrolliert die korrekte Funktion der Luftzufuhr. die korrekte Funktion des Ventils und der Überdruckventile durch ein paar Male schnelles Hocken.
  • Im Fall der Verwendung von Auffanggurten: ffnen Sie die Hülle für den Auffanggurt auf der Rückseite des Anzugs, führen Sie die Verbindungsmittel durch und passen Sie die Lnge an (achten Sie darauf, dass die Kraft auf die Verbindungsmittel und nicht auf den Anzug angewendet wird). Für die Ver-siegelung kleben Sie die Hülle und die Verbindungsmittel mit Delta 300Klebe-band ab.
  • Nun darf der Arbeitsbereich betreten werden.

ABLEGENDER SCHUTZKLEIDUNG

  • Wenn der Anzug einen Ausziehstreifen hat, kann das Entfernen mit dem für diesen Zweck vorgesehenen Band auf folgende Weise erfolgen. Whrend der Anzug noch mit Luft versorgt wird, zieht der Helfer an dem orangefarbenen Band, das von einem Handgelenk zum anderen über den Helm luft, und rollt die vorderen und hinteren so auf, dass die Kontamination eingeschlossen und jeglicher Kontakt mit der intervenierenden Person vermieden wird. Wenn der Anzug nicht über einen Ausziehstreifen verfügt: Das Ablegen des Anzugs kann in umgekehrter Reihenfolge zum Anlegen erfolgen.
  • Wenn ntig, sollte die Haube des Anzugs schnell entfernt werden knnen. Ach-ten Sie auf Zubehr, das ein Ablegen der Schutzbekleidung behindern knnte (auen liegender Gurt, Klebeband usw..)

WICHTIG Wenn sich die Kleidung whrend des Eingriffs Luft verliert, der Helm beschlgt, wenn Sie ein Gefühl von übermiger Wrme haben: Verlassen Sie unverzüglich den Arbeitsbereich.

Schutzkleidung, die gem der Norm EN 1073-1:1998 hergestellt wurde, bietet Schutz vor radioaktiver Kontamination durch feste Partikel.

DIESE SCHUTZAUSRÜSTUNG BIETET KEINEN SCHUTZ GEGEN STRAHLUNG.

LAGERUNG In der Originalverpackung, dunkel und staubfrei bei Temperaturen zwischen +5°C und + 35 °C lagern.

Um die Qualitt nicht zu beeintrchtigen (Zerdrücken, Verformung etc.) sollte die Schutzbekleidung bis zur Verwendung in der Originalverpackung (Karton) aufbe-wahrt werden.

Bekleidung innerhalb von drei Jahren ab Herstellungsdatum verwenden.

NOTFALLMASSNAHME Luft von auerhalb der Haube kann eingeatmet werden, indem der Riemen an der Seite der Haube entfernt wird.

Wenn der Anzug whrend des Eingriffs Luft verliert, der Helm beschlgt oder wenn der Person pltzlich sehr warm wird: Verlassen Sie unverzüglich den Arbeitsbereich und ziehen Sie den Anzug aus.

ERGONOMIE/SICHERHEITSMATERIALIEN Die eingesetzten Materialien sind für den Trger weder gefhrlich noch giftig (z. B keine Hautreizung).

Die bei der Herstellung des Anzugs verwendeten Materialien entsprechen der REACH-Verordnung. Bitte vermeiden Sie den Kontakt zwischen Material und Schleimhuten.

ENTSORGUNG Halten Sie sich an die lokalen Bestimmungen VERWENDUNG Die Luftzufuhr sollte (entsprechend der Norm EN 12021:2014) eine Temperatur zwischen + 15 °C und + 35 °C haben.

ANMERKUNGEN Einweg-Kleidung - nicht erneut verwenden KENNZEICHNUNG

  • 1. Hersteller
  • 2. Modellname der Handschuhe (G23N)
  • 3. EG-Kennzeichnung der Handschuhe Die Handschuhe entsprechen allen Normen der Herstellungsnachkontrolle bezüglich des Modultyps D. 0161 ist die Identifizierungsnummer der für die Produktionsüberwachung zustndigen Organisation
  • 4. EN 374-1: Piktogramm, das darauf hinweist, dass die Handschuhe Schutz gegen chemische Risiken bieten. Getestet gem EN 374-1:2016.
  • EN 374-5: Piktogramm, das darauf hinweist, dass die Handschuhe Schutz gegen von Mikroorganismen ausgehende Risiken bieten. Getestet gem EN 374-5:2016. Luftdurchlssigkeit: bestanden.
  • EN 388: Piktogramm, das darauf hinweist, dass die Handschuhe Schutz gegen mechanische Risiken bieten. Getestet gem EN 388:2016.
  • EN 421: Piktogramm, das darauf hinweist, dass die Handschuhe Schutz gegen radioaktive Kontamination durch feste Partikel gem EN421:2016 bieten.
  • 5. Gre der Handschuhe
  • 6. D: rechte Hand / G: linke Hand
  • 7. Anzugmodell
  • 8. Hauptmaterial des Anzugs
  • 9. Piktogramm offenes Buch, mit dem der Benutzer darauf hingewiesen wird, dass die Anwendungshinweise gelesen werden müssen
  • 10. CE-Kennzeichnung. Der Anzug entspricht allen Normen der Herstellungs-nachkontrolle bezüglich des Modultyps D. 0334 ist die Identifizierungsnum-mer der für die Produktionsüberwachung zustndigen Organisation
  • 11. EN 1073-1: Anforderungen und Prüfverfahren für belüftete Schutz-kleidung gegen radioaktive Kontamination durch feste Partikel. IL: Klasse 5 definiert den nominellen Schutzfaktor des Anzugs (nomineller Schutzfaktor der Klasse 5 50 000).
  • 12. Piktogramm, das darauf hinweist, dass der Anzug Schutz vor radioaktiver Kontamination durch feste Partikel gem EN 1073-1:1998 bietet.
  • 13. Gre der Schutzkleidung
  • 14. Messungen der verschiedenen Gren
  • 15. Position für Herstellungsdatum, Chargennummer und Verfallsdatum
  • 16. Nummer und Referenz der Etikettenkontrolle
  • 17. Einweg-Kleidung
  • 18. Lagerbedingungen
  • 19. Adresse des Herstellers
  • 20. PPER-konform
  • 21. Herstellungsland KONFORMITTSERKLRUNG:

Die Konformittserklrung ist verfügbar auf: https://doc.honeywellsafety.com/

DE.4 Page 5 of 5

ENCLOSURE 5.5

.5 to Attachment 1 Honeywell Safety and Productivity Solutions Product Recall Policy

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 1 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal 1 Introduction 1.1 Purpose This Policy will define the roles, responsibilities, requirements and process governing the review, approval, implementation and customer communication of a product recall within the SPS organization.

1.2 Applicability This policy applies to all SPS-level documents, including documents that impact more than one GBE or function, and across all sites and functions regarding SPS-level documents.

1.2.1 This policy applies to Honeywell SPS organizations that sell, manufacture, repair, maintain or distribute Honeywell products. At times, it may be required to recall Honeywell products that are located in other Honeywell divisions, with distributors or at customer sites.

1.2.2 Honeywell SPS organizations must comply with GBE Business Team and SPS / GBE local procedures and legal instructions for the recall of products no longer under the control of Honeywell, in addition to the requirements of this policy.

1.3 Requirements 1.3.1 This policy must adhere to the requirements set forth in the following policies and procedures:

1.3.1.1 SPS PRO-001 Product Safety Procedure 1.3.1.2 SPS-POL-0005 Product Purge Policy 1.3.1.3 SPS-POL-0006 Quality Hold and Release Policy 1.3.2 Organizations involved in initiating this policy should ensure that a process is in place to identify and influence critical behaviors 1.3.2.1 Identifying a significant problem requiring reclaiming of a Honeywell product 1.3.2.2 Identification of customers who may be affected 1.3.2.3 Clear rules, roles, expectations and deliverables for each part of the recalling process 1.3.2.4 Well defined communication and management plans 1.3.2.5 Measurement and recording of deliverables 1.3.2.6 Pre-determine criteria for completion of reclaiming efforts ENCLOSURE 5.5 Page 1 of 7 Honeywell

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 2 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal 1.3.3 Organizations must ensure that all stakeholders participate and are engaged in the process 1.3.3.1 Implementing a system to track communications to all affected customers (distributors and end users) 1.3.3.2 Ensuring replacement and recovery of affected product 1.3.3.3 Recording and dispositioning of affected product as defined by the details from the team in accordance with Section 1.3.1.3 to ensure affected product has been removed from the field 2 Definitions Term Definition Customer Any user of the product, including but not limited to end users, distributors and other Honeywell divisions ERP System Enterprise Resource System (i.e. SAP) based electronic application tool used at various Honeywell sites External Supplier Non-Honeywell entity that provides product (finished or raw goods, including end items) or services to Honeywell. Synonymous with the terms 3rd Party Supplier and Original Design and Manufacturing (ODM).

Gold Business Enterprise (GBE)

Gold Business Enterprises own the SPS product portfolio functions Line of Business (LOB)

Honeywell organization structure starts at SBG (Strategic Business Group) comprising GBEs (Gold Business Enterprises) comprising LOBs.

Nonconformance Product that does not meet design specification or customer requirements (contract or PO).

Noncompliance Product that does not comply with government (state, federal, country, etc.)

certification or regulatory requirements (i.e. REACH, RoHS, UL, FM, etc.).

Recall Requesting product to be returned from a customer. Requires GBE Business Team and SPS/GBE Legal direction/guidance prior to initiating the recall.

Recall Team Product Safety Council (PSC)

A local management group representing legal, ISC, engineering, HSE, quality, sourcing and operations or other services, as required, whose purpose is to manage the initial review of a security event produced for the assignment of resources that support investigative actions to identify the root cause of permanent corrective actions and the follow-up of the recall action Sites Honeywell sites, including Third Party Logistics (3PL) managed Distribution Centers Site Quality Leader/Contact Person identified at the site to focus quality activities, i.e. Site Quality Leader, Site Leader, Site HOS Leader, etc.

ENCLOSURE 5.5 Page 2 of 7 Honeywell

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 3 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal 3.0 Process Steps Step Role Responsibility Identification Employee or responsible party Identifies, controls and reports an actual or suspected nonconforming/noncompliant product per this policy and local procedure.

Investigation Site/Quality Leadership Investigation conducted in accordance with SPS-POL-0006.

PSC Initiation Site/Quality Leadership Initiates investigation of suspect or confirmed nonconforming/noncompliant product to determine if issue warrants PSC Council:

If PSC Council is required, follow the Process Steps in SPS-PRO-0001.

If PSC Council is not required, follow the subsequent process steps defined below.

Recall Team Initiation Site/Quality Leadership Initiates cross functional meeting to include: Quality

/ R&D / ISC Production / Purchasing / Procurement

/ SIOP / Marketing / Marcom / Customer Services /

Sales / Legal Define all affected PNs &

production site(s)

Recall Team Realize the extraction from ERP SKU part number SKU name description Concerned customer number Quantities delivered by customers Forwarding warehouse code Invoicing legal entity name External Supplier & or factories concerned number.

Quantity in stock per warehouse code The quantities on order (PO)

The quantity in Production ENCLOSURE 5.5 Page 3 of 7 Honeywell

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 4 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal Containment Actions Recall Team Ensure all part numbers for affected product(s) are approriatey designated in ERP system to prevent the manufacture and/or shipment of the affected product(s). Containment activities may include, but are not limited to:

  • ERP system action to prevent product use
  • Quarantine / isolation of purged product to prevent its use
  • Communication to all affect manufacturing sites of affected product(s)
  • Other actions needed to protect all customers.

Agency Impact Recall Team Advise the certifying body (bodies) about the affected product(s) of the recall.

Initial Customer Communications Recall Team and Legal Identifiy all impacted customers (OEMs and end users) of the affected product:

Create customer facing communications with review and approval from legal Distribute customer communications, which advises customers of all affected PNs of the recall.

Identify all affected Purchase Orders for each customer.

If and when possible, identify and offer substitute products for the affected customers.

ENCLOSURE 5.5 Page 4 of 7 Honeywell

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 5 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal Prepare the Recall Order Processing Recall Team Order Processing which will be use by Customer Services:

Identify the return site of the affected product.

Define the financial costs and cost center.

Create the sales communication when a substitute product is not available.

Define the transport processing of returns and the costs Identify the expected recall quantities Prepare Recall customer communication Recall Team and Legal Prepare customer communications for:

Distributors End Users & HON internal customer Time of mails: 1 Launch 2 relaunch 3 close Realize the translations in all languages of customers concerned Request acknowledgment of recall in communication Include minimum details such as: expected actions (ex. rework or send back), HON contact information.

Train Sales forces &

Customer Services Recall Team Provide the sales and customer service teams with:

The customer communications.

Frequently Asked Questions (FAQs) and responses Details of the recall process; when the affected products are needed to be returned and where to return the products.

Points of contact within in the Recall Team for escalations ENCLOSURE 5.5 Page 5 of 7 Honeywell

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 6 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal Launch recall Recall team PSC Communication Cadence Recall team PSC Progress reports to stakeholders and team meetings will be scheduled as defined in the Communication Plan. Stakeholders can include other Honeywell sites where the impacted product is located.

NOTE: Frequency varies by event (every day, several times a week, every week, etc.), but should not be less than the weekly frequency.

Quality issue resolution Site Quality Leader/Contact Complete actions to resolve nonconforming/noncompliant issue.

Release of hold products Site Quality Leader/Contact Release products now compliant after production change and or other release compliant products Purge Product Site Quality Leader/Contact Finance leader Disposition all returned products and non-compliance stocks Action in relation with the finance team to take into account the financial impacts Lessons Learned Rcall team PSC Capture Lessons Learned 3.1 Additional Process Information TBD 4 Reference Documents SPS-POL-0005 / SPS Product Purge Policy SPS-POL-0006 / SPS Quality Hold and Release Policy SPS-PRO-0001 / SPS Quality Product Safety Procedure SPS-PRO-0012 / SPS Customer Complaint Procedure SPS-POL-0007 / SPS Corrective and Preventive Action (CAPA) Policy SPS-POL-0009 / Export Compliance Definitions and all relevant procedures regarding export control ENCLOSURE 5.5 Page 6 of 7 Honeywell

Safety and Productivity Solutions (SPS)

SPS Product Recall Policy Revision 1.0 Effective: 6/26/2019 Policy #: SPS-POL-0018 Process Owner: SPS Quality Operations Leader Function: Quality Page 7 of 7 Uncontrolled in printed format - for official copy please view the electronic copy on the QMS site.

Honeywell Internal 5 Forms Quality Product Recall Tracker 6 Records Retention (Identify any records, including electronic records, created in the policy and applicable retention period from the HON Records Information Management site Record Code)

Record Description Record Code Location Method Responsible Holder Retention Period Quality Product Recall Tracker MAN140 Local files or document management system Electronic or paper Site Quality IND Quality Alert &

8D MAN140 Team Guru Electronic Site Quality IND 7 Revision History Revision Number Revision Notes Section Effective Date Rev 1.0 Initial release All 6/26/2019 ENCLOSURE 5.5 Page 7 of 7 Honeywell

ATTACHMENT 2 Summary of Regulatory Commitments Page 1 of 3 Summary of Regulatory Commitments The following table identifies those actions committed to by Constellation Energy Generation, LLC (CEG) in order to use the Honeywell Mururoa V4F1 R air-supplied suit at CEG facilities noted below consistent with a request previously submitted by letter dated May 16, 2006, for the James A. FitzPatrick Nuclear Power Plant (ML061440167) which was approved by the U.S. Nuclear Regulatory Commission as documented in a letter and supporting Safety Evaluation as dated August 14, 2006 (ML062230266). Any other statements in this submittal are provided for information purposes and are not considered to be regulatory commitments.

Braidwood Station, Units 1 and 2 Byron Station, Units 1 and 2 Calvert Cliffs Nuclear Power Plant, Units 1 and 2 Clinton Power Station, Unit 1 Dresden Nuclear Power Station, Units 2 and 3 LaSalle County Station, Units 1 and 2 Limerick Generating Station, Units 1 and 2 Nine Mile Point Nuclear Station, Units 1 and 2 Peach Bottom Atomic Power Station, Units 2 and 3 Quad Cities Nuclear Power Station, Units 1 and 2 R. E. Ginna Nuclear Power Plant COMMITMENT COMMITTED DATE OR "OUTAGE" COMMITMENT TYPE ONE-TIME ACTION (Yes/No)

PROGRAMMATIC (Yes/No)

1) The Mururoa V4F1 R suit will be integrated into CEG respiratory program using the information provided by the manufacturer.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

2) New lesson plans will be developed to train workers on the Mururoa V4F1 R features, donning, use and removal, cautions and use of mouth strip, and tear off strips for routine and emergency egress.

Applicable training requirements to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

3) Radiation Protection personnel will be provided additional training for the Mururoa V4F1 R suit including selection, approval, issue, equipment set-up, operation, and maintenance instructions.

Applicable training requirements to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

4) All Mururoa V4F1 R suits will be treated as "Single-Use" only.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R No Yes Page 2 of 3 COMMITMENT COMMITTED DATE OR "OUTAGE" COMMITMENT TYPE ONE-TIME ACTION (Yes/No)

PROGRAMMATIC (Yes/No) suit throughout the CEG fleet.

5) The Mururoa V4F1 R suit system will not be used in an Immediately Dangerous to Life and Health (IDLH) environment.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

6) CEG will use the Corrective Action Program to document and evaluate any unexpected problems with the Mururoa V4F1 R suit.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

7) CEG will report any Mururoa V4F1 R defects in a timely manner to the U.S.

Nuclear Industry Operating Experience Network in accordance with] CEG's operating experience process.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

8) CEG commits to notifying the manufacturer as well as the U.S. Nuclear Industry of any defects experienced during the use of the Mururoa V4F1 R devices.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

9) CEG will use the Mururoa V4F1 R suit as allowed in the certification with CEJN or STAUBLI fittings.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

10) Procedures for use of the Mururoa V4F1 R suit systems are integrated into the respiratory programs required by Subpart H of 10 CFR Part 20. Fit testing of user is not applicable to fully encapsulating suits.

Prior to use, wearers are trained on these conditions of use as well as the emergency escape features of the suits.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes

11) CEG will perform an initial test of the breathable air network systems to ensure that it has sufficient capacity (minimum Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R No Yes Page 3 of 3 COMMITMENT COMMITTED DATE OR "OUTAGE" COMMITMENT TYPE ONE-TIME ACTION (Yes/No)

PROGRAMMATIC (Yes/No) pressure and flow) through an established maximum length of hose, prior to the initial use of the Mururoa V4F1 R suit system. This test will establish the conditions at the distribution manifold actually necessary to ensure that the air supplied to the suit inlet is consistent with the conditions for which the equipment was certified.

suit throughout the CEG fleet.

12) CEG plants will follow the manufacturers recommended "Instructions for Use" of the Mururoa V4F1 R suits, specifically ensuring that the minimum operating air pressure 2.5 bar (35 psi) and airflow 450 l/min (16 cfm) is being supplied to the suits prior to working in them. Pressure will be monitored during use.

Applicable procedure(s) to be revised following NRC approval to address broader use of V4F1 R suit throughout the CEG fleet.

No Yes As documented in the NRC letter to Entergy dated August 14, 2006 (ML062230266), the NRC determined that the commitments specified in support of the use the Mururoa V4F1 R air-supplied suit at JAF were acceptable and do not warrant the creation of regulatory requirements, which would require prior NRC approval of subsequent changes. Therefore, these same commitments are being applied to the other CEG facilities cited for use for the Mururoa V4F1 R suit.

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