Source: https://www.federalregister.gov/documents/2010/11/15/2010-28683/safety-analysis-requirements-for-defining-adequate-protection-for-the-public-and-the-workers
Timestamp: 2018-08-22 00:24:24
Document Index: 537253081

Matched Legal Cases: ['art 830', 'arts 820', 'art 830', 'art 830', 'art 830', 'art 830', 'art 830', 'art 830', 'art 830', 'art 830', 'art 830']

A Notice by the Defense Nuclear Facilities Safety Board on 11/15/2010
Comments, data, views, or arguments concerning the recommendation are due on or before December 15, 2010.
https://www.federalregister.gov/d/2010-28683 https://www.federalregister.gov/d/2010-28683
Pursuant to 42 U.S.C. 2286a(a)(5), the Defense Nuclear Facilities Safety Board has made a recommendation to the Secretary of Energy requesting an amendment to the Department of Energy's nuclear safety rule, 10 CFR part 830.
The Department of Energy's (DOE) nuclear safety regulations were developed as a result of a mandate by Congress in the Price Anderson Act Amendments of 1988. These regulations now appear in Parts 820, 830, and 835 of Title 10 in the Code of Federal Regulations (CFR). In this Recommendation, the Defense Nuclear Facilities Safety Board (Board) addresses recent changes in DOE's “interpretation” of certain critical provisions of Title 10 CFR Part 830, Nuclear Safety Management (10 CFR Part 830), provisions which are intended to provide adequate protection of the public health and safety. As explained below, in the Board's view this revised interpretative posture weakens the safety structure the rule is designed to hold firmly in place.
10 CFR Part 830 imposes a requirement that a documented safety analysis, or DSA, is to be prepared for every DOE nuclear facility. This DSA, once approved by DOE, forms the regulatory basis for safety of the facility or operation. 10 CFR Part 830 does more, however: its Appendix A provides “safe harbors” for the preparation and approval of DSAs. These safe harbors are, in the main, references to detailed guidance issued by DOE. A DSA that is prepared following applicable guidance found in “safe harbors” should be found acceptable, meaning that the facility's safety systems are adequate to protect public health and safety from nuclear hazards.
One of the key safe harbor guides for the preparation of DSAs is DOE Standard 3009-94, Preparation Guide for U.S. Department of Energy Nonreactor Nuclear Facility Safety Analysis Reports.[1] First issued in July of 1994, this Standard was intended to provide guidance on meeting the requirements imposed by DOE Order 5480.23, Nuclear Safety Analysis Reports, a set of nuclear safety requirements that preceded and were supplanted by 10 CFR Part 830. The Standard stated that “Technical Standards, such as this document, support the guides by providing additional guidance into how the requirements [of Orders and Rules] should be met.” As such, it did not contain any nuclear safety requirements. Five years after its initial issuance, DOE amended Standard 3009-94 by the addition of Appendix A, entitled “Evaluation Guidelines.” These guidelines apply dose criteria to the results of accident calculations found in DSAs. Stated broadly, the Evaluation Guidelines mandate that safety class systems be installed if, as a result of a potential accident, the unmitigated dose consequences at the site boundary approach or exceed 25 rem Total Effective Dose Equivalent (TEDE).
When 10 CFR Part 830 was promulgated in final form in early 2001, the version of DOE Standard 3009-94 incorporated into Appendix A of the rule as a safe harbor included the Evaluation Guidelines. This combination of the rule's requirement for an approved DSA and the application of the Evaluation Guidelines of DOE Standard 3009-94 formed the basis upon which adequate protection of the public health and safety would be gauged. Whenever dose consequence calculations showed that an accident scenario would result in offsite doses approaching or exceeding 25 rem TEDE, safety class systems would have to be chosen and installed to reduce this dose to a small fraction of the Evaluation Guidelines.
As a safe harbor for 10 CFR Part 830, the Evaluation Guidelines described in DOE Standard 3009-94 have been enforced and met for the majority of DOE's defense nuclear facilities, assuring adequate protection to the public, workers, and the environment. However, in December 2008, the National Nuclear Security Administration (NNSA) approved a DSA for the Plutonium Facility at Los Alamos National Laboratory that represented a significant departure from the accepted methodology, as discussed in the Board's Recommendation 2009-2, Los Alamos National Laboratory Plutonium Start Printed Page 69649Facility Seismic Safety. The Board followed up its Recommendation with a letter to the Deputy Secretary of Energy on March 15, 2010, that sought to determine whether DOE's current interpretation of 10 CFR Part 830 and DOE Standard 3009-94 still supports the principles of providing adequate protection of the public, workers, and the environment from the hazards of operating DOE's defense nuclear facilities. The Board's letter particularly expressed concern regarding the appearance that DOE's present interpretation is that nuclear safety Evaluation Guidelines established in DOE Standard 3009-94 do not have to be met.
DOE's June 10, 2010, response to the Board's letter states that DOE's utilization and implementation of DOE Standard 3009-94 has not changed since issuance of 10 CFR Part 830. DOE's response observes that DOE Standard 3009-94 “was not written as a prescriptive item-by-item requirements document; rather it provides an overall approach and guidance for preparing a DSA.” DOE's response states that the Standard describes steps that the contractor may take if the postulated accident consequences cannot be mitigated below the Evaluation Guideline. DOE's response also cites guidance for DOE approval authorities contained in DOE Standard 1104-2009, Review and Approval of Nuclear Facility Safety Basis and Safety Design Basis Documents, and notes that the Safety Basis Approval Authority may prescribe interim controls and planned improvements if the Evaluation Guideline is exceeded. DOE's response closes by stating that its managers “are expected to carefully evaluate situations that fall short of expectations and only provide their approval of documented safety analyses when they are satisfied that operations can be conducted safely…, that options to meet DOE expectations have been evaluated, and that adequate commitments to achieve an appropriate safety posture in a timely manner have been made.”
1. Immediately affirm the previously understood requirement that unmitigated, bounding-type accident scenarios will be used at DOE's defense nuclear facilities to estimate dose consequences at the site boundary, and that a sufficient combination of structures, systems, or components must be designated safety class to prevent exposures at the site boundary from approaching or exceeding 25 rem TEDE.
2. For those defense nuclear facilities that have not implemented compensatory measures sufficient to reduce exposures at the site boundary below 25 rem TEDE, direct the responsible program secretarial officer to develop a plan to meet this requirement within a reasonable timeframe.
a. Clearly defining methodologies and providing acceptability criteria for controls, parameters, processes, analytical tools, and other data that should be used in preparation of a DSA.
b. Delineating the criteria to be met for identification and analyses of an adequate set of Design Basis Accidents (for new facilities), or Evaluation Basis Accidents (for existing facilities).
b. Actions to be taken if conditions are beyond the specified boundaries and limitations of the approval authority,
c. The organization or the individual who can approve a DSA that is beyond the delegated approval authority's boundaries and limitations,
[FR Doc. 2010-28683 Filed 11-12-10; 8:45 am]