Annual Rept to Congress on Gaseous Diffusion Plants Located Near Paducah,Ky & Portsmouth,Oh, Covering Period 970303-0930

ML20198J368
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Issue date:	12/31/1997
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. c' ANNUAL REPORT TO CONGRESS ON TIIE GASEOUS DIFFUSION PLANTS LOCATED NEAR PADUCAli, KY AND PORTSMOUTH, OH (COVERING THE PERIOD FROM MARCH 3,1997, TO SEPTEMBER 30,1997)

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' EXECUTIVE

SUMMARY

This annual report is being provided to Congress as required by Section 1701 of--

the Atomic Energy Act (AEA). This is the;first such report to be issued. -It covers the .;

I period from March 3; 1997 the date when the Nuclear Regulatory Commission (NRC) assumed regulatory oversight responsibilities for the gaseous diffusion plants (GDPs), to September 30,1997. .informatlon reported in this report are as of September 30,1997, unless otherwise specified. As directed by the AEA, the Department _of Energy (DOE) [

and the Environmental Protection Agency (EPA) have been consulted regarding this report.  :

DOE provided regulatory oversight of both plants before March 3,1997, and continues to be responsible for regulatory oversight of portions of both plants.

In accordance with the process described in the AEA and NRC regulations, NRC ,

issued Certificates of Compliance to the United States Enrichment Corporation (USEC),

M for the' operation of the GDPs located near Paducah, Kentucky, and Ports.nouth Ohio, on

- NovemSer 26,- 1996. After an interim period to allow an orderly transition from _ DOE 4

oversight to NRC oversight, the certificates of compliance became effective and NRC began regulatory oversight of USEC operations at the plants on March 3,1997. Through implementation of formal memorandums of understanding ( MOUs) and other cooperative-  :

NRC/ DOE efforts, transition from DOE regulatory oversight of the leased portions of the -

GDPs to NRC oversigitt was accomplished in a safe, efficient, and effective manner.-

Since the NRC assumed regulatory oversight in March 1997, the Paducah and-Portsmouth GDPs have provided adequate protection of the public health and safety, and the environment (IIS&E), and have generally operated in compliance with NRC regulatory requirements. Offsite radiological doses, as well as doses to the workers, are very low, and well'within regulatory limits. There have been no events, at either site, requiring activation of the emergency response centers, or involving a significant release of radioactive material.

Conditions at the GDPs at Paducah and Portsmouth are generally in compliance with NRC regulations. Exceptions are described in Compliance Plans, provided for by the AEA and approved by NRC, which document binding commitments for actions and schedules to achieve full compliance. Progress has been made in completing issues in the >

Compliance Plans since the initial certification, thereby bringing the plants closer to full compliance with NRC regulations than they were at the time of initial certification in -

November 1996. For most of those instances where, during the normal course of r - operation, violations of NRC regulations occurred, USEC generally took prompt actions to' ,

reestablish compliance, and developed plans to prevent recurrence.

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zCONTENTS '

Executive Summary L. . . . , e # . . . . . . . . . . v . , . . . . . _ . . . . . . . . . . . :. . . . . . .- 11.

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Chapter 1 L Background . . - . . . :. . . . . . . . . . . . . . . . . : . . . . . - . . . . . . . - . . . . 1 -

Chapter :2 Gaseous Diffusion Plant Operations . . . . . . . . . . . .- . . . . . . . . . .. . . 16 L

Chapter. 3 Status of Co'mpliance Plan Activities . . . . . . . . . . . . . . . . . . . . . . .--. - . 8:

- Chapter 4 Health, Safety, and Environmental Status c . . . . . . . . . . . . . . . . . . . . . .14 -

Chapter 5 Certification Activitics' . . . . . . - . .. . . . . . . . . . . . . . . . . '. . . . . . =. . 17 Chapter - 6 Inspections - _. . . . . . . . . . . . . . . . . . . . . . . _ , . . . . . . - . . . , . . . ... . . 21 :

Chapter 7 - Event Reports . . . . . . . , . . . . . . . . . . . . . . . . . . ~. . . . . . . . . . . 24 4 Chapter 8 Regulatory Activities . . . . . . . . . . . . . . . . . . . . . _ . _. . . . . . . . . . . 26.

Chapter 9 NRC Consultation with EPA and DOE . . . , ,, . . . . . . . -. . . . -. . . . . . . 28 Chapter 10 Summary Assessment of Performance . . . . . . . . . . . . . . . . . . . . . . . 32 '

Chapter 11 Compliance with Applicable Laws . . . . . . . . . . . . . . . . . . . . . . . . . 33 Apperulices

' A. Abbreviations and Acronyms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1 B. Compliance Plan Issues . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . B. 2 .

- C. . Amemiments to Certificates of Compliance . . . . . . . . . . . . . . . . . . . . . . . . . C-1 D. NRC Inspection Report Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D .

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CIIAPTER 1 BACKGROUND ENERGY POLICY ACT in October 1992, Congress enacted the Energy Policy Act (EPAct) of 1992, which amended the Atomic Energy Act of 1954 (AEA), to create the United States Enrichment Corporation (USEC)', Provisions of the AEA direct the U.S. Department of Energy (DOE) to lease the gaseous diffusion plants (GDPs) in Piketon, Ohio, and Paducah, Kentucky, to USEC. These GDPs produce enriched uranium (EU), and the AEA specifies that USEC operate the GDPs efficiently and market EU on a profitable basis. Although the AEA established USEC as a government corporation, the AEA also required that within 2 years after the transition date of July 1,1993, USEC prepare a plan for transferring ownership of USEC to private investors. In the Lease Agreemer:t Between The United States Department of Energy and The United States Enrichment Corporation (1xase) dated July 1,1993, and in other subsequent agreements, DOE and USEC established the roles and responsibilities for each organization at both GDPs. The AEA also requires the U.S. Nuclear Reguiatory Commission (NRC), in consultation with DOE and the Environmental Protection Agency (EPA), to report at least annually to Congress on the status of health, safety, and environmental (llS&E) conditions at the gaseous diffusion uranium enrichment facilities.

This report is the first annual report. It encompasses the period from March 3,1997, the date when NRC assumed regulatory responsibility, through September 30,1997, the end of the fiscal year.

The AEA assigns safety, safeguards, and security regulatory responsibility at the USEC-operated GDPs to NRC. Further, the AEA requires that within 2 years of the date of the passage of the EPAct, NRC establish, by regulation, both: (1) safety, safeguards and security standards for the GDPs; and (2) a certification process to ensure that USEC complies with these standards. This certification process is in lieu of any requirement for a license.

Thus, the AEA made NRC regulation of the GDPs conditional on the issuance of new regulations, which were to be promulgated by October 1994. In accordance with these requirements, NRC promulgated Title 10 of the U.S. Code of Fcderal Regulations, Part 76 (10 CFR Part 76), " Certification of Gaseous Diffusion Plants," in September 1994.

The EPAct changes to the AEA made provision for the possibility that USEC might not initially be able to comply with the safety, safeguards, and security standards established by NRC. To address this contingency, th- AEA permitted NRC to approve continued USEC operation of the GDPs if NRC approved DOE-prepared plans for bringing the GDPs into compliance with any unsatisfied provisions of NRC regulations. On November 26,1996, 8 A listing cf abbreviations and acronyms can be found in Appendix A.

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NRC issued Cenificates of Compliance certifying USEC's operation of the GDPs in ,

accordance with.10 CFR Part 76 and approved a Compliance Plan for each GDP for ;

cachieving compliance with NRC regulations for those t.reas not in full compliance. JAfter an - 1 interim period allowing for USEC to transition to NRC regulation in an orderly 'nanner, NRC - l

began regulatory oversight of USEC operations on March 3,1997, j ^

"NRC/DOEINTERFACE AND RESPONSIBIIJTIES-

' The 'AEA does not require that DOE lease all of the entire GDP sites to USEC.. Those facilities necessary for the production of highly enriched uranium (HEU, i.e., uranium that is <

2 enriched to 20 percent or more in uranium 235 (U "))_were excluded fmm the Lease.

Consequently, DOE retains responsibility for the environmental protection, safety,' safeguards . '

and r,ecurity for those portions of the GDPs that are not leased to USEC and for those portions of the GDPs which are leased to USEC that contain HEU material. DOE regulates the HEU - -i material activities that occur in the leased areas until: all of the HEU material has been down-i blended into the Ponsmouth GDP low enriched uranium cascade; HEU refeed activities are: l completed; all cylinders that contain HEU material are cleaned; and the associated are s are transitioned to NRC regulation. These activities are currently projected to be completed in 1998. - At that time, all that will remain under DOE regulatory oversight will be areas within a the GDP sites not leased to USEC or its successor organization, ihe AEA further assigr.s responsibility to DOE for the payment of any costs of decontamination and decommissioning, response actions, or corrective actions that are related to conditions existing befon USEC leased the GDPs. With this assignment, DOE retains responsibility for environmental

- - restoration activities and legacy2 waste manaFement at the GDP sites and for the operation of facilities used for the storage of DOE-owned source and special nuclear material, such as the

cylimler storage yards for depleted uranium hexafluoride (DUFJ generated before July 1993.

f' Since the AEA required DOE to lease the GDPs to USEC on July 1,1993, more than '

a year before the deadline for establishing safety, safeguards, and security regulations by NRC, and more than 3 years before NRC assumed regulatory responsibility, an interim period was created between the lease of the GDPs to USEC, and the establishment of both the NRC safety, safeguards, and security regulations for the GDPs and completion of the certification process for USEC operation of the GDPs. During this interim period, DOE remained responsib_le for oversight of nuclear safety, safeguards, and security at the GDPs. DOE

- oversight was exercised through a Regulatory Oversight Agreement between DOE and USEC, designed to facilitate the transition of the GDPs to NRC regulation. - During this time, there

- was a'need for close' interactions, between NRC and DOE, to effect the transition to NRC

regulatory oversight of nuclear safety, safeguards, and security at the GDPs in a safe,

_2 The term " legacy" refers to items that are a carryover from the era when DOE managed 1 ithe facility (e.g., legacy waste and legacy equipment).

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efficient, and effective manner. Consequently, NRC and DOE developed several documents, discussed below, to establish a mutual understanding of areas of responsibility during the transition. After NRC approved USEC's certification applications on November 26,1996, DOE agreed to retain regulatory oversight responsibility for the GDPs until March 3,1997, so that there would be time for an orderly transition from DOE to NRC regulatory oversight.

After enactment of the EPAct changes to the AEA, NRC and DOE cooperated closely to ensure a safe, efficient, and effective transition of regulatory oversight from DOE to NRC.

In December 1993, NRC and DOE approved a " Joint Statement of Understanding Between the Nuclear Regulatory Commission and the Department of Energy on Implementing the Energy Policy Act Provisions on the Regulation of Gaseous Diffusion Uranium Enrichment Plants" (59 FR 4729, published on February 1,1994).

The joint statement provides that NRC:

• Assume and maintain regulatory oversight of both public health and safety and common defense and security for the leased GDP '$reas, on completion of the first certi0 cation process, based on the NRC regulations, and

. Assume and maintain responsibility, in its common defense and security regulatory oversight role, for granting security facility approvals and for establishing an information security program to ensure that restricted data are appropriately classified and protected with respect both to the GDP facilities leased by USEC and to USEC itself.

The joint statement also provides that DOE:

+ Continue to exercise regulatory oversight of both public health and safety and common defense and security of the leased facilities at the GDPs until NRC promulgates its regulations, the regulations become effective, and the first certification process based on the NRC regulations is completed;

• Supply :o NRC the " Safety Basis and Framework for DOE Oversight of the Gaseous Diffusion Plants";

• Permit NRC to station observers at the GDPs during DOE regulatory oversight of the GDPs;

• Retain responsibility for access authorization programs with respect to the GDP facilities leased by USEC, as well as for USEC itself, while the leased facilities are in operation and as long as necessary thereafter; and

• Retain title to, and possession of, all IIEU at Portsmouth, and retain sole responsibility 3

' 1 for establishing and maintaining appropriate safety and safeguards and security controls on such material.

1 In August 1994, NRC and DOE approved an " Agreement Establishing Guidance for NRC Inspection Activities at the Paducah and Portsmouth Gaseous Diffusion Plants Between Depanment of Energy Regulatory Oversight Manager and Nuclear Regulatory Commission."

This agrecment supplemented the joint statement by defining in more detail the role of the NRC observers at the GDPs in the interim period during which DOE exercised public health and safety and common defense and security regulatory oversight of the leased GDPs. In March 1995, NRC and DOE established the " Agreement Defining Security Responsibilities at the Paducah and Portsmouth Gaseous Diffusion Plants Between the Department of Energy's Office of Safeguards and Security and the Nuclear Regulatory Commission." This agreement also supplements the joint statement by defining in greater detail the security roles and responsibilities of DOE and NhC after NRC assumption of regulatory oversight of USEC activities. NRC and DOE approved a memorandum of understanding (MOU), in October 1997, that supplements the 1995 agreement and replaces the 1994 agreement. The MOU delineates the responsibilities of NRC and DOE at the GDPs in areas'such as exchange of information and technical staff support, emerg .ncy response, modification of the Compliance Plans, referral of identified concerns to the respective agency responsible for the particular concern, and other activities requiring coordination between NRC and DOE.

In addition to these formal agreements, NRC and DOE have cooperated informally.

DOE has attended NRC meetings with USEC: NRC has at!cnded the DOE /USEC issues meetings; and NRC and DOE have had frequent discussions about GDP issues.

On July 1,1993, DOE instituted a program to provide regulatory oversight of the leased areas of the GDPs until such time as NRC assumed regulatory oversight responsibility for these areas. One of the objectives of the DOE Regulatory Oversight (RO) Program during the interim period was to facilitate the transition of leased areas of the GDPs from DOE to NRC regulatory oversight. In support of this objective, DOE provided training to NRC personnel on GDP operations and safety issues. DOE supported the placement of NRC observers at the GDPs during the period when DOE had regulatory oversight for public health and safety and common defense and security for the leased portions of the GDPs. DOE also provided NRC with copies of inspection reports from its RO Program inspections and invited NRC to observe DOE regula:ory oversight inspections. DOE invited NRC staff to attend its monthly regulatory affairs meetings with USEC and assisted NRC in its rulemaking and certification process by providing NRC with copies of the safety analyses, operational safety requirements, procedures, and other safety documentation employed during the period that DOE operated Paducah and Portsmouth. DOE also provided NRC with comments on the draft rulemaking package for 10 CFR Part 76, which reflected DOE experience in operating and overseeing the GDPs. The DOE Regulatory Oversight Program for the leased portions of Paducah and for those leased portions of Portsmouth that do not process llEU, terminated when NRC assumed regulatory oversight for the GDPs on March 3,1997.

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To ensure that no USEC conkmitments to safe and secure operation were lost in the

-transition of regulatory oversight from DOE to the NRC when NRC assumed regulatory t

oversight tesponsibility for the leased portions of the GDPs, NRC received from DOE: (1) a-listing of all open regulatory oversight inspection findings; (2) copics of all regulatory .

-. oversight inspection reports; (3) surumaries of the findings ano concerns that were identified,

- during inspections, for_which draft inspection repons were not ;.vailable: (4) a listing of all Lopen USEC commitments to DOE relating to the Regulatory Oversight Program; and (5) ai listing of all open items in the Compliance Plans.

Through these aforementioned formal MOUs .and other cooperative NRC/ DOE efforts, a seamless transition from DOE oversight of the leased ponions of the GDPs to NRC -

-- oversight has been effected.

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CllAPTER 2 GASEOUS DIFFUSION PLANT OPERATIONS The principal process regulated by NRC at the GDPs is the production of EU for reactor fuel. The GDPs receive uranium hexaGuoride (UF.); enrich it (i.e., process the 2

material to increase the concentration of fissionable U "), and then ship the enriched UF to other fuel cycle facilities, where it is processed into fuel assemblics for use in nuclear power reactors in the gaseous diffusion separation process, UF, gas passes through a material (barrier) with small pores that are large enough to permit the escape of single molecules, but are too small to pennit bulk now of the gas. The gas that emerges from the pores has a 2

slightly higher concentration of U " atoms than the gas that does not pass through the barrier.

2 This process creates two streams of gas, one with a higher U " concentration (enriched) and one with a lower concentration (depleted). Because the degree of enrichment achieved by the use of a single barrier (i.e., a single diffusion stage) is very small, the process must be repeated many times, employing a cascade of many stages to achieve the required enrichment levels. The outputs of the cascade are EU product and depleted uranium. The depleted uranium is stored at the GDPs, awaiting ultimate disposition.

The main components of a GDP are: large cylindrical vessels called diffusers that contain the barrier; compressors used to compress the gas to the pressures needed to Dow through the barrier tubes and from one stage to another; electric motors to drive the compressors; heat exchangers and cooling circuit for removing the heat of compression from the UF.; piping for the stage and interstage connections; and block and control valves, to adjust the gas Dow. In addition to this process stage equipment, GDPs require auxiliary systems such m the UF. feed and withdrawal systems, an extensive electrical power distribution system, and cooling towers to dissipate the waste process heat.

The major areas of NRC oversight at the GDPs include: chemical process safety; nuclear criticality safety; plant operations; fire protection; physical protection; security; material control and accounting (MC&A); radiological controls for onsite and offsite personnel; waste management; transportation of radiological materials; maintenance and surveillance; training and emergency preparedness, The NRC is responsible for regulatory oversight of the design, operation, and maintenance of hardware (i.e., structures, systems, and components) relied on for safe operation; operational aspects involving the human element such as training, staffing, and adherence to procedures; and management organization and controls necessary to assure effective management oversight of facility operations. Management organization and controls include: internal reviews and audits; safety review committees; conuguration management; records management; event invertigation and reporting; and quality assurance programs. The NRC also reviews and approves accident analyses and technical safety requirements (TSRs) developed by USEC.

The accident analyses describe potential credible accidents and the facility response to those 6

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. accidents, to demonstrate that the facility is capab_le_ of responding in a fashion that will not - 1 jeopardize public health and safetyi; The TSRs define the safety envelope and operating =

parameters within which the facility is required to operate for safe operation. NRC assures -

safe operational readiness through issuance of a; certificate of compliance, after a thorough i

- review of design and operational information, and by field inspections conducted by specialists from both NRC Headquatters and the regional office having responsibility for the -

sites. In addition, two NRC resident inspectors are located at each GDP site. The resident

. inspectors perform daily inspectio'is covering a broad range of site activities.

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CIIAPTER 3 STATUS OF COMPLIANCE PLAN ACTIVITIES The AEA permits NRC to authorize operation of the GDPs in cases where the plants do not fully comply with NRC regulations, provided that DOE prepares, and NRC approves, a plan (i.e., Compliance Plan) for bringing the plants into compliance. 10 CFR 76.35 states that the application for an initial certification of compliance must include, among other things, a DOE-prepared and -approved plan, for achieving compliance with respect to any areas of noncompliance with NRC's regulations 10 CFR 76.35 further states the plan must include a description of the areas of noncompliance, a plan of actions and schedules for achieving compliance, and a justification for continued operation with adequate safety, safeguards, and security.

Separate Compliance Plans were prepared for Paducah and Portsmouth, and approved by NRC, on November 26,1996, as pan of the cenification activities. The initial USEC certification applications, including the associated Compliance Plans, were submitted in April 1995. NRC rejected these initial cenification applications because of incompleteness. NRC did not review the initial Compliance l'ians that were submitted as part of the application.

The Compliance Plans were subsequently revised to complement the revised certification applications and were resubmitted in November 1995. NRC accepted the revised certification applications and Compliance Plans for review. Ilowever, during the course of NRC review, the Compliance Plans were further revised to accommodate USEC application changes and commitments, and NRC comments. The final pre-ccrtification revisions to the Compliance Plans (Revision 3) were submitted to NRC in July and August 1996. The Compliance Plans contain 53 and 46 issues (excluding issues that were deleted) respectively, for Paducah and Portsmouth. Of these,36 issues are substantially common to both Paducah and Portsmouth.

The issues contained in the Plans, along with their status as of September 30,1997, are listed in Appendix B. Each issue in the Plan, which may consist of several sub-issues, contains a description of the requirement, USEC's commitment to achieve comphance, a description of the non-compliance, a justification for continued operation while the issue is being resolved, and a plan of action to resolve the issue and brit.g the GDP into compliance, along with completion schedules.

Several types of noncompliances are discussed in the Compliance Plans. These noncompliances can be generally grouped into three types. The first type, minor issues, consists of minor noncompliances that are associated with established programs Eight minor issues have been identified at Paducah, and 10 minor issues at Portsmouth. The second type of noncompliance, equipmeat issues, involves the need far upgrades of safety-related equipment to meet NRC requirements. Equipment issues identified in the Compliance Plans total 18 for Paducah and 8 for Partsmouth. The third type of noncompliance, programmatic issues, involves situations in which USEC has not yet fully implemented a program necessary to meet NRC requirements. Programmatic issues identified in the Compliance P;ans total 27 8

for Paducah and 28 for Portsmouth.

Equipment noncompliances for both Paducah and Portsmouth include the need to upgrade the autoclaves, discussed below, to provide an additional safety margin. These noncompliances also address stmetural upgrades to the process buildings at Paducah, to provide an appropriate margin of safety against earthquakes. Programmatic noncompliances for both Paducah and Portsmouth include upgrading the GDFs' SARs and procedures to meet NRC requirements and assuring that programs are in place to maintain the procedures consistent with current GDP operations and the authorization basis.

Three significant issues, addressed in the Compliance Plans, which are conunon to both Paducah and Portsmouth, are discussed in detail below:

• SARs - 10 CFR Part 76 requires that the application for a certincate of compliance include a SAR that presents an assessment of potential accidents and describes the plant site and principal structures, systems, and components of the plant; the equipment and facilities that will be used to protect health and minimize danger to life; and the management controls and oversight program employed to protect the public, and worker health and safety. DOE was in the process of updating the SARs for the GDPs when the EPAct was passed. These SAR updates were necessary to reflect new infonnatica and understanding about initiating events; plant configuration; expected response of structures, systems, and components; and accident analyses, Some TSRs needed to be revised, to agree with the revised SAR. Ilowever, it was not possible to complete the revised SARs in time to include them in the applications for NRC certification. Thus, the SARs that were submitted with the certincate application were based, in part, on the 1985 Final Safety Analysis Reports (FSARs) for the two plants and on DOE-approved safety evaluations performed after those FSARs were issued.

DOE completed the update of the SARs and transmitted the revised SARs to USEC and NRC on February 14, 1997. On August 18,1997, USEC submitted some SAR-related information, but was unable to fulfill its SAR commitments as stated in the Compliance Plans. As of September 30,1997, NRC is reviewing the information submitted by USEC and may require that USEC take additional action with respect to its August 18,1997 submittal.

. Design Modifications to the Autoclaves - Feed material is received at the GDPs in cylinders that contain 10 to 14 tons of UF6 in the solid state. To transfer this material to the diffusion cascade, the cylinder must be heated to transform the UF6 from a solid to a gas. When in a gaseous state, the UF6 fluws from the cylinders to feed headers, which deliver the gaseous feed material to the appropriate assay points in the diffusion rascade. Ileating of the cylinders and removal of the UF are performed i. : an autoclave. An autoclave is essentially a cylindrica? vessel with an internal diameter of approximately 6 feet in which the entire UF. cylinder is placed and heated. The autoclave vessels and all penetrations out to the isolation valves provide containment 9

I for the remote possibility of a UF release while the UF. is being heated and transferred. NRC has determined that autoclave design improvements are needed.

These improvements include the ability to test the containment valves, replacing all containment valves that are not fail-safe, and providing adequate operator alarms.

Although these design improvements will enhance the assurance of safety, the current autoclave design, in conjunction with compensatory measures imposed by NRC, is sufficient to provide adequate assurance of safe operation until the autoclave upgrades are completed.

• Criticality Safety - 10 CFR Part 76 requires that criticality prevention be included in the TSRs and be addressed via established procedures and/or equipment. Before March 3,1997, there were operations, at the GDPs, for which nuclear criticality safety evaluations (NCSEs) were incomplete or formal documentation was unavailable and double-contingency or other bases for acceptance had not been documented in an NCSE. Additionally, there were administrative aspects of the nuclear criticality safety program that had not been proceduralized or documented. Actions have been implemented at Paducah and Portsmouth to rectify these noncompliances.

STATUS OF PADUCAll COMPLIANCE PLAN Of the 53 issues listed in the Paducah Compliance Plan, 34 have been completed (i.e.,

USEC has informed NRC that it has fulfilled all the individual actions described in a Compliance Plan issue). Of the 34 issues that have been completed,11 issues were completed between March 3,1997, when NRC assumed regulatory responsibility, and September 30, 1997, the close of the reporting period. The eleven issues, along with a description of the noncompliance and corrective actions, follow:

• Chemical Safety Mechanical Integrity Program - All elements of a mechanical integrity program, as defined in 29 CFR 1910.119, were not implemented for those chemicals described in SAR Section 5.16.13.3. This Compliance Plan item is a commitment to meet an Occupational Safety and llealth Administration (OSIIA) requirement. USEC completed a mechanical integrity program for maintenance- and in;pection-process safety-management requirements, as committed to in the Compliance Plan.

-* Administrative Controls on Overtime - The staffing allocations were not sufficient te meet training needs and to comply with NRC working-hour guidelines. USEC supplemented staffing allocations to meet the working-hour guidelines, as committed to in the Compliance Plan.

• DOE Chemical Safety and Third-Party Use of Ilazardous Chemicals - When USEC was created, DOE did not have established communication channels to provide USEC with information regarding the use of hazardous chemicals by DOE and third parties 10

present at the site. To correct the situation, all initial process-hazards analyses were completed and a direciive was issued by DOE, as agreed to in the Compliance : an.

that directs DOE and third-party tenants to notify USEC before hazardous chemicals, including > 4 and uranium tetranuoride (UP.), are introduced onto the site.

• Fire Protection Procedures and llot Work Permit Program - Fire protection procedures, such as those needed to perform welding and burning, fire hazard assessments, and testing and inspection of fire suppression systems, did not contain suiiicient technical guidance and process controls to ensure understanding of requirements and implementation by all personnel. Further, the permit program to perform welding, burning, and other hot work did not ensure Fire Services involvement and oversight. USEC completed commitments in the Compliance Plan to revise the procedures and the hot work program.

• Public Warning Sirens and Controls - The emergency planning outdoor-warning sirens did not provide total coverage of the immediate notification area, within a 2-mile radius of the plant, and were not reliable. USEC replaced three existing sirens with a new siren system to improve the reliability and the coverage and also completed an analysis of the number, capabilities, and coverage of the new siren system as committed to in the Compliance Plan.

• Public Address System - In addition to reliability problems, the coverage of the public address system did not assure, because locations existed where the system could not be heard, that all onsite personnel can be notified of immediate protective action recommendations. USEC upgraded the existing public address system to provide more reliable and expanded service to the plant, as committed to in the Compliance Plan.

• Iligh Efficiency Particulate Air (IIEPA) Filter Systems Testing - The installed and portable IIEPA Glter systems haa not been evaluated to identdy those that are requi~u to control worker exposure or to contain environmental releases. Further, some of th.

IIEPA systems may need to be modified to allow performance of leak testing and inspections. USEC performed the required evaluations and modifications and revised applicavie inspection and testing procedures.

= Fire Protection Pre-Fire Plans - The existing pre-fire plans did not reflect all current facility conditions, because of building configuration changes, fire hazards, and fire protection system changes that have occurred over the years. Further, no es rent analysis existed that identified the combustible fuel loading for various areas of the process buildings. USEC updated the pre-Gre plans to reDect the current facility configurations and conditions and conducted analyses to determine the maximum allowable combustible loading within the process buildings.

liigh-Volume Ambient Air Samplers - This system c.mtinuously collects air samples in 11

the environment that are analyzed, weekly, for radioactivity. The new high-volume air sampling system has been in operation since August 1995; however, sufficient data to establish baseline radionuclide concentrations at the stations had not been obtained.

Therefore, action levels to trigger isotopic analyses for ambient air radionuclide levels had not been established because of the lack of data. USEC has subsequently obtained the data and established the required action levels. USEC has also compared the effective dose equivalent calculated using 1996 release data, with the effective dose equivalent using the 1996 data from the high volume ambient air samplers.

• Fire Protection Water System Reliability - The high-pressure fire water system pumps were not as reliable as necessary. Further, the automatic fire suppression systems in Building C-315 could not be assured because the water source is a multipurpose system. USEC refurbished the high-pressure fire water system pumps and reconfigured the fire water supply to Building C-315.

• Environmental Trending Procedures - Some environmental data were not trended to identify long term changes in the environment that may result from plant operations.

USEC developed and implemented procedures to trend environmental data as part of the Nuclear Safety Upgrade Project.

A significant safety issue, specific to Paducah, that is currently being resolved, involves seismic upgrading of two main process buildings. During the upgrading of the SAR for Paducah, it was discovered that a significant number of piping attachments could fail, and two of the main process buildings could suffer significant damage if subjected to an earthquake intensity associated with an earthquake 'he Paducah site that might be expected to occur more frequently than the frequency associated with the design basis earthquake.

DOE was responsible for regulatory oversight of the GDPs at the time this was discovered.

DOE required that USEC develop a plan for improving the seismic resistance and imposed process constraints on the operation of the Paducah plant to significantly reduce the risk of release of radioactive and hazardous material (UFJ in the event of an earthquake. Both NRC and DOE require that safety-related structures be designed to withstand natural phenomena events, including earthquakes. During development of the Paducah Compliance Plan, USEC committed to, and NRC approved, a plan to strengthen the buildings to .'mprove the seismic resistance of the structures and piping attachments. The Paducah Compliance l'lan also requires USEC to continue to operate under the process constraints to reduce the risk of UF6 release during an earthquake until the seismic upgrades have been completed. In the Compliance Plan, USEC committed to strengthen the buildings to improve the seismic resistance of the stmetures and piping attachments by December 31,1997. Three unreviewed safety questions (USQs) related to the seismic upgrade were identified by USEC and submitted to I4RC for approval. In conjunction with the USQ submittals, USEC has requested to extend the date for completing the physical modifications by approximately 18 months. NRC is reviewing the information nrovided by USEC concerning the USQs as weil as the new proposed schedule.

12

STATUS OF PORTSMOUTil COMPLIANCE PLAN Of the 46 issues listed in the Portsmouth Compliance Plan, 28 have been completed (i.e., USEC has informed NRC that it has fulfilled all the individual actions described in a Compliance Plan issue). Of the 28 issues that have been completed, four issues were completed between March 3,1997, when NRC assumed regulatory responsibility, and September 30,1997, the close of the reporting period. These four issues follow:

• Chemical Safety Mechanical Integrity Program - All elements of a mechanical integrity program, as defined in 29 CFR 1910.119, were not implemented for those chemicals described in SAR Section 5.16.13.3. This Compliance Plan item is a commitmer.t to meet an OSilA requirement. USEC completed a mechanical integrity program for maintenance- and inspection-process safety management requirements as committed to in the Compliance Plan.

• IIEPA Filter Systems Testing - In place leak testing of all fixed and portable llEPA filter systems / units was not being performed. As committed to in the Compliance Plan, USEC retro 6tted some HEPAs and downgraded others where it was determined that the filters were not required to ensure environmental protection or worker safety.

Further, USEC developed a dataoase of portable llEPA Gltration units and performed '

in-place leak testing of all portable llEPA filter units.

. Emergency Packets - An emergency plan procedure requires that emerpxy packets be developed and updated annually. The packets, located in the facilities, contain infonnation about the building, the layout, specific hazards, and other information applicable to the facility. The emergency packets did not accurately reflect the facility conditions since they were not updated to reDect changes in the plant and changes in the requirements. Further, no up-to-date analysis existed that identified the combustible fuel loading for various areas of the process buildings, USEC completed the actions committed to in the Compliance Plan to resolve this issue -- namely, the emergency packets were updated to reDect current facility conditions and an analysis was performed to determine the maximum allowable combustible loadings in each process building.

• UF, leak Detector Sensitivity Testing - Detector testing methods had not been developed that establish a precise correlation between the delectability of " test smoke" and the detectability of UF and its reaction products. To rectify this noncompliance, USEC has developed a program to relate the response of UF, leak detectors to manual test methods and to the detection of an actual UF leak.

13

CilAPTER 4 IIEALTil, SAFETY, AND ENVIRONMENTAL STATUS NRC has responsibility for assuring that the health and safety of the public and the workers at the GDPs are protected from radiological hazards. Section 76.60 requires USEC to comply with applicable sections of 10 CFR Part 20, " Standards for Protection Against Radiation." Safety and health activities regulated by NRC can be grouped into the functional areas of nuclear safety, radiation protection, fire protection, emergency preparedness, and management and oversight. Effective NRC oversight of radioactive ef0uents and radioactive waste should protect the quality of the environment. IIS&E conditions are reDected in radioactive doses received by workers, and radioactive effluents. This chapter contains information relating to the llS&E conditions for the leased areas of the GDPs under NRC regulatory oversight. For a discussion of the llS&E conditions in the non-leased areas under DOE regulatory oversight, see the DOE report entitled " Department of Energy Input to the Nuclear Regulatory Commission's Annual Report to Congress Regarding the Status of Ilealth, Safety, and Environmental Conditions at the Paducah and Portsmouth Gaseous Diffusion Plants," DOE /ORO/2059, October 1997.

Both Paducah and Po-tsmouth monitor air and water emissions to the environment and maintain environmental dosimeters to monitor gamma radiation levels both onsite and offsite.

The most recent data from the environmental dosimeters show that ambient gamma exposure at the site boundaries for both Paducah and Portsmouth are not statistically different from offsite monitoring locations. Radiation from the plants, both direct and from effluents, does not result in any detectable cornribution to the total background external gamma radiation at the unrestricted site boundaries. Doses to the nearest offsite individuals from exposure to radioactive effluents are projected to be 0.05 millirem (mrem) at Portsmouth and less than 0.05 mrem at Paducah for the calendar year 1997, based on data measured to date. These values are well below the NRC regulatory limit of 100 mrem / year for members of the public specified in 10 CFR Part 20.

The average occupational radioactive doses at Paducah and Portsmouth are projected to be approximately 4.5 mrem per perso 1 at each site for calendar year 1997. The maximum occupational dose received by any worker for the first half of calendar year 1997 is approximately 160 mrem. These values are within the historical ranges for the sites and within the NRr mgulatory limit of 5000 mrem / year specified in 10 CFR Part 20 for individuals. There were no instances where 10 CFR Part 20 individual limits were exceeded.

~ here were no planned special exposures at the GDPs, as permitted by NRC regulations,

'trtween March and September 1997. There were nine skin contamination incidents at Portsmouth and none at Paducah during the same period.

There are a number of IIS&E improvements that have recently been completed or are currently in progress. Some of these improvements are part of USEC's effort to achieve 14 t

e compliance with NRC regulations and are included in the Compliance Plans; however, some of the llS&E improvements were initiated by USEC and are neither required by NRC nor included in the Compliance Plans. These improvements include the following:

- Nuclear Safety:

+- Upgrades to the criticality accident alarm system (CAAS) at Paducah.

+ Quality reviews of NCSE's and nuclear criticality safety approvals (NCSAs) and field verification of NCSEs and NCSAs.

• Upgrades to the autoclaves, and leakage detection systems.

• Upgrades to HEPA Glters at Portsmouth.

• Upgrades to cranes at Paducah.

• Established calibration settings for variables on which safety limits have been set.

• Upgrades to the SARs.

Radiation Protection:

+ UpgraJes to ventilation units for control of airborne radioactive material.

• Expanded use of continuous air monitors.

• New computer system to maintain internal and external personnel dosimetry exposurc data at Paducah,

+ Improved training for as-low-as-reasonably achievable (ALARA) principle.

Emergency Preparedness:

• Developed training for emergency responders.

• Replace existing public warning system with a new siren system at Paducah.

+ Upgrade the existing emergency plan at Portsmouth.

Fire Protection:

• Upgraded procedures and training.

• Refurbished electric Grewater pumps.

• Verified maximum combustible loading in the process buildings.

• Verified adequacy of the sprinkler system.

Management and Oversight:

• Establish a program to control vendor manuals for safety-related items.

• Establish a Plant Operations Review Committee (PORC), consisting of senior-level personnel, to review plant activities.

• Establish a Plant Pcrformance Review Committee to identify areas for plant improvement and assess progress toward improvement; and also to conduct an annual independent assessment of GDP performance in functional areas, 15

. . .. - - - . . . - . - - . _ . . - . -- - - . . ~. -. . .

e.

c

[

• Developed an Employee Concerns Program.

• . Implemented an Operating Experience Review Program to assess operating experience between plants and from outside the GDPs,

• Employed experienced individuals as coaches for e period of time; to advise plant

- personnel about the nuclear safety standards expected by NRC. l Environmental:

• Upgraded ambient air monitors at Paducah.

16 x - , . -. . . . -.-

CllAPTER 5 CERTIFICATION ACTIVITIES INITIAL CERTIFICATION USEC submitted its initial certincate applicat'.ons, one each for Paducah and Portsmouth, to NRC on April 18,1995. After conducting a preliminary review of the applications, NRC concluded that the applications did not adequately address the standards established by NRC for the GDPs and that they did not contain sufHcient infctmation for NRC to determine whether the GDPs complied with 10 CFR Part 76. Therefore, NRC rejected the applications on May 5,1995, and directed USEC to submit revised applications.

USEC submitted revised applications on September 15,1995. Revised Compliance Plans, based on the revised application, were submitted on November 6,1995. During the course of NRC review, meetings were held with USEC, additional im'ormation was req &sted, and revisions to the applications and Compliance Plans were submitted. The fmal versions of the applications, along with the revised Compliance Plans, were approved by NRC as part of the

. initial certincation.

As part of the certification process, public meetings were held in Portsmouth and Paducah in late 1995 to solicit public input on the certificate applications. For specific areas not in compliance with NRC regulations,10 CFR 76.35(b) requires that DOE prepare a plan for achieving compliance. An environmental assessment was performed fo the Compliance Plan and the interim period of noncompliance, it concluded with a finding of no significant impact (FONSI). After NRC completed its review, considered public comments, and consulted with the EPA, NRC issued Compliance Evaluation Reports (CERs) for Paducah and Portsmouth on September 13, 1996. NRC concluded, in the CERs, that the applications and Compliance Plans, in combination, fulfill the requirements of 10 CFR Part 76. Subsequently, Certificates of Compliance were issued to USEC on November 26,1996, and became effective March 3,1997, allowing operation of the GDPs under NRC regulatory oversight.

The initial certificates were issued for a period of approximately 2 years, expiring on December 31,1998. This timeframe is consistent with Public Law 104-134, the USEC Privatization Act, which amended Section 1701 of the AEA by replacing the requirement for an annual application for a Certificate of Compliance with a requirement for an application to be filed periodically, as determined by the Commission, but at least every 5 years. According to the initial certincates, the next renewal applications are to be filed by April 15,1998.

The NRC Office of the Inspector General recently conducted a survey of the staff's certification of the GDPs. The Inspector General concluded that:

• NRC's consistency of regulation and its expectation of adherence to operating commitments are creating safer and improved operations at the GDPs; and 17

u f

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• NRC's it pection approach and its inspection staff are highly regarded and are key to-

NRC's regulatory consistency.

!* . The following are areas where the transition of oversight for the GDPs can provide .

valuable lessons that may also be applicable to NRC's possible future regulation of,  ;

- DOE facilities: 1) certification and/or licensing activities: 2) regulatory transition; 3) ~

inspection program; and 4) evaluation and report writing.

AMENDMENTS TO THE CERTIFICATES OF COMPLIANCE 1

10 CFR 76.45 describes the process for amending the certificates to cover new or. ,

modified activities, or to change commitments made in the Compliance Plans. On receipt of an amendment application, NRC determines whether the amendment is significant. . If the amendment is determined to b2 significant (e.g., margin of safety is reduced), then the amendment is published in the Federal Register for public comment, and possibly, subsequent -

. public meetings. For all amendments, regardless of significance, NRC issues its decision to cither grant or deny the amendment and publishes the decision in the Federal Register to provide an opportunity for interested parties to review the decision before the amendment is issued, f ' Subsequent to cenifying the GDPs, NRC received 18 amendment requests for Paducah

- and 13 for Portsmouth through September 30,1997, to amend the certificate. As of September 30,1997, of the 18 amendment requests submitted for Paducah,9 have been '

Issued;.3 have been published in the Federal Register but have not been issued; 5 are under review, and I has been withdrawn. As of September 30,1997, of the 13 amendment requests

- submitted for Ponsmouth; 5 have been issued, and 8 are under review. Some of the requests were submitted in conjunction with the resolution of issues contained in the Compliance .

Plans.- NRC requested that DOE also review those amendments that revise the Compliance Plans so as to assure continued DOE approval of the Compliance Plans. A listing of the amendment requests for Paducah and Po.tsmouth is provided in Appendix C.

i- PRIVATIZATION A major regulatory activity currently underway affecting future certification of the GDPs is the privatization of USEC. On April 26,1996, the President signed the U.S.

Enrichment Corporation Privatization Act (the Act), which directs USEC to implement a privatization plan. USEC developed a privatization plan containing two alternative methods

-of privatizing: 1) a sale through an initial public offering, or 2) a merger and acquisition.

USEC, with the approval of the Secretary of the U.S. Treasury, will select the alternative that

best satisfies the requirements of the Act,' The private sector entity that purchases the assets l of USEC will be responsible for the operations of the two GDPs, and the development of the Atomic Vapor Laser Isotope Separati6n (AVLIS) process. The Act prohibits the issuance of a certificate of compliance by NRC to that entity if NRC determines that:

L

~

18 l-

,- ,- . , .a w , . a- - .. ,; ..- .- . . . . . . . .'

i

• The entity is owned, controlled. or dominated by an alien, a foreign corporation, or a foreign government; or

• lssuance of a certificate of compliance would be inimical to the common defense r.nd security of the United States; or

• Issuance of a certificate of compliance would be inimical to the maintenance of a reliable and economical domestic source of enrichtnent services.

NRC has not previously been asked to evaluate whether a proposed action is detrimental to the viability of an industry subject to NRC regulation. Information about the intent of the language is contained in a Sens,s Committee report on an earlier version of the legislation (S. Rpt. No. 104173 on S. 755, November 17,1995), which states that the intent of the provision is to "... guard against the possibility of a foreign enrichment company acquiririg the Corporation with the intent of operating it in such a manner inconsistent with its main;enance as an ongoing concern "

Before promulgation of the Act, foreign ownership, control, or influence (FOCI) in USEC or its private successor was restricted by the National Industrial Security Program Operating hianual (NISPOM), promulgated pursuant to Executive Order 12829. The NISPOM establishes requirements to safeguard classified information and governs its release to foreign interests by Federal government contractors, licensees, grantees, and certificate holders. The NiSPOh! provides that any entity requiring access to classified infonnation, as does USEC or any privativi USEC successor, must be determined by the U.S. Government to be free from FOCl that could po,. atially result in a compromise of clasdfied infonnation, it also sets ferth detailed procedures and criteria for making this determination. The NISPOh! was concurred in by the Department of Defense, DOE, NRC, and the Centra!

Intelligence Agency.

Any successor to USEC will require access to clasdfied information and thus will be subject to a FOCl detennination based on the NISPOh! criteria. TN: NISPOh! FOCl requirements have been incorporated into NRC repations through a final mle (61 FR 40555) that amended 10 CFR Part 95, which contain requirements for access to and protection of classified infonnation. The NISPOh! FOCl requhements are more comprehensive and prescriptive than the statutory prohibition of foreign ownership under Section 193 of the AEA, as amended. Therefore, the FOCl infonnation that is elicited, and which is sufficient to make a FOCl determination, should also be sufficient to enable NRC to satisfy its statutory responsibility to ensure that the USEC successor is not owned, controlled, nor dominated by an alien, a foreign company, or a foreign government.

NRC, DOE, and USEC coordinated closely during the development of the privatization process and USEC has incorporated the NISPOh! FOCI requirements in its advance public information package for prospeedve t.Mders. DOE and NRC have agreed that 19

0 0

DOE will assist NRC in performing the FOCl investigations and NRC will be the cognizant security agency responsible for making the final FOCI determination. All FOCl infonnation received from prospective bidders will be forwarded to both DOE and NRC, for a preliminary detennination of whether to allow such bidders access to information regarding USEC operations. The time required to make the Onal FOCl detennination for access to classified infonnation will depend on the number and complexity of bidder information packages teceived from USEC. The same FOCl information will then be used to make the statutory determination negarding foreign ownership, control, or domination. The statutory determination must be made before certification of the USEC successor or Gnal apprcval of privatization.

The issuance of the initial USEC certification was based, in part, on a Onding of compliance with NRC standards to protect the common defense and security, Subsequent recertification of USEC, or certi0 cation of a USEC successor, will be based on the submission of changes to the initial application and a similar review process. This review will include the SAR, the Physical Security Plan, the Security Plan for the Protection of Classified Matter, and the Fundamental Nuclear Material Control Plan. Additional considerations will include NRC's detennination on foreign ownership, control or domination; USEC's implementation of the Compliance Plans; accumulated regulatory experience; and NRC resident, regional, and IIeadquarters inspection reports.

NRC's determination regarding the maintenance of a reliable and economical domestic sourte of enrichment services will be based on an independent contractor's analysis of the privatized corporation's financial data. The contractor will use standard investment banking Anancial ratios to estimate a credit rating for the privatized corporation.

NRC is preparing, in consultation with the Executive Branch agencies, a Standard Review Plan to guide the recenincation of the GDPs. Included in the SRP will be a chapter to ensure consistency in, and to fonnally document, the process that will be used to make the foreign ownership, control or domination, common-defense and security, and reliabL and economical source-of-domestic enrichment services detenninations required by me statute.

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CilAPTEP 6 INSPECTIONS 10 CFR Pan 76, Subparts F and G: 10 CFR 76.70; 10 CFR 76.72; 10 CFR Part 95; and 10 CFR Pan 2 address NRC inspections of the GDPs, violations of NRC regulations, and civil penalties. These regulatiw give NRC the authority to issue Notices of Violation for violations of the AEA, NRC regulations, or conditions of a cenificate, Compliance Plan, or Order. Funher, these regulations permit NRC to impose civil penalties for certcin violations of NRC regulations.

Violttions of NRC regulations are clanified into one of four severity levels, with Severity level I being assigned to violations that are most significant and Severity level IV being assigned to violations that are least significant. Further, there are other violations of minor safety or environmental significance that are below the level of significance of Severity ixvel IV violations. These violations, which must meet certain criteria, are not usually the subject of formal enforcement action. To the extent such violations are described in the inspection reports, they are noted as non-cited violations. A group of Severity level IV violations may be evaluated in the aggregate and assigned a single, increased severity level (Severity level 111) if the violations have the same underlying cause or programmatic deficiencies. More information about the NRC Enforcement Policy is provided in NUREG-1600, " General Statement of Pohey and Procedures for NRC Enforcement Actions", and NUREO/IlR-0195, Rev,1, "NRC Enforcement Manual."

NRC perfonned a total of 28 inspections, totaling approximately 6600 onsite inspection-hours (3300 hours0.0382 days <br />0.917 hours <br />0.00546 weeks <br />0.00126 months <br /> per site), at both Paducah and Portsmouth between March 3, 1997, and September 30,1997. Sixty five violations were identified as a result of the inspections. Except for one special inspection at Ponsmouth, all of the inspections were routine inspections. The majority of the violations were in the areas of criticality safety, security, and procedures, either implementing incorrect procedures or failing to follow procedures. With one exception, all of the violations were Severity lxvel IV or non-cited violations with no civil penalties. There was one Severity level ill violation at Paducah for multiple instances where USEC failed to properly implement provisions of its security plan and failed to provide complete and accurate information to NRC. Although the actual security consequences were minimal in this case, NRC concluded that collectively, the deficiencies were indicative of a programmatic breakdown of the USEC security program.

No civil penalty was assessed because this was the first Severity level 111 issued to USEC/paducah, and because of USEC 5 prompt and comprehensive corrective action. For all violations identified during inspections, USEC took prompt correcuve action to bring the facility back into compliance with NRC regulations. In most cases, USEC also identified long-term improvements as well. References to NRC inspection reports are provided in Appendix D.

21

0 INSPECTION

SUMMARY

FOR FADUCAll During the period March 3,1997, through Septernber 30,1997 NRC IIcadquarters and regional personnel, including the resident inspectors, conducted 13 routine inspections, ,

totaling approximately 3300 onsite inspection hours, of plant operations, plant maintenance, plant support, engineering, fire safety, chemical process safety, nuclear criticality safety, MC&A, and security.

The inspections resulted in one Severity Level lit, and 29 Severity Level IV violations assessed against USEC. Five non-cited *ilolations were also documented in inspection reports.

The one Severity level ill violation, which was of significant regulatory concern, involved a programmatic breakdown of the USEC security program, as discussed above. The Severity level IV violations were more than minor concerns but none was judged to be of such safety i

significance as to warrant a more serious severity level. None of the violations warranted a civil penalty. In all cases, corrective actions and plans were promptly taken by USEC to reestablish compliance with NRC regulations. A brief summary of the violations is provided below.

Ten violations involved nuclear criticality safety. In two cases, there were either no NCSAs or the NCSA was not incorporated into the procedure; one violation resulted from operating with a TSR required CAAS detector inoperable; two violations stemmed from failing to implement compensatory measures when a CAAS failed or was taken out of service; one violation was a result of inadequate post mair.tenance functional testing of a criticality alarm; one violation resulted from failure of double contingency; one violation resulted from exceeding an NCSA batch limit; and two violations involved improperly maintaining personnel control. Control was not maintained wher., in one case, personnel entered an area where criticality monitors were inoperable, whereas in another case, an area potentially contr,ining fissile material was not roped off. Four violations involved inadequate stafnng levels and excessive work hours. Five violations involved using improper procedures or a failure to follow procedures, Two violations involved the fire protection system, where, in one case, fire sprinkler operability was not restored in a timely manner after missing sections of pipe were discovered, and in another case, USEC identified uncorrected disciepancies previously found during walkdowns of the fire protectiot, system. QA violations involved using incorrect security and classification forms, improperly preparing a cylinder for transport, changing operations or making modifications without perfonning a safeguards or safety determination, not maintaining documents important to safety with the appropriate level of quality and improperly storing quality documents. Other violations involved denciencies in the training of operators; using unapproved scales for weighing UF cylinders before heating; poor root-cause analysis; failure to repet equipment failure within the NRC-specified timeframe; and permitting uncleared individuals access to classified information.

22

s NRC issued a Confirmatory Action letter (CAL) to USEC in February 1997 with an effective date of March 3,1997, to confirm actions to be taken at Paducah to compensate and correct a nuclear criticality deficiency identined by the Paducah staff on February th,1997, before NRC assumed regulatory oversight. As a result of the deGeiency, U 5EC stopped opf. Ations, to maintain safe conditions until corrective actions were completed. DOE issued a CAL on Febmary 21,1997, confirming the shutdown of operations and requiring that USEC request approval for restart before resuming the t.ctivity in question. DOE notined NRC of DOE's action and agreed to provide NRC with information relating to DOE's investigation of the deficiency.

INSPECTION

SUMMARY

FOR PORTSMOUTil During the period March 3,1997, through September 30,1997 NRC IIcadquarters and regional personnel, including the ecsident in3pectors, conducted 14 routine inspections, totaling approximately 3300 onsite inspect ion-hours, of plant operations, plant maintenance, plant support, engineering, fire safety, chemical p ocess safety, nuclear criticality safety, MC&A, and security, in addition, one special inspection was conducted to assess the root cause and safety impilcations of a loss of steam event.

The inspections resulted in 19 Severity level IV violations assessed against USEC.

Eleven non-cited violations were also documented in inspection reports. The Severity Level IV violations were judged to be more than minor concerns, but none of the violations was judged to be of such safety significance as to warrant a more serious severity level. None of the violations warranted a civil penalty. In all cases, USEC took corrective actions to reestablish compliance. A brief summary of the violations is provided below.

Twelve of the violations involved nuclear criticality safety. One violation involved not having an NCSA as required; four vblations involved failure to follow NCSA administrative controls; two others involved improperly validated computer code calculations or calculations that did not agree with the SAR: one violation involved improper quality classincation of equipment used to meet the double-contingency principle; one violation incorrectly identified the boundaries of the nuclear criticality system; in one case, improper Raschig rings were used; one violation involved a lack of TSRs where double contingency was not met; and one violation was for not specifying nuclear criticality safety requirements for firenghting in one emergency packet. Eight violations resulted from either incorrect procedures or a failure to adhere to procedures. Three violations involved improper implementation of TSRs. In one case, plant operatmg modes were improperly changed; in another, operators failed to perform pressurization after shutdown within the TSR-specified timeframe; and in the third case, emergency lighting was not provided as required. The remaining violations involved performing ineffective corrective actions; allowing uncleared individuals access to classified information; untinC/ our uit of a safety issue involving an improper transportation cylinder valve; exceeding overtime limits; and inadequate staffing.

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CilAPTER 7 EVENT REPORTS Section 76.120 describes the requirements for reporting certain events to NRC. The regulations specify events that must be reported to NRC within three different time limits and ,

describe the contents and schedule for submitting follow up written reports. USEC is required to report criticalities, loss of special nuclear material, and emergency conditions that have been declared n alert or site area emergency to the NRC operations center within I hour after discovery. Events that prevent immediate protective actions necessary to avoid releases or exposures to radiation or radioactive materials that could exceed regulatory limits must be reported to the NRC Operations Center within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> after discovery. The third reporting req.:lrement specifies that certain contamination events, failure of certain TSR safety equipment with no backup equipment available, fires or explosions that damage radioactive material or containers holding radioactivt material, and events that require offsite medical treatment of a contaminated person must be reported to the NRC Operations Center within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. Although not required by 10 CFR Part 76, USEC alsc reports safety system actuations and notifications made to other State and Federal agencies.

A summary of event reports for events that occurred between March 3,1997, and September 30,1997, is provided below.

EVENT NOTIFICATION

SUMMARY

FOR pADUCAll There were 64 reported events at Paducah during the period. Of these, USEC retracted 15 after an evaluation showed that they did not meet the reportability criteria. The majority of the 49 cvents involved nuclear criticality safety and Dre protection issues. 'lhe 13 nuclear criticality safety events that mere reported mostly resulted from instances where the CAAS was inoperable, there was a lack of an NCSA to cover operations, or there were violations of NCSAs. The 16 fire protection events that were reported mostly resulted from configuration deficiencies in the high-pressure fire water sprinkler system. These deficiencies included improperly installed sprinkler heads, obstructed heads, branch piping that was not connected to the main supply header, and areas lacking a sprinkler system where one was required. Five reported events were related to the autoclaves, where an autoclave safety system actuated, or where autoclave subsystems did not perfonn properly. Four reported events resulted from polychlorinated biphenyls spills or oil leaks to the environment. There were several security reports where classified information was potentially compromised or where there was unauthorized access to a secure area. One event involved defects in cylinder valve packing nutst and another event was reported when a TSR was suspended. The remaining four events involved miscellaneous equipment being inoperable, because of human error, maintenance, or unknown causes.

If the event notification involved a noncompliance with NRC regulations, prompt 24

A -- - - - --u .A- A e .- s- L-w - en\ =-

actions were taken to assure that compliance with NRC regulations was reestablished.

EVENT NOTIFICATIor'

SUMMARY

FOR PORTSMOUTil Sere were 43 reported events at Portsmouth during the period, of which one was retracted. The majority of the events involved the autoclaves, environmental efHuents, and security infractions. There were 11 events involving the shutdown of the autoclaves because of high condensate levels or high pressure. Nine events were reported where classified information was potentially compromised. There were nine environmental related events including failure to meet air and water envitorunental permit levels, which accounted for eight events, and one event involving a capacitor oil /PCB spill. USEC reports events to NRC when it is required to notify another regulatory body. These nine environmental events were reported to NRC because USEC was required to report the events to another regulatory body.

Six events were reported for violations of 9.alear criticality safety controls. Two events involved releases of UF and two events involved deactivation of UF, detectors. The remaining three events involved improper welding, an inoperable fire water suppression system, and an error discovered in a commonly used structural analysis compater program, if the event notification involved a noncompliance with NRC regulations, prompt actions were taken to assure that compliance with NRC regulations was reestablished.

25

CilAPTER 8 REGULATORY ACTIVITIES RULEMAKING On April 26,1996, President Clinton signed Public Law No. 104134 whkh amended Section 1701 of the AEA which directs USEC's Board of Directors to sell the assets of the USEC to a private sector entity. The Commission's regulations must conform to these changes. As a result, on April 14, 1997. NRC issued a direct final rul.: to make conforming changes to 10 CFR Parts 2,40,70, and 76 and the NRC's Enforcement Policy (NUREG-1600, " General Statement of Policy and Procedures for NRC Enforcement Action").

Since initial certification of the GD?s, USEC has requested NRC approval of several amendments to its certificates. When processing the amendn ent requests, as descrited in 10 CFR 76.45, NRC identified several deficiencies in the administrative process for ameading the certificates cunently embodied in 10 CFR 76.45. Therefore, NRC initiated rulemaking to revise 10 CFR Part 76 to correct certain deficiencies.

Although 10 CFR Part 76 provides for amending :he certificate, the process is not clearly defined and the recurring need for timely amendmenis was not adequately anticipated.

Only a very limited number of amendmer.ts to the certificate was expected; however, more were received than anticipated. The current 10 CFR Part 76 does not provide a mechanism for making an amendment immediately effective and it is ambiguous as to who can petition the Commission for review. The proposed revisions to 10 CFR Part 76 include providing a process for making an amendment immediately effective and clarifying that any person whose interest may be affected is eligible to file a petition for review of a certificate for amendment.

It is expected that the rulemakmg will be completed in 1998.

EMERGENCY PREPAREDNESS EXERCISE On September 12,1997, a full-scale emergency preparedness exercise was conducted at the Portsmouth GDP. NRC lleadquarters, NFC Region til and a site team participated in the exercise. Additionally, the response organizations of DOE in Oak Ridge, Tennessee, the State of Ohio, and the County of Pike participated. DOE and EPA were also represented at the site, The purpose of the exercise was to test the response of the various participants and the effectiveness of the information flow from the Portsmouth Emergency Operations Center.

It was concluded that the objectives of the exercise were accomplished and potential improvements to the process were identified. A similar exercise is scheduled at Paducah in the spring of 1998.

26

l e  !

, l AVLIS The USEC Privatization Act granted USEC the exclusive commercial right to deploy and use AVLIS patents, processes, and technical information owned or controlled by the Federal Government, upon completion of a royalty agtcement with DOE. To the extent requested by USEC, and subject to the requirements of the AEA, the President shall transfer title to all of the property owned by the United States or under its control that is useful foi th development of AVLIS or alternative technologies for enriching uranium.

AVLIS technology involves processing uranium metal alloy feedstock rather than UF. '

gas, through the use of lasers and separator systems. Based on engineering studies, it is expected ' hat an AVLIS facility will use only about 5 percent of the power used by the GDPs, require less capital investment than a new centrifuge plant, and use 20 to 30 percent less uranium to produce cornparable amounts of EU. Currently, AVLIS development, demonstration, and design activities are being conducted at Lawrence Livermore National Laboratory in Livermore, CA; General Electric Company in Wilmington, NC; and Cameco Corporation in Port Itope, Ontario, Canada.

In July 1994, USEC's lloard of Directors authorized USEC management to Ngin taking steps necessary to commercialize the AVLIS technology. In April 1995, USEC entered into an agreement that provided for the transfer of intellectual and physical propeny pertaining to AVLIS technology from DOE USEC expects to submit a license application to NRC in December 1998 to obtain an NRC license to construct an AVLIS facility; however, USEC proposed conducting preliminary meetings before that date to discuss technical issues.

NRC will partidpate in these meetings to the extent that NRC resources are available. USEC currently expecis to deploy an AVLIS plant in 2004.

'the AVLIS project will present some unique and highly complex issues for NRC review. Since this is the first facility to employ laser technology, NRC currently has no docu aents to guide its review of such a facility. The form of EU will present some unique issues and problems in the areas of: nuclear criticality safety (novel forms of EU consisting of vapor and metal); criticality computer code validation; accident analysis; safeguards; fire; explosions; and toxici:y of laser dyes. NRC currently has a project manager working part-time on the AVLIS activities, Thus far, NRC activities concerning AVLIS have consisted of reviewing the AVLIS QA Plan as well as other preliminary meetings with IISEC to lay the groundwork for USEC's AVLIS licensing application. NRC resources provide for one full-time equivalent (FTE) until fiscal year (FY) 1999, to initiate preparation of the staff's guidance and to initiate review of the AVLIS preliminary submittals from USEC.

27

CilAPTER 9 NRC CONSULTATION WITil EPA AND DOE RESULTS OF DOE CONSULTATION DOE provided a repon entitled " Department of Energy Input to the Nuclear Regulatory Commission's Annual Report to Congres$ Regarding the Status of Ilealth, Safety, and Environmental Conditions at the Paducah and Portsmouth Gaseous Diffusion Plants,"

DOE /ORO/2059, October 1997, to assist NRC in preparing the annual repon. Information from DOE's repon was included in various sections of this report, as appropriate.

The DOE report discusses the background associated with DOE's efforts to promote safety, safeguards, and security during the interim period when DOE had regulatory responsibility for the USEC operated GDPs. The report discusses the transfer of regulatory oversight to NRC; DOE's regulatory oversight program for the leased facilities until NRC

- assumed responsibility on March 3,1997; DOE's activitics regarding IIEU at Portsmouth; the Compliance Plans developed by DOE; nuclear safety upgrades funded by DOE at Paducah and Ponsmouth; the SAR upgrade program; and modifications to the Lease. The report also includes information on the llS&E conditions of the non-leased portions of the plants, which remain under DOE oversight responsibility.

DOE

SUMMARY

OF PADUCAll DOE accomplishments and initiatives to enhance and improve llS&E conditions at Paducah between July 1,1993, and September 30,1997, include, but are not limited to, the following:

• Approved the implementation plan hveloped tc. implement the upgraded SAR:

• Worked approximately 2.5 million hours, with no Lost Workday cases;

• Met all reg 11atery deliverables regarding environmental compliance, cleanup, waste management, and other areas (approximately 400) on, or ahead of, schedule;

• Painted DUF. cylinders and began building new concrete cylinder storage yards in response to Defense Nuclear Facilities Safety Board concerns;

• Signed five Records of Decision on environmental cleanup;

• Constmeted and began operation of two groundwater treatment /contain.nent systems;

• Successfully demonstrated a proprietary soil remediation technology (LhSAGNE),

developed by an industry consortium with DOE sponsorship;

• Disposed of 20 million pounds of waste either in DOE landfills or at off-site facilities;

• Constructed a new solid waste contained landfill (completed in FY 1996);

• Completed three Resource Conservation and Recovery Act (RCRA) closures;

• Continued pollution prevention and waste minimization practices, including the use of micropurging techniques in groundwater monitoring, use of steel grit recycling in 28

association with the cylinder repainting project, use of a generator set aside fee program, and recycling of paper and aluminum cans.

Environmental releases and discharges from DOE activities during FY 1997 remained within established rtgulatory limits, with the exception of eight exceedances of its Xentucky Pollutant Discharge Elimination System permit effluent limits. Kentucky Department of Environmental Protection / Kentucky Division of Air Quality issued an NOV on August 28, 1997, for failure to comply with pennit conditions that required the recording of pressure drop readings of grit reclaim unit (used in the cylinder painting operation) and failure to promptly report the deviation from permit requirements. Average ra. " tion exposure at Paducah, based on monitoring 420 people, primarily DOE and contractor employees, was 11.2 mrem per person for calendar year (CY) 1996, which is less than 3 percent of the administrative limit.

DOE

SUMMARY

OF PORTSMOUTII DOE accomplishments enhancing and DOE initiatives to improve llS&E conditions at Portsmouth between July 1,1993, and September 30,1997, include, but are not limited to, the follawing:

• Approved the implementation plan developed to implement the upgraded SAR:

• Worked approximately 1 million hours, with no Lost Workday cases, between July 1,1993, and September 30,1997;

• Completed painting of more than 6600 skirted DUF. cylinder ends, to prevent corrosion, and completed restacking of 10,000 DUF cylinders, to enhance inrpections; e Completed chemical treatment and buffer monitoring of 200 llEU cells in the X-326 Process Building by March 1996;

• Shipped more than 10 mi' lion pounds of mixed, low-level and Toxic Substance Control Act (TSCA) waste off-site over the past 2 years; e Obtained approval for the final Baseline Ecological Risk Assessment study from the Ohio EPA and U.S. EPA:

+ Instituted an aggressive waste minimization program; e Continued to recycle paper products, aluminum cans, and scrap metal;

• Completed the repackaging of low level radioactive waste, which resulted in a waste volume reduction of 9300 cubic feet;

• Completed closures of 14 RCRA solid waste management units since FY 1994.

At Portsmouth, the National Pollutant Discharge and Elimination System (NPDES) permit limit at an internal outfall at the wastewater treatment facility was exceeded once during the past fiscal year; however, the violation ha<l no a<! verse environmental impacts on the treatment facility. Average radiation exposure at Portsmouth, based on monitoring 502 people, primarily DOE and contrr.ctor employees, was 1.1 mrem per person for CY 1996, 29

which is substantially less than the administrative limit. j i

For both GDPs, DOE has not identified any instances of subs",tial noncompliance with those laws for which it had oversight responsibility during FY tw7; however, some l 1

environmental permit violations have occurred during the past year as discussed in DOE's -

report (IX)E/ORO/2509), in these instances, actions were taken to notify appropriat' authorities, identify the cause of the violation, and institute corrective measures, j RESULTS OF EPA CONSULTATION ENVIRONMENTAL

SUMMARY

OF PADUCAll ,

The Paducah GDP is part of EPA Region 4. The environmental regulatory authority

-over Paducah is both Federal and State (the Cc unonwealth of Kentucky). EPA has l

' delegated many of its environmental authorities .a the Commonwealth of Kentucky such as .

the Clean Air Act, Clean Water Act, and RCRA. Thcrefoie, most environmental regulatory oversight is by Kentucky. .

During the time period from March 3,1997, to September 30,1997 Paducah has had -

the following environmental actions:

• . CIFAN AIR ACT: The GDP is considered an "A" (major) source. The facility had

- two State inspections which culminated in an NOV (August 7,1997), issued to DOC, for two violations of activities under DOE regulatory oversight. These violations are: *

1) Needs additional air monitoring at the cylinder painting booth (beic;; resolved);

2) The construction of a vitrification process without approval (resolved). j

-* CIRAN WATER ACT: The GDP is considered a " major source". The facility had three State compliance inspections and all required NPDES discharge monitoring

, . reports submitted. One NOV (May 23,1997) was issued for oil and grease in discharge in April 1997 (resolved). The NOV was issued to DOE, the owner of the facility.

J * . RCRA: The GDP is considered a treater, storage, disposal (TSD) fac!!ity. The facility had no compliance inspections; however, the State conducted numerous non-financial reviews with no vietations.

• COMPREHENSIVE ENVIRONMENTAL RFSPONSE. COMPENSATIOfL AND LIARIIITY ACT: The GDP's activities to clean up waste sites i

. across the plant continued according to agreements and plans of the interested

parties - DOE, EPA, and the Commonwealth of Kentucky. A "no-action

Reconi of Decision at area Group 17 was signed 3eptember 29,1997.

t E

m" ...-e ,, m,

. - . , . , - -,,.m,e ..'w,,-<w.m.,- ,,m.,---.m., , y s .v.- , ~ . W,, -

Overall, the GDP appears to have had only minor environmental violations which they quickly resolved by working with regulatory authorities.

I ENVIRONMENTAL

SUMMARY

OP PORTSMOUTil The Portsmouth GDP is part of EPA Regwn 5. The environment:.1 regulatory authority ove- this GDP is both Federal and the State (State of Ohio). The EPA has delegated many of its environmental authorities to the State of Ohio, such as the Clean Water Act and the RCRA. Most environmental regulatory oversight is by Ohio.

During the time period from March 3,1997, to September 30,1997, the GDP located in Portsmesth, Ohio, has had the following environmental actions:

• CI RAN AIR ACT: The GDP is also considered an "A" (major) source. Based on the last inspection, the facility appropriately and in a timely .aanner addressed all minor deficiencies found.

• RCRA: The GDP is a TSD facility. There were no compliance inspections this year.

l

• COMPREllENSIVE ENVIRONMENTAL RESPONSE COMPENSATION.

AND LIAllILITY ACT: The GDP's activities to clean up waste sites acre , me plant continued according to agreements and plans of the interested parties - DOE, EPA, and the State cf Ohio. A lead regulator agreement was signed in PY 1997 which gives Ohio the lead in day to-day oversight of clean-up activities at Portsmouth, e CI RAN WATER ACT: The GDP is considered a " major source". There are no known Clean Water Act compliance problems at the facility at this time.

31

CHAPTER 10

SUMMARY

ASSESSMENT OF PERFORMANCE The GDP's at Paducah and Portsmouth are more than 40 years old, having been corutructed in the 1950's. They were built at a time when design standards and quality assurance standards were significantly different from current requirements; ' documentation requirements were less stringent. The age of the facilities, and the requirca :s in effect when the plants were constructed, have resulted in difficulties in maintaining the physical condition of the facilities and some poor documentation of design and safety bases. These shortcomings have challenged USEC's perfonnance during the period; however, both the material condition of the plant, and design and safety basis documentation, are being upgraded.

Since NRC assurned regulatory oversight in March 1997, performance at Paducah arY!

Portsmouth is acceptable, and improving. Improving trends at both sites were evident in the self identification of problems; in improving understanding of the facility TSRs; in the material condition of the plants, exhibited by a decreased maintenance backlog at one site, improved material condition of the fire protection systenu, and fewer contaminated areas within the plants; and in conservative decision making with regard to safety. Offsite radiological doses, as well as doses to the workers, are very low, and well within NRC regulatory limits. There trve been no events, at either site, requiring activation of the emergency response centers.

Although the operational performance of the Paducah and Portsmouth GDPs is acceptable, continued improvements are warranted. Further improvements are necessary, by the certificate holder, in understanding: the required level of perfonnance and operational rigos; the NRC's regulatory requir:ments; the maintenance work control program; and the design bases of the facility, as well as the facility TSRs a - i their safety bases. An improved understanding of the TSRs, their safety bases, and NRC regulatory requirements would help the certificate holder prepare technically accurate safety analyses, plant change analyses, and operability determinations, and more complete amendment requests. Operational rigor can be improved at both sites in areas such as development and implementation of procedures; performance of surveillaace activities; implementation of corrective actions; and control of classified infonnation.

l f

32 l

l

CliAPTER 11 )

COMPLIANCE WITil APPLICABLE LAWS The GDPs at Paducah and Portsmouth are either in full compliance with NRC regulations, or a Compliance Plan exists, as required by NRC regulations, for achieving full compliance. Progress has been made in completing Compliance Plan issues since the initiA certification, thus bringing the plants closer to full compliance with NRC regulations than they were at the time of initial cenification in November 1996. For most of those instances where, during the nonnal course of operation, violations of NRC regulations were ider,tified.

USEC generally took prompt actions to reestablish compliance, and developed plans to prevent recurrence.

USEC is required to comply with Public Law No. 104134 (The U'FC Privatization Act) and all NRC regulations applicable to the GDPs, most specifically 10 CFR Part 76.

Other NRC regulations, or portions thereof, that apply include 10 CFR Part 19 " Notices, Instructions, and Reports to Workers: Inspection and Investigations"; 10 CIM Part 20, "Standardi mi 2rotection Against Radiation"; 10 CFR Part 21, " Reporting of Defects and Noncompliance"; 10 CFR Part 70, " Domestic Licenshig of Special Nuclear Material": 10 CFR Part 71, "Packeing and Transportation of Radioactive Material"; 10 CFR Part 73,

" Physical Protection of Plants and Materials"; 10 CFR Part 74, "Meterial Control and Accounting of Special Nuclear Material"; and 10 CFR Part 95, " Security FaciH ty Approval and Safeguarding of National Security Information and Restricted Data."

As part of the initial certification, NRC performed a review to determine whether the operations at the GDPs comply with NRC regulations. The results of this review were described in CERs, one each for Paducah and Ponsmouth, which were issued by NRC on September 13, 1996. In those reports, NRC conclnded that there is reasonable assurance that the plants will continue to be operated such that public health and safety will be adequat:!y protected. NRC further concluded that the application fulfills the requirements of 10 CFR Fan 76. Although specific instances existed where compliance with NRC regulatiors u st achieved,10 CFR 76.35(b) pennits operation outside NRC regulations provided that DOE prepares a Compliance Phm, for achieving compliance with NRC regulations, that includes, among other things, a justification for cot.tinued operation, in the interim period of non-compliance, with adequate safety, safeguards, and security. The Compliance Plans for Paducah and Portsmouth fulf,ll this requirement and were approved as part of the initial cenification. Since initial certification in November 1996,19 Compliance Plan issues have been completed at Paducah and 15 at Portsmouth. Although not complete, work has progressed on all of the remaining issues in the Compliance Plans, thus bringing these plants closer to full compliance with NRC regulations than at the time of initial certification.

Between March 3,1997, and September 30,1997, there have been 35 siolations of NRC regulations. TSRs, or Compliance Plan commitments at Paducah and 30 at Portsmouth.

33

Some of these violations were self iden lfied by USEC, whereas others were identified by a

NRC impectors performing routine inspections. The majority of the violations were in the areas of nuclear criticality safety, security, and procedural deficiencies -- cither inadequate procedures or failing to follow procedures. For those instances where noncompliances with NRC regulations were identified, plant management generally took prompt corrective actions to bring the plant back into compliance, in many cases, plant management also identified long term actions to prevent recurrence.

Although outside of the reporting period, on December 8,1997, the NRC issued the first civil penalty action for USEC, proposing a civil penalty of $55,000 for failure to control classified matter at the Paducah facility. The NRC is also considering other potential violations involving SAR modificatiens made during the first assessment period and has issued a request for information that will support further review of this matter.

Subsequent recertification of USEC, or certification of a USEC successor, will be based en the submission of changes to the initial application and a similar review process. This review will include the SAR, the Physical Security Plan, the Security Plan for the Protection of Classified Matter, and the Fundamental Nuclear Material Control Plan. Additional considerations will include NRC 4 determination on foreign ownership, control or domination; common defense and security; and reliable and economic source of domestic enriclunent services determinations as required by USEC Privatization Act (Public Law No. 104 134).

34

APPENDIX A AllHREVIATIONS AND ACRONYhtS

\EA Atomic Energy Act AVLIS atomic vapor laser isotope separation CAAS criticality accident alarm system CAL confimiatory action letter CER compliance evaluation report CFR U.S. Code of Federal Regillatlan$

CY calendar year DOE U.S. Department of Energy DUF6 depleted uranium hexauuoride EPA U.S. Environmental Protection Agency EPAct Energy Policy Act of 1992 EU enriched uranium FOCl foreign ownership, control or innuence FONSI finding of no significant impact FR Federal Ecghter FSAR Anal safety analysis report FY fiscal year GDP gaseous diffusion plant ilEPA high ef0ciency particulate air llEU highly enriched uranium llS&E health, safety, and environment htC&A material control and accounting mrem millirem; a measure of radiological dose h100 memorandum of understanding NCSA nuclear criticality safety analysis NCSE nuclear criticality safety evaluation NCV non-cited violation NISPOM National Industrial Security Operating hianual NOV notice of violation NPDES national pollutant discharge elimination system NRC U.S. Nucien Regulatory Commission OSilA Occupational Safety and Health Administration PORC plant operational review committee RCRA Resource Conservation and Recovery Act QA quality assurance SAR safety analysis report A-1

-)

ABBREVIATIONS AND ACRONYMS l l

TSCA Toxic Substances Control Act treater, storage, disposal  ;

. TSD TSR technical safety requirement i U" 2 uranium 235 UF, uranium tetranuoride uranium hexanuoride . l UP.

- USQ unreviewed safety question USEC United States Enrichment Corporation r

i i

i k

6 4

I

+

?

J 4

A-2:

i s ,~- .s -. +, , ,a , - , , -- .,-,,--,--,,,-..m.,a-n,.,,.e,-..,-,,~, ann,.w.,,-re. , - ,,-n.A,.'., , , - < - , , e- e,,,,,n,,~~---'

APPENDIX 11 COMPLIANCE PLAN ISSUES ISSUES COMMON TO BOTil PADUCAll AND PORTSMOUTIl hium SlaWE' Paducah Portsmouth.

Transition from DOE Regulations to NRC Regulations Complete Co aplete 2

Update the Application Safety Analysis Report 8/17/97 8/17/97 Autoclave Upgrades 10/31/97 2/1/01 Nuclear Criticality Safety Approval Dxuments Complete Complete Nuclear Criticality Safety Approval Implementation Complete Complete Exceptions for Criticality Accident Alann System 7/1/98 7/1/98 Radiation Protection Procedures Cort plete Co.nplete Posting of Radioactive Materials 11/30/97 12/31/98 NVLAP Certincation Complete Comp!cte Fire Protection Procedures /Ilot Work Permit Program

• Complete 12/31/97 Packaging and Transportation Complete Complete Management Controls 12/31/97 12/31/97 Safety Committees Complete Complete Plant Changes and Configuration Management 12/31/97 12/31/97 Maintenance Program 6/30/98 6/30/98 Operations Program 12/31/97 12/31/97 Systems Approach to Training 6/30/98 6/30/98 Event lavestigations and Reporting Program Complete Coinplete Records Management and Document Con:rol I rogram 6/30/98 12/31/98

' (a) Complete - U.S. Enrichment Corporation has informed NRC that it has fulfilled all of the individual actions described in a Compliance Plan issue.

(b)

• indicates that the issue was completed between March 3,1997, and September 30, 1997.

(c) Dates provided are completion dates committed to by USEC, (d) Status as of September 30,1997, 8 Partial SARs for Paducah and Portsmouth were submitted on August 18, 1997.

i B-1 l

COMPLIANCE PLAN j

- ISSUES COMMON TO BOTH PADUCAH ANO PORTSMOUTH I i

Stallas  !

hunts f

Padusah Ponsmouth l Procedures Program' 12/31/97' 12/31/97 }

Quality Assurance Program Implementation - 12/31/97 -12/31/97 l Emergency Plan Suppon Documents Complete Complete  !

Quality Control Program for low Level Waste Disposal Complete Complete Depleted Uranium Management Plan 12/31/97 Complete .

Decommissioning Funding Program --When Privatized--- l Chemical Safety Mcchanical Integrity Program

• Complete

• Complete .

HEPA Filter Systems Testing

• Complete

• Complete-

- Adn4nistrative Controls on Overtime *Compice Complete 4 DOE Chemical Safety and Third Party Use

• Complete Complete j of Hazardous Chemicals Operational / Safety Systems Trip Redundancy 12/31/97 Complete l Codes and Standards Comp!ete Complete .

. UF. leak Detector Scroitivity Testing 7/31/98

• Complete Criticality Accident Alarms for Nearby Buildings 12/15/98 7/31/98- 3

, Materials Control and Accountability Manuals Complete 12/31/97 and Procedures Receipts Based on Measured Values ' Complete 12/31/98 l DOE Materials Stored in Leased Space Complete Complete ISSUES SPECIFIC TO PADUCAH gnags same C-360 Crane Upgrades . Complete  ;

Criticality Accident Almn System Coverage Complete >

Radioactive Calibration Source Accuracy Complete

,- Fire Alarm System Reliability _ Complete 8

All'new or updated piocedures should be issued by December 31,1997, for Paducah and

Ponsmouth. Procedures that are designated as "in-hand" or that involve liquid uranium l' bexafluoride handling activities must be reviewed by the Plant Operations Review Committee .

(PORC) by March 3,2002, if PORC did not review them as pan of the upgrade program, ,

, B2  !

• we- D' "t-.r e- w g w-wFp' arved r w 1g W Ffw'M-MW*WTNV--E-WWS'T9-4 % 49 t'-*-SW f r3vv^W*"r W'-d &^*?4- M % f r-49 E 46-"-e"w*<- p w y e--- 7, + + - - * -=r'-r' wi e r-y-*-

o ISSUES SPECIFIC TO PADUCAll hSUCS _ Status-Fire Protection Water System Reliability Complete Fire Protection Equipment Complete Fire Protection Pre-Fire Plans ' Complete Public Warning Sirens and Controls

• Complete Public Address System

• Complete Training for Emergency Response Organir.ation Complete Seismic Carability of Buildings C-331 and C-335 12/31/97' Environmental Trending Procedures Complete liigh Volume Ambient Air Samplers

• Complete Criticality Accident Alarm System -IIorn Audibility 12/15/98 Cascade Cell Trip Function Requirements Complete Measurement Systems Complete Inventory Program for Uranium lloldup Complete ISSUES SPf.CIFIC TO PORTSMOUTil issucs Status X-705 Evaporator lleat Exchanger Modincations Complete X-705 Isolation Valve Testing Complete X-705 Microfiltration influent pil Shutdown Complete System Replacement Nuclear Criticality Safety Training for Managers Complete Fire Protection Compensatory Measures Complete Fire Prri . tion Sprinkler Testing Complete Emt o ency Packets

• Complete Asse unents Complete Training for Emergency Preparedness Complete Possession of Uranium Enriched to Greater Than 10% U235 1/31/99

' USEC submitted an amendment application that would delay installation of the modincation; NRC is reviewing the amendment request.

B-3

i , ,

l APPENDIX C AMENDMENTS TO CERTIFICATES OF COMPLIANCE i

PADUCAll Title Submittal Status' Compt. l Date Plan Issue Cascade Cell Trip Function 9/30/% Issued Issue 48 Autoclave Manual Isolation Syste,m 10/31/96 issued issue 3 Autoclave Containment Valves Pressure 12/23/ % Issued Issue 3 Decay Testing Feed Facility Crane Design Features 2/14/97 Issued No Definition of Completion Times 2/28/97 Issued No Revision to Fundamental Nuclear 3/4/97 Issued issue A.2 Materials Control and Accouritability Plan and Compliance Plan Issue MC&A Accountability Scale Usage 3/17/97 Issued No Administrative Controls on Overtime 3/31/97 Issued Issue 42 Fire Protection / Movement Prevention 3/31/97 Issued No System Cascade Cell Trip Function 4/14/97 in No .

Progress-decision published in FR Buildings C-331 and C 335, Seismic '4/23/97 In Progress Issue 36 Upgrades

' Status as of September 30,1997,  ;

.2_ Amendments that are related to a compliance Plan issue are either required by the Compliance Plan to resolve the issue or were submitted to modify a commitment in the Compliance Plan.

C1

i 4-AMENDMENTS TO CERTIFICATES OF COMPLIANCE l PADUCAll Nuclear Criticality Safety Program 6/16/97 In No l Progress-  ;

Elements ^

decision i

published in FR ,

High-Volume Ambient Air Samplers 6/26/97 Withdrawn issue 38 _

l Revise Safety Analysis Report Date 7/18/97 in Progress Issue 2 Autoclave Upgrades / law Instrument 8/11/97 In issue 3 l Air Pressure and Extended Downtime Progress-  !'

decision published in FR Safety Analysis Report Upgrade 8/18/97 In Progress issue 2 Revision Closure of C 360 Autoclave Isolation 8/29/97 in Progress No Valves Following UP. Detection ' l Product and Tails Withdrawal CAAS 9/15/97 In Progress No f

C-2

.y

i AMENDMENTS TO CERTIFICATES OF COMPLIANC'.s f PORTSMOUTil t

5 Title Submittal Status Compl. .

Date F'.

f Issu;_

Widxirawal Stations Standby Operatlo;al 11/8/% issued No Mode Change to Technical Safety Requirements 12/23/97 Issued Issue 37 for Administrative Controls on Overtime Additional liypothetical Criticality case for 2/13/97 In No  ;

X 333 Progress Definition of Completion Times 2/28/97 Issued No Air Gap Design Feature 4/28/97 Issued No Deletion of Seal Exhat.st Pump Overflows 5/6/97 In No in Buildings L330 and X-333 Progress Sct". Tit Raschig Rings __ 5/16/97 issued No Autoclave Containment Valve Pressure 6/9/97 in Issue 3 Decay Testing Progress Nuclear Criticality Safety Program 6/16/97 In No ,

Elements Progress Autoclave Upgrades 7/1/97 In issue 3 Progress Revise Safety Analysis Report Date 7/18/97 In Issue 2 Progress Autoclave Smoke Detection System 7/30/97 In No Progress Safety Analysis Report Upgrade Revision 8/18/97 in Issue 2 Progress t

3 Status as of September 30,1997, C-3

. - . _ --.--..-.__,_.2-.-._,. . . _ _ _ . _ . _ . _ - _ - . _ . - . . _ _ . _ _ _ . _ . _ . _.._.,,,,-m._.. :_. . _ . -

r APPENDIX D NRC INSPECTION REPORT

SUMMARY

FOR TIIE PERIOD MARCil 3,1997 - SEPTEMBER 30,1997 PADUCAll c

Insp. Date of Dates of Areas Inspected Violation Report Report Inspection No. _

97-203 4/25/97 3/24/97 - Fire Protection 11.evel IV 3/27/97  !97-202 5/15/97 3/24/97 - Chemical Process None 4/18/97 Safety 97-201 5/16/97 3/17/97 - Nuclear Criticality 2 Level IV 3/21/97 ' Safety 3/31/97 - 4/4/97 97-204 5/30/97 4/28/97 - 5/2/97 MC&A safeguards None 97002 5/30/97 3/3/97 - 4/21/97 Operations, 81.evel IV 1 NCV Maintenance Engineering, Plant Suppoit 97005 6/24/97 5/5/97 - !/9/97 Security 1 1.evel l'1 9/22/97 2 NCV 97003 7/2/97 4/22/97 - 6/2/97 Operations, 6 level IV Maintenance, 2 NCV Engineering, Plant Support 97004 5/5/97 6/3/97 - 7/14/97 Operations, 6 level IV Maintenance, Engineering, Plant Support D ,

p. , - . - . , , , . . - , , n,. . - . . - n -, , . .-, , ~,

o NRC INSPECTION REPORT

SUMMARY

FOR Tile PERIOD MARCl! 3,1997 - SEPTEMBER 30,1997 10RTSMOUTil ,

97 205 8/12/97 7/14/97 - MC&A Safeguards None 7/18/97 97 206 8/21/97 7/21/97 - Chemical Safety None 7/25/97 97 207 9/17/97 8/18/97 - Fire Protection None 8/22/97 97007 9/24/97 7/15/97 - Operations, 5 levelIV 9/12/97 Malistenance, 1 Engineering, Apparent Security, V;olation Environmental Protection 97009 10/17/97 9/8/97 - 9/12/97 Quality Assurance 1 level IV Prograin D-2

O Nhc INSPECTION REPORT

SUMMARY

FOR Tile PERIOD MARCil 3,1997 - SEPTEMBER 30,1997 PORTSMOUTl!

Insp. Date of Dates of Areas Inspected Violation Report Report inspection No.

97 201' 4/17/97 3/17/97 - MC&A Safeguards None  :

3/21/97 97002 5/9/97 3/3/97 - 4/6/97 Operations, 2 Level IV Maintenance, Engineering, Plant l Support I

97 202 $/15/97 4/14/97 - Fire Safety None 4/18/97 97-204 6/16/97 5/5/97 - 5/23/97 Chemical Process None Safety 97003 6/20/97 4/7/97 - 5/18/97 Operations, 4 levelIV l Maintenance, 4 NCV Engineering, Plant Support 97-203 6/27/97 4/28/97 - 5/2/97 Nuclear Criticality 3 Ixvel IV 5/27/97 - Safety 2NCV 5/30/97 970(M 7/18/97 5/19/97 - Operations, 3 Level IV 6/29/97 Engineering, Plant 2NCV Support 97-205 8/7/97 7/7/97 - 7/11/97 MC&A Safeguards Nore - ,

97007 9/9/97 7/29/97 - 8/1/97 less of Steam Supply None Event ,

I D-3

J NRC INSPECTION REPORT SUhthiARY FOR Tile PERIOD hiARCil 3,1997 - SEPTEh1BER 30,1997 I

PORTShiOUTil 97005 9/10/97 6/30/97 - Operations, 2 level IV 8/10/97 hiaintenance, 1NCV Engineering, Plant Support 97-207 9/11/97 8/l1/97 - Chemical Process None 8/15/97 Safety 97 206 9/29/97 7/21/97 - Nuclear Criticality 3 levelIV 7/25/97 Safety 2 NCV 97009 10/20/97 9/11/97 - Emergency None 9/13/97 Preparedness Exercise 97 208 10/14/97 9/15/97 - Fire Safety None 9/19/97 97006 10/20/97 9/2/97 - 9/5/97 Security 2 level IV D;4

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