{{#Wiki_filter:UNITED STATES NUCLEAR REGULATORY COMMISSION ATOMIC SAFETY AND LICENSING BOARD

-----------------------------------------------------------x In re:                                                               Docket Nos. 50-247-LR; 50-286-LR License Renewal Application Submitted by                            ASLBP No. 07-858-03-LR-BD01 Entergy Nuclear Indian Point 2, LLC,                                DPR-26, DPR-64 Entergy Nuclear Indian Point 3, LLC, and Entergy Nuclear Operations, Inc.                                    March 22, 2013

GLOSSARY OF TERMS, ACRONYMS & ABBREVIATIONS ................................................ G I.        INTRODUCTION .............................................................................................................. 1 II.      PROCEDURAL HISTORY................................................................................................ 2 A. The States Petition To Intervene ....................................................................................... 2 B. Entergys Unsuccessful Motion For Summary Disposition ............................................... 4 C. Testimony And Exhibits ..................................................................................................... 5 III.      LEGAL STANDARDS ...................................................................................................... 7 A. The License Renewal Rule ................................................................................................. 7 B. Guidance Documents Are Not Binding And Do Not Have The Force Of Regulations .................................................................................................................. 10 C. Burden Of Proof And Evidentiary Standards ................................................................... 13 IV.      FINDINGS OF FACT....................................................................................................... 14 A. Witnesses And Qualifications........................................................................................... 14

: 2. Entergys Witnesses...................................................................................................... 17

: 3. NRC Staffs Witnesses ................................................................................................. 20 B. Background On The License Renewal Rule..................................................................... 22

: 1. The Purpose Of The License Renewal Rule Is To Detect Degraded Performance Or Condition Prior To Failure................................................. 22

: 3. If An In-Scope SSC Is Considered Passive, Aging Management Review Is Required Regardless Of Whether That Component Is Also Covered By The Maintenance Rule ..................................................................... 25 C. Background On Transformer Operation ........................................................................... 27 i

: 5. Transformers Do Not Experience A Change In State During Operation .......................................................................................................... 40 F. Transformers Are Similar To AMR-Included Components ............................................. 45

: 4. Reactor Vessel .............................................................................................................. 54 G. Transformers Are Dissimilar To AMR-Excluded Components ....................................... 55

: 2. The Transformer Maintenance Program Has Been Unable To Prevent Numerous Transformer Failures ................................................................ 67 J. An Aging Management Program Is Necessary To Provide A Reasonable Assurance That Transformer Functionality Will Be Maintained In The License Renewal Period ....................................................... 75 V.      CONCLUSIONS OF LAW .............................................................................................. 76 VI.      PROPOSED ORDER ....................................................................................................... 78 iii

GLOSSARY OF TERMS, ACRONYMS & ABBREVIATIONS ALSB or Board                      Atomic Safety and Licensing Board AMP                                Aging Management Program AMR                                Aging Management Review IEEE                              Institute of Electrical and Electronics Engineers IPA                                Integrated Plant Assessment LRA                                License Renewal Application NEA                                Nuclear Energy Agency SOC                                Statement of Consideration SSC                                System, Structure or Component Tr.                                Hearing Transcript G

: 1.      In accordance with 10 C.F.R. Section 2.1209 and the January 15, 2013 Order issued by the Atomic Safety and Licensing Board (Board), the State of New York (State) submits its proposed Findings of Fact and Conclusions of Law on the States admitted Contention 8 (NYS-8) concerning Entergys improper exclusion of transformers from Aging Management Review (AMR) and its failure to propose an Aging Management Program (AMP) for transformers.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 II. PROCEDURAL HISTORY A. The States Petition To Intervene

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 (ML073400187). Among those proposed contentions was Contention 8, which reads in its entirety: The LRA for IP2 and IP3 Violates 10 C.F.R. §§ 54.21(a) and 54.29 Because it Fails to Include an Aging Management Plan for Each Electrical Transformer Whose Proper Function is Important for Plant Safety. NYS Petition at 103.

: 9.      The State opposed Entergys motion on the bases that: Contention 8 had become the law of the case to be resolved in a full hearing; Entergy conflated the changing properties of the power passing through the transformer with a change in the transformer itself; and transformers are the type of component for which the Commission intended an AMP to be required, because transformers are passive, degrade in ways not easily monitorable, and are long-lived. Response of the State of New York to Entergys Summary Disposition Motion and NRC Staffs Supporting Answer (Sept. 23, 2009) (ML092930142).

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 their function without a change in their configuration or properties. Entergy Nuclear Operations, Inc. (Indian Point, Units 2 and 3), Memorandum and Order (Ruling on Motions for Summary Disposition) at 6 (Nov. 3, 2009) (unpublished) (ML093070521).

C. Testimony And Exhibits

: 11. On December 12 and 14, 2011, the State of New York filed its initial statement of position (NYS000002), expert report (NYSR00005), pre-filed expert testimony (NYSR00003),

and exhibits (NYS000004, NYS000006-NYS000044) for NYS-8. On March 28-30, 2012, Entergy and NRC Staff, filed their statements of position (ENT000090, NRC000030), pre-filed expert testimony (ENTR00091 and NRC000031), and exhibits (ENT000092-ENT00130B, NRC000032-NRC000038) for Contention 8. The State then submitted a revised statement of position (NYSR00413), rebuttal testimony (NYSR00414), and additional exhibits (NYS000415-NYS000416) on June 29, 2012.

: 12. On December 6, 2012, the State of New York filed a motion for leave to file four additional exhibits, NYS000468 to NYS000471, concerning NYS-8. See State of New York Motion for Leave to File Additional Exhibits Concerning Contention NYS-8 (Dec. 6, 2012)

(ML12341A289). The first set of documents, NYS000468 and NYS000469, discuss a design vulnerability of the electric power system that can prevent the onsite and offsite electric power systemwhich includes transformersfrom being able to perform its intended safety functions.

Id. at 3. The second set of documents, NYS000470 and NYS000471, describe a transformer fire that occurred on November 11, 2012, at the James A. Fitzpatrick Nuclear Power Planta facility operated by Entergy and located in New York State. Id. None of these documents were available to the State for inclusion in its June 29, 2012 rebuttal submissions. Id. at 2-3.

: 13. On December 7, 2012, Entergy filed an answer in opposition to the States motion, arguing that the new exhibits are not relevant to NYS-8. See Entergys Answer Opposing State of New York Motion for Leave to File Additional Exhibits Concerning Contention NYS-8 (Dec. 7, 2012) (ML12342A248). NRC Staff did not oppose the States motion. On January 15, 2013, the Board granted the States motion and admitted the additional exhibits finding that they satisf[y] the requirements of 10 C.F.R. § 2.337, as relevant, material, and reliable evidence which is not unduly repetitious . . . that may aid the Board in developing a complete record. Entergy Nuclear Operations, Inc. (Indian Point, Units 2 and 3), Order (Scheduling Post-Hearing Matters and Ruling on Motions to File Additional Exhibits) at 5 (Jan.

15, 2013) (unpublished) (ML13015A280) (quoting 10 C.F.R. § 2.337(a)).

: 14. On December 13, 2012, the Board heard live testimony from the States witness, Dr. Robert Degeneff; Entergys witnesses Mr. Roger Rucker, Dr. Steven Dobbs, Mr. John Craig and Mr. Thomas McCaffrey; and Staffs witnesses Mr. Roy Mathew and Ms. Sheila Ray. See Transcript of Indian Point Evidentiary Hearing (Tr.) (Dec. 13, 2012) at 4209-4485. Following the hearing, the State, Entergy, and Staff conferred and submitted proposed transcript errata to the Board. Joint Transmittal of Proposed Transcript Corrections in the Matter of Indian Point, Units 2 and 3 (Feb. 5, 2013) (ML13036A437). In a February 28, 2013 order, the Board adopted the parties proposed corrections for NYS-8, stating [p]ursuant to 10 C.F.R. § 2.327(d), the Office of the Secretary will make the necessary physical corrections in the official transcript, so that it will incorporate the changes ordered. Entergy Nuclear Operations, Inc. (Indian Point, Units 2 and 3), Order (Adopting Proposed Transcript Corrections and Resolving Contested Corrections) at 2 (Feb. 28, 2013) (unpublished) (ML13059A226) (quoting 10 C.F.R. § 2.327(d)).

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 III. LEGAL STANDARDS A.     The License Renewal Rule

: 15. NRC regulations, contained in 10 C.F.R. Part 54, set forth the requirements for the renewal of nuclear power plant operating licenses. See 10 C.F.R. § 54.1. Collectively, the Part 54 requirements are referred to as the license renewal rule. NYS000016 (Nuclear Power Plant License Renewal Revisions Statement of Consideration (SOC), 60 Fed. Reg. 22,461, May 8, 1995) at 22,461. Essentially, the license renewal rule requires the applicant to demonstrate that there is a reasonable assurance that it will adequately manage the effects of aging on the intended functions of certain structures and components during the period of extended operation. See 10 C.F.R. §§ 54.21 and 54.29.

: 16. In order to determine which structures and components must be managed for the effects of aging (known as aging management), the applicant first undergoes a scoping process to identify which systems, structures, and components (SSCs) are within the scope of the license renewal rule. ENTR00091 Pre-Filed Testimony of Entergy Witnesses Roger B.

Rucker, Steven E. Dobbs, John W. Craig, and Thomas S. McCaffrey Regarding Contention NYS-8 (Entergy Test.) (Mar. 30, 2012) at 16 (A27) (Rucker, Craig, Dobbs).

: 17. 10 C.F.R. § 54.4 sets forth three categories of SSCs that are included within the scope of the license renewal rule. The first category consists of safety-related SSCs, which are relied upon to remain functional during and following design-basis events (as defined in 10 C.F.R. § 50.49 (b)(1)) in order to ensure: (1) the integrity of the reactor coolant pressure boundary; (2) the capability to shut down the reactor and maintain it in a safe shutdown condition; or (3) the capability to prevent or mitigate the consequences of accidents which could result in potential offsite exposures comparable to those referred to in 10 C.F.R. § 50.34(a)(1),

§ 50.67(b)(2), or § 100.11. 10 C.F.R. § 54.4(a)(1)(i),(ii), and (iii). The second category consists of all nonsafety-related SSCs whose failure could prevent satisfactory accomplishment of any of the safety functions identified in the first category. 10 C.F.R. § 54.4(a)(2). The third category includes all SSCs relied on in safety analyses or plant evaluations to perform a function that demonstrates compliance with the Commissions regulations for fire protection (10 CFR

§ 50.48), environmental qualification (10 CFR § 50.49), pressurized thermal shock (10 CFR

§ 50.61), anticipated transients without scram (10 CFR § 50.62), and station blackout (10 CFR

§ 50.63). 10 C.F.R. § 54.4(a)(3).

: 18. Next, in the screening process, the applicant determines which in-scope SSCs require aging management. ENTR00091 Entergy Test. at 16 (A27) (Rucker, Craig, Dobbs).

Only those structures and components [t]hat perform an intended function, as described in § 54.4, without moving parts or without a change in configuration or properties. . . . and [t]hat are not subject to replacement based on a qualified life or specified time period are subject to aging management. 10 C.F.R. § 54.21(a)(1)(i) and (ii). The regulation does not define the terms configuration or properties. See NYSR00414 Pre-filed Rebuttal Testimony of Robert Degeneff in Support of Contention NYS-8 (Degeneff Rebuttal Test.) (Aug. 6, 2012) at 9:16-21.

: 19. The regulation provides a non-exclusive list of structures and components that are included and excluded from aging management. See 10 C.F.R. § 54.21(a)(1)(i). The structures and components that require aging management include, but are not limited to: the reactor vessel, the reactor coolant system pressure boundary, steam generators, the pressurizer, piping, pump casings, valve bodies, the core shroud, component supports, pressure retaining boundaries, heat exchangers, ventilation ducts, the containment, the containment liner, electrical and mechanical 8

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 penetrations, equipment hatches, seismic Category I structures, electrical cables and connections, cable trays, and electrical cabinets. 10 C.F.R. § 54.21(a)(1)(i).

: 20. Structures and components excluded from aging management include, but are not limited to: pumps (except casing), valves (except body), motors, diesel generators, air compressors, snubbers, the control rod drive, ventilation dampers, pressure transmitters, pressure indicators, water level indicators, switchgears, cooling fans, transistors, batteries, breakers, relays, switches, power inverters, circuit boards, battery chargers, and power supplies. 10 C.F.R.

§ 54.21(a)(1)(i).

: 21. Transformers are not included in either list. See 10 C.F.R. § 54.21(a)(1)(i); Tr.

4221:5-24 (Craig) (Transformers are not specifically discussed in either Part 54, nor in the Statement of Consideration.).

: 22. The applicant must undertake an Aging Management Review (AMR) for systems, structures and components that require aging management. See 10 C.F.R. § 54.21. An AMR identifies each SSCs aging effects and the Aging Management Programs (AMPs) that are credited for managing those aging effects. The AMR helps to demonstrate that the effects of aging will be adequately managed so that the intended function of each SSC is maintained in a manner consistent with the current licensing basis for the period of extended operation.

NRC000031 Pre-Filed Testimony of NRC Staff Experts Roy K. Mathew and Sheila Ray Concerning Contention NYS-8 (Staff Test.) (Mar. 29, 2012) at 10-11 (A15) (Mathew, Ray).

: 23. An AMP typically has ten elements, as described in the Generic Aging Lessons Learned (GALL) Report. See NRC000008 (NUREG-1801, Rev. 1: GALL Report, Vols. 1-2.

Sept. 2005) 2; NRC000009 (NUREG-1801, Rev. 2: GALL Final Report, Dec. 2010).3 These 2

The GALL Report Rev. 1 (NRC000008) was also submitted by the State as NYS00146A-9

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 elements are: scope of program, preventive actions, parameters monitored or inspected, detection of aging effects, monitoring and trending, acceptance criteria, corrective actions, confirmation process, administrative controls, and operating experience. Id.; NRC000031 Staff Test. at 11 (A16) (Mathew, Ray).

: 24. An application for license renewal must contain an integrated plant assessment (IPA) which identifies and lists those SCCs within the scope of the license renewal rule that are subject to AMR. 10 C.F.R. § 54.21(a)(1). The IPA must demonstrate that the effects of aging on these SSCs will be adequately managed so that their intended functions will be maintained consistent with the current licensing basis for the period of extended operation. 10 C.F.R. § 54.21(a)(3).

: 25. A renewed license may be issued by the Commission only if it finds that the applicant has identified actions that have been or will be taken, with respect to managing the effects of aging (during the period of extended operation) on the functionality of structures and components that have been identified under 10 C.F.R. § 54.21(a)(1), that provide a reasonable assurance that the activities authorized by the renewed license will continue to be conducted in accordance with the current licensing basis. 10 C.F.R. § 54.29(a)(1).

B.     Guidance Documents Are Not Binding And Do Not Have The Force Of Regulations

: 26. The Commission, Atomic Safety and Licensing Boards (ASLBs), and federal courts have consistently held that guidance documents are not binding and do not have the force of regulations. See New Jersey v. U.S. Nuclear Regulatory Commn, 526 F.3d 98, 103 (3d Cir.

NYS00146C. NRC000008 is a one page document incorporating NYS00146A-NYS00146C.

3 The GALL Report Rev. 2 (NRC000009) was also submitted by the State as NYS00147A-NYS00147D. NRC000009 is a one page document incorporating NYS00147A-NYS00147D.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 2008) (NRC has characterized NUREGs and other NRC guidance documents as routine agency policy pronouncements that do not carry the binding effect of regulations.); Curators of the University of Missouri (TRUMP-S Project), CLI-95-1, 41 N.R.C. 71, 98 (Feb. 28, 1995) ([I]t is well established . . . that NUREGs and Regulatory Guides, by their very nature, serve merely as guidance and cannot prescribe requirements.); Entergy Nuclear Generation Company and Entergy Nuclear Operations, Inc. (Pilgrim Nuclear Power Station), 68 N.R.C. 590, 614 (Oct. 30, 2008) (While the GALL Report is entitled to some weight as an NRC guidance document, it does not have the force of a legally binding regulation and, like any guidance document, may be challenged in an adjudicatory proceeding such as this one.); Crow Butte Resources Inc. (North Trend Expansion Project), 67 N.R.C. 241, 323 (May 21, 2008) (And guidance documents such as NUREGs are just that  documents that provide guidance, with some persuasive authority, but not binding.); and USEC, Inc. (American Centrifuge Plant), 65 N.R.C. 429, 440 n.31 (Apr.

24, 2007) (NUREGs and Regulatory Guides (RG) serve as guidance and do not prescribe requirements. They are not substitutes for regulations and are not binding authority.).

: 27. When a guidance document on which an agency has relied is challenged in an adjudicatory proceeding, the agency must defend its position. See Guardian Federal Savings &

Loan Assn v. Federal Savings & Loan Insurance Corp., 589 F.2d 658, 666 (D.C. Cir. 1978)

(A general statement of policy . . . does not establish a binding norm. It is not finally determinative of the issues or rights to which it is addressed. When the agency applies the policy in a particular situation, it must be prepared to defend it, and cannot claim that the matter is foreclosed by the prior policy statement. (internal citations omitted)).

: 28. The Commission reiterated this principle in NextEra Energy Seabrook, LLC (Seabrook Station, Unit 1), CLI-12-05, 75 N.R.C. __ slip op. (Mar. 8, 2012) ( Seabrook) 11

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 (ML12068A398), making it clear that guidance documents are not binding in individual proceedings. Seabrook at 24, 49. The Commission cited International Uranium (USA) Corp.

(Request for Material License Amendment), CLI-00-1, 51 N.R.C. 9, 19 (2000), which states:

The Commission, however, is not bound by the Guidance. Like NRC NUREGs and Regulatory Guides, NRC Guidance documents are routine agency policy pronouncements that do not carry the binding effect of regulations. . . . [A]gency interpretations and policies are not carved in stone but rather must be subject to re-evaluations of their wisdom on a continuing basis. (internal citations omitted)4

: 29. Moreover, in Seabrook the Commission did not endorse the Staffs 1997 guidance concerning transformers. See ENT000097 (Letter from Christopher Grimes, NRC, to Douglas J.

Walters, NEI, Determination of Aging Management Review for Electrical Components, Attach., Sept. 19, 1997). Instead, it specifically recognized the intervenors right to challenge such guidance: The Board is correct that the applicability of a guidance document may be challenged in an individual proceeding. Seabrook at 24.

: 30. Although Seabrook dealt with a transformer contention, the Commission did not determine whether transformers are subject to AMR under 10 C.F.R. § 54.21. Instead, it rejected the Seabrook transformer contention at the contention admissibility stage because the intervenors did not provide sufficient factual information or expert opinion to support the contention, not because the contention was contrary to the Staffs 1997 guidance. The expert declaration offered in support of the contention contained only a brief discussion of transformers and did not give a detailed explanation of how transformers function or why they should be considered passive devices. Seabrook at 24-25. As a result, the Commission found that the intervenors expert asserted, without more, that [t]ransformers function without moving parts 4

The International Uranium decision was also cited and quoted at length by the Third Circuit Court of Appeals in New Jersey v. U.S. Nuclear Regulatory Commn, 526 F.3d 98, 103 (3d Cir.

2008) (holding that guidance documents are categorically excluded from NEPA review because they are non-binding and not final orders of the NRC).

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 or without a change in configuration or properties as defined in [10 C.F.R. § 54.21(a)]. Id. at 22 (quoting intervenors experts declaration). That ruling is irrelevant here because the Board has already found that NYS-8 satisfied the standards in 10 C.F.R. § 2.309 governing contention admissibility. See Entergy Nuclear Operations, Inc. (Indian Point, Units 2 and 3), Memorandum and Order (Ruling on Petitions to Intervene and Requests for Hearing) LBP-08-13, 68 N.R.C. 43, 86-89 (July 31, 2008) (ML082130436).

C.     Burden Of Proof And Evidentiary Standards

: 31. It is well established that the Applicant carries the burden of proof on safety issues. Duke Power Co. (Catawba Nuclear Station, Units 1 and 2), CLI-83-19, 17 N.R.C. 1041, 1048 (1983) (citing Consumers Power Co. (Midland Plant, Units 1 and 2), ALAB-283, 2 N.R.C.

11, 17 (1975)).

: 32. After a partys contention has been admitted, that party has the burden of introducing sufficient evidence to establish a prima facie case. The burden then shifts to the applicant to prove by a preponderance of the evidence that the Board should reject the contention as a basis for denial of the renewed license. Louisiana Power and Light Co., 17 N.R.C. 1076, 1093 (quoting Consumers Power Co. (Midland Plant, Units 1 and 2), ALAB-123, 6 A.E.C. 331, 345 (1973)); see AmerGen Energy Co., LLC (Oyster Creek Nuclear Generating Station), CLI 07, 69 N.R.C. 235, 263 (2009) (the applicant must demonstrate that it satisfies the reasonable assurance standard by a preponderance of the evidence).

: 33. Under NRCs regulations, [o]nly relevant, material, and reliable evidence which is not unduly repetitious will be admitted. 10 C.F.R. § 2.337(a). Throughout this proceeding, rather than exclude evidence, this Board has generally opted to give all evidence its appropriate weight at evidentiary hearing in the context of evaluating the specific issue before [it]. Entergy 13

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 Nuclear Operations, Inc. (Indian Point Nuclear Generating Units 2 and 3), Order (Granting in Part and Denying in Part Applicants Motions in Limine) at 20 (Mar. 6, 2012) (unpublished)

: 34.      The State of New York presented one witness on Contention NYS-8: Dr. Robert C. Degeneff, D.Eng. Dr. Degeneff presented an expert report and both direct and rebuttal written testimony. NYSR00005 Report of Dr. Robert C. Degeneff in Support of Contention NYS-8 (Degeneff Report) (Dec. 14, 2011); NYSR00003 Initial Pre-Filed Testimony of New York State Expert Dr. Robert C. Degeneff Regarding Contention NYS-8 (Degeneff Initial Test.)

(Dec. 14, 2011); NYSR00414 Rebuttal Pre-Filed Testimony of New York State Expert Dr.

Robert C. Degeneff, D. Eng. Regarding Contention NYS-8 (Degeneff Rebuttal Test.) (Aug. 6, 2012). Dr. Degeneff testified in person at the evidentiary hearing in Tarrytown, New York, on December 13, 2012. See Tr. 4218-4456.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 Degeneff has over forty years experience working, teaching, and researching in the power engineering field, with an emphasis on the electrical behavior and design of power transformers.

NYSR00003 Degeneff Initial Test. at 2:7-10. Dr. Degeneff has published more than eighty papers on topics concerning transformer design and performance, and power system design. He holds eight patents relating to transformer winding design and electronic tap changer design.

Degeneff Initial Test. at 2:10-13; NYS000004 at 3-6. In addition to his other positions, for the past thirty years, Dr. Degeneff has worked as a consultant, conducting forensic analyses of transformer failures. He has worked with most major transformer manufacturers worldwide. Tr.

: 36. Dr. Degeneff has been a member of the Institute of Electrical and Electronics Engineers (IEEE) Transformers Committee for approximately forty years. He currently serves as a fellow on the committeea position that requires nomination and election, and is held by only two percent of members. NYSR00414 Degeneff Rebuttal Test. at 5:20-6:1. As a committee member, Dr. Degeneff has served on subcommittees and working groups that have written numerous standards providing guidance on the necessary specifications for transformers applied in nuclear plants. Degeneff Rebuttal Test. at 6:1-5. For example, he was involved in the creation of IEEE C57.12.00, which provides the general requirements for liquid immersed, distribution power and regulating transformers. He has also worked on guides for the installation of transformers (IEEE C57.12.11) and the testing of transformers insulation capabilities (IEEE C57.12.14), among others. These IEEE guides are used by nuclear plants across the country.

Degeneff Rebuttal Test. at 6:5-11. Dr. Degeneff is also currently participating in a Cigré (International Council on Large Electric Systems) working group concerning transformers. Tr.

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8

: 37. Since 1991, Dr. Degeneff has been the owner and president of Utility Systems Technologies (UST), Inc., a leading developer of electronic voltage regulators and sag mitigation equipment used for power quality improvement in utility and industrial power systems. NYSR00003 Degeneff Initial Test. at 1:19-23. Among other things, UST designs and builds equipment to improve power quality. Transformers are a major component of such equipment. Degeneff Initial Test. at 2:1-3. These transformers have been used in several nuclear facilities. NYSR00414 Degeneff Rebuttal Test. at 5:8-10.

: 38. From 1989 until 2006, Dr. Degeneff was a professor at Rensselaer Polytechnic Institute. NYS000004 at 1. In this role, he was responsible for teaching graduate and undergraduate courses, conducting research, and supervising doctoral candidates. NYS000004 at 1. Dr. Degeneff taught graduate courses on electric power systems analysis, mechanical aspects of electrical power equipment, and power system transients. He taught undergraduate courses on systems dynamics and engineering design. All of these courses concerned transformers. Dr. Degeneff also co-authored the textbook for his electric power systems analysis course. NYS000004 at 1.

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8

: 40. Based on the foregoing, and his respective background and experience, Dr.

Degeneff is well qualified to testify as an expert witness concerning the theory, operation, properties, and maintenance of transformers. Dr. Degeneffs resume shows that he has significant experience dealing with the application of transformers in nuclear power plants.

Contrary to Dr. Dobbss assertions (Tr. 4450:24-4451:2)5, Dr. Degeneffs opinions do not only reflect his experience within the academic community, but also his decades of experience as a professional in the transformer industry.

: 2.       Entergys Witnesses

: 41. Entergy presented four witnesses on Contention NYS-8: (1) Mr. Roger Rucker; (2) Dr. Steven Dobbs; (3) Mr. John Craig; and (4) Mr. Thomas McCaffrey. These witnesses provided pre-filed written testimony and testified in person at the evidentiary hearing in Tarrytown, New York, on December 13, 2012. See ENTR00091 Pre-Filed Testimony of Applicant Witnesses Roger Rucker, Steven Dobbs, John Craig, and Thomas McCaffrey Regarding Contention NYS-8 (Electrical Transformers) (Entergy Test.) (Mar. 30, 2012);

: 42. Mr. Rucker is a self-employed engineering consultant for Rucker Nuclear Services, Inc. He has been retained by Entergys License Renewal Services Division and serves as the License Renewal Electrical Lead for Indian Point. In this capacity, Mr. Rucker has prepared several documents that support Indian Points license renewal application, including the electrical Aging Management Review report, and the electrical portions of the Aging Management Program evaluation report, the scoping and screening report, and the operating 5

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 experience review reports. ENTR00091 Entergy Test. at 2 (A4) (Rucker). Mr. Rucker has a Bachelor of Science in electrical engineering and has worked for twenty-two years in the nuclear industry. He has served as the electrical lead for nine license renewal applications. Entergy Test. at 2 (A3) (Rucker); See ENT000092 (Curriculum Vitae of Roger B. Rucker, Jan. 2012).

: 43. Dr. Dobbs is a self-employed engineering consultant with Dobbs & Associates Engineering, Inc. ENT000093 (Curriculum Vitae of Steven E. Dobbs, Mar. 28, 2012). He provides engineering consulting services with respect to electronics and computer applications, including their use in nuclear plants. ENTR00091 Entergy Test. at 3 (A6) (Dobbs). Dr. Dobbs has a doctor of philosophy in electrical engineering, a master of science in electrophysics, and a bachelor of science in physics. From 1990 until 2004, Dr. Dobbs was employed by Entergy, providing engineering support for computer and electronic systems throughout the Arkansas Nuclear One plant. From 1977 until 1990, Dr. Dobbs taught in the Engineering Department at Arkansas Tech University. He taught classes in electrical machinery that covered the theory and operation of transformers, motors, and generators. Entergy Test. at 3-4 (A7) (Dobbs).

ENT000094 (Curriculum Vitae of John W. Craig, Mar. 28, 2012) at 1. He has a bachelor of science in nuclear engineering and thirty-five years of experience in nuclear energy and safety matters. From 1979 until 2005, Mr. Craig was employed at the NRC, where he served as the Director of License Renewal and Environmental Project Directorate. In this role, he was responsible for managing license renewal activities, including developing the initial license renewal rule (10 C.F.R. Part 54) and reviewing technical license renewal reports submitted by industry groups. He also served as the Associate Director for Inspection and Programs, where he 18

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 oversaw the Office of Nuclear Reactor Regulations license renewal program. ENTR00091 Entergy Test. at 4-5 (A10) (Craig).

: 45. Mr. McCaffrey is employed by Entergy as the design engineering manager at Indian Point. ENT000095 (Curriculum Vitae of Thomas S. McCaffrey, Mar. 28, 2012). He has a master of science in management science and a bachelor of engineering in electrical engineering. In his current position, Mr. McCaffrey manages a team that maintains and modifies the design of the station to improve plant performance. Mr. McCaffrey has also worked as an electrical system engineer responsible for the Indian Points medium and high-voltage electrical systems. In addition, he has supervised and managed engineers involved in all aspects of the Indian Point electrical and instrumentation and control systems. ENTR00091 Entergy Test. at 6 (A13) (McCaffrey).

: 46. Although Entergys witnesses have engineering degrees and experience working at nuclear plants, they are not transformer experts. None of their resumes mention any specific experience with transformers. In fact, the only specific reference to any transformer experience is in Dr. Dobbss testimony, where he states that twenty-three years ago he taught electrical machinery classes that touched upon the operation of transformers. ENTR00091 Entergy Test.

at 3-4 (A7) (Dobbs). Dr. Dobbss lack of practical experience working in the transformer industry is particularly striking as he is Entergys chief witness for Contention NYS-8, providing extensive testimony concerning transformer properties and operation. See Entergy Test. at 26-

: 85. Entergys witnesses experience pales in comparison to Dr. Degeneffs forty-year career focusing on the electrical behavior and design of power transformers.

: 47. At the hearing, Dr. Dobbs admitted that he is also lacking in knowledge concerning fluid dynamics. Dr. Dobbs testified, My technical position is that the field of fluid 19

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 dynamics and the field of electromagnetics are very different fields, that they are not subject to the same rules, the same equations. Tr. 4402:24-4403:3 (Dobbs). However, he then admitted, Im not really a fluids person, and that he did not know that some of the same equations are used in both fields. Tr. 4403:13-4404:25 (Dobbs). Accordingly, Dr. Dobbss testimony concerning fluid dynamics should be afforded little or no weight. See Nimely v. City of New York, 414 F.3d 381, 399 n.13 (2d Cir. 2005) (But it is worth emphasizing that, because a witness qualifies as an expert with respect to certain matters or areas of knowledge, it by no means follows that he or she is qualified to express expert opinions as to other fields.); Duke Entergy Corp. (Catawba Nuclear Station, Units 1 and 2), 60 N.R.C. 21, 29 (2004) (Gaps in specific knowledge may go to the weight of the expert testimony rather than to its admissibility.); Private Fuel Storage, L.L.C. (Independent Spent Fuel Storage Installation), 62 N.R.C. 328, 357 (2003) (Presiding officers have, in the past, accorded less weight to the testimony of a witness acknowledging no expertise in a specific area.).

: 48. Given Entergys witnesses relative lack of knowledge and experience in transformer operation and theory, especially in light of Dr. Degeneffs expertise, the Board should afford little weight to Entergys witnesses testimony on these topics. If there is a conflict between Dr. Degeneffs testimony and these witnesses testimony on transformer properties and operation, Dr. Degeneffs testimony should prevail.

: 3.     NRC Staffs Witnesses

: 49. NRC Staff presented two witnesses on Contention NYS-8: (1) Mr. Roy Mathew; and (2) Ms. Sheila Ray. These witnesses provided pre-filed written testimony and testified in person at the evidentiary hearing in Tarrytown, New York, on December 13, 2012. See 20

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 NRC000031 NRC Staffs Pre-Filed Testimony of Roy Mathew and Sheila Ray Concerning Contention NYS-8 (Transformers) (Staff Test.) (Mar. 29, 2012); Tr. 4218-4465.

NRC000032 (Curriculum Vitae of Roy Mathew, Mar. 29, 2012) at 1. He has a bachelor of science in electrical engineering and has worked for twenty-two years at NRC. In his current position, Mr. Mathew reviewed large power transformer failures at nuclear plants and assisted Staff with the issuance of an Information Notice 2009-010, Transformer FailuresRecent Operating Experience. See NYS000019 (NRC Information Notice 2009-10, Transformers Failures-Recent Operating Experience, July 7, 2009). In addition, Mr. Mathew has conducted safety review audits for license renewal and developed interim staff guidance for certain Aging Management Programs. NRC000031 Staff Test. at 1-2 (A2) (Mathew). He also provided input to portions of the Staffs Safety Evaluation Report Related to the License Renewal of Indian Point Nuclear Generating Units 2 and 3, NUREG-1930 (SER), regarding electrical components including the scoping and screening results for the electrical and instrumentation and controls system. Staff Test. at 3 (A3) (Mathew).

: 51. Ms. Ray is employed by NRC as an electrical engineer in the Office of Nuclear Regulatory Research, Division of Engineering, Mechanical and Electrical Engineering Branch.

NRC000033 (Curriculum Vitae of Sheila Ray, Mar. 29, 2012) at 1. She has a master of science and a bachelor of science in electrical engineering, and has worked for NRC for seven years.

Ms. Ray has conducted safety reviews for license renewal applications, specifically focusing on electrical systems and components, performed reviews of power uprate applications, and worked on station blackout rulemaking. NRC000031 Staff Test. at 2 (A2) (Ray). She also provided 21

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 input to portions of the Staffs SER for Indian Point regarding electrical components, including the scoping and screening results for the electrical and instrumentation and controls system.

: 52. Although the Staffs witnesses have significant electrical engineering experience in the nuclear industry, they do not have the same level of expertise regarding transformer theory and operation as Dr. Degeneff. Accordingly, if there is a conflict between Dr. Degeneffs testimony and these witnesses testimony on transformer properties and operation, Dr.

Degeneffs testimony should prevail. Also, since Staffs witnesses admitted at the hearing that they are not very familiar with fluid dynamics, their testimony on this topic should be afforded little or no weight. Tr. 4407:19-4408:2 (Ray, Mathew). See Nimely, 414 F.3d at 399 n.13; Duke Entergy Corp., 60 N.R.C. at 29; Private Fuel Storage, L.L.C., 62 N.R.C. at 357.

B.     Background On The License Renewal Rule

: 53. When the Commission revised the license renewal rule in 1995, it published a Statement of Consideration (SOC), explaining that the revisions were intended to change the focus of the rule. NYS000016 (Nuclear Power Plant License Renewal Revisions Statement of Consideration, 60 Fed. Reg. 22,461, May 8, 1995) at 22,461. Whereas the previous rule sought to identify all aging mechanisms regardless of their effect on SSCs, the revised rule seeks to identify aging degradation that leads to degraded performance or condition (i.e., detrimental effects) during the period of extended operation. NYS000016 (60 Fed. Reg. 22,461) at 22,469.

: 54. The purpose of the revised rule is to ensure that licensee programs adequately monitor performance or condition in a manner that allows for the timely identification and correction of degraded conditions. NYS000016 (60 Fed. Reg. 22,461) at 22,469. The goal is to 22

: 58. After stating in her written testimony that AMR is not required for those SSCs whose gross failure is readily detectable (NRC000031 Staff Test. at 8 (A11 & 12) (Ray, Mathew)), NRC Staffs witness Ms. Ray admitted at the hearing that this is not a proper criterion for determining whether AMR is required for a component:

JUDGE WARDWELL: And its your opinion that [the SOC] says that the ability to detect gross failure is sufficient to exempt a system, structure, or component from Aging Management Review?

MS. RAY: No.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8

: 3.     If An In-Scope SSC Is Considered Passive, Aging Management Review Is Required Regardless Of Whether That Component Is Also Covered By The Maintenance Rule

: 59. The terms active and passive are not used in 10 C.F.R. Part 54. Tr. 4220:18-19 (Dobbs); Tr. 4221:16-18 (Craig); Tr. 4228:22-24 (Mathew). However, the SOC characterizes SSCs for which AMR is required as passive, and those for which it is not required as active.

NYS000016 (60 Fed. Reg. 22,461) at 22,477. Passive SSCs perform their intended function without moving parts and without a change in configuration or properties. NYS000016 (60 Fed.

Reg. 22,461) at 22,477. The SOC explains that a change in configuration or properties should be interpreted to include a change in state. NYS000016 (60 Fed. Reg. 22,461) at 22,477.

Therefore, SSCs that experience a change in state are considered active as well. NYS000016 (60 Fed. Reg. 22,461) at 22,477.

: 60. The SOC explains that active SSCs do not require AMR because [f]unctional degradation resulting from the effects of aging on active functions is more readily determinable, and existing programs and requirements are expected to directly detect the effects of aging.

: 61. On the other hand, SSCs that have passive functions generally do not have performance and condition characteristics that are as readily monitorable as those that perform active functions. NYS000016 (60 Fed. Reg. 22,461) at 22,477. Therefore, the detrimental effects of aging affecting passive functions of structures and components are less apparent than 25

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 the detrimental effects of aging affecting active functions of structures and components.

: 62. As NRC Staff has acknowledged, because degraded conditions caused by aging are harder to detect in passive SSCs, the maintenance rule is insufficient to manage the effects of aging in passive SSCs during the license renewal term. NYS000016 (60 Fed. Reg. 22,461) at 22,470-71. For this reason, passive SSCs that are covered under the maintenance rule during the current licensing basis are also covered under the license renewal rule during the period of extended operations. NYS000016 (60 Fed. Reg. 22,461) at 22,470-71 (Passive, long-lived structures and components that are the focus of the license renewal rule are also within the requirements of the maintenance rule.).

: 63. The maintenance rule requires that licensees monitor the performance or condition of structures, systems, or components, against licensee-established goals, in a manner sufficient to provide reasonable assurance that these structures, systems, and components . . . are capable of fulfilling their intended functions. 10 C.F.R. § 50.65(a)(1). However, under the maintenance rule, performance or condition monitoring is not required where it has been demonstrated that the performance or condition of a structure, system, or component is being effectively controlled through the performance of appropriate preventive maintenance, such that the structure, system, or component remains capable of performing its intended function. 10 C.F.R. § 50.65(a)(2) (emphasis added). Furthermore, the maintenance rule requires only that licensees evaluate their preventive maintenance activities once every two years. 10 C.F.R. § 50.65(a)(3).

: 64. Since many long-lived, passive SSCs are not monitored under the more rigorous requirements of the maintenance rule (10 C.F.R. § 50.65(a)(1)), but instead are maintained under 26

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 the looser requirements of the maintenance rule (10 C.F.R. § 50.65(a)(2)), these SSCs must be more rigorously managed under the license renewal rule in the license renewal period.

According to the SOC:

It is expected that many long-lived, passive structures and components could be considered inherently reliable by licensees and not be monitored under 10 CFR 50.65(a)(1). There may be few, if any, actual maintenance activities (e.g. inspection or condition monitoring) that a licensee conducts for such structures and components.

        . . . Therefore, the Commission believes that such structures and components that are technically within the scope of the maintenance rule should not be generically excluded from review for license renewal on the basis of their inherent reliability.

: 65.     At the hearing, Entergys witness Mr. Craig admitted that coverage under the maintenance rule does not exempt an SSC from coverage under the license renewal rule:

JUDGE WARDWELL: Do you believe that a system, structure, or component thats currently under Part 50, Current Licensing Basis, is automatically exempt from Aging Management Review?

MR. CRAIG: No.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 contain a primary winding (a winding supplying the energy to the circuit) and one or more secondary windings (the windings through which the power flows out of the transformer).

NYSR00003 Degeneff Initial Test. at 7:17-22. In its most basic form, a transformer need not even contain a physical core: two coils of wire adjacent to one another will act as a transformer.

NYSR00005 Degeneff Report at 1. A transformer can be represented by the following electrical engineering symbol:

: 69. The transformer takes advantage of the unique properties of electromagnetic fields to transform electrical power of one voltage to electrical power of another voltage.

NYSR00003 Degeneff Initial Test. at 7:5-7. When an electric current passes through the primary winding, the current generates a magnetic field around that winding. When that generated 28

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 magnetic field touches (or links) the secondary winding, a voltage is generated across it. If the second winding is connected so that current can flow, electric power is transformed from the first winding to the second winding. Degeneff Initial Test. at 8:3-9.

: 70.     Conversely, when there is no current flowing into the transformers primary winding, there is no magnetic field generated; the coils and the core do not produce a magnetic field on their own when there is no incoming electrical current. NYSR00005 Degeneff Report at

: 2. This is because a transformer cannot generate power. NYSR00414 Degeneff Rebuttal Test. at 16:4-5. It is not a source of power any more than a transmission cable is a source of power.

Degeneff Rebuttal Test. at 16:5-6. The power must be supplied from some other sourcea generator or battery, for example. Degeneff Rebuttal Test. at 16:6-8.

: 71.     The ratio of the coils each winding possesses is called the turns ratio.

NYSR00003 Degeneff Initial Test. at 7:22-23. The turns ratio determines that no matter what level of electrical power is fed into a transformer, the voltage and current will be transformed in a uniform ratio. Degeneff Initial Test. at 9:11-13. The turns ratio is equivalent to the transformation ratio of the input and output voltage. NYSR00414 Degeneff Rebuttal Test. at 15:6-10. This ratio never changes because the number of turns on a transformers primary and secondary windings never changes. Degeneff Rebuttal Test. at 15:10-11. The ratio is described by the equation Vp/Vs = Np/Ns = N, where v = voltage, N = turns, s = secondary, and p =

primary. Degeneff Rebuttal Test. at 15:12-13. As described by this ratio, the voltage of electricity moving through the transformer will be stepped up or down in proportion to the number of turns in the transformers windings. Degeneff Rebuttal Test. at 15:13-16. For example, if there are twenty turns on the primary and two turns on the secondary, the turns ratio 29

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 is 10. The voltage transformation ratio is also 10. So if the input voltage is 1000 volts, the output voltage will be 100 volts. Degeneff Rebuttal Test. at 15:16-20.

: 73. The mathematical relationship between the voltage and the current is described by the following: voltage in x current in = power in = power out = voltage out x current out.

NYSR00003 Degeneff Initial Test. at 7:8-10. Assuming zero resistance, the electrical power flowing through a transformer remains constant; consequently if the voltage of electrical power flowing through a transformer decreases and the power remains constant, current will increase proportionally, and vice versa. Degeneff Initial Test. at 7:10-15. Another way the voltage and current relationship is often expressed: V in / V out = I out / I in or V in / V out = Current out /

Current in. Degeneff Initial Test. at 7:15-16.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 D.     Transformers At Indian Point Are Within The Scope Of The License Renewal Rule

: 74. All parties agree that transformers at Indian Point perform an intended function as set out in 10 C.F.R. § 54.4 and therefore, are within the scope of the license renewal rule.

NYSR00003 Degeneff Initial Test. at 41:18-42:9; ENTR00091 Entergy Test. at 98 (A109)

(McCaffrey, Rucker); NRC000031 Staff Test. at 11 (A17) (Mathew, Ray); Tr. 4292:1-4293:10 (Ray); Tr. 4295:7-19 (Craig, Degeneff).

: 75. In the pre-filed testimony, Entergys witness Mr. Rucker stated that all transformers at Indian Point are within the scope of license renewal: Entergy included in the scope of license renewal all plant transformers. See LRA at 2.5-1 to 2.5-2. ENTR00091 Entergy Test. at 25 (A39) (Rucker). However, later in the pre-filed testimony, he and Mr.

McCaffrey stated: Although Entergy included all electrical components in the scope of license renewal, the main transformers and the unit auxiliary transformers do not perform a license renewal intended function as defined in 10 C.F.R. § 54.4. The station auxiliary transformers and the Unit 3 GT auto transformer perform license renewal intended functions. Entergy Test. at 98 (A109) (Rucker, McCaffrey).

: 76. At the hearing, Entergys witness Mr. McCaffrey stated that transformers at Indian Point fall under the third category of in-scope SSCs, listed in 10 C.F.R. § 54.4(a)(3). Tr.

4454:1-9 (McCaffrey). Specifically, these transformers are relied on in safety analyses or plant evaluations to perform a function that demonstrates compliance with the Commissions regulations for fire protection (10 C.F.R. § 50.48) and station blackout recovery (10 C.F.R. § 50.63). Tr. 4454:1-9 (McCaffrey).

The offsite power sources required to support SBO recovery actions are the offsite sources that supply the station auxiliary transformers. Specifically, the offsite power recovery path includes the station auxiliary transformers, the 138KV switchyard circuit breakers supplying the station auxiliary transformers, the circuit breaker-to-transformer and transformer-to-onsite electrical distribution interconnections, and the associated control circuits and structures.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 Figure: Indian Point Unit 2 Offsite Power Scoping Diagram, ENT00015A at 2.5-5.

: 79. At Indian Point Unit 2, there are seven transformers that perform a function that demonstrates compliance with 10 C.F.R. § 50.63 (station blackout). Tr. 4454:10-4455:7 (McCaffrey). At Indian Point Unit 3, there are seven transformers that perform a function that demonstrates compliance with 10 C.F.R. § 50.63 (station blackout) and two transformers that perform a function that demonstrates compliance with 10 C.F.R. § 50.48 (fire protection). Tr.

4455:8-16 (McCaffrey).6 6

Other transformers at Indian Point Unit 2 and Indian Point Unit 3 may be within the scope of the license renewal rule. If the Board determines that transformers are passive devices, the State 33

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 E.      Transformers Are Passive Components

: 1.       Transformers Perform Their Intended Function Without Moving Parts

: 80. All parties agree that transformers perform their intended function without moving parts. NYSR00003 Degeneff Initial Test. at 6:12; ENTR00091 Entergy Test. at 40-41 (A58) (Dobbs); NRC000031 Staff Test. at 12 (A20) (Mathew, Ray); Tr. 4359:18 (Degeneff)

(The transformer doesnt have any moving parts.); Tr. 4414:12-16 (Dobbs) (stating that the transformer has no moving parts); NYS000012 (NUREG/CR-5753 Aging of Safety Class IE Transformers in Safety Systems of Nuclear Power Plants, Feb 1996) at 50 (Transformers perform their primary function without the use of moving parts).

: 2.       Transformers Are Not Subject To Replacement Based On A Qualified Life Or Specified Time Period

: 81. All parties agree that transformers are not subject to replacement based on a qualified life or specified time period. NYSR00003 Degeneff Initial Test. at 17:13-16; ENTR00091 Entergy Test. at 14 (A24) (Rucker, Dobbs, Craig, McCaffrey); NRC000031 Staff Test. at 8 (A13) (Mathew, Ray).

: 82. At the hearing, Entergys witness Mr. Rucker explained that the screening criterion not subject to replacement based on a qualified life or specified time period, listed in 10 C.F.R. § 54.21(a)(1)(ii), is applicable only to EQ components such as EQ cable, and therefore, does not apply to transformers. Tr. 4432:18-4435:11 (Rucker).

requests that the Board require Entergy to conduct a thorough and public analysis of the transformers at Indian Point to determine whether any other transformers are within the scope of the license renewal rule. See 10 C.F.R. § 54.4.

: 3.      Transformers Do Not Experience A Change In Configuration During Operation

Tr. 4359:18-19 (Degeneff); Tr. 4380:13-15 (Degeneff). Configuration refers to the arrangement of an objects physical parts. NYSR00414 Degeneff Rebuttal Test. at 20:20-23. A change in configuration is a physical change in the objects arrangement that affects how that object functions. Degeneff Rebuttal Test. at 20:23-21:2. For example, an electrical relay can change its configuration. NYS000016 (60 Fed. Reg. 22,461) at 22,477. None of the transformers physical parts change arrangement during operation, and therefore, a transformer does not change configuration. Degeneff Rebuttal Test. at 21:4-6.

: 84. Entergys witnesses assert that transformers experience a change in configuration or properties. ENTR00091 Entergy Test. at 10 (A23) (Rucker, Dobbs, Craig, McCaffrey). Although they explain what they allege to be a change in the transformers properties, they fail to explain how a transformer changes configuration. See, e.g., Entergy Test.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8

Instead, they are properties of the electricity flowing through the transformer. Degeneff Rebuttal Test. at 12:7-8; 13:8-9. The change in current, voltage, and/or magnetic field that occurs as the electricity passes through a transformer does not have an effect on the properties of the transformer, which remain invariant. Degeneff Initial Test. at 11:3-12:11.

: 87. Dr. Dobbss testimony at the hearing demonstrates that the transformer is completely passive as electricity flows through it. Dr. Dobbs testified that the voltage that is transformed by the transformer is not actually created by the transformer, but instead is created by the generator (i.e., the power source) to which the transformer is connected:

DR. DOBBS: The voltage is created by charge separation.

: 88. Moreover, Dr. Dobbs testified that the current does not flow through the transformer because of any action on the part of the transformer: What causes the current to flow is the electric field that is present when a voltage is present. Tr. 4321:3-5 (Dobbs). He explained:

DR. DOBBS: So now we are at the point that the generator through mechanical energy has separated the charge. That means that work has been performed to separate the charge. So we have created a potential difference which now is a voltage that can be measured.

Now as I said earlier, voltage does not force current to flow. Voltage simply indicates that current will flow. The reason for this is that nature always seeks the lowest possible energy state. Thats the reason water flows downhill.

Current will flow from the higher potential to the lower potential which is akin to flowing downhill. When that potential difference is hooked to a transformer, current will flow because it has now a path to get to the lower energy state.

: 89. Dr. Dobbs also testified that the magnetic field within the transformer is not created by the transformer, but instead, is created by the current flowing through the transformer:

DR. DOBBS: When current flows, thats charge motion. Theres a fact of physics that when charge moves it creates a magnetic field. . . . As that current flows into the primary winding of the transformer, it produces a magnetic field.

: 90. Dr. Dobbs explained that the magnetic field inside the transformer, which was created by the current, in turn creates voltage:

DR. DOBBS: Now as [current] flows through that core it will cause separation of charge because that coil presents some impedance to the flow of the current and so 37

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 youll have a build-up of charge on the top side and less charge on the exiting side.

Now the voltage it has created at this point is determined by Faradays Law. . . .So as you see the current flows because of the potential difference. The current creates the magnetism. And in actuality the magnetism creates the voltage.

: 91. As is evident from Dr. Dobbss testimony, the transformer is simply a conduit through which electricity flows. The properties of electricitycurrent, voltage, and magnetic fieldare manipulated as the electricity moves through the transformer. However, these changes are not due to any action on the part of the transformerinstead these changes are caused by electromagnetic induction dictated by the laws of physics and represented by Maxwells equations. See ENTR00091 Entergy Test. at 65 (A77) (Dobbs) ( electrical phenomena are described by Maxwells equations, which underlie electromagnetic theory and provide a basic description of all electromagnetic interactions). The transformer remains invariant as the electricity moving through it changes. Tr. 4339:3-4340:7 (Degeneff).

: 92. Dr. Dobbss argument that voltage and current are not properties of electricity rests upon a definition of electricity that is simply inapplicable to this contention. At the hearing, Dr. Dobbs testified that electricity is charge and therefore voltage and current are not properties [of electricity] because they do not always exist when charge exists. Tr. 4345:6-13 (Dobbs). However, Dr. Dobbs is referring to electric charge, as opposed to electric power. He states: [C]harge exists virtually everywhere. . . .virtually all mater is held together by electrical forces and electricity that is charge is present everywhere. This table is charge. You yourself are charge. But because the charge has not been separated, there is no voltage and no current.

: 93. As explained by Dr. Degeneff, electricity, as we are referring to it in NYS-8, is not simply charge: Its a whole cadre of components together. Charge is one piece of it.

 

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 Material characteristics are another. Tr. 4347:7-9 (Degeneff). In the context of Contention NYS-8, electricity refers to electric power, which is defined as voltage times current. See ENTR00091 Entergy Test. at 62 (A74) (Dobbs) (electrical power is defined by the equation:

Power = (Voltage) x (Current)). Electric power is what flows through a transformer and electric power cannot exist without current and voltage. NYSR00414 Degeneff Rebuttal Test. at 12:14-15; Tr. 4347:21-4348:5 (Degeneff). Even Dr. Dobbs acknowledged that electric power (a.k.a. electric energy) and electric charge are not the same and that electric energy is a force:

JUDGE WARDWELL: Is there a difference between energy and charge?

JUDGE WARDWELL: And theres a difference between electrical energy and electricity then. Is there?

DR. DOBBS: Electricity is charge. Electrical energy is energy that has to do with charge I would say. So they are related, but theyre not the same.

JUDGE WARDWELL: In the electricity world it is? Whats it expressed as?

DR. DOBBS: Its expressed as joules.

: 94.     Dr. Dobbs argues that something cannot be a property of an object if it is created by an external force:

JUDGE WARDWELL: If something is caused by an external force, didnt you state that it is not inherent to an object and therefore cannot be a property of that object?

DR. DOBBS: I believe thats correct.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8

: 95. Therefore, even under Dr. Dobbss own definition of property, current, voltage and magnetic field are not properties of a transformer because they are being created in the transformer by the electric power flowing through it, which is an external force being applied to the transformer. Degeneff Rebuttal Test. at 11:19-14:16.

: 96. Furthermore, at the hearing, Dr. Dobbs explained that a property is possessed by the object. So it has to follow the object. Tr. 4333:21-23. Under this reasoning, Dr. Dobbs argued that pressure and flow are not properties of water because if water is taken out of a gravitation field where its not acted upon by any external forces, then water will exhibit neither pressure nor flow. Tr. 4330:17-22 (Dobbs). According to Dr. Dobbs, since the pressure and flow do not follow the water, they are not its properties. Similarly, if a transformer is removed from a source and a load, it will have no current, no voltage, and no magnetic field. NYSR00414 Degeneff Rebuttal Test. at 16:4-9. Since current, voltage, and magnetic field do not follow the transformer, under Dr. Dobbss own reasoning, they are not its properties.

: 97. At the hearing, Dr. Degeneff testified that based on his forty years of experience in the transformer industry, he did not consider Dr. Dobbss opinions regarding a transformers properties to reflect the views of the electrical engineering community. Dr. Degeneff stated that Dr. Dobbss positionthat current, voltage, and magnetic field are the properties of a transformeris not a reasonable one. Tr. 4441:25-4442:18 (Degeneff).

: 5.     Transformers Do Not Experience A Change In State During Operation

: 98. State refers to the condition of matter with respect to structure, form, constitution, phase, or the like. NYSR00414 Degeneff Rebuttal Test. at 20:8-9. For example, the Statement of Consideration for the 1995 license renewal rule mentions that a transistor can change its state. NYS000016 (60 Fed. Reg. 22,461) at 22,477. This occurs when a transistor 40

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 changes from a conductor to an insulator. Degeneff Rebuttal Test. at 20:8-19. Another example is water, which can change state from a liquid to a gas. Degeneff Rebuttal Test. at 20:8-10.

: 99.      During its operation, a transformer does not experience a change in stateits constituent parts are exactly the same before the transformer is placed in service and during the period it is in service. NYSR00414 Degeneff Rebuttal Test. at 20:11-14. Unlike a transistor which changes state from a conductor to an insulator during operation, a transformer remains a conductor throughout its operation. Degeneff Rebuttal Test. at 20:14-16.

The Grimes Letter was prepared in response to a request by the Nuclear Energy Institute. See ENT000097 at 1.

(Mathew, Ray); see Tr. 4355:11-13 (Mathew) (discussing the change in the electrical energy within the transformer). However, as explained above: the voltage is not created by the transformer, but by a generator; the current flows into the transformer due to the laws of physics; and the current (not the transformer) creates the magnetic flux. A transformer that is separated from a source and a load has no voltage, current, or magnetic flux, and is incapable of producing them. NYSR00414 Degeneff Rebuttal Test. at 19:4-9. Thus, current, voltage, and magnetic flux are not part of a transformers state. Degeneff Rebuttal Test. at 20:2-19.

And then it induces a voltage and current on the secondary side. Tr. 4351:5-10 (Ray).

104. Later Ms. Ray testified that the alleged active behavior of the transformer is its changing magnetic flux: In order for the transformer to operate, there has to be a change in flux, and that changing magnetic flux is the change in state. Tr. 4376:24-4377:1 (Ray);

106. Ms. Rays testimony shows that Staffs assertion that changing magnetic flux makes transformers active devices is simply incorrect: the flux is not created by the transformer, but by the current moving through the transformer; wires (which are considered passive devices) also experience magnetic flux; and the transformer does not actively collect magnetic flux in its core. Furthermore, as Dr. Degeneff explained: The current is flowing in, in the primary winding, and around that primary winding is a magnetic field wholly dependent upon the amount of current, not the magnetic structure of the core. In other words, whether [transformers] have 43

DR. DOBBS: Idle is not energized. Active is energized in performing its intended function.

JUDGE WARDWELL: And so youre saying that by turning the on/off switch to the on position changes it from an idle to an active state.

JUDGE WARDWELL: This definition, wouldnt all electrical devices change from an idle to an active state when you flip the switch?

DR. DOBBS: Id say yes. Thats on/off. Thats kind of like the digital situation I talked about earlier.

108. The earlier testimony Dr. Dobbs referred to was: in the terms of digital electronics, change of state typically refers to a transistor, when it changes in a digital circuit from on to off, 1 to 0. Tr. 4286:5-8 (Dobbs). Dr. Dobbss testimony shows that transformers do not change state when they are energized. Unlike transistors and other digital electronic devices, a transformer has no switch or ability to turn from on to off. A transistor can turn off by changing its state from a conductor to an insulator, but a transformer cannot and will always remain a conductor. NYSR00414 Degeneff Rebuttal Test. at 20:2-19. Instead, a transformer is 44

DR. DOBBS: Yes.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 as included in AMR). The magnitude and phase of the currents through the cable and voltages across the cable may change, but the physical properties of the cable (e.g., conductor shape, material composition of the cable, cable insulation and the resultant resistance, capacitance per unit length) do not change during operation. NYSR00003 Degeneff Initial Test. at 18:2-7.

112. The physical laws that describe how the magnetic field is developed around a cable are exactly the same physical laws that describe how a magnetic field is developed in a transformer. NYSR00003 Degeneff Initial Test. at 18:8-11. In fact, in many applications two cables are laid parallel to each other in a raceway. Degeneff Initial Test. at 18:11-12. The equations that describe the electrical performance of these cables are exactly the same equations that describe the performance of a two winding transformer with no iron core. Degeneff Initial Test. at 18:12-15; Tr. 4379:24-4380:4 (Degeneff); Tr. 4408:19-4409:9 (Degeneff); NYS000416 (N. N. Hancock, Matrix Analysis of Electrical Machinery, 2nd Edition, Pergamon Press 1974).

Since a transformers function can be represented by the same equation as a cables function, a transformer should also be considered a passive device. NYSR00414 Degeneff Rebuttal Test. at 21:23-22:2.

113. At the hearing, Dr. Dobbs attempted to differentiate cables from transformers, arguing that transformers manipulate the magnetic flux created by the current, while cables do not. Tr. 4399:1-5 (Dobbs). He stated that in a transformer [t]he conductor is put into a coil, so as to manipulate the intensity and to furthermore manipulate the magnetic field, the transformer takes that coil and puts it around a ferromagnetic material such as iron. Tr. 4399:6-21 (Dobbs). However, the manipulation Dr. Dobbs describes is the result of the transformers unchanging construction details and the laws of physics, and therefore, is completely passive on the part of the transformer. See Tr. 4353:19-24 (Ray). Nothing in a transformer changes when 46

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 116. In addition, functional degradation in cables and transformers can be measured in similar ways:

JUDGE WARDWELL: Do you, after hearing this mornings testimony, from what Entergys doing as part of its current licensing basis, do you believe that the types of tests that are run on transformers, in an effort to monitor its functional degradation, could be performed on cables? Which I believe is the heart of the argument. Ms. Ray led to why cables are different.

DR. DEGENEFF: On . . . a transformer, you would perform a Doble measurement, to look at the capacitance of the bushing, or the capacitance structure of the winding, and see if thats changed over time. With a cable, you could do exactly the same type of measurement . . . to see . . . if the capacitance of the insulating structure has changed. Youd look at resistivity measurements, resistivity of the transformer or resistivity of the cable. You could certainly do that. And so a critical component of the transformer is the bushing. A cable might be more easily measured in a similar fashion as we would look at a bushing.

Tr. 4380:16-4381:17 (J. Wardwell, Degeneff).

: 2.      Pipes 117. Transformers are similar to pipes, both of which are passive devices involved in the transportation of mattereither electric power or fluid. Like the voltage of the power flowing through a transformer, the properties of fluids contained within a pipe can change.

NYSR00003 Degeneff Initial Test. at 18:19-21. The properties of such fluids include temperature, pressure, velocity, specific volume, specific weight, viscosity, density, etc. The phase of the fluid in a pipe may even change. Yet, a pipe itself is a component which is included within the scope of § 54.21(a) (1). A pipes diameter may narrow at a particular location or the pipe may contain a restriction (e.g., elbow, or tee) that may change the velocity and/or pressure of the fluid contained in the pipe however, the properties of the pipe itself have not changed. Degeneff Initial Test. at 18:21-19:6.

118. Stated differently, the properties of the contents of the pipe (a fluid) may change, but not the conduit (pipe). NYSR00003 Degeneff Initial Test. at 19:6-8. For example, when a 48

119. In his written testimony, Dr. Dobbs misrepresents the analogy between a pipe and a transformer, and fails to properly relate Bernoullis equation. NYSR00414 Degeneff Rebuttal Test. at 24:22-25:1. As an initial matter, since Dr. Dobbs admitted at the hearing that he does not have expertise in fluid dynamics, his testimony on this topic should be afforded little or no weight. Tr. 4403:13-4404:25 (Dobbs, J. Wardwell). Moreover, the proper analogy between a transformer and a pipe with a changing diameter is as follows:

* The current flowing into the primary winding of the transformer is analogous to the velocity of the flow into the pipe. The current flowing out of the transformers secondary winding is analogous to the velocity of the fluid flowing out of the pipe.

120. The pipe with a change in diameter is considered a passive device. Since the transformer is performing an analogous transformation it must also be considered a passive device. NYSR00414 Degeneff Rebuttal Test. at 26:11-13. In both cases, the transformer and the pipe with a changing diameter, the fact that electric power or a fluid flows through each device does not change the properties of either device. Just as the unchanging properties of a pipe cause the change in the fluid, the unchanging properties of the transformer cause the change in the electricity moving through it. Degeneff Rebuttal Test. at 26:13-19.

121. NRC Staffs witnesses attempt to distinguish transformers from pipes, arguing that transformers are not like pipes because pipes can transport fluid without changing its properties, but transformers cannot transport power without changing its current or voltage.

NRC000031 Staff Test. at 22 (A29) (Mathew, Ray). However, this assertion is simply incorrect.

The electricity flowing through the transformer need not undergo a change during transformer operation. NYSR00414 Degeneff Rebuttal Test. at 26:20-27:3. Normally, the transformer is used to adjust the voltage of the power flowing through the transformer, but if the turns ratio is 1 to 1 then the power transmitted through the transformer will remain at the same voltage. This type of transformation is often used in power quality applications. By providing isolation, a transformer with a turns ration of 1 to 1 reduces electrical noise. In such a situation, the current 50

Degeneff Rebuttal Test. at 26:4-12.

122. At the hearing, NRC Staffs witness Ms. Ray attempted to distinguish both pipes and cables from transformers on the ground that the fluid or power flowing into a pipe or cable is the same fluid or power that flows out of the them, whereas the power flowing into the transformer is in some way distinct from the power flowing out of it. Tr. 4351:18-24 (Ray). At first, Ms. Ray stated that she was sure the electrons in the power flowing in and the power flowing out of the transformer are different. Tr. 4351: 25-4351:8 (Ray). However, upon further questioning, she admitted that there is no way of knowing whether this is true. Tr. 4351:9-20 (Ray). What is certain is that the same amount of power that flows into a transformer also flows out of itas is the case with the matter flowing through a pipe or cable. NYSR00003 Degeneff Initial Test. at 7:5-16. In any case, a change to the matter flowing through these devices does not change the properties or state of the devices themselves. Degeneff Initial Test. at 14:7-9 and 18:2-7.

: 3.      Steam Generator and Heat Exchanger 123. The example of the steam generator (a type of heat exchanger) demonstrates why current, voltage, and magnetic field are not properties of the transformer. The steam generator and the transformer have similar purposesone transforms water and the other transforms electric power. A steam generator operates by turning liquid water into steam. Just as the power moving through the transformer changes state from electrical energy to magnetic energy, the water moving through the steam generator changes state from liquid to steam. Yet, the steam generator is considered a passive device and included in 10 C.F.R. § 54.21(a)(1)(i). NYSR00003 Degeneff Initial Test. at 20:1-20; NYSR00414 Degeneff Rebuttal Test. at 27:14-28:15.

Tr. 4402:24-4403:6 (Dobbs).

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 127. While NRC Staffs witness Ms. Ray admitted that the fluid moving through the heat exchanger and steam generator does change state, she attempted to distinguish transformers from steam generators and heat exchangers on the ground that transformers are readily monitorable, while steam generators and heat exchangers are not:

JUDGE WARDWELL: What about a heat exchanger? Isnt that separate? Theres a transfer of state there, and theres also a break in the exchange of the heat. Wouldnt that be similar to a transformer?

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 130. Dr. Degeneff, on the other hand, demonstrated his knowledge of fluid dynamics at the hearing and testified that many of the same equations are used in fluid dynamics and electrical engineering. Tr. 4406:13-4407:16 (Degeneff). Therefore, Dr. Degeneffs opinion that transformers are similar to steam generators and heat exchangers is entitled to greater weight than Entergys or Staffs witnesses opinions.

: 4.      Reactor Vessel 131. The reactor vessel also demonstrates that a component is not considered active merely because the external materials moving through that component change configuration, properties, or state. The nuclear fuel within the reactor vessel changes properties and/or state, yet the reactor vessel itself is considered a passive component. NYSR00003 Degeneff Initial Test. at 20:11-23; NYSR00414 Degeneff Rebuttal Test. at 28:7-12.

132. Dr. Dobbs is incorrect that the only reason the reactor vessel, heat exchanger, and steam generator are included in Aging Management Review is because they serve as pressure retaining boundaries. ENTR00091 Entergy Test. at 73 (A79) (Dobbs). These components are included because they do not experience a change in configuration, properties, or state. See 10 C.F.R. § 54.21(a)(1)(i). If the materials moving through these components were considered the properties of the components themselves, then they would not be considered passive.

Accordingly, the properties of the electric power flowing through the transformer should not be considered the transformers properties. NYSR00414 Degeneff Rebuttal Test. at 27:14-28:15.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 G.     Transformers Are Dissimilar To AMR-Excluded Components

: 1. Batteries 133. Unlike a transformer, a battery changes properties during operation. NYSR00414 Degeneff Rebuttal Test. at 10:4-8. A battery produces electrical energy through a chemical reaction. The electrolytic properties of the chemicals of which the battery is composed change as the battery discharges. NRC000031 Staff Test at 20 (A27) (When a battery is working, the electrolyte properties change during discharge); NYS000016 (60 Fed. Reg. 22,461) at 22,477 (a battery changes its electrolyte properties when discharging.).

134. In contrast, only the properties of the power flowing through a transformer change. The key properties of a battery that has been discharged will be different from a full battery, but the key properties of a transformer that has had power flow through it will not be different from the properties of a transformer which has not been used. NYSR00003 Degeneff Initial Test. at 26:3-14.

136. As a semiconductor device, one of a transistors properties is its electrical resistance, which can be made to vary between that of a conductor (full flow or very low resistance) and that of an insulator (very low flow or very high resistance). The transistor cannot change the properties of the power flowing through it unless it also changes its own resistivity.

NYSR00003 Degeneff Initial Test. at 21:12-22.

NYS000016 (60 Fed. Reg. 22,461) at 22477.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 If a transformer were like a transistor, the ratio between the voltages of input and output power would depend on the amount of power and the size of the load. This does not occur, however, because unlike a transistor, the transformer does not change its properties or state during operation. Degeneff Initial Test at 22:21-23:6.

140. Dr. Dobbs is incorrect that the change in resistivity in a transistor is directly analogous to the change in magnetic field inside a transformer. Magnetic field is not a property of a transformer. It is created by the electric current flowing through the transformer and therefore, it is not present when the transformer is not connected to a source and a load.

Resistivity is a property of both a transformer and transistor. However, a transistor is designed to change its resistivity, while a transformers resistivity is invariant. As a result, a transistor can change from a conductor to an insulator, but a transformer will always remain a conductor.

NYSR00414 Degeneff Rebuttal Test. at 28:16-30:3.

: 3.     Power Inverter and Power Supply 141. Unlike a transformer, a power inverter and power supply must change state in order to perform their intended functions. A power inverter takes direct current power and converts it into alternating current power, while a power supply takes alternating current power and converts it into direct current power. Like transistors, power inverters and power supplies have external controls that cause a change in their properties and/or state. NYSR00414 Degeneff Rebuttal Test. at 31:9-14.

142. Inverters convert power by controlling the magnitude, frequency and wave shape of the output power. The external control allows the power inverter to vary the relationship between the input and output power (e.g., to decrease or increase the magnitude, frequency, and wave shape of the power) by changing the properties and/or state of its own components. For 57

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 example, the power inverter is composed of semiconductors which change their resistivity during operation. This is wholly unlike the transformer, which does not rely on an external control to change its properties and/or state. In a transformer, the relationship between the input and output power is fixed and determined by the characteristics of the power fed into it and the load supplied by it. Moreover, the transformer will not change the magnitude, frequency or wave shape of the power flowing through it. NYSR00003 Degeneff Initial Test. at 26:15-27:8.

143.      In power supplies, an electric control circuit, apart from the main circuit, converts the bulk power. The external control will adjust the properties of the power supply (such as its resistivity) to deliver the desired voltage and current to the load that is being supplied. The voltage and current supplied by the transformer, on the other hand, depend on the properties of the load, itself, and not on the properties of the transformer, which only determines the turns ratio. The power supply, decides, so to speak, what kind of power to supply to the load, whereas the transformer can only supply the power that the load requires. NYSR00003 Degeneff Initial Test. at 27:9-28:3.

144. Dr. Dobbs unconvincingly argued that one cannot look at the internal changes to the properties and/or state of the transistor, power inverter, or power supply because they are in the AMR excluded list without any description. That is, there is no description of whats inside, how they operate or anything else. Tr. 4370:9-15 (Dobbs); ENTR00091 Entergy Test. at 44 (A61) (Dobbs). On the contrary, how these devices operate and whether they change configuration, properties or state during operation, are the chief inquiries here.

: 1.      The Internal Condition of A Transformer Cannot Be Assessed By Monitoring Its Performance 145. Performance monitoring simply determines if a transformer is supplying power at the desired current and voltage. Tr. 4248:8-12 (Degeneff). Like many of the components included in the list for AMR, transformers will experience various kinds of age related degradation that are not detectable by performance monitoring. In fact, transformers experiencing age related degradation can continue to function with no observable change in operation until the moment when they fail catastrophically. NYSR00005 Degeneff Report at 14; Tr. 4248:21-25 (Degeneff). Frequently, performance monitoring will indicate only that a transformer has failed or will fail imminently.

147. For example, polymerizationthe disintegration of longer polymer chains into smaller polymer chainsresults from normal transformer operation and diminishes the 59

149. Individual windings may also deform and affect adjacent windings, leading to internal arcing in the insulation structure. Such deformation can occur due to the movement of windings with age, use, or abuse. This internal arcing would have no effect on the operating performance of the transformer until it causes failure. NYSR00003 Degeneff Initial Test. at 32:19-33:2.

150. In addition, movement of the winding structure due to a short circuit fault in the system could cause a catastrophic insulation failure, but until the failure occurs, will have no effect on the operating performance of the transformer. NYSR00003 Degeneff Initial Test. at 33:11-14.

151. A corona or radio interference voltage (RIV) generated by the transformer will also have no effect on the operating performance of the transformer but is a sure indication of a problem with the transformer. NYSR00003 Degeneff Initial Test. at 33:15-23.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 152. At the hearing, NRC Staffs witness Ms. Ray admitted that performance monitoring will not give an indication of the internal health of a transformer:

MS. RAY: I would say that there are a number of tests that are performed to monitor the internal components of the transformer. The voltage and current are not the only things.

MS. HESLIN: So you have to perform condition monitoring to assess the internal health of the transformer?

MS. RAY: The voltage and current can give you some indication of a problem. But yes, I would believe that tests would be required to determine exactly internal components.

JUDGE WARDWELL: [W]hat is your impression, Ms. Ray, of the track record of using these changes in this electrical performance, in predicting the remaining qualified life of transformers?

MS. RAY: I would say youd have to use the electrical information, as well as some of the other tests, such as [those for] an oil-filled transformer. The oil tests can give you a great deal of information regarding the degradation of the components of the transformer.

154. Similarly, Entergys witness Mr. McCaffrey acknowledged that voltage is not used to indicate aging degradation in transformers and that testing is required to assess transformer health:

JUDGE WARDWELL: [I]ts not that you see the voltage gradually dropping as the transformer ages, such as its something that could be plotted out and estimate the service life remaining of the transformers?

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 MR. MCCAFFREY: No. Typically, voltage is not used as an aging, you know, criteria for determining its life. Some of the other tests we do, which we run, are used directly to determine its life cycle management.

Tr. 4271:2-12 (J. Wardwell, McCaffrey).

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 Indian Point Units 2 & 3, Docket Nos. 50-247 and 50-286, License Nos. DPR-26 and DPR-64, Oct. 25, 2012). Entergy notes: The relay systems were not specifically designed to detect an open single phase of a three phase system. . . . [E]xisting electrical protective devices are sufficiently sensitive to detect design basis conditions like a loss of voltage or a degraded voltage, but were not designed to detect a single phase open circuit condition. NYS000469 at 4.

157. Indian Points inability to detect this condition is significant because the same condition led to an automatic reactor trip at Byron Station Unit 2 on January 30, 2012.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 159. Some transformer tests may reveal broad information about the degree of polymerization in a transformer, but insulation degradation is not uniform and a visual inspection is necessary to determine whether the polymerization is occurring to a small degree and without significant risk throughout the insulation or whether it is occurring intensely and with significant risk at a small amount of locations. NYSR00003 Degeneff Initial Test. at 32:1-7.

160. Similarly, diminishment in the mechanical and structural integrity of the core and coil assembly is detectable only through visual inspection because it does not produce any of the electrical or chemical tracers picked up by other tests. NYSR00005 Degeneff Report at 15; NYSR00414 Degeneff Rebuttal Test. at 40:1-7.

161. Although a dissolved gas analysis could produce some evidence of insulation failure or hotspots, a relatively frequent inspection interval is required to identify whether the problem is worsening, and even then, such testing will not be able to identify the specific places within the winding where the degradation is occurring, since the coil assembly may contain 2,000 or more turns. NYSR00003 Degeneff Initial Test. at 33:2-9.

162. Also, although an acoustical test could identify the existence of a corona or RIV, a visual inspection is required to identify the actual flaw in the transformer that is causing the corona or RIV. NYSR00003 Degeneff Initial Test. at 33:20-23.

163. Entergy has also recognized that some conditions can only be detected by internal inspections. Entergys Large Power Transformer Status Report discussed degradation in a transformer at Entergys Arkansas Nuclear One (ANO2) plant that was not observable from the dissolved gas analysis or other tests, but only found through an internal inspection:

The recent degradation of the AN02 Main transformer resulted from the GE Dyna Compression Clamp which is used to support transformer windings was not able to provide its function. This failure indicates that dissolve gas analysis and other PM maintenance tasks are not sufficient to identify all non-random degradation 64

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 mechanisms internal to the transformer since no indication of this degradation mechanism was observable with existing maintenance strategy. It is postulated that normal transformer vibration or through fault currents could have resulted in grounding of the windings resulting in transformer failure. The degradation was identified during an internal inspection triggered by external oil leaks and the transformer was replaced during the ANO outage as emergent work.

164. Based on this finding, Entergys Large Power Transformer Status Report recommended that the Entergy conduct internal inspections of transformers:

Based on possible mitigation of catastrophic failure mechanisms transformer internal inspections should proceed on the fleets older transformers ASAP to ensure reliability; the fleet has 11 transformers placed in service in late 1960 to mid 1970 that have not had internal inspections performed. Other transformers should be scheduled for inspection based on failure impact; all transformers should be inspected on a fixed frequency.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 licensee established goals in a manner sufficient to provide a reasonable assurance that they are capable of fulfilling their intended functions. 10 C.F.R. § 50.65(a)(1). Those SSCs in the (a)(2) category are regulated under 10 C.F.R. § 50.65(a)(2), which does not require performance or condition monitoring or a reasonable assurance, but instead requires only preventive maintenance. 10 C.F.R. § 50.65(a)(2). The SOC for the license renewal rule states: An effective preventive maintenance program is required under § 50.65(a)(2) if monitoring under § 50.65(a)(1) is not performed. NYS000016 (60 Fed. Reg. 22,461) at 22,470.

167. The transformers at Indian Point fall under the (a)(2) category. NRC Staffs witness Mr. Mathew explained: (a)(2) is the normal performance monitoring you do with the Preventive Maintenance Program. And New York exhibit8 shows what preventive maintenance Entergy is doing for those transformers. Tr. 4247:11-14 (Mathew). Furthermore, Entergys Pre-Filed Testimony states: Entergy uses industry standard preventive and predictive maintenance techniques on its large oil-filled transformers. . . . Predictive maintenance results are monitored and trended to identify degrading conditions within transformers. ENTR00091 Entergy Test. at 97 (A108) (McCaffrey, Rucker) (emphasis added).

168. Therefore, under the maintenance rule, the transformers at Indian Point are receiving only preventive maintenancenot condition monitoring. This is the minimum amount of maintenance required under the maintenance rule and is a much less rigorous form of monitoring than is required under either the (a)(1) category of the maintenance rule or the license renewal rule.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8

: 2.     The Transformer Maintenance Program Has Been Unable To Prevent Numerous Transformer Failures 169. Because aging degradation is not readily monitored in transformers, the minimal preventive maintenance performed under the maintenance rule often fails to detect aging degradation in advance of transformer failure. Since 2007, transformers have failed catastrophically at seventeen nuclear power reactors, including: Indian Point Unit 2 and Indian Point Unit 3; Limerick Generating Station, Unit 2; Diablo Canyon, Unit 2; North Anna, Unit 2; Oyster Creek (three times); LaSalle County Station, Units 1 & 2 (twice); Comanche Peak, Unit 1; Fermi, Unit 2; Salem, Unit 1; Sequoya Nuclear Plant; Watts Bar; Turkey Point, Unit 3; Perry Nuclear Power Plant; Monticello Nuclear Generating Station; and James A. Fitzpatrick Nuclear Power Plant. See NYS000022-NYS000033; NYS000035-NYS000037; NYS000470; and NYS000471 (various event reports discussing these transformer failures). In addition, manual reactor scrams due to the loss of transformer cooling occurred at the River Bend Station and Grand Gulf Nuclear Station. NYS000019 at 1.

170. Five of the recent transformer incidents occurred at nuclear plants owned and operated by EntergyIndian Point Unit 3, Indian Point Unit 2, James A. Fitzpatrick Nuclear Power Plant, River Bend Station, and Grand Gulf Nuclear Station. See NYS000032, NYS000470, NYS000471; and NYS000019. In three of these incidents, a transformer exploded and/or caught on fire and caused the sudden automatic shut down of the plants nuclear reactor (referred to as a reactor scram or reactor trip). See NYS000032, NYS000470, NYS000471.

As NRC Staffs witness Mr. Mathew noted at the hearing, these events pose safety issues to nuclear plants: Any time a reactor scram happens, it challenges the safety systems. Tr.

State of New York Findings of Fact and Conclusions of Law Contention NYS-8 171. The transformer failure at Indian Point Unit 3 occurred on April 6, 2007, when a fault occurred on the phase B bushing of the No. 31 main transformer, resulting in an automatic reactor trip and transformer explosion and fire. NYSR00005 Degeneff Report at 18. At the hearing, Dr. Degeneff testified that this failure was caused by aging degradation, which had gone unnoticed by Entergys preventive maintenance program. Tr. 4437:10-4438:12 (Degeneff). The failed bushing was installed in 1976 and was approximately thirty-one years old when it failed.