{{#Wiki_filter:Public Comments on Proposed Rule:

American Society of Mechanical Engineers 2015-2017 Code Editions Incorporation by Reference 83 FR 56156 (November 9, 2018)

Comments to NRC-2016-0082 Proposed rule (reference 83 FR 56156)

: 1. Change to 10 CFR 50.55a(b)(1)(v)

The text of the revised rule is not actually provided in the Federal Register notice for this sub-paragraph referenced in the Discussion section of the notice. Neither the current text nor the proposed revision are consistent with the rationale given in the discussion section. The current rule prohibits the use of NCA-4134.10(a) in its entirety. That Code paragraph has three separate functions. First, it incorporates by reference all of Supplement 10S-1 of NQA-1. Second it exempts the requirement in paragraph 3.1 and finally, it also exempts the requirements for in service inspection. The rationale given in the proposed rule discussion states that only the exemption of the requirements of paragraph 3.1 is problematic. This implies that it is desired that the rest of Supplement 10S-1, except for the requirements of in service inspection, should apply. As such, the current rule needs modified to be consistent with the stated intent and below is suggested text.

Additionally, it should be considered that the Quality Program requirements for holders of ASME Certificates of Authorization for work within the scope of Section III, Division 1 must continually update their Quality Programs to comply with NCA-3800 and NCA-4000 within 6 months of issue of new Code Editions per NCA-1140. As such, no current Certificate Holder would be able to use the exception to paragraph 3.1 of Supplement 10S-1 of NQA-1 being prohibited by this condition since their quality programs would currently comply with the 2017 Edition. As well, no component manufactured in accordance with the old Section III rules and, as a result, without an ASME Certification of Authorization and mandatory Authorized Inspection could be delivered and installed to a nuclear power plant under the jurisdiction of the NRC per the rules of Part 50 of Title 10 of the Code of Federal Regulations. This condition could be eliminated without creating any risk or substantial safety hazard to the operation of the US nuclear fleet.

: 2. Addition of 10 CFR 50.55a(b)(1)(x)(B)

entirely to the person performing the examination. By eliminating the need for judgement by the person performing the examination, this strengthens, rather than weakens, detection of non-compliant material that could result in failures after installation.

This condition should not be included in the revised Regulation.

: 3. Addition of 10 CFR 50.55a(b)(1)(xii)

In lieu of the current text, I would propose amending the text of this sub-paragraph to read as follows:

(xii) Section III Condition: Certifying Engineer. When applying the 2017 and later editions of the ASME BPV Code Section III, the NRC does not permit applicants and licensees to use a certifying engineer who is not a Registered Professional Engineer qualified in accordance with paragraph XXIII-1222 for Code-related activities that are applicable to U.S. nuclear facilities regulated by the NRC.

1717 Wakonade Drive East Welch, MN, 55089 Email: ronald.clow@xenuclear.com General Comment Ref. NRC-2016-0082, 10 CFR Part 50, Proposed Rule

Comment in difference to the proposed rule.

In differences to the 10 CFR 50.55a(b)(2)(xxvi) Section XI condition: Pressure testing Class 1, 2 and 3 mechanical joints, the following comment is being submitted.

Moreover, as worded, this condition would require a VT-2 pressure test, if only fasteners, even just one, regardless of the reason the fastener is replaced when the item is disassembled.

For installation into a Code Class (1, 2, 3) system, plants use components that are procured as Quality Related in accordance with a QA program and require the items meet material standards, codes, etc. and are subject to additional NDE and testing before being utilized. This gives reasonable assurance that the materials are free of defects and will perform their function during operation.

In the case of valves, pumps, manufactured piping assemblies (ASME III stamped), etc.

As an additional consideration for removal of the condition, plants implementing 10 CFR 50.69 would be implementing an inspection and repair program that is in lieu of ASME XI and 10 CFR 50.55(a). Implementation of 50.69, would require pressure testing per construction code requirements and does not require a VT-2 pressure test following a repair or replacement activity, welded or mechanical. The NRC has found this approach to be acceptable when implementing this alternative regulation and should remain consistent with requirements within 50.55(a).

The NRC should remove this condition and rely on the ASME XI code as written with regards to repair/replacement activities and subsequent pressure testing.

This 10CFR50.55a provision will be resolved after publication of the 2019 edition of ASME Section III, Appendix XXVI.

Comment: Previous discussions with the Regulator involving development and incorporation of Tables identifying all procedure variables applicable to testing required by Section IX and Appendix XXVI addressed only fusing procedure qualification and testing - not fusing operator performance qualification testing. The provision relating to fusing procedure variables will be resolved by publication of the 2019 edition of ASME Section III, Appendix XXVI.

10 CFR 50.55a(b)(1)(xi)(B) Mandatory Appendix XXVI: Second Provision The NRC proposes to add a new paragraph (b)(1)(xi)(B), which will require both bend tests and high speed tensile impact testing (HSTIT) to qualify fusing procedures and to qualify fusing operators, for fusing joints in polyethylene piping. The explanation of the proposed ruling states: The NRC has performed limited confirmatory research on the ability of short-term mechanical tests to predict the in-service behavior of HDPE butt fusion joints. Based on this research as well as research results from the Welding Institute in the UK, the NRC lacks conclusive evidence that either of the two tests proposed in XXVI-4342(d) and XXVI-4342(e) is always a reliable predictor of joint quality. As a result, the NRC has determined that the combination of both test results provides increased and sufficient indication of butt fusion joint quality.

Comment:

occurs, a recommendation is provided for nuclear applications that the cause be evaluated by assessing the amount of increased fusion interface resulting from the fusion beads, and/or presence of out-of-roundness of the joined parts.

d.) One test report identified by EPRI stated that Reverse Bend testing of 1.33 in. thick 12 NPS PE pipe did not identify defects that were detected by HSTI testing and Guided Side Bend testing. With the advent of the GSB test, most fusing organizations are now using guided side bend tests in lieu of reverse bend tests for qualifying fusing operators on thick sections over 1.25 in. for personnel safety reasons. We suggest that the provision be reworded to address this specific concern when using reverse bend tests for thick sections as indicated in the Summary, below.

Note: HSTI testing machines are quite scarce and expensive. For fusing procedure verification testing (XXVI-2300) the test specimens are typically sent to a laboratory or shop to have the HSTI testing performed. To require this be done for performance qualification purposes would add extra non-productive days for fusing operators, plus it would require sending quality control personnel for witnessing the off-site testing. Since the only technical issue seems to be an anomaly with one test performed on 1.33 in. thick material, a reasonable resolution would be to reword the provision to mandate use of side bend tests (i.e., prohibit use of reverse bend tests) for performance qualification on all piping thicknesses over 1.25 in.

10 CFR 50.55a(b)(1)(xi)(C) Mandatory Appendix XXVI: Third Provision The NRC is proposing to add a new paragraph (b)(1)(xi)(C), which specifies the essential variables to be used in qualifying fusing procedures for electrofusion of fusion joints in polyethylene piping that is to be installed in accordance with ASME BPV Code, Section III, Mandatory Appendix XXVI. This includes four (4) variables in addition to those stated in Section IX that are pertinent to the fusing verification testing of XXVI-2300. These are:

fitting polyethylene material, pipe wall thickness, power supply, and processor.

This 10CFR50.55a provision will be resolved for electrofusion fusing procedures after publication of the 2019 edition of ASME Section III, Appendix XXVI.

10 CFR 50.55a(b)(1)(xi)(D) Mandatory Appendix XXVI: Fourth Provision The NRC is proposing to add a new paragraph (b)(1)(xi)(D), which will require both crush tests and electrofusion bend tests to qualify fusing procedures for electrofusion joints in polyethylene piping. The operating experience data on electrofusion joints is extremely limited and also indicates some failures. the NRC is also proposing to add a condition that requires that both tests (crush test and electrofusion bend test) specified in in XXVI-2332(a) and XXVI-2332(b) be performed as part of performance qualification tests, instead of only one or the other.

Comment: Crush testing is designed for smaller fittings 8 NPS and less. Such tests are impractical and unsafe for sizes larger than 8 NPS due to the large hydraulic equipment that would be required. For this reason, ASTM F1055 provides the electrofusion bend test (FET) as a means of verifying fusion integrity for sizes over 8 NPS. There is no evidence that either of these tests are inadequate for their intended purpose.

10 CFR 50.55a(b)(1)(xi)(E) Mandatory Appendix XXVI: Fifth Provision The NRC is proposing to add a new paragraph (b)(1)(xi)(E), which prohibits the use of electrofusion saddle fittings and electrofusion saddle joints. some Department of Energy operational experience indicates that failures have occurred in electrofusion joints. The NRC has determined that the failure of a saddle type electrofusion joint could result in structural separation of the electrofusion saddle coupling from the HDPE pipe it is attached to, resulting in a potential loss of flow and loss of safety function in the system.

Summary Proposed 10CFR50.55a Provisions ASME Section III, Appendix XXVI, 2015 and 2017 Editions (xi) Section III condition: Mandatory Appendix XXVI. When applying the 2015 and 2017 Editions of Section III, Mandatory Appendix XXVI, Rules for Construction of Class 3 Buried Polyethylene Pressure Piping, applicants or licensees must meet the following conditions:

(A) Mandatory Appendix XXVI: First provision. When performing fusing procedure qualification tests and operator performance qualification tests in accordance with XXVI-4330 and XXVI-4340 the following essential variables shall be used for the performance qualification tests of butt fusion joints:

(1) Joint Type.

(1) Joint Type.

(This provision will be resolved for procedure testing with publication of the 2019 Edition of ASME Section III, Appendix XXVI.)

(B) Mandatory Appendix XXVI: Second provision. When performing qualification tests of butt fusion joints in accordance with XXVI-4342, both the bend test and the high speed tensile impact test shall be successfully completed.

Requested change: Second Provision. When performing procedure qualification HSTT testing of butt fusion joints in accordance with XXVI-2300 or XXVI-4330, specimen breaks away from the fusion zone shall require retesting.

(C) Mandatory Appendix XXVI: Third provision. When performing fusing procedure qualification tests and operator performance qualification tests in accordance with 2017 Edition of BPV Code Section III XXVI-4330 and XXVI-4340, the following essential variables shall be used for the performance qualification tests of electrofusion joints:

(1) Joint Design.

First provision will be resolved with publication of the 2019 Edition of Appendix XXVI.

(1) Joint Design.

(This provision will be resolved for procedure testing with publication of the 2019 Edition of Appendix XXVI.)

(D) Mandatory Appendix XXVI: Fourth provision. Performance of crush tests in accordance with 2017 BPV Code Section III XXVI-2332(a) and XXVI-2332(b) and electrofusion bend tests in accordance with 2017 BPV Code Section III XXVI-2332(b) are required to qualify fusing procedures for electrofusion joints in polyethylene piping installed in accordance with 2017 Edition of ASME BPV Code Section III, Mandatory Appendix XXVI.

(E) Mandatory Appendix XXVI: Fifth provision. Electrofusion saddle fittings and electrofusion saddle joints are not permitted for use. Only full 360-degree seamless sleeve electrofusion couplings and full 360-degree electrofusion socket joints are permitted.

==Subject:==

Please advise if you have any questions.

Thank you very much, J. E. (Jim) OSullivan, PE Procon1, LLC (314) 221-1800



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(i) Applicable ISI Code: Initial 120-month interval. In-service examination of components and system pressure tests conducted during the initial 120-month inspection interval must comply with the requirements in the latest edition and addenda of the ASME Code incorporated by reference in paragraph (a) of this section on the date 12 months before the date of issuance of the operating license under this part, or 12 months before the date scheduled for initial loading of fuel under a combined license under part 52 of this chapter (or the optional ASME Code Cases listed in NRC Regulatory Guide 1.147, when using ASME BPV Code, Section XI, or NRC Regulatory Guide 1.192, when using the ASME OM Code, as incorporated by reference in paragraphs (a)(3)(ii) and (iii) of this section, respectively), subject to the conditions listed in paragraph (b) of this section.

Licensees may, at any time in their 120-month ISI interval, elect to use the Appendix VIII in the latest edition and addenda of the ASME BPV Code incorporated by reference in paragraph (a) of this section, subject to any applicable conditions listed in paragraph (b) of this section. Licensees using this option must also use the same edition and addenda of Appendix I as Appendix VIII, including any applicable conditions listed in paragraph (b) of this section.

NRC Office of the Secretary

Page 2 (ii) Applicable ISI Code: Successive 120-month intervals. In-service examination of components and system pressure tests conducted during successive 120-month inspection intervals must comply with the requirements of the latest edition and addenda of the ASME Code incorporated by reference in paragraph (a) of this section 12 months before the start of the 120-month inspection interval (or the optional ASME Code Cases listed in NRC Regulatory Guide 1.147, when using ASME BPV Code, Section XI, or NRC Regulatory Guide 1.192, when using the ASME OM Code, as incorporated by reference in paragraphs (a)(3)(ii) and (iii) of this section), subject to the conditions listed in paragraph (b) of this section. However, a licensee whose in-service inspection interval commences during the 12 through 18-month period after August 17, 2017, may delay the update of their Appendix VIII program by up to 18 months after August 17, 2017.

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(11) Cast stainless steel. Examination of ASME BPV Code Class 1 piping and vessel nozzle butt welds involving cast stainless steel materials, will be performed with Appendix VIII, Supplement 9 qualifications, or qualifications similar to Appendix VIII, Supplement 2 or 10 using cast stainless steel mockups no later than the next scheduled weld examination after January 1, 2022, in accordance with the requirements of Paragraph -2500(a) or, as an alternative, using inspections that meet the requirements of ASME Code Case N-824 as conditioned in Regulatory Guide 1.147.

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(L) Specimen set and qualification: Twelfth provision. As a condition to the requirements of Supplement 8, Subparagraph 1.1(c), to Appendix VIII, notches may be located within one diameter of each end of the bolt or stud.

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==Subject:==

==Dear Sir or Madam:==

The attached letter provides comments to the subject proposed rulemaking titled, American Society of Mechanical Engineers 2015-2017 Code Editions Incorporation by Reference on behalf of the Nuclear Nondestructive Evaluation (NDE) Program at the Electric Power Research Institute (EPRI).

Regards

*** This email message is for the sole use of the intended recipient(s) and may contain information that is confidential, privileged or exempt from disclosure under applicable law. Unless otherwise expressed in this message by the sender or except as may be allowed by separate written agreement between EPRI and recipient or recipients employer, any review, use, distribution or disclosure by others of this message is prohibited and this message is not intended to be an electronic signature, instrument or anything that may form a legally binding agreement with EPRI.

1906 Lake Peninsula Drive Hixson, TN, 37343 Email: glenpcha@aol.com General Comment Comments to proposed rulemaking incorporating 2015-2017 OM Code Editions (See Attached)

==Background:==

ASME Two Park Avenue New York, NY, 10016 Email: sannac@asme.org General Comment ASME is pleased to have the opportunity to provide comments and suggestions on your Nuclear Regulatory Commission (NRC), 10 CFR Part 50, RIN 3150-AJ74, Incorporation by Reference of American Society of Mechanical Engineers Codes and Code Cases, Proposed Amended Requirements, published in Reference 1.

A complete cover letter statement and comments are contained in the attached file.

* A

==Subject:==

==Reference:==

==Dear Sir or Madam:==

==Enclosures:==

and performed by personnel qualified In ASME believes that the proposed condition is unnecessary and should be removed.

2015 Edition of Section fl/ shall be used.

joints:

range tested (XXVl-2321).

(10) lnterfacial Pressure: A change In lnterfacial pressure to a value beyond the range tested (XXVI-2321).

(11) Decrease In Melt Bead Width: A decrease in melt bead size from that qualified.

(13) Decrease In Cool-down Time: A decrease in the cooling time at pressure from that qualified.

Comments:

Also, EPRI Report 3002005434 "Advanced Nuclear Technology: Literature Review of Mechanical Testing Methods to Evaluate the Integrity of HOPE Butt-Fusion Joints," was developed to assist the NRC with evaluation of mechanical testing methods. This report provides the results of limited studies on the comparison of the high speed tensile impact test to the guided side bend and waisted tensile test methods. This report identifies that situations can occur with the HSTI test where the specimen ruptures outside of the fusion zone while using the HSTI test method. If this occurs, a recommendation is provided for nuclear applications that the cause be evaluated by assessing the amount of increased fusion interface resulting from the fusion beads, and/or presence of out*of-roundness of the joined parts. (If there is indication of minimal or no increased fusion interface, or that mismatch exists between the parts being joined, the test should be re-performed with beads and mismatch removed.)

: 2. B. Fusing Operator Testing: Reverse bend testing has been used extensively and successfully for decades for the qualification of fusing operators in the U.S.

for joining polyethylene water and gas piping. Bend testing is endorsed by DOT for performance qualification for the fusing of interstate gas transmission pipelines as well as for local gas distribution pipelines (Ref. 49 CFR 192.285).

Paragraph 7.4 of EPRI Report 3002005434 provides reasons why the reverse bend test might be considered unacceptable for nuclear applications. The stated reasons are inaccurate based on the following explanations:

a) Although ASTM F2620 lacks complete requirements for how to perform the reverse bend test including temperature range, Appendix XXVl-4342 invokes Section IX QF-143.1 which does provide explicit directions, including required temperature range.

: 31. A 31 arc at the apex of the bend results in at least a 15% strain, which exceeds the 10-12% yield strain of HDPE material.

d) One test report identified by EPRI stated that Reverse Bend testing of 1.33 in.

When performing fusing operator qualification bend tests of butt fusion joints in accordance with XXV/-4342, guided side bend testing shall be used for all thicknesses greater than 1. 25 inches."

(6) Fitting Manufacturer: A change in fitting ASME notes that these requirements for electrofusion procedure testing will be manufacturer.

production (XXVl-231Q(c)).

(11) Material Temperature Range: A change in material fusing temperature beyond the range qualified.

(12) Power Supply: A change in the make or model of electrofuslon control box (XXVl-2310(f)).

(13) Power Cord: A change in power cord material, length, or diameter that reduces current at the coil to below the minimum qualified.

(14) Processor: A change in the manufacturer or model number of the processor. (XXVl-2310(f)).

==Subject:==

exception to some ASME interpretations, and those exceptions are not clearly identified.

For inslallation into a Code Class (1, 2, 3) system, plants use components that are procured as Quality Related in accordance with a QA program and require the items meet material standards, codes, etc. and are subject to additional NOE and testing before being utilized. This provides reasonable assurance that the materials are free of defects and will perform their function during operation.

In the case of valves, pumps, manufactured piping assemblies (ASME Ill stamped}, etc. designed and fabricated to a code or design specification provided by the owner, and pressure testing is already required of these items.

once each inspection lnteNal thereafter.

For this reason. ASME believes that the proposed condition is unnecessary and recommends that the orooosed condition be removed from the final rule.

==Subject:==

The stated provision to perform a pressure test and VT-2 examination on mechanical joints, which will likely require concurrent witnessing of the examination by an Inspector from an Authorized Inspection Agency, does not provide an increased level of quality or safety, and further imposes undue burden on the licensee to provide the desired outcome to identify leakage or verify no leakage.

By imposing an unnecessary requirement to perform pressure testing and VT-2 examination to detect leakage, the stated provision unnecessarily increases the number of involved personnel needed to perform an examination. This results in an increased risk potential for personnel injury, an increase in required amount of documentation, work preparation, and record keeping; an increase to personnel radiological dose (in opposition to ALARA principles); an increased potential for Code and regulatory non-conformance /

13311 Kettler rd Needville, TX, 77461 Email: wufflek@gmail.com General Comment Comment on Proposed 10CFR50.55a Rulemaking Section C ASME OM Code 10 CFR 50.55a(b)(3)(xi) OM Condition: Valve Position Indication The NRC proposes to amend 50.55a(b)(3)(xi) for the implementation of paragraph ISTC3700, Position Verification Testing, in the ASME OM Code to apply to the 2012 Edition through the latest edition and addenda of the ASME OM Code incorporated by reference in 50.55a(a)

The wording in the proposed condition above has been discussed with industry experts and there is a lack of consensus on what the condition requires in terms of allowed MOV supplemental position verification test interval. Some individuals believe MOV supplemental position verification must be performed every 2 years per ISTC-3700 requirements and other individuals believe it can be performed at intervals up to 10 years. As described above, there is a variety of activities being performed or credited to satisfy MOV supplemental position verification, and at a variety of intervals.

Recommend the wording of the proposed rulemaking be enhanced to clearly state that, whatever method or activity is being performed or credited, MOV supplemental position verification must be performed at least once every 10 years.

Comment on Proposed 10CFR50.55a Ruling Section C ASME OM Code Discussion 10 CFR 50.55a(b)(3)(xi) OM Condition: Valve Position Indication The NRC proposes to amend § 50.55a(b)(3)(xi) for the implementation of paragraph ISTC-3700, Position Verification Testing, in the ASME OM Code to apply to the 2012 Edition through the latest edition and addenda of the ASME OM Code incorporated by reference in § 50.55a(a)(1)(iv). This will allow future rulemakings to revise § 50.55a(a)(1)(iv) to incorporate the latest edition and addenda of the ASME OM Code without the need to revise § 50.55a(b)(3)(xi). In addition, the NRC proposes to clarify that this condition applies to all valves with remote position indicators within the scope of Subsection ISTC, Inservice Testing of Valves in Water-Cooled Reactor Nuclear Power Plants, including MOVs within the scope of Mandatory Appendix III, Preservice and Inservice Testing Active Electric Motor-Operated Valve Assemblies in Water-Cooled Reactor Nuclear Power Plants. ISTC-3700 references Mandatory Appendix III for valve position testing of MOVs. The development of Mandatory Appendix III was intended to verify valve position indication as part of the diagnostic testing performed on the intervals established by the appendix. This clarification will ensure that verification of valve position indication is understood to be important for all valves with remote position indication addressed in Subsection ISTC and all of its mandatory appendices.

The wording in the proposed condition above has been discussed with industry experts and there is a lack of consensus on what the condition requires in terms of allowed MOV supplemental position verification test interval. Some individuals believe MOV supplemental position verification must be performed every 2 years per ISTC-3700 requirements and other individuals believe it can be performed at intervals up to 10 years. As described above, there is a variety of activities being performed or credited to satisfy MOV supplemental position verification, and at a variety of intervals. Recommend the wording of the proposed rulemaking be enhanced to clearly state that, whatever method or activity is being performed or credited, MOV supplemental position verification must be performed at least once every 10 years.

These paragraphs do not exist in some previous versions.

1100 NE Circle Blvd, Suite 200 Corvallis, OR, 97330-4741 Email: gbecker@nuscalepower.com Organization: NuScale Power, LLC General Comment See attached file(s)

==SUBJECT:==

==Attachment:==

L0-0119-64284 Attachment Page 1 of 1 NuScale Power, LLC Comments on proposed rule American Society of Mechanical Engineers 2015-2017 Code Editions Incorporation by Reference, Docket ID NRC-2016-0082 Comment:

Justification:

==Dear staff:==

In response to Federal Register Notice 83 FR 56156 released on November 9, 2018, Southern Nuclear Operating Company (SNC) is hereby providing comments on the NRC's proposal to amend its regulations to incorporate by reference the 2015 and 2017 Editions of the American Society of Mechanical Engineers (ASME) Boiler and Pressure Vessel Code and the 2015 and 2017 Editions of the ASME Operation and Maintenance of Nuclear Power Plants, Division 1: OM: Section 1ST, respectively, for nuclear power plants. (Docket ID NRC-2016-0082).

SNC comments have been consolidated and included in the attachment to this letter.

This letter contains no NRG commitments. If you have any questions, please contact me at 205.992.5998.

==Attachment:==

* Remove the proposed condition;

* Licensees establishing an initial or subsequent 120-month

Most of the industry has implemented the JOG program which is very similar to Appendix IV.

It is inappropriate because:

Attachment to NL-19-0071 SNC Comments on Docket ID NRC-2016-0082 SNC Comments on Docket ID NRC-2016-0082

* The NRG has not indicated to Licensees utilizing previous versions of the OM Code that they will need to expeditiously implement the provision in Appendix IV of the 2017 Edition after the final rule takes effect; therefore, it is unclear why the NRG would assert the changes in Appendix IV were significant enough to warrant Licensees implementing the 2015 Edition comply.

* The requirement to utilize Appendix IV of the 2017 Edition following the implementation of the 2015 Edition or earlier would impose a significant burden on licensees by way of a major revision to their 1ST program plan for AOVs.

Furthermore, submitting program plans to multiple NRG offices and/or personnel directly would undoubtedly create a serious version control problem for both entities. It is also unnecessary to require Licensees to officially submit revisions to the NRG resident, who already has access to the most recent versions of the program plans at the station.

Attachment to NL-19-0071 SNC Comments on Docket ID NRC-2016-0082 SNC Comments on Docket ID NRC-2016-0082

(e.g., main steam and main feedwater valves}, the flow rate during preservice or in-service testing is reduced significantly to below normal operating conditions.

Code was not intended to test. Some examples include:

Attachment to NL-19-0071 SNC Comments on Docket ID NRC-2016-0082 SNC Comments on Docket ID NRC-2016-0082

* To some a strict interpretation of ISTA-1100{b) implies relief devices that were not designed for use in or installed in piping systems are required to be tested per the OM Code.

* Some have interpreted that ISTA-1100{b) requires OM Code testing of structural "blow-out panels" that are designed to limit the temperature, in the area of MOVs or AOVs with safety functions, to within their EQ qualification limits. While these "blow-out panels" to need to be maintained {i.e.,

through inspection or PMs) to ensure they will function as designed, the requirements do not exist in the OM Code.

* The absence of a limit in the applicability of the OM Code to piping systems, could result in further expansion in the interpretation for relief devices to include those in HVAC or electrical systems with safety functions. Relief devices in both HVAC and electrical systems with safety functions have other design and testing standards they are required to meet; therefore, the existing OM Code testing requirements would not properly test these components.

Attachment to NL-19-0071 SNC Comments on Docket ID NRC-2016-0082 SNC Comments on Docket ID NRC-2016-0082

==Subject:==

(Docket ID NRC-2016-0082).

Sent: Tuesday, January 22, 2019 4:12 PM To: Ma, May <May.Ma@nrc.gov>

==Subject:==

==Subject:==

Industry Comments on American Society of Mechanical Engineers 2015-2017 Code Editions Incorporation by Reference [RIN 3150-AJ74; Docket ID NRC-2016-0082]

==Dear Ms. Ma:==

The Nuclear Energy Institute[1] (NEI), on behalf of our members, appreciates the opportunity to comment on American Society of Mechanical Engineers 2015-2017 Code Editions Incorporation by Reference issued in the Federal Register on November 9, 2018. Below are two comments for your consideration.

If you or other NRC staff have any comments or questions please contact me at sjv@nei.org or 202-739-8163.

Sincerely, Stephen Vaughn Senior Project Manager, Risk and Technical Support Nuclear Energy Institute 1201 F St., NW, Suite 1100 Washington, DC 20024 www.nei.org P: 202.739.8163 M:202.256.5393 E: sjv@nei.org

==Subject:==

Industry Comments on American Society of Mechanical Engineers 2015-2017 Code Editions Incorporation by Reference [RIN 3150-AJ74; Docket ID NRC-2016-0082]

==Dear Ms. Ma:==

10 CFR 50.55a(b)(3)(xi) OM Condition: Valve Position Indication (page 56171)

In the proposed rulemaking, 10CFR50.55a(b)(3)(xi) is being updated to increase the scope of the OM condition to include valves covered in all of the mandatory appendices within the ASME OM Code, in addition to subsection ISTC. The basis for this change seems to imply that diagnostic testing performed on MOVs under Mandatory Appendix III can be used to verify obturator position on the diagnostic test frequency (up to every 10 years), as this particular test method provides reasonable assurance of valve condition.

1 The Nuclear Energy Institute (NEI) is responsible for establishing unified policy on behalf of its members relating to matters affecting the nuclear energy industry, including the regulatory aspects of generic operational and technical issues. NEIs members include entities licensed to operate commercial nuclear power plants in the United States, nuclear plant designers, major architect and engineering firms, fuel cycle facilities, nuclear materials licensees, and other organizations involved in the nuclear energy industry.

Ms. May Ma January 22, 2019 Page 2 Establishing a requirement to verify obturator position on every valve in the IST program with remote position indication places a significant burden on the licensee to develop new test methods and procedures for valves that do not have supplemental means available, such as flow or pressure indication. In these cases, it may be necessary to purchase special equipment and deploy personnel to high radiological areas in order to verify obturator position on a frequency that may not be necessary.

It is recommended that the following wording be added to the condition to provide greater flexibility in how licensees meet the intent of this OM condition: Licensees shall verify that valve operation is accurately indicated by supplementing valve position indicating lights with other indications, such as flow meters, other suitable instrumentation, or NRC approved testing programs to provide assurance of proper obturator position.

10 CFR 50.55a(f)(7), Inservice Testing Reporting Requirements As stated in the proposed rulemaking, The current ASME OM Code states in paragraph (a) of ISTA-3200, Administrative Requirements, that IST Plans shall be filed with the regulatory authorities having jurisdiction at the plant site. However, the ASME is planning to remove this provision from the ASME OM Code in a future edition because this provision is more appropriate as a regulatory requirement rather than a Code requirement. Therefore [the] proposed condition is an administrative change that would relocate the provision from the ASME OM Code to &sect; 50.55a.

The current revision of the ASME OM Code IST program Plans are available to onsite resident inspectors, who can provide the latest revision to interested NRC technical staff and regional inspectors upon request.

Ms. May Ma January 22, 2019 Page 3 Furthermore, NRC inspectors typically request licensees to either provide, or have available upon arrival, the latest Plan documents prior to scheduled inspections. An OM Code IST program Plan is considered a living document and could go through several revisions within a 10 year interval. The proposed requirement may result in licensees not updating their ASME OM Code program plans as often due to the extra burden of having to send revisions to NRC headquarters, the NRC Regional Office, and the NRC Resident Inspector.

In summary, since the NRC Resident Inspector currently has access to the most recent revision of a licensees ASME OM Code program Plan and is able to distribute them to others within the NRC organization upon request, it is recommended that the additional proposed requirement to submit interim IST Plan updates be deleted.

If you or other NRC staff have any comments or questions please contact me at sjv@nei.org or 202-739-8163.