SECY-19-0125, Regulatory Basis for Decommissioning Financial Assurance for Sealed and Unsealed Radioactive Materials (SRM-SECY-19-0125)

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Regulatory Basis for Decommissioning Financial Assurance for Sealed and Unsealed Radioactive Materials (SRM-SECY-19-0125)
ML22188A206
Person / Time
Issue date: 04/22/2022
From: Maupin C
Office of Nuclear Material Safety and Safeguards
To:
Maupin C
Shared Package
ML21235A416 List:
References
NRC-2017-0031, RIN 3150-AK52, SRM-SECY-19-0125
Download: ML22188A206 (67)
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Text

DECOMMISSIONING FINANCIAL ASSURANCE REQUIREMENTS FOR SEALED AND UNSEALED RADIOACTIVE MATERIALS Regulatory Basis Docket ID: NRC-2017-0031 RIN: 3150-AK52 April 2022

[ML22188A206]

[This page is left intentionally blank.]

Contents Abbreviations and Acronyms .................................................................................................. vii Definition of Terms (as Used in this Document) ..................................................................... ix Units Conversion Table ............................................................................................................. xi Executive Summary ................................................................................................................. xiii

1. Introduction .......................................................................................................................... 1
2. Background and Existing Regulatory Framework ........................................................... 3 2.1 Relevant NARM Statutes and Regulations ....................................................................... 3 2.1.1 The Energy Policy Act of 2005 ................................................................................ 3 2.1.2 The NARM Rule ...................................................................................................... 3 2.2 NRC Decommissioning Financial Assurance Regulations ................................................ 4 2.2.1 Final Rule of 1988 ................................................................................................... 4 2.2.2 Amendments of Interest .......................................................................................... 5 2.3 The Existing Regulatory Framework ................................................................................. 7 2.3.1 NRC Regulatory Program ....................................................................................... 8 2.3.2 Agreement State Regulatory Program .................................................................... 8 2.4 Requests for Revisions to the NRCs Regulations ............................................................ 8 2.4.1 NRC Advisory Committee on the Medical Uses of Isotopes ................................... 8 2.4.2 Organization of Agreement States PetitionPRM-30-66 ....................................... 9 2.4.3 SECY-19-0125 and Associated SRM-SECY-19-0125 .......................................... 10
3. Statement of Regulatory Concerns .................................................................................. 12 3.1 Unaligned Appendix B Values and Radionuclide Listings ............................................... 12 3.2 Applying the Generic Default Values in Appendix B to 10 CFR Part 30 ......................... 12 3.3 Processing Exemption Requests .................................................................................... 13 3.4 Reviewing Plans for Unlisted Radionuclides ................................................................... 13 3.5 Revising 10 CFR 30.35 with a New Methodology and Category for Generators ............ 14 3.6 Unaligned Appendix Title and Purpose ........................................................................... 14 3.7 Unaligned Listing of Isotopes and Decommissioning Criteria ......................................... 14
4. Evaluation of Rulemaking Alternatives ........................................................................... 14 4.1 Alternative 1The Status Quo ....................................................................................... 14 4.2 Alternative 2Update the List of Radionuclides and the Values in Appendix B to 10 CFR Part 30 Table (NRC Selected) .................................................... 15 4.3 Alternative 3Partially Update Appendix B to 10 CFR Part 30 (Add Unlisted NARM Radionuclides and Other Radionuclides Not Currently Listed to the Existing Table in Appendix B)............................................... 16 iii

4.4 Alternative 4Develop a New Process for Assessing Decommissioning Funding Costs .................................................................. 16 4.5 Alternative 5Update Appendix B to 10 CFR Part 30 and Develop a New Process for Assessing Decommissioning Funding Costs (Combines Alternative 2 and Alternative 4 - Two rulemakings) ...................................... 18

5. Basis for Proposed Changes ............................................................................................ 18 5.1 Proposed Changes ......................................................................................................... 19 5.2 Benefits of the Rulemaking ............................................................................................. 19 5.2.1 A More Risk-Informed Regulation ......................................................................... 19 5.2.2 Reduces or Eliminates Exemption Requests ........................................................ 19 5.2.3 Addresses Emerging Technologies ....................................................................... 20 5.2.4 Alignment of Title and Purpose ............................................................................. 20 5.2.5 Alignment of Listing of Radionuclides and Decommissioning Criteria................... 21
6. Backfitting and Issue Finality Analysis ........................................................................... 22
7. Stakeholder Involvement .................................................................................................. 22
8. Cost/Impact Considerations ............................................................................................. 23 8.1 Applicability ..................................................................................................................... 23 8.2 Analysis Assumptions ..................................................................................................... 24 8.3 Affected Entities .............................................................................................................. 24 8.3.1 NRC ....................................................................................................................... 24 8.3.2 Agreement States .................................................................................................. 24 8.3.3 Licensees .............................................................................................................. 25 8.3.4 Tribal Nations ........................................................................................................ 25 8.4 Summary of Alternatives and Cost .................................................................................. 25
9. Uncertainty Analysis ......................................................................................................... 26 9.1 Uncertainty Analysis Assumptions .................................................................................. 27 9.2 Uncertainty Analysis Inputs ............................................................................................. 27 9.3 Uncertainty Analysis Results ........................................................................................... 27 9.4 Sensitivity Analysis .......................................................................................................... 28
10. Rulemaking Cost Justification ......................................................................................... 29
11. Cumulative Effects of Regulation .................................................................................... 30
12. Regulatory Flexibility Act .................................................................................................. 30
13. Environmental Analysis .................................................................................................... 30
14. NRC Strategic Plan ............................................................................................................ 31
15. Decision Rationale ............................................................................................................. 31
16. References ......................................................................................................................... 31 iv

Appendix AQuantities of Licensed Material Used to Assess Financial Assurance for Decommissioning (Proposed Updated Table) .............. A-1 Appendix BData Tables ...................................................................................................... B-1 Appendix CSummary and Tables of Costs for Each Alternative by NRC, Agreement States, and Industry ................................................ C-1 List of Figures Figure 1: Incremental Net Costs for Alternative 2 (7-Percent Discount Rate) ............................ 28 Figure 2: Alternative 2 Cost Drivers (7-Percent Discount Rate) ................................................ 29 List of Tables Table ES-1: Summary Table of Alternatives and Benefits (Costs) ........................................... xiv Table 1: Advantages and Disadvantages of Alternative 2 ......................................................... 15 Table 2: Advantages and Disadvantages of Alternative 3 ......................................................... 16 Table 3: Advantages and Disadvantages of Alternative 4 ......................................................... 17 Table 4: Advantages and Disadvantages of Alternative 5 ......................................................... 18 Table 5: Alternatives and Benefits (Costs) ................................................................................. 25 v

Abbreviations and Acronyms ACMUI Advisory Committee on the Medical Uses of Isotopes ADAMS Agencywide Documents Access and Management System AEA Atomic Energy Act of 1954, as amended Bq becquerel CFR Code of Federal Regulations CRCPD Conference of Radiation Control Program Directors, Inc.

DFA decommissioning financial assurance DFP decommissioning funding plan EPAct Energy Policy Act of 2005 FR Federal Register Ga gallium Ge germanium ICRP International Commission on Radiological Protection

µCi microcurie mCi millicurie NARM naturally occurring and accelerator-produced radioactive material NPV net present value NRC U.S. Nuclear Regulatory Commission OAS Organization of Agreement States PERT program evaluation and review technique PRM petition for rulemaking Pu plutonium SECY Office of the Secretary of the Commission SRM staff requirements memorandum vii

SSR Suggested State Regulations for Control of Radiation U uranium WBL Web-Based Licensing viii

Definition of Terms (as Used in this Document)

Applicant Any person, including a current licensee, who submits an application for a license or license amendment to the U.S. Nuclear Regulatory Commission (NRC) or an Agreement State for the use of byproduct material.

Decommission To remove a facility or site safely from service and reduce residual radioactivity to a level that permits (1) release of the property for unrestricted use and termination of the license or (2) release of the property under restricted conditions and termination of the license (see Title 10 of the Code of Federal Regulations (10 CFR) 30.4, Definitions).

Decommissioning Funding Plan A document that contains a site-specific cost estimate for decommissioning, describes the method for assuring funds for decommissioning, describes the means for adjusting both the cost estimate and funding level over the life of the facility, and contains the certification of financial assurance and the signed originals of the financial instruments provided as financial assurance (see 10 CFR 30.35(e)).

Person Any individual, corporation, partnership, firm, association, trust, estate, public or private institution, group, Government agency other than the Commission or the U.S. Department of Energy, except that the Department shall be considered a person within the meaning of the regulations in this part to the extent that its facilities and activities are subject to the licensing and related regulatory authority of the Commission pursuant to Section 202 of the Energy Reorganization Act of 1974 (88 Stat. 1244), any State or any political subdivision of or any political entity within a State, any foreign government or nation or any political subdivision of any such government or nation, or other entity; and any legal successor, representative, agent, or agency of the foregoing (see 10 CFR 30.4).

ix

Units Conversion Table Multiply By To Obtain English/Metric Equivalents millicurie (mCi) 3.7x107 becquerel (Bq) microcurie (µCi) 3.7x104 becquerel (Bq)

Metric/English Equivalents becquerel (Bq) 2.7x10-8 millicurie (mCi) becquerel (Bq) 2.7x10-5 microcurie (µCi) xi

Executive Summary The U.S. Nuclear Regulatory Commission (NRC) is considering revising the table in Appendix B, Quantities of Licensed Material Requiring Labeling, to Title 10 of the Code of Federal Regulations (10 CFR) Part 30, Rules of General Applicability to Domestic Licensing of Byproduct Material. The rulemaking would base the NRCs decommissioning funding requirements for radioactive material on the relative risk to public health and safety from different radioisotopes, including naturally occurring and accelerator-produced radioactive material (NARM). The NRC is taking this action in response to a petition for rulemaking (PRM) submitted by the Organization of Agreement States (OAS) on April 14, 2017 (PRM-30-66, Request of the Organization of Agreement States for the NRC to Amend Appendix B, Quantities of Licensed Material Requiring Labeling, Supersedes ML17123A233 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML17173A063)). In its petition, the OAS requested that the NRC provide specific possession values for NARM radionuclides not currently listed in Appendix B to 10 CFR Part 30, so that licensees using these radionuclides would not have to apply the default values to calculate decommissioning funding requirements or submit an exemption request. Licensees use Appendix B in conjunction with 10 CFR 30.35, Financial assurance and recordkeeping for decommissioning, and 10 CFR 70.25, Financial assurance and recordkeeping for decommissioning, to determine the amount of decommissioning financial assurance (DFA) that is needed or whether a decommissioning funding plan is required. If the appendix does not include a particular radionuclide, licensees must use default values that may result in licensees needing more DFA than is warranted based on the risk to public health and safety.

The Commission approved initiation of this rulemaking in the staff requirements memorandum SRM-SECY-19-0125, Staff RequirementsSECY-19-0125Petition for Rulemaking and Rulemaking Plan on Decommissioning Financial Assurance Requirements for Sealed and Unsealed Radioactive Material (PRM-30-66; NRC-2017-0159), dated October 13, 2020 (ADAMS Accession No. ML20287A248). The next step in the NRCs rulemaking process is the development of a regulatory basis that serves as a precursor to the proposed rule. This regulatory basis document summarizes the current regulatory framework, describes the regulatory issues, and evaluates alternatives for revising Appendix B. The regulatory basis also includes cost estimates for the NRC, Agreement States, and industry (i.e., licensees) for each alternative.

The NRC staff is recommending that the agency conduct a rulemaking as described in Alternative 2 of this regulatory basis. Under Alternative 2, the NRC would update Appendix B to 10 CFR Part 30 using the list of radionuclides and possession values from Appendix C, Quantities of Licensed Material Requiring Labeling, to 10 CFR Part 20, Standards for Protection Against Radiation. Additionally, the NRC would revise Appendix B to 10 CFR Part 30 to clarify that only radioactive materials with half-lives greater than 120 days are subject to DFA. Finally, the NRC would change the title of Appendix B to reflect its use in determining DFA requirements.

Alternative 2 would provide the fastest regulatory relief to stakeholders that have requested rulemaking and would offer an expeditious solution to the DFA concerns for licensees that currently use or plan to use the unlisted NARM radionuclides, especially in the diagnosis and treatment of diseases. For example, the currently unlisted gallium-68 (Ga-68) radionuclide is vitally important in the early detection and treatment of liver and pancreatic cancers; these types of cancers are hard to diagnose and metastasize quickly through the body. In addition, this xiii

radioactive material provides an effective dose to patients that is significantly lower than that from other radiopharmaceuticals. Thus, at this stage, the staff holds that the qualitative benefits from conducting a rulemaking under Alternative 2 would justify the potential cost impacts to licensees, Agreement States, and the NRC. Alternative 2 would result in projected costs totaling $6.5 million using a 7-percent discount factor and an averted cost of $15 million using the least costly alternative that accomplishes the Commissions directions. Table ES-1 provides the different alternatives with their respective costs. The staff will prepare a regulatory analysis of the qualitative and quantitative costs and benefits that considers public comments received on this regulatory basis for the proposed rule, consistent with NUREG/BR-0058, Regulatory Analysis Guidelines of the U.S. Nuclear Regulatory Commission.

Table ES-1: Summary Table of Alternatives and Benefits (Costs)

Net Benefits (Costs) in 2021 Dollars DESCRIPTION Undiscounted 7% NPV 3% NPV Alternative 1Status Quo (No Action

$0 $0 $0 Taken)

Alternative 2Update the List of Radionuclides and the Values in the Table in Appendix B to 10 CFR Part 30 (NRC selected)

NRC Implementation ($518,000) ($468,000) ($495,000)

Alternative 2 NRC ($170,000) ($130,000) ($151,000)

Alternative 2 NRC Averted Cost $2,115,880 $2,075,601 $2,096,936 Alternative 2 Industry ($4,995,000) ($3,810,000) ($4,438,000)

Alternative 2 Industry Averted Cost $15,146,546 $13,962,315 $14,589,590 Alternative 2 Agreement States ($2,710,000) ($2,049,000) ($2,398,000)

Alternative 2 Agreement States Averted

$15,775,884 $15,115,132 $15,464,247 Cost Alternative 2 Total Net Benefits (Cost) $24,645,904 $24,696,030 $24,668,716 Alternative 3Partially Update Appendix B to 10 CFR Part 30 (Add unlisted NARM radionuclides and other radionuclides not currently listed to the existing table in Appendix B to 10 CFR Part 30)

NRC Implementation ($518,000) ($468,000) ($495,000)

Alternative 3 NRC ($170,000) ($130,000) ($152,000)

Alternative 3 Industry ($4,995,000) ($3,810,000) ($4,438,000)

Alternative 3 Agreement States ($2,710,000) ($2,049,000) ($2,398,000)

Alternative 3 Total Net Benefits (Cost) ($8,392,000) ($6,457,000) ($7,482,000)

Alternative 4Develop a New Process for Assessing Decommissioning Funding Costs NRC Implementation ($518,000) ($468,000) ($495,000)

Alternative 4 NRC ($222,000) ($169,000) ($197,000)

Alternative 4 Industry ($4,995,000) ($3,810,000) ($4,438,000)

Alternative 4 Agreement States ($2,984,000) ($2,249,000) ($2,637,000)

Alternative 4 Total Net Benefits (Cost) ($8,718,000) ($6,697,000) ($7,767,000) xiv

Alternative 5Update Appendix B to 10 CFR Part 30 and Develop a New Process for Assessing Decommissioning Funding Costs (Combines Alternative 2 and Alternative 4 - Two rulemakings)

NRC Implementation ($1,088,000) ($861,000) ($979,000)

Alternative 5 NRC ($392,000) ($259,000) ($326,000)

Alternative 5 Industry ($9,989,000) ($6,717,000) ($8,380,000)

Alternative 5 Agreement States ($5,694,000) ($3,765,000) ($4,741,000)

Alternative 5 Total Net Benefits (Cost) ($17,163,000) ($11,601,000) ($14,427,000)

  • Values rounded to the nearest thousand. There may be differences among the tables due to rounding.
  • Values in parenthesis, e.g., () denote a cost of negative value.

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1. Introduction The U.S. Nuclear Regulatory Commission (NRC) established regulations in Title 10 of the Code of Federal Regulations (10 CFR) Part 30, Rules of General Applicability to Domestic Licensing of Byproduct Material, and 10 CFR Part 70, Domestic Licensing of Special Nuclear Material, that set forth the technical and financial criteria for decommissioning licensed nuclear materials facilities that use sealed and unsealed radioactive materials. In 10 CFR 30.4, Definitions, the NRC defines decommissioning as the process whereby a facility or site is safely removed from service and residual radioactivity is reduced to a level that permits (1) release of the property for unrestricted use and termination of the license or (2) release of the property under restricted conditions and termination of the license. Decommissioning activities are initiated when any one of the following events occurs:
  • The license expires.
  • The licensee has decided to permanently cease operations at the entire site or in any separate building or outdoor area that contains residual radioactivity, such that the building or outdoor area is unsuitable for release in accordance with NRC requirements.
  • No principal activities have been conducted at the site for a period of 24 months.
  • No principal activities have been conducted for a period of 24 months in any separate building or outdoor area that contains residual radioactivity, such that the building or outdoor area is unsuitable for release in accordance with NRC requirements.

Financial assurance is a guarantee or other financial arrangement provided by a licensee to ensure that funds are available for decommissioning when needed (see NUREG-1757, Volume 3, Revision 1, Consolidated Decommissioning Guidance: Financial Assurance, Recordkeeping, and Timeliness, Final Report, issued February 2012). Thus, the NRC uses decommissioning financial assurance (DFA) requirements to ensure that the decommissioning of licensed nuclear facilities is performed in a safe and timely manner, and to ensure that adequate funds are available to complete decommissioning. The NRCs overall objective with respect to decommissioning is to protect public health and safety and the environment from the use of radioactive materials under its regulatory authority.

To determine the amount of DFA for a given radionuclide with a half-life greater than 120 days, one must multiply the possession value for the radionuclide in 10 CFR Part 30, Appendix B, Quantities of Licensed Material Requiring Labeling, by 1x105 for unsealed radioactive material in 10 CFR 30.35, Financial assurance and recordkeeping for decommissioning, and 10 CFR 70.25, Financial assurance and recordkeeping for decommissioning. In addition, 10 CFR 30.35 provides that for sealed sources, the possession value in Appendix B is multiplied by 1x1012. The regulations in 10 CFR 30.35(a) and 10 CFR 70.25(a) require a license-specific decommissioning funding plan (DFP) to possess a quantity of radionuclides greater than that shown in the corresponding tables in 10 CFR 30.35(d) and 10 CFR 70.25(d). These tables require specific amounts of funding for specified ranges in the quantity of the radionuclide possessed. The funding amounts and quantity ranges in both tables are identical, but 10 CFR 30.35 applies to byproduct material while 10 CFR 70.25 applies to special nuclear material.

1

The NRC originally established the values in Appendix B to make the possession thresholds match for both licensing and labeling. The labeling values were initially issued in 1963 in Appendix C, Quantities of Licensed Material Requiring Labeling, to 10 CFR Part 20, Standards for Protection Against Radiation, and were redesignated in 1993 for decommissioning funding purposes as Appendix B to 10 CFR Part 30 (58 FR 67659, December 22, 1993). Appendix B also includes possession values for radionuclides not specifically listed, which are known as default possession values. The default values are set to equal the lowest values of the listed isotopes:

0.01 microcurie (Ci) for alpha emitters like radium-226, and 0.1 Ci for the most restricted nonalpha-emitting isotopes (e.g., iodine-129, strontium-90 or lead-210). As a result, licensees using unlisted radionuclides may be subject to more restrictive DFA requirements regardless of the risk-significance of those radionuclides to public health and safety.

On April 14, 2017, the Organization of Agreement States (OAS) submitted a petition for rulemaking (PRM) to the NRC (PRM-30-66, Request of the Organization of Agreement States for the NRC to Amend Appendix B, Quantities of Licensed Material Requiring Labeling, Supersedes ML17123A233, ADAMS Accession No. ML17173A063)). In its petition, the OAS requested that the NRC provide specific possession values for naturally occurring and accelerator-produced radioactive material (NARM) radionuclides not currently listed in Appendix B to 10 CFR Part 30 so that licensees using these isotopes would not have to apply the appendixs default values to calculate decommissioning funding requirements.

In SECY-19-0125, Petition for Rulemaking and Rulemaking Plan on Decommissioning Financial Assurance Requirements for Sealed and Unsealed Radioactive Material (PRM-30-66; NRC-2017-0159), dated December 17, 2019 (ADAMS Accession No. ML18292A479), the staff sought Commission approval to initiate rulemaking in response to the OAS petition. The Commission approved the initiation of rulemaking in Staff Requirements Memorandum (SRM)-SECY-19-0125, Staff RequirementsSECY-19-0125Petition for Rulemaking and Rulemaking Plan on Decommissioning Financial Assurance Requirements for Sealed and Unsealed Radioactive Material (PRM-30-66; NRC-2017-0159), dated October 13, 2020 (ADAMS Accession No. ML20287A248).

Consistent with the Commissions direction in SRM-SECY-19-0125 and the NRCs rulemaking process, the staff has prepared this regulatory basis, which does the following:

  • provides background information on policies, laws, and regulations relative to the issue
  • explains how a change in the regulations could resolve the issue
  • identifies different approaches that could address the regulatory issue and evaluates the cost and benefits of rulemaking and the alternatives
  • provides the scientific, policy, legal, and technical information used to support the evaluation
  • explains limitations on the scope and quality of the regulatory basis, such as known uncertainties in the data or methods of analysis
  • discusses stakeholder interactions in developing the technical portion of the regulatory basis and stakeholder views, to the extent known 2

The purpose of this rulemaking is to (1) improve the regulatory framework for NARM by amending Appendix B to 10 CFR Part 30 to align with the NRCs regulatory authority under the Energy Policy Act of 2005 (EPAct) by adding these unlisted radionuclides, (2) risk-inform the NRCs decommissioning funding requirements by aligning the values in Appendix B with the NRCs radiation protection regulations in 10 CFR Part 20, (3) clarify that only radioactive materials with half-lives greater than 120 days are subject to DFA, and (4) clarify the purpose of Appendix B by changing its title. Specific to item 3, the NRC is proposing to update Appendix B to 10 CFR Part 30 using the list of radionuclides and possession values in Appendix C to 10 CFR Part 20.

2. Background and Existing Regulatory Framework This section briefly discusses the background and existing regulatory framework relative to the DFA requirements for sealed and unsealed radioactive material. Specifically, this section discusses the statutes, regulations, and Commission policies that are relevant to development of this regulatory basis related to DFA requirements.

2.1 Relevant NARM Statutes and Regulations 2.1.1 The Energy Policy Act of 2005 On August 8, 2005, the President signed into law the Energy Policy Act of 2005 (EPAct).

Section 651(e) of the EPAct expanded the definition of byproduct material given in Section 11e of the Atomic Energy Act of 1954 (AEA). The expanded definition placed additional byproduct material under the NRCs jurisdiction and required the Commission to provide a regulatory framework for licensing and regulating this additional byproduct material. Specifically, Section 651(e) of the EPAct expanded the definition of byproduct material to include any discrete source of radium-226 that is produced for a commercial, medical, or research activity, and any naturally radioactive material other than source material, that the Commission in consultation with the Administrator of the Environmental Protection Agency, the Secretary of the Department of Energy and the Secretary of the Department of Homeland Security and the head of any other appropriate Federal agencies, determines would pose a threat similar to the threat posed by radium-226 to the public health and safety or common defense and security; and is extracted or converted after extraction before, on, or after August 8, 2005 and accelerator-produced radioactive material. This new category of byproduct material is referred to as NARM.

2.1.2 The NARM Rule On October 1, 2007, the NRC published in the Federal Register the Final Rule: Requirements for Expanded Definition of Byproduct Material (72 FR 55863), which is commonly referred to as the NARM Rule. The purpose of the final rule was to implement the authority that the NRC obtained over NARM through the EPAct. Before enactment of that law, the NRC did not regulate NARM.

However, the NRCs definition of occupational dose in 10 CFR Part 20 did include dose contributions from both licensed and nonlicensed radioactive material such as NARM. In addition, the NRC required licensees to consider nondiscrete sources, including radium, during decommissioning activities at sites such as rare-earth processing facilities that were contaminated with source material.

Before the EPAct, Agreement States and some non-Agreement States had regulatory programs for NARM. The law mandated that the NRC use model State standards to the maximum extent 3

practicable. Thus, the NRC considered the SSRs published by Conference of Radiation Control Program Directors, Inc., (CRCPD)1 as the model State standard in developing the rule and ensured that all of the NARM radionuclide-specific values were listed in Appendix B to 10 CFR Part 20, Annual Limits on Intake (ALIs) and Derived Air Concentrations (DACs) of Radionuclides for Occupational Exposure; Effluent Concentrations; Concentrations for Release to Sewerage, and Appendix C to 10 CFR Part 20. However, the NRC did not amend Appendix B to 10 CFR Part 30, which is used in DFA determinations, to include NARM radionuclides.

2.2 NRC Decommissioning Financial Assurance Regulations 2.2.1 Final Rule of 1988 On June 27, 1988, the NRC published in the Federal Register its first comprehensive set of regulations addressing the decommissioning of nuclear facilities, Final Rule: General Requirements for Decommissioning Nuclear Facilities (53 FR 24018). These regulations were the result of a thorough review over multiple years of issues associated with the decommissioning of nuclear facilities as described in numerous SECY papers and SRMs, contractor reports, Federal Register notices, a generic environmental impact statement, public meetings, and comment analysis. 2 The purpose of the rule was to assure that, at the time operations were terminated 1F (including premature closure of nuclear facilities), adequate funds would be available to complete decommissioning in a safe and timely manner. The regulations addressed decommissioning planning needs, timing, funding methods, and environmental review requirements. With regard to DFA for sealed and unsealed radioactive material, the new 10 CFR 30.35 required licensees that possessed and used byproduct material with a half-life greater than 120 days to use the quantities in Appendix C to 10 CFR Part 20 3 to determine whether a DFP was needed. The regulation in 2F 10 CFR 70.25 required licensees that possessed and used unsealed special nuclear material to refer to the quantities in Appendix C to determine whether a DFP was needed.

1 The CRCPD is a nonprofit, nongovernmental professional organization dedicated to radiation protection. The CRCPDs mission is to promote consistency in addressing and resolving radiation protection issues, to encourage high standards of quality in radiation protection programs, and to provide leadership in radiation safety and education. As part of this mission, CRCPD compiles the SSRCRs in a dynamic document that is revised and updated on an ongoing basis. The SSRCRs consist of a number of parts that relate to various aspects of radiation regulation.

2 These documents include (1) January 10, 1978, SECY-78-13, Recommendations on Course of Action for Establishing Nuclear Facility Decommissioning Requirements (ADAMS Accession No. ML22063A141);

(2) January 31, 1978, SECY-78-13A, Supplemental Information to SECY-78-13 Recommendations on Course of Action for Establishing Nuclear Facility Decommissioning Requirements, (ADAMS Accession No. ML21252A614); (3) February 17, 1978, SRM-78-13, Recommendations on Course of Action for Establishing Nuclear Facility Decommissioning Requirements, (ADAMS Accession No. ML22063A473);

(4) March 13, 1978, Advance Notice of Rulemaking for Decommissioning Criteria for Nuclear Facilities (43 FR 10370); (5) June 22, 1979, Response to and Partial Denial of Petition for Rulemaking Filed by the Public Interest Research Group, et al. (Docket No. PRM-50-22), (44 FR 36523) which requested the Commission initiate rulemaking to promulgate regulations for nuclear power plant decommissioning; (6)

May 5, 1980, Proposed Rule: Decommissioning of Nuclear Facilities Regulation (10 CFR Parts 30, 40, 50, and

70) (45 FR 37011); (7) February 10,1981, Decommissioning Criteria for Nuclear Facilities: Notice of Availability of Draft Generic Environment Impact Statement (10 CFR Parts 30, 40, 50, and 70) (46 FR 11666);

and (8) February 11, 1985, Proposed Rule: Decommissioning Criteria for Nuclear Facilities (10 CFR Parts 30, 40, 50, 51, 70, and 72) (50 FR 5600).

3 The NRC redesigned Appendix C to 10 CFR Part 20 as Appendix B to 10 CFR Part 30 as part of the December 22, 1993, amendment of the NRCs regulation, which is discussed in Section 2.2.2.1 of this regulatory basis.

4

2.2.2 Amendments of Interest The NRCs decommissioning requirements relative to sealed and unsealed radioactive material have undergone at least 12 amendments since their initial adoption in 1988. The discussion in this regulatory basis focuses on those revisions that pertain to the current rulemaking.

2.2.2.1 Amendments to 10 CFR Part 20 On May 21, 1991, the NRC published the Final Rule: Standards for Protection Against Radiation (56 FR 23360). The purpose of the rule was to modify the NRCs primary radiation protection regulations in 10 CFR Part 20 to reflect scientific developments since their issuance in 1957 (22 FR 548; January 29, 1957) by the Atomic Energy Commission (the NRCs predecessor agency) and subsequent amendments in the 1960s and 1970s (25 FR 8595, September 7, 1960; 25 FR 10914, November 17, 1960; and 35 FR 6425, April 22, 1970). These earlier versions of 10 CFR Part 20 were based upon the recommendations of the National Committee on Radiation Protection and Measurements in National Bureau of Standards Handbook 52, Maximum Permissible Amounts of Radioisotopes in the Human Body and Maximum Permissible Concentrations in Air and Water, dated March 20, 1953, and Handbook 59, Permissible Dose from External Sources of Ionizing Radiation, dated January 8, 1957, that were incorporated into International Commission on Radiological Protection (ICRP) Publication 2, Report of Committee II on Permissible Dose for Internal Radiation (1959), issued 1960. After years of research into the biological effects of ionizing radiation, it was determined that some of the early concepts of radiation protection created over-conservativeness in the regulation of radioactive material. The 1991 amendments to 10 CFR Part 20 adopted the updated and more risk-informed basic tenets of radiation protection in ICRP Publication 26, Recommendations of the International Commission on Radiological Protection, adopted January 17, 1977, and ICRP Publication 30, Limits for Intakes of Radionuclides by Workers, issued 1979-1988. 4 3F The 1991 amendments revised the values in Appendix C to 10 CFR Part 20. The revised appendix lists µCi quantities for 757 radionuclides. However, with regard to DFA requirements for sealed and unsealed radioactive materials, the final rule amended 10 CFR 30.35 and 10 CFR 70.25 as follows:

paragraph (a) is amended by revising the references to appendix C to 10 CFR part 20 and appendix C to read appendix C to §§ 20.1-20.601 of 10 CFR part 20; paragraph (d) is amended by revising the three references to appendix C of the part 20 to read appendix C to §§ 20.1-20.601 of 10 CFR part 20; and by adding a note at the end of the section to read as follows:

4 ICRP Publication 30 was published in four parts and several supplements. These publications are: (1) ICRP, 1979. Limits for Intakes of Radionuclides by Workers. ICRP Publication 30 (Part 1). Ann. ICRP 2 (3-4);

(2) ICRP, 1979. Limits for Intakes of Radionuclides by Workers. ICRP Publication 30 (Supplement to Part 1).

Ann. ICRP 3 (1-4); (2) ICRP, 1980. Limits for Intakes of Radionuclides by Workers. ICRP Publication 30 (Part 2). Ann. ICRP 4 (3-4); (3) ICRP, 1981. Limits for Intakes of Radionuclides by Workers. ICRP Publication 30 (Part 3). Ann. ICRP 6 (2-3); (4) ICRP, 1982. Limits for Intakes of Radionuclides by Workers.

ICRP Publication 30 (Supplement B to Part 3). Ann. ICRP 8 (1-3); (5) ICRP, 1982. Limits for Intakes of Radionuclides by Workers. ICRP Publication 30 (Index). Ann. ICRP 8 (4); and (6) ICRP, 1988. Limits for Intakes of Radionuclides by Workers: An Addendum. ICRP Publication 30 (Part 4). Ann. ICRP 19 (4). These publications are referenced collectively in the condensed reference formats as ICRP Publication 30 (1988) in this document.

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Note: Appendix C of §§ 20.1-20.601 of 10 CFR part 20 applies for the purpose of estimating decommissioning costs regardless of whether the licensee adopts 10 CFR 20.1001-20.2401 or continues to use 10 CFR 20.1-20.601.

As a result, the values in Appendix C to 10 CFR 20.1-20.601 continued to be based upon biokinetic models described in ICRP Publication 2 (1959). The NRCs proposed, Standards for Protection Against Radiation (50 FR 51992, December 20, 1985, and 51 FR 1092, January 9, 1986) indicated in the statements of consideration that the NRC determined that it was not necessary to conform the values in Appendix C to 10 CFR 20.1-20.601 that were used for decommissioning cost determinations with the revised values in Appendix C to 10 CFR 20.1001-20.2401.

2.2.2.2 Origin and Basis of Appendix B to 10 CFR Part 30 On December 22, 1993, the NRC published a final rule, Standards for Protection Against Radiation; Removal of Expired Material. The rule made a number of minor conforming amendments to the NRCs standards for protection against radiation that were published on May 21, 1991 (56 FR 23360). It removed the text of the superseded standards and conformed references in the new 10 CFR Part 20. With regard to DFA, the NRC redesignated Appendix C to 10 CFR 20.1-20.601 as Appendix B to 10 CFR Part 30. In turn, it revised 10 CFR 30.35 and 10 CFR 70.25 to eliminate references to Appendix C to 10 CFR Part 20 and to insert references to Appendix B to 10 CFR Part 30.

As a result, the Appendix B to Part 30 values continued to be based upon ICRP Publication 2. The NRC decided not to conform the Appendix B values to ICRP Publications 26 and 30 during the 1991 revision of 10 CFR Part 20. The NRC had determined that its experience with the values in Appendix C to 10 CFR Part 20 over 30 years had shown that the values were generally adequate to determine the level of funding assurance required for decommissioning and, therefore, retained them.

2.2.2.3 Origin and Basis of the 120-Day Half-Life Criterion In the February 11, 1985, in its proposed rule, Decommissioning Criteria for Nuclear Facilities (50 FR 5600), the NRC indicated that funding plans would be required for licensees authorized to use sealed and unsealed byproduct material with a half-life greater than 120 days. Commenters on the proposed rule supported this criterion. For example, Mallinckrodt, Inc., which is one of the largest manufacturers of radiopharmaceuticals in the United States, referred to this criterion as a prudent decision that would provide safe and timely decommissioning of byproduct material facilities. The Agreement State of Rhode Island noted that medical licensees would be largely unaffected [by the addition of DFP requirements] because they generally do not utilize unsealed byproduct material containing radionuclides with a half-life greater than 120 days (see NUREG-1221, Summary, Analysis, and Response to Public Comments on Proposed Amendments to 10 CFR Parts 30, 40, 50, 51, 70, and 72, Decommissioning Criteria for Nuclear Facilities, issued June 1988 (ADAMS Accession No. ML18073A149)).

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The statements of consideration for the proposed rule did not provide a specific rationale for the 120-day threshold. Rather, the section entitled Mechanisms for Requiring Financial Assurance, stated, The amounts (of financial assurance) for materials licensees were chosen based primarily on data in NUREG/CR-1754 and on licensing experience. The data in NUREG/CR-1754, Technology, Safety and Costs of Decommissioning Reference Non-Fuel-Cycle Nuclear Facilities, issued February 1981(ADAMS Accession No. ML20008E869), indicated that if a licensee is limited to the use of very short-lived radionuclides, then its facilities do not require a major decommissioning effort.

The greater than 120-day half-life criterion is consistent with the agencys regulation of low-level waste disposal through onsite decay-in-storage. The NRC previously had two decay-in-storage license conditions: one was for medical licensees and the other for nonmedical licensees. Both license conditions authorized decay-in-storage for waste containing radioactive material with half-lives less than or equal to 120 days, provided that the radioactive material was held for a minimum of 10 half-lives and additional conditions were met. 5 4F Thus, the statements of consideration for the proposed rule, the data in NUREG/CR-1754, and the NRCs licensing experience with decay-in-storage support the 120-day half-life criterion for DFA for byproduct material. The data in NUREG/CR-1754 and the NRCs licensing experience indicate that (1) radioactive materials with very short half-lives do not require a major decommissioning effort, and (2) radioactive materials with half-lives less than or equal to 120 days will completely decay in a few years.

2.2.2.4 10 CFR Part 70 Licensees The NRC describes financial assurance for licensees possessing special nuclear material in 10 CFR 70.25. Special nuclear material generally means plutonium, uranium(U)-233, uranium enriched in the isotope 233 or in the isotope 235, or any other material the Commission determines to be special nuclear material, but it does not include source material. A table of amounts of financial assurance for decommissioning by quantity of material appears in 10 CFR 70.25(d). This table refers to applicable quantities of appendix B to part 30 but does not limit consideration to radionuclides of special nuclear material with a half-life greater than 120 days. The only special nuclear material radionuclides contained in the current Appendix B to 10 CFR Part 30 are plutonium (Pu)-239, uranium (natural), uranium-233, and uranium-234--uranium-235.

2.3 The Existing Regulatory Framework Either the NRC or an Agreement State regulates the Nations use of radioactive materials, including by applying the requirements for DFA. The following sections describe these regulatory processes for determining the need for a DFP, the basis for establishing the decommissioning funding level, and the role of the Agreement States in the process.

5 See the NRC letter dated June 4, 1981, to all of its medical and academic licensees on decay-in-storage before disposal (ADAMS Accession No. ML20136E300), and Appendix E to NUREG-1556, Volume 20, Consolidated Guidance About Materials Licenses: Guidance About Administrative Licensing Procedures, Final Report, issued December 2000 (ADAMS Accession No. ML010250252). For additional information on NRCs decay-in-storage rulemakings, see the discussions at 10 CFR Part 35.92 in 51 FR 36951 and 67 FR 20299.

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2.3.1 NRC Regulatory Program As stated in Section 1, the NRCs regulations in 10 CFR 30.35 and Appendix B to 10 CFR Part 30 are used together to determine the amount of DFA required for unsealed and sealed byproduct material. The regulations in 10 CFR 70.25 and Appendix B to 10 CFR Part 30 are used together to determine the amount of DFA required for unsealed special nuclear material. As noted in 10 CFR 30.35(a)(1) and 10 CFR 70.25(a)(2), DFPs must be submitted when radionuclide concentrations exceed 1x105 times the applicable quantities listed in the table in Appendix B to 10 CFR Part 30. Individuals with licenses authorizing the possession and use of sealed sources or plated foils at quantities 1x1012 times the values in the table in Appendix B to 10 CFR Part 30 must also submit DFPs. The NRC gives additional details about these criteria in 10 CFR 30.35(d) and 10 CFR 70.25(d).

The table in Appendix B to 10 CFR Part 30 includes default possession values for radionuclides not specifically listed. The default possession values are equal to the lowest values listed in Appendix B for specific alpha-emitting and gamma- and beta-emitting radionuclides.

2.3.2 Agreement State Regulatory Program Section 274 of the AEA authorizes the NRC to enter into agreements with individual States, known as Agreement States, providing them the authority and responsibility for administering a regulatory program for the safe use of radioactive materials within their borders. For the duration of such agreements, the Agreement States have the authority to regulate the materials covered by the agreement for the protection of public health and safety and the environment from radiation hazards. The Agreement States are required to adopt regulations in accordance with the compatibility category designation assigned to each NRC regulation, as discussed in NRC Management Directive 5.9, Adequacy and Compatibility of Program Elements for Agreement State Programs, dated April 26, 2018 (ADAMS Accession No. ML18081A070). Appendix B to 10 CFR Part 30 is designated as Compatibility Category B, which means that the Agreement States will be required to adopt requirements that are essentially identical to those in the NRCs regulations, including the requirements for DFA for sealed and unsealed radioactive material.

Other provisions, 10 CFR 30.35(a), (b), (e), and (g), relating to decommissioning funding are classified and Category Health & Safety (H&S). Category H&S are not required for purposes of compatibility. However, the State must adopt program elements in this category, that embody the basic H&S aspects of the NRCs program elements. These sections are not planned to be revised as a part of this rulemaking.

2.4 Requests for Revisions to the NRCs Regulations 2.4.1 NRC Advisory Committee on the Medical Uses of Isotopes Many of the unlisted radionuclides are used in the diagnosis and treatment of diseases. The unlisted radionuclides germanium (Ge)-68/gallium (Ga)-68 are of particular concern to those in the medical field. Radiopharmaceuticals labeled with Ga-68 have been proven to be effective in the 8

early diagnosis and treatment of neuroendocrine tumors, including cancers of the prostate, liver, and pancreas. These types of cancers are difficult to diagnose and can spread through the body quickly. As a result, Ge-68/Ga-68 generators 6 are vitally important in the early detection and 5F treatment of these types of cancers. In addition to their enhanced diagnostic capabilities, Ga-68-labeled radiopharmaceuticals provide a lower effective dose to patients when compared to other radiopharmaceuticals. They also are less expensive and more accessible when compared to other diagnostic tools and therapies used in cancer treatment.

Because of the importance of Ge-68/Ga-68 generators in the diagnosis and treatment of liver and pancreatic cancers, the Advisory Committee on the Medical Uses of Isotopes (ACMUI) issued the Germanium-68 (Ge-68) Decommissioning Funding Plan (DFP) Final Report, and addendum, dated August 12, 2015 (ADAMS Accession No. ML15231A047). In the report, the ACMUI concluded that the restrictive aspects of a DFP for Ge-68/Ga-68 generators that arise from the current 10 CFR Part 30 regulations were preventing or deterring the use of promising Ga-68 diagnostic imaging agents for patients. The ACMUI also noted that patients treated with Ga-68 radiopharmaceuticals would receive nearly a five-fold reduction in effective dose when compared to other radiopharmaceuticals. Thus, the ACMUI recommended that the NRC address the DFP concerns relative to Ge-68/Ga-68 generators.

The NRC staff agreed with the ACMUI report that the DFP requirement could impede or limit patient access to the radiopharmaceuticals developed from Ge-68/Ga-68 generators and that a DFP is not necessary to ensure the safe decommissioning of facilities that use the generators. By memoranda dated July 29, 2016, (ADAMS Accession No. ML16082A415) and July 13, 2017 (ADAMS Accession No. ML17075A487), the NRC established a process for granting exemptions to the DFP requirements. The NRC staff issued guidance for the exemption that would relieve a licensee from the requirement for a DFP for the possession and use of Ge-68/Ga-68 radiopharmaceutical generators when certain conditions are met. The guidance allowed exemptions only from the DFP requirement, and only for licensees using Ge-68/Ga-68 generators.

Specifically, the exemption guidance provided that licensees could possess up to 19 Ge 68/Ga 68 generators with $1.125 million in DFA. In addition, the exemption guidance provided that the licensees would maintain and submit for NRC review a legally binding agreement that ensured that the Ge-68/Ga-68 generators will be returned to the manufacturer or distributor at the end of use in order to qualify for the DFA certification option.

The NRC created this exemption process to provide a pathway until it could address the issue generically through rulemaking, as stated in the July 2016 memorandum. The rulemaking recommended in this regulatory basis document would provide a regulatory solution.

2.4.2 Organization of Agreement States PetitionPRM-30-66 As mentioned above, in PRM-30-66, the OAS requested that the NRC provide specific possession values for NARM radionuclides that are not currently listed in Appendix B to 10 CFR Part 30 so that licensees using these isotopes, especially medical licensees, would not have to apply the 6 A Ge-68/Ga-68 radiopharmaceutical generator is a device used to extract the positron-emitting isotope Ga-68 from a source of decaying Ge-68. The parent isotope Ge-68 has a half-life of 271 days, which serves as the basis for DFA because it has a half-life greater than the 120-day criterion, while the daughter isotope, Ga-68, has a half-life of only 68 minutes. Because of its short half-life, in-hospital generator production of Ga-68 is the optimal production method.

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appendixs default values to calculate decommissioning funding requirements. The OAS asserted the following:

  • Without possession values for the unlisted radionuclides, regulators are forced to evaluate new products against the default criteria and apply overly burdensome financial assurance obligations or evaluate case-by-case exemptions.
  • Patient health and safety are being compromised due to delays in licensing important diagnostic and therapeutic products that use radionuclides not listed in the table in 10 CFR Part 30, Appendix B.
  • These licensing obstacles could discourage development of new products, diminishing the possibility of new innovative and beneficial options in both medical and industrial applications.
  • Rather than issuing exemptions on a case-by-case basis, the more appropriate way to address the inconsistency in Appendix B is to amend it to add appropriate radionuclides and their corresponding activities.

On August 23, 2017, the NRC published a Federal Register notice of docketing (82 FR 39971) and requested comments on issues raised in the petition. The comment period ended on December 6, 2017, and the agency received 20 comment letters (ADAMS Package Accession No. ML18038A879). Fifteen commenters explicitly supported rulemaking, and one commenter requested a generic exception that only rulemaking can provide. No commenters opposed rulemaking, but one letter, while supporting a rulemaking for medical licensees, indicated that rulemaking could result in exempting industrial uses from AEA regulation under the guise of a medical purpose. Five commenters identified 10 radionuclides whose uses have been adversely affected by not being listed in Appendix B to 10 CFR Part 30.

2.4.3 SECY-19-0125 and Associated SRM-SECY-19-0125 The NRC staff sought Commission approval to initiate rulemaking in response to the OAS petition.

The rulemaking would involve a revision to Appendix B to 10 CFR Part 30 and could involve a revision to 10 CFR 30.35 and 10 CFR 70.25. As discussed in SECY-19-0125, the rulemaking would do the following:

  • Replace the listings and values in Appendix B to 10 CFR Part 30 with those of Appendix C to 10 CFR Part 20 for isotopes with a half-life greater than 120 days.
  • Develop a new methodology for assessing DFA requirements and developing site-specific DFPs based on decommissioning risk factors.
  • Amend the title to the table in Appendix B to 10 CFR Part 30 to reflect its current use for DFA as opposed to labeling.
  • Remove all radionuclides with a half-life of 120 days or less from the table in Appendix B to 10 CFR Part 30 since these radionuclides are not considered when assessing DFA requirements and developing site-specific DFPs.

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  • Examine the merits of creating a new category for isotope generators that provides an engineered confinement greater than in unsealed form but less than that of a sealed source.

In SRM-SECY-19-0125, the Commission approved the initiation of rulemaking in response to PRM-30-66 to provide specific possession values for radionuclides that are not currently listed in Appendix B to 10 CFR Part 30 and the publication of the staffs proposed Federal Register notice announcing the determination on this petition. The NRC published a Federal Register notice on November 27, 2020 (85 FR 75959), announcing that the agency would consider the issues raised in PRM-30-66 through the NRCs rulemaking process.

2.4.4 Other Stakeholder Requests The NRC held a public meeting on January 7, 2021, to gain stakeholder input on the regulatory approaches for DFA requirements for sealed and unsealed radioactive material (see ADAMS Package Accession No. ML21026A339).

At the public meeting, the NRC discussed regulatory issues related to the current DFA requirements and specific radionuclides that are not listed in Appendix B to 10 CFR Part 30. The NRC specifically discussed the following:

  • Potential rulemaking options for updating Appendix B to 10 CFR Part 30, including developing a new risk methodology for calculating new Appendix B values or updating the Appendix B values using the values currently listed in Appendix C to 10 CFR Part 20.
  • An option to create a separate category within 10 CFR 30.35(d) for radiopharmaceutical generators, given the engineering confinement of generators.

In general, the meeting participants supported the rulemaking option, noting that updating Appendix B to 10 CFR Part 30 to include radionuclides not currently listed would help with DFA funding by eliminating the need to use default values as is currently required. The participants noted that the NRC needs to address DFA funding for Ge-68/Ga-68 generators as soon as possible, given that current funding requirements for these radionuclides are excessive when compared to their relative risk to public health and safety based on their engineering design.

Several commenters supported a separate category for Ge-68/Ga-68 generators within 10 CFR 30.35(d), with one commenter suggesting that the NRC evaluate conducting a direct final rule for these items. Commenters also noted that financial assurance requirements related to lutetium-177m also need to be addressed soon, given the likelihood that there will be an increase in its use upon approval of new medical treatments.

Participants did not express a strong preference for either of the potential rulemaking options but said that a faster update to Appendix B to 10 CFR Part 30 would be helpful. Several commenters noted that updating Appendix B with values from Appendix C to 10 CFR Part 20 would not help provide lower DFA funding overall because some values could decrease while other values could increase; therefore, the overall amount of required funding may not change. In addition, one commenter noted that updating Appendix B with the values in Appendix C to 10 CFR Part 20 would enable its facility to use more radionuclides in its research without changing the decommissioning funding amounts, given the use of the unity rule in 10 CFR 30.35(a).

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3. Statement of Regulatory Concerns This section examines the regulatory concerns that are to be addressed as a part of this rulemaking to provide specific possession values for NARM radionuclides and other radionuclides that are not currently listed in Appendix B to 10 CFR Part 30 for DFA requirements for sealed and unsealed byproduct material.

3.1 Unaligned Appendix B Values and Radionuclide Listings The current values in Appendix B to 10 CFR Part 30 are not aligned with the NRCs primary radiation protection regulations in 10 CFR Part 20. Appendix B is based upon the radiation principles from ICRP Publication 2 (1959), while the values in Appendix C to 10 CFR Part 20 are based upon the more risk-informed principles in ICRP recommendations (ICRP Publication 26) and methodologies (ICRP Publication 30).

In addition, the current listing of radionuclides in Appendix B to 10 CFR Part 30 is not well-aligned with the NRCs regulatory authority under the EPAct. The EPAct amended the definition of byproduct material to include NARM radionuclides and provided the NRC authority over this new category of byproduct material. However, the NRC has not updated Appendix B to 10 CFR Part 30 to add NARM radionuclides and their possession values.

3.2 Applying the Generic Default Values in Appendix B to 10 CFR Part 30 The application of the generic default possession values in Appendix B to 10 CFR Part 30 for the DFA determinations of unlisted NARM radionuclides is not warranted based on risk to public health and safety. First, the types and quantities of byproduct material originally found in Appendix B to 10 CFR Part 30 were not developed to determine decommissioning funding. Rather, the values were initially derived from exceptions to labeling requirements such that certain small quantities of byproduct material could be released into the sanitary sewerage or buried in soil for disposal (58 FR 67657, December 22, 1993). Second, the default values were based upon the radiation protection principles in ICRP Publication 2 (1959) that were not risk-informed by research into the biological effects of ionizing radiation. Third, the default values are generic and do not reflect isotope-specific possession values and their associated radiological, chemical, and physical properties. Fourth, the generic default values are set to equal the most restrictive values of the nonrisk-assigned isotopes: 0.01 Ci for alpha emitters like radium-226, and 0.1 Ci for the most restrictive values of nonalpha-bearing isotopes (iodine-129, strontium-90 or lead-210)

For example, for an unsealed nonalpha-emitting isotope, a licensee possessing more than 0.1 millicurie (mCi) but less than 1 mCi would be required under 10 CFR 30.35(d) to provide

$225,000 in DFA. To possess more than 1 mCi of the radionuclide, a licensee would be required to provide $1,125,000 in DFA, and a DFP would be required to possess more than 10 mCi.

However, if the NRC revised Appendix B to 10 CFR Part 30 to adopt the values in Appendix C to 10 CFR Part 20, the minimum possession threshold for DFA or a DFP would increase 100-fold for NARM isotopes Ge-68, gold-195, sodium-22, and cobalt-57. Thus, the application of these generic default possession values creates regulatory burdens by requiring licensees to provide decommissioning funding that is not risk-informed by the isotope-specific possession values.

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3.3 Processing Exemption Requests As discussed above, the NRC currently has granted licensee-requested exemptions for medical licensees that use Ge-68/Ga-68 generators under certain conditions. These exemptions were approved in advance of pending rulemaking to generically resolve the issue. By providing a regulatory solution through rulemaking, the NRC would create a more stable framework for use by regulators, applicants, and licensees.

If the NRC does not complete this rulemaking, then the Ge-68/Ga-68 exemption process would be retracted, and consideration of exemption requests would revert to case-by-case reviews. In addition, since many of these unlisted radionuclides are used in the medical field, if the NRC does not pursue this rulemaking, many users of these unlisted isotopes are likely to submit numerous requests for exemptions to the DFA requirements, especially if the half-lives of these unlisted radionuclides are 120 days or less. The time and cost impacts from processing numerous exemption requests from DFA requirements on a case-by-case basis for the radionuclides with a half-life of 120 days or less would be very burdensome for the NRC and the Agreement States. In addition, to the extent that the agency frequently issues similar exemptions, the NRC could be viewed as not following its own regulations.

3.4 Reviewing Plans for Unlisted Radionuclides Some licensees are choosing to submit DFPs under 10 CFR 30.35 instead of using the exemption process for Ge-68/Ga-68 generators. The DFP requirements in 10 CFR 30.35(e) were intended for major facilities possessing large quantities of radioactive material with half-lives greater than the 120-day criterion because they require a significant decommissioning effort. The 10 CFR 30.35(e) requirements, however, were not intended for the types and quantities of radioactive material typically used by medical licensees, because such licensees normally use radionuclides with short half-lives that do not pose a significant risk to public health and safety.

Although medical licensees possess smaller quantities of radioactive material, they may develop facility-specific decommissioning cost estimates under 10 CFR 30.35(e). Some licensees pursue this option if they can demonstrate through a DFP that a lower amount of financial assurance is needed as compared to that required using the default possession values in Appendix B to 10 CFR Part 30. In addition, some licensees may find the submission of a DFP more efficient and effective than the exemption submission and approval process.

The review and approval of DFA under 10 CFR 30.35(e) is resource intensive for both the licensee and the regulatory agency. The DFPs must contain, among other things, a detailed cost estimate for an independent contractor to perform decommissioning activities so that the site meets the requirements for unrestricted use and a certification that financial assurance in the amount of the cost estimate has been provided. The licensee must resubmit the DFP every 3 years with adjustments as necessary to account for changes in costs and the extent of contamination. Even if a medical licensee possesses only one unlisted NARM radionuclide that requires a DFP, the plan must cover all radionuclides at the site, whether or not the aggregated total quantity of these other radionuclides would have required a DFP. Thus, this creates an unwarranted regulatory burden because the level of detail in the DFP would be unnecessary based upon the relative risk to public health and safety when only one well-defined device, such as a Ge-68/Ga-68 generator, is triggering the DFP requirements.

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3.5 Revising 10 CFR 30.35 with a New Methodology and Category for Generators In SECY-19-0125, the NRC staff discussed possibly developing a new methodology for determining DFA and creating a separate category in 10 CFR 30.35 for radiopharmaceutical generators. Five commenters on the OAS petition commented that Ge-68/Ga-68 generators should have a separate category within 10 CFR 30.35, and the DFA funding amounts should be lower than those currently required. Additionally, several stakeholders at a public meeting on this subject (see Section 7) also supported a separate category for these generators. However, the stakeholders at the public meeting supported updating Appendix B to 10 CFR Part 30 on a faster schedule than would be needed to develop a new decommissioning funding methodology and a separate category for generators.

3.6 Unaligned Appendix Title and Purpose Appendix B to 10 CFR Part 30 is titled Quantities of Licensed Material Requiring Labeling. This title is not consistent with its intent and purpose. Appendix B is used solely for the purpose of calculating the required amounts of DFA. In addition, this title is the same as that of Appendix C to 10 CFR Part 20. Thus, this could potentially cause confusion about the appropriate appendix for labeling requirements and the appropriate appendix for decommissioning requirements.

3.7 Unaligned Listing of Isotopes and Decommissioning Criteria The current NRC regulations in 10 CFR 30.35 and 10 CFR 70.25 document the criteria for determining the amount of DFA required by licensees. DFA considerations only apply for radionuclides with a half-life greater than 120 days. However, the table in Appendix B to 10 CFR Part 30, which is used for calculating DFA costs, includes radionuclides with a half-life of 120 days or less. The disconnect between the criteria in 10 CFR 30.35 and the list of radionuclides in the table in Appendix B to 10 CFR Part 30 can lead to confusion about which radionuclides need to be considered when determining DFA requirements.

4. Evaluation of Rulemaking Alternatives In SRM-SECY-19-0125, the Commission directed the staff to initiate rulemaking in response to the OAS petition requesting specific possession values for radionuclides that are not currently listed in Appendix B to 10 CFR Part 30. The staff considered multiple alternatives, including changes in the guidance as appropriate, to address the issues raised in the petition, while maintaining adequate protection of public health and safety. This section summarizes the five alternatives that the NRC considered.

4.1 Alternative 1The Status Quo The status quo considers no changes to the current process for assessing a licensees DFA requirements. The status quo is considered to be the baseline from which the staff evaluated the four other alternatives.

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4.2 Alternative 2Update the List of Radionuclides and the Values in Appendix B to 10 CFR Part 30 Table (NRC Selected)

The NRC would revise the current table in Appendix B to 10 CFR Part 30 using the radionuclides and quantities from Appendix C to 10 CFR Part 20, including additional radionuclides not currently named in Appendix B to 10 CFR Part 30. These include radionuclides associated with industrial technologies and current and emerging medical uses. In addition, the NRC would remove all radionuclides with a half-life of 120 days or less from the appendix since these radionuclides are not considered when developing DFA. Finally, the default values would be set to equal the lowest values of the listed radionuclides: 0.001 Ci for alpha-emitting radionuclides like U-235, and 0.01 Ci for the most restricted nonalpha-emitting radionuclides (e.g., iodine-129, strontium-90 or lead-210). By making these changes, licensees, the NRC staff, and the Agreement States would have an up-to-date table with more risk-informed values for use when assessing DFA. Appendix B to this document contains an updated version of the table.

Actions associated with this alternative do not affect the current decommissioning funding costs outlined in 10 CFR 30.35(d) but do change the funding thresholds for some radionuclides. Based on the current cost criteria, changes to the table would decrease costs associated with 18 radionuclides but would increase costs for others, especially alpha emitters. This approach to rulemaking does not provide flexibility for incorporating additional radionuclides in the future.

Additional rulemaking actions would be required if the NRC wishes to add radionuclides to the table in the future.

Table 1 lists the advantages and disadvantages considered by the NRC for this alternative.

Table 1: Advantages and Disadvantages of Alternative 2 Advantages

  • satisfies the petitioners request and Commission direction through a simple approach
  • provides a more up-to-date and risk-informed table (ICRP 26/30 vs. ICRP 2)
  • adds to the table specific radionuclides associated with industrial technologies and current and emerging medical uses (e.g., Ge-68, sodium-22, silicon-32, titanium-44, cobalt-57, thulium-170, and lutetium-177 (metastable))
  • removes over 130 radionuclides with a half-life <120 days
  • decreases decommissioning costs for about 18 radionuclides by changing thresholds
  • does not need lengthy analysis or contractor assistance Disadvantages
  • is not site specific or scenario specific
  • increases decommissioning costs for a few radionuclides (primarily alpha-emitting isotopes) by changing thresholds
  • does not provide an option for adding new NARM radionuclides created in the future without additional rulemaking Pursuing this alternative would result in a more up-to-date and risk-informed Appendix B to 10 CFR Part 30 for use in the development of DFA without requiring significant time and 15

resources. For these reasons, the NRC recommends this alternative as the method to pursue for this rulemaking.

4.3 Alternative 3Partially Update Appendix B to 10 CFR Part 30 (Add Unlisted NARM Radionuclides and Other Radionuclides Not Currently Listed to the Existing Table in Appendix B)

The NRC would add only the unlisted NARM radionuclides and other radionuclides listed in the table in Appendix C to 10 CFR Part 20 to the table in Appendix B, 10 CFR Part 30. The agency would not change the values for the radionuclides already listed in Appendix B to 10 CFR Part 30.

The advantage of this alternative is that it would satisfy the request in the OAS petition to update Appendix B to 10 CFR Part 30 to include the unlisted NARM radionuclides. However, this alternative would result in DFA requirements in the same table being based on multiple ICRP methodologies. The values in the current Appendix B to 10 CFR Part 30 are based upon the methodology of radiation protection in ICRP Publication 2 (1959) and do not address annual limits on intake or derived air concentrations. The values in the current Appendix C to 10 CFR Part 20 are based on the methodologies in ICRP Publication 26 (1977) and ICRP Publication 30. For this reason, the NRC is not recommending this alternative.

Table 2 lists the advantages and disadvantages considered by the NRC for this alternative.

Table 2: Advantages and Disadvantages of Alternative 3 Advantages

  • simple, straightforward approach that satisfies the petitioners request
  • values for the unlisted radionuclides would be added based upon ICRP Publications 26 and 30, which would update and risk-inform the table Disadvantages
  • is not site specific or scenario specific
  • does not provide an option for adding new radionuclides without further rulemaking
  • would result in mixed radiation protection methodologies for assessing internal dose in the table because the current values in Appendix B to 10 CFR Part 30 are based upon the dose methodology in ICRP Publication 2 and the values of the NARM radionuclides to be added would be based upon ICRP Publications 26 and 30
  • would require significantly greater NRC and Agreement State resources to develop and implement the new requirements when compared to Alternative 2
  • initial costs associated with establishing a DFP would likely be significantly greater than those required under Alternative 2 4.4 Alternative 4Develop a New Process for Assessing Decommissioning Funding Costs As noted in SECY-19-0125, the NRC also intended to consider developing a new methodology based on decommissioning risk factors. This alternative involves eliminating the use of specific 16

tabulated values and establishing a new framework for determining decommissioning funding costs. Although this approach goes beyond the specific scope of the OAS petition, it would provide licensees with a more up-to-date and risk-informed approach for developing DFA based on their individual, site-specific needs. This approach would be flexible enough to be modified as needed to address potential changes associated with a licensees business interests.

The amount of time and resources required to develop and implement this alternative would be greater than the previous alternatives considered. This approach would require a minimum of approximately 15 months 7 to develop the technical basis associated with this approach and 6F additional time to implement the new methodology and obtain contractor support. Depending on how this approach is implemented, there may be additional burden on the NRC, particularly regional staff, who would have to review and approve each licensees initial DFP. The NRC would also have to perform periodic reviews to confirm that the approved funding plan is still adequate, as well as address any changes that the licensee may wish to implement. These additional burdens could also impact the Agreement States that implement similar programs for their licensees.

Initial costs associated with establishing a DFP would likely be greater, as licensees would have to develop plans that incorporate the details associated with the site-specific criteria for determining decommissioning funding costs. For many licensees, however, this approach could result in long-term cost savings, as costs for developing and maintaining this type of plan plus the costs for performing actual cleanup activities could be less than $113,000, the minimum value provided in 10 CFR 30.35(d) for sealed sources.

Table 3 lists the advantages and disadvantages considered by the NRC for this alternative.

Table 3: Advantages and Disadvantages of Alternative 4 Advantages

  • addresses decommissioning funding issues
  • adaptable to different types of licensees/uses (e.g., generators, nondispersible)
  • adjustable over time (e.g., licensees change function; decommissioning costs change)
  • cost savings for some licensees Disadvantages
  • significant contractor costs
  • possible increase in resources for some licensees associated with developing and maintaining a DFP
  • at least 15 additional months would be needed to develop the technical basis
  • would require significantly greater NRC and Agreement State resources to develop and implement the new requirements when compared to Alternative 2 7

The staff based the estimate of 15 months on the time needed for a contract to be put in place, the contractor to conduct the technical analysis, and the staff to evaluate the contractors analysis.

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This alternative would result in a more risk-informed approach for determining decommissioning funding costs and allow for added flexibility to address differences among licensees and changes over time. However, the NRC staff determined that developing a new approach would require significant time, effort, and resources. Based on internal discussions, comments received on the petition, and stakeholder input provided during the public meeting, the NRC staff concluded that this approach also goes beyond the petitioners request of updating Appendix B to include unlisted NARM radionuclides not currently included in the table and would not provide the fast regulatory relief to licensees as requested. For these reasons, the NRC is not recommending this alternative.

4.5 Alternative 5Update Appendix B to 10 CFR Part 30 and Develop a New Process for Assessing Decommissioning Funding Costs (Combines Alternative 2 and Alternative 4 - Two rulemakings)

This alternative considers combining Alternatives 2 and 4 into a multistep rulemaking process.

The NRC would update the values in Appendix B to 10 CFR Part 30 as outlined in Alternative 2, developing a more up-to-date and risk-informed table of values for use in assessing decommissioning funding costs. This addresses the concerns outlined in the petition and the direction provided by the Commission. The NRC then would investigate a more modern, risk-informed approach for developing and maintaining an up-to-date DFP, with contractor assistance and input from the public.

Table 4 lists the advantages and disadvantages considered by the NRC for this alternative.

Table 4: Advantages and Disadvantages of Alternative 5 Advantages

  • provides the same advantages identified for Alternatives 2 and 4
  • addresses specific issues identified in SECY-19-0125 and issues related to decommissioning costs
  • provides quick resolution to the initial issues raised in the petition
  • provides licensees with the flexibility to use either the table or a site-specific approach Disadvantages
  • has the same disadvantages identified for Alternatives 2 and 4
  • requires a longer timeframe to complete the final rule Pursuing this alternative would result in a more up-to-date and risk-informed Appendix B to 10 CFR Part 30, while also developing a process for developing site-specific DFPs. However, this approach would require the approval of a second rulemaking, while stakeholders want a faster resolution to the request to provide specific radionuclide possession values. This alternative would also require two separate rulemakings and take longer to complete. For these reasons, the NRC is not recommending this alternative.
5. Basis for Proposed Changes This section explains the proposed changes to NRC regulations and discusses the technical rationale and assumptions used to support those changes. This section also discusses how the proposed changes could resolve the issues identified in Section 3 of this regulatory basis.

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5.1 Proposed Changes The recommended rulemaking alternative is to replace the entire Appendix B to 10 CFR Part 30 with the information from Appendix C to 10 CFR Part 20 except for radionuclides with a half-life of less than or equal to 120 days. The NRC would change the title of Appendix B to align with its decommissioning purpose.

5.2 Benefits of the Rulemaking 5.2.1 A More Risk-Informed Regulation A risk-informed approach to regulatory decisionmaking represents a philosophy whereby risk insights are considered, together with other factors, to establish requirements that better focus licensee and regulatory attention on issues commensurate with their importance to public health and safety. This approach to regulation reduces unnecessary conservatism in regulation. The rulemaking would advance the NRCs commitment to maintain up-to-date regulations by aligning the NRCs DFA requirements with more risk-informed possession values in Appendix B to 10 CFR Part 30. The Appendix B values are currently based on radiation principles associated with ICRP Publication 2 (1959) that did not consider risk. The rulemaking would update the values in Appendix B using the values in Appendix C to 10 CFR Part 20. The Appendix C values reflect a more recent understanding of radionuclide biokinetics by incorporating the methodologies in ICRP Publication 26 (1977) and ICRP Publication 30. It would provide a more risk-informed alternative to the generic default values that result in decommissioning funding requirements that are not commensurate with anticipated decommissioning costs and associated risks to public health and safety. Thus, a rulemaking would ensure that the DFA requirements reflect more up-to-date radiation protection principles.

5.2.2 Reduces or Eliminates Exemption Requests The rulemaking would reduce or eliminate the need for licensees to submit exemption requests for some unlisted radionuclides. In turn, the NRC and the Agreement States would no longer need to perform time-consuming and resource-intensive exemption evaluations on a case-by-case basis for some unlisted NARM radionuclides.

The impact on Ge-68/Ga-68 generators is a good example of how this regulatory change would affect licensees. Ge-68, a NARM radionuclide with a half-life of 271 days, exceeds the 120-day half-life criterion. Because Ge-68 is not currently listed in Appendix B to 10 CFR Part 30, the default possession value of 0.1 µCi is used to determine DFA and DFP requirements. In the current 10 CFR 30.35(a), DFA and DFP requirements apply to radionuclides with a half-life greater than 120 days in quantities exceeding 1x105 times the applicable quantities set forth in Appendix B for unsealed sources and quantities exceeding 1x1012 times the applicable quantities set forth in Appendix B for sealed sources. In addition, 10 CFR 30.35(b) provides that a licensee can chose to either submit a DFP according to 10 CFR 30.35(e) or submit a DFA certification in the amount prescribed by 10 CFR 30.35(d).

Since Ge-68/Ga-68 generators are not considered a sealed source, the unsealed source value would be applied. Thus, 0.1 µCi or 0.0001 (1x10-4 mCi) multiplied by 1x105 results in a DFA limit of 10 mCi. Because each new Ge-68/Ga-68 generator has 50 mCi of Ge-68, the possession of one generator would subject a licensee to DFP requirements in accordance with 19

10 CFR 30.35(a)(1). In addition, one new Ge-68/Ga-68 generator at 50 mCi of Ge-68 per generator exceeds the 10 mCi limit for DFA certification under 10 CFR 30.35(d) of $1.125 million.

Therefore, the current regulations would not allow Ge-68/Ga-68 generator licensees the option of submitting a DFA certificate under 10 CFR 30.35(d).

If the NRC updates the value in Appendix B to 10 CFR Part 30 to 10 µCi, the value from Appendix C to 10 CFR Part 20, then the DFA limit for Ge-68/Ga-68 generators increases to 1,000 mCi (10 µCi or 0.01 mCi (1x10-2) multiplied by 1x105 for unsealed sources). As a result, licensees with 50 mCi of Ge-68 in each Ge-68/Ga-68 generator could possess up to 20 generators at a time before being subjected to the DFP requirements in 10 CFR 30.35(a)(1). In addition, according to 10 CFR 30.35(d), licensees possessing one or two Ge-68/Ga-68 generators (50 to 100 mCi of Ge-68) could provide a $225,000 DFA certificate and not submit a DFP; licensees possessing 3 to 20 generators (>100 to 1,000 mCi) could provide a $1.125 million DFA certificate without being required to develop a DFP. However, this applies only if the licensee does not possess additional radionuclides with half-lives greater than 120 days that would have to be considered under the unity rule as discussed in 10 CFR 30.35(a).

Thus, the proposed revisions to Appendix B to 10 CFR Part 30 would provide greater regulatory flexibility than the current regulations; the 200-mCi limit for Ge-68/Ga-68 generators discussed in the ACMUI report described in Section 2.4.1 above; and the NRC exemption guidance also described in Section 2.4.1. The proposed revisions would allow licensees to possess up to 20 generators before reaching the threshold of $1.125 million in DFA and would not require NRC review and approval of generator return agreements as one condition required for approving a site-specific exemption request. Therefore, the proposed rulemaking would reduce or eliminate exemption approval processing delays for the use of the unlisted Ge-68 and other NARM radionuclides that are important in the diagnosis and treatment of diseases, especially cancer.

5.2.3 Addresses Emerging Technologies The rulemaking would remove unnecessary decommissioning-related barriers to licensing Ga-68 imaging and other emerging medical and industrial technologies that use or plan to use the unlisted NARM radionuclides. Adding unlisted radionuclides in a single comprehensive rulemaking minimizes the need for additional rulemakings in the future when new applications are developed for radionuclides that are not included in the current Appendix B to 10 CFR Part 30.

5.2.4 Alignment of Title and Purpose Changing the title of Appendix B to 10 CFR Part 30 would eliminate any confusion between Appendix B to 10 CFR Part 30 and Appendix C to 10 CFR Part 20, differentiating between which regulation should be used for labeling requirements and which regulation should be used for decommissioning funding requirements. Both appendices are titled Quantities of Licensed Material Requiring Labeling. The rulemaking would retitle the table in Appendix B to 10 CFR Part 30 to reflect its purpose for determining DFA. The staff proposes to title 10 CFR Part 30, Appendix B, Quantities of Licensed Material Used to Assess Financial Assurance for Decommissioning.

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5.2.5 Alignment of Listing of Radionuclides and Decommissioning Criteria The rulemaking would align the listing of radionuclides with the decommissioning technical basis and criteria in 10 CFR 30.35 that require the amount of DFA to be determined for a given radionuclide with a half-life greater than 120 days, multiplied by the value in Appendix B to 10 CFR Part 30 for the radionuclide. Removing radionuclides with a half-life of 120 days or less is consistent with the technical basis that such radionuclides would completely decay in a few years and do not pose significant decommissioning concerns.

Some radioactive materials licensed under 10 CFR Part 70 have a half-life less than or equal to 120 days. Appendix C to 10 CFR Part 20 contains 12 radionuclides for plutonium that are licensed under 10 CFR Part 70. Seven of these radionuclides have half-lives greater than 120 days, four have half-lives less than 11 hours1.273148e-4 days <br />0.00306 hours <br />1.818783e-5 weeks <br />4.1855e-6 months <br />, and the last radionuclide, Pu-237, has a half-life of 45.2 days.

As a part of the rulemaking, the NRC staff plans to include the seven plutonium radionuclides with half-lives greater than 120 days into the revised Appendix B to 10 CFR Part 30. The NRC staff does not recommend including the four radionuclides with half-lives less than 11 hours1.273148e-4 days <br />0.00306 hours <br />1.818783e-5 weeks <br />4.1855e-6 months <br /> (Pu-234, Pu-235, Pu-243, and Pu-245) in the revised table in Appendix B to 10 CFR Part 30, because they will undergo a minimum of 10 half-lives within 5 days of creation/possession and will not require special consideration for decommissioning planning. The remaining radionuclide of plutonium considered (Pu-237) has a half-life of 45.2 days and has been used in environmental tracer studies. Pu-237 is produced by bombarding uranium targets with 27 megaelectron volts of helium ions using a cyclotron, and the primary decay mode is by electron capture to neptunium-237.

While 10 CFR Part 70 does not explicitly exclude this radionuclide from DFA consideration, Appendix B to 10 CFR Part 30 will include the target material and decay products. Accordingly, the NRC staff recommends excluding Pu-237 from the table in Appendix B to 10 CFR Part 30 to retain a consistent methodology for revision of Appendix B (i.e., including only radionuclides with half-lives greater than 120 days).

Appendix C to 10 CFR Part 20 includes 11 radionuclides for uranium. Six of these radionuclides have half-lives greater than 120 days, and the NRC staff recommends including these six radionuclides into a revised Appendix B to 10 CFR Part 30. Five uranium radionuclides have half-lives less than 120 days; the NRC staff recommends excluding them (U-230, U-231, U-237, U-239, and U-240) from the revised table in Appendix B to 10 CFR Part 30 because they are source material and are regulated under 10 CFR Part 40, Domestic licensing of source material, not 10 CFR Part 70. Thus, the staff recommends that 10 CFR 70.25 include the decommissioning technical basis and criteria that require DFA for radionuclides with a half-life greater than 120 days, revising as follows [emphasis added]:

(a)(2) A specific license authorizing the possession and use of unsealed special nuclear material of half-life greater than 120 days and in quantities exceeding 1x105 times the applicable quantities set forth in appendix B to part 30. A decommissioning funding plan must also be submitted when a combination of isotopes is involved if R divided by 1x105 is greater than 1 (unity rule), where R is the sum of the ratios of the quantity of each isotope to the applicable value in appendix B to part 30.

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(b) Each applicant for a specific license authorizing possession and use of unsealed special nuclear material of half-life greater than 120 days, in quantities specified in paragraph (d) of this section, shall either

6. Backfitting and Issue Finality Analysis The rulemaking would update the values in Appendix B to 10 CFR Part 30 that are used to calculate DFA for byproduct material licenses in accordance with 10 CFR 30.35 (10 CFR Part 30 licenses) and for unsealed special nuclear material licenses in accordance with 10 CFR 70.25 (10 CFR Part 70 licenses). There are no backfitting or issue finality provisions in 10 CFR Part 30.

Although 10 CFR Part 70 contains backfitting provisions, they are not applicable to the provisions in 10 CFR 70.25. The proposed regulatory changes do not impose modifications of or additions to the systems, structures, components, or design of facilities, nor would they require licensees to modify the procedures or organization required to design, construct, or operate facilities. Thus, the proposed changes are not backfits. As a result, no backfit analysis is required for this rulemaking.

7. Stakeholder Involvement Stakeholders have had several opportunities for involvement in this planned rulemaking.

Stakeholders, including the Agreement States, could comment on the OAS petition, as well as participate in a public meeting on this topic on January 7, 2021. The rulemaking process will provide future opportunities for public engagement.

In addition, the Agreement States participated in the development of this regulatory basis. In accordance with Management Directive 5.3, Agreement State Participation in Working Groups, dated June 22, 2016 (ADAMS Accession No. ML18073A142), the staff provided early opportunities for Agreement State engagement on this rulemaking. A representative from the OAS served on the working group that assisted in developing the regulatory basis, and an OAS representative is on the rulemaking steering committee. Additionally, the Agreement States had an opportunity to review a draft of this regulatory basis and provide comments. The OAS Board, as well as the Agreement States of Arkansas and Wisconsin, provided specific comments.

The NRC considered these comments in developing this regulatory basis, as described below:

  • Wisconsin supported Alternative 2 and indicated that the rulemaking should ease regulatory burden while protecting public health. As this supports the current recommendation, the staff did not revise the regulatory basis.
  • Arkansas recommended that the staff amend 10 CFR 70.25 to specifically include the 120-day half-life criterion to ensure consistency across the regulations. The NRC agreed and revised this regulatory basis accordingly.
  • The OAS Board supported Alternative 5 because it would provide prompt resolution of the petition issue (Alternative 2) combined with a modern, risk-informed resolution (Alternative 4). As discussed in Section 4 of this regulatory basis, the NRC is recommending Alternative 2 because it would result in a more up-to-date and risk-informed 22

approach to DFA without requiring significant time and resources. At this time, the NRC cannot justify the additional resources to conduct Alternative 4 (as part of Alternative 5).

After receiving public comment on this regulatory basis, the staff will consider whether its recommended alternative remains advantageous from a safety and cost basis.

In addition, the OAS Board questioned whether Alternative 2 would provide sufficient regulatory relief for Ge-68/Ga-68 generators. In consideration of this comment, the NRC expanded the discussion of the benefits of this rulemaking in Section 5.2.2 of this regulatory basis. Adding Ge-68 to the list of radionuclides in 10 CFR Part 30, Appendix B, directly addresses the issue with these generators that was the subject of the original petition and eliminates the need for DFPs in many cases. While further relief could be contemplatedsuch as by considering generators akin to sealed sources for purposes of DFAthis is outside the scope of the recommended rulemaking alternative. The OAS Board confirmed that this expanded discussion of the benefits addressed their technical questions with Alternative 2.

The staff will consider comments received from stakeholders on this regulatory basis in the development of the proposed rule.

8. Cost/Impact Considerations This section discusses cost and other impacts related to the rulemaking for DFA requirements for sealed and unsealed radioactive material. This section discusses potential impacts on three groups: (1) the NRC, (2) the Agreement States, and (3) licensees. The analyses presented in this section are based on the NRC staffs preliminary assessment. The staff will carry out a more detailed cost/impact evaluation as part of the regulatory analysis developed in accordance with NUREG/BR-0058, Revision 5, Regulatory Analysis Guidelines of the U.S. Nuclear Commission, Draft Report for Comment, issued April 2017, during the proposed rule phase of the rulemaking.

8.1 Applicability Under 10 CFR 30.35 and 10 CFR 70.25, certain specific NRC licensees authorized for use or possession of byproduct, source, or special nuclear material are subject to DFA requirements.

According to Appendix L to NUREG-1350, Volume 32, 2020-2021 Information Digest, issued October 2020 (ADAMS Accession No. ML20282A632), the total number of materials licenses issued by the NRC and the Agreement States is 18,664. The total number of radioactive material licenses under NRC jurisdiction is 2,209 (12 percent of total licensees), and the total under Agreement State jurisdiction is 16,455 (88 percent of total licensees). Based upon a search of NRCs Web-Based Licensing (WBL) system, 175 (8 percent of 2,209) of the NRC radioactive material licensees are, or have recently been, subject to 10 CFR 30.35 or 10 CFR 70.25 financial assurance requirements. By extrapolating based on the number of licenses in the Agreement States, the NRC estimates that 1,304 Agreement State licenses are or have recently been subject to financial assurance requirements. Therefore, 1,479 total licensees may be subject to financial assurance requirements. The types of licensees that are subject to financial assurance requirements include those authorized under a broad scope license and those authorized for medical, industrial, research, nuclear pharmacy, and manufacturer and distributor uses.

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8.2 Analysis Assumptions The estimates used in developing the cost estimates are based on a composite of a search of the WBL database and pending financial assurance licensing actions (as these will not be reflected in WBL). The staff subtracted the number of licenses issued under 10 CFR Part 40 in this search from the total number of licenses, since the rulemaking would not apply to 10 CFR Part 40 licensees. The estimates for Agreement State licensees are based on the ratio of the number of licensees under NRC jurisdiction. The cost estimates use only 38 of the current 39 Agreement States. The Wyoming Agreement State assumed the regulation of only uranium recovery from the NRC. Therefore, the State of Wyoming does not have jurisdiction over licensees that would be impacted by this rulemaking and was not included in the cost estimate.

The cost estimates cover several actions that would have to be done by the NRC, the Agreement States, and licensees. The NRC and the Agreement States would have to notify licensees of the rulemaking and the need for licensees to (1) review their licensed programs for any changes to the amount of required financial assurance or the need for a DFP and (2) review revised or new financial assurance estimates or DFPs. There are various mechanisms for DFPs, such as letters of credit, surety bonds, self-guarantee, and statements of intent, all of which carry different requirements and costs to put in place.

Many of the NRC licensees that are, or have recently been, subject to 10 CFR 30.35 or 10 CFR 70.25 financial assurance requirements (175 based on a search of WBL) are large radioactive materials programs such as broad scope licensees, nuclear pharmacies, researchers, manufacturers, and irradiators. These licensees will not see any impact on their DFA or DFPs based on the proposed rule. Based on this analysis, the NRC estimates that it would need to notify 60 licensees about the final rule. Of these 60, the NRC estimates that 40 licensees would need to review their financial assurance and may need to revise their financial assurance funding or DFP. For ease of calculations, the NRC used a ratio of 1 NRC licensee to 10 Agreement State licensees to estimate the number of actions for the Agreement States (rather than 12 percent to 88 percent as noted above). For industry calculations, the number of industry actions is the sum of the number of NRC actions and Agreement State actions.

8.3 Affected Entities The affected entities are the NRC, the Agreement States, and licensees.

8.3.1 NRC Based upon a 7-percent discount rate, the NRC estimates that the NPV projected cost of rulemaking would be approximately ($467,970). NRC implementation consists of completing the proposed and final rules and developing and issuing licensing guidance to comply with the new requirements. Additionally, the NRC would incur a NPV projected cost of approximately

($129,601) to review licensee revisions to DFA estimates or DFPs. The total NRC NPV projected cost is ($597,571).

8.3.2 Agreement States The Agreement States will have 3 years to adopt the regulatory changes. The NRC estimates that the NPV cost of this rulemaking to the Agreement States is approximately ($2,049,132) for 24

Agreement State rulemaking and associated changes, assuming a 7-percent discount rate. The Agreement States would also need to review licensee revisions to DFA estimates or DFPs. This rulemaking cost may be lower if the Agreement States choose to incorporate the regulatory changes by reference or by using other legally binding requirements (i.e., license conditions).

8.3.3 Licensees Assuming a 7-percent discount rate, the NRC estimates that the rule would incur a NPV cost to licensees of approximately ($3,810,315). Those costs would be incurred mainly during the review of its licensed programs and submission of necessary revisions to their DFA or DFPs. Additionally, some licensees may need to submit DFA estimates or DFPs for NRC or Agreement State review.

8.3.4 Tribal Nations The NRC does not expect the rule to affect any Tribal Nations.

8.4 Summary of Alternatives and Cost Appendix B to this regulatory basis tabulates the assumptions and inputs by alternative for each affected entity. Appendix C summarizes Alternatives 2-5 and shows the costs for each alternative for the NRC, the Agreement States, and industry. Table 5 summarizes the estimated costs for each alternative.

The NRC is recommending Alternative 2. Under Alternative 2, the NRC plans to update Appendix B to 10 CFR Part 30 by replacing the values in the appendix with the values from Appendix C to 10 CFR Part 20. Additionally, the NRC would exclude all radionuclides with a half-life of 120 days or less from the appendix because these radionuclides are not considered when applying DFA requirements. Finally, to clarify the purpose of Appendix B, the NRC would also change the title of the appendix to reflect its use in determining DFA requirements.

Table 5: Alternatives and Benefits (Costs)

Net Benefits (Costs) in 2021 Dollars DESCRIPTION Undiscounted 7% NPV 3% NPV Alternative 1Status Quo (No Action

$0 $0 $0 Taken)

Alternative 2Update the List of Radionuclides and the Values in the Table in Appendix B to 10 CFR Part 30 (NRC selected)

NRC Implementation ($518,000) ($468,000) ($495,000)

Alternative 2 NRC ($170,000) ($130,000) ($151,000)

Alternative 2 NRC Averted Cost $2,115,880 $2,075,601 $2,096,936 Alternative 2 Industry ($4,995,000) ($3,810,000) ($4,438,000)

Alternative 2 Industry Averted Cost $15,146,546 $13,962,315 $14,589,590 Alternative 2 Agreement States ($2,710,000) ($2,049,000) ($2,398,000)

Alternative 2 Agreement States Averted

$15,775,884 $15,115,132 $15,464,247 Cost Alternative 2 Total Net Benefits (Cost) $24,645,904 $24,696,030 $24,668,716 25

Net Benefits (Costs) in 2021 Dollars DESCRIPTION Undiscounted 7% NPV 3% NPV Alternative 3Partially Update Appendix B to Part 30 (Add unlisted NARM radionuclides and other radionuclides not currently listed to the existing table in Appendix B to 10 CFR Part 30)

NRC Implementation ($518,000) ($468,000) ($495,000)

Alternative 3 NRC ($170,000) ($130,000) ($151,000)

Alternative 3 Industry ($4,995,000) ($3,810,000) ($4,438,000)

Alternative 3 Agreement States ($2,710,000) ($2,049,000) ($2,398,000)

Alternative 3 Total Net Benefits (Cost) ($8,392,000) ($6,457,000) ($7,482,000)

Alternative 4Develop a New Process for Assessing Decommissioning Funding Costs NRC Implementation ($518,000) ($468,000) ($495,000)

Alternative 4 NRC ($222,000) ($169,000) ($197,000)

Alternative 4 Industry ($4,995,000) ($3,810,000) ($4,438,000)

Alternative 4 Agreement States ($2,984,000) ($2,249,000) ($2,637,000)

Alternative 4 Total Net Benefits (Cost) ($8,718,000) ($6,697,000) ($7,767,000)

Alternative 5Update Appendix B to 10 CFR Part 30 and Develop a New Process for Assessing Decommissioning Funding Costs (Combines Alternative 2 and Alternative 4 - Two rulemakings)

NRC Implementation ($1,088,000) ($861,000) ($979,000)

Alternative 5 NRC ($392,000) ($259,000) ($326,000)

Alternative 5 Industry ($9,989,000) ($6,717,000) ($8,380,000)

Alternative 5 Agreement States ($5,694,000) ($3,765,000) ($4,741,000)

Alternative 5 Total Net Benefits (Cost) ($17,163,000) ($11,601,000) ($14,427,000)

  • Values rounded to the nearest thousand. There may be differences among the tables due to rounding.
  • Values in parenthesis, e.g., () denote a cost of negative value.

The rulemaking for DFA requirements for sealed and unsealed radioactive material would have a projected cost of approximately $6.5 million over a 15-year period for the recommended alternative, Alternative 2. The majority of costs to the NRC, the Agreement States, and industry would be incurred during the first year of implementation of the final rule. The costs to the industry would include licensees having to review their current DFA or DFPs for any needed revisions to be in compliance with the final rule. Some licensees may need to obtain DFA or submit a DFP as a result of these changes. The NRC and the Agreement States would have to review any new or revised DFA estimates or DFPs. In the long run, however, the rulemaking would save resources and reduce costs, since fewer licensees would need to use default values for determining the amount of DFA or to seek exemptions. The NRC is requesting feedback from the public on this document to assist in identifying the overall cost that may result from the proposed rule to amend 10 CFR Part 30.

9. Uncertainty Analysis The NRC completed a Monte Carlo sensitivity analysis for this regulatory analysis using the specialty software @Risk. The Monte Carlo approach answers the question, What distribution of net benefits results from multiple draws of the probability distribution assigned to key variables?

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9.1 Uncertainty Analysis Assumptions As this regulatory analysis uses estimates of values that are sensitive to licensees unique situations, the staff analyzed the variables that have the greatest amount of uncertainty. To perform this analysis, the staff used a Monte Carlo simulation analysis using the @Risk software program. This was done to determine the robustness of the costs and net benefits of the rulemaking. The NRC examined how anticipated savings change due to uncertainties associated with the NRCs analytical assumptions and input data shown in Appendix B to this document.

9.2 Uncertainty Analysis Inputs The probability distributions chosen to represent the different variables in the analysis were bounded by the range-referenced input and the NRC staffs professional judgment. When defining the probability distributions for use in a Monte Carlo simulation, summary statistics are used to characterize the distributions. These summary statistics include the minimum, most likely, and maximum values of a program evaluation and review technique (PERT) distribution. The staff used the PERT distribution to reflect the relative spread and skewness of the distribution defined by the three estimatesthe minimum, most likely, and maximum. Figure 1 provides the probability distribution function and the descriptive statistics of the inputs used in the uncertainty analysis.

Appendix B to this document shows the inputs.

9.3 Uncertainty Analysis Results Figure 1 depicts the results of the uncertainty analysis of Alternative 2 net costs using a 7-percent discount rate. This figure displays the histogram of the incremental net cost for rulemaking to resolve the identified issues. The uncertainty analysis graph shows that the Alternative 2 mean net cost is ($6.5 million) in 2021 dollars with a 90-percent confidence level that the costs are between

($13.1 million) and ($2.57 million) using a 7-percent discount rate. Note that there will be differences in totals due to the software used to perform the uncertainty analysis.

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-9.77 -3.80 5.0% 90.0% 5.0%

Alternative 2 Total Net Benefits (Cost) / $0 Minimum -$13,113,977 Maximum -$2,567,543 Mean -$6,454,592 Std Dev $1,814,213 Values 10000

-14 -12 -10 -8 -6 -4 -2 Values in Millions ($)

Figure 1: Incremental Net Costs for Alternative 2 (7-Percent Discount Rate) 9.4 Sensitivity Analysis In addition to estimating the probability distributions for the net benefits of the rule, the staff used Monte Carlo simulation to conduct a sensitivity analysis to determine the variables that have the greatest impact on the resulting net costs. Variables shown to have a large effect on the resulting net benefits may deserve more attention and scrutiny than variables shown to have a small or minimal effect.

Figure 2 shows a tornado diagram that identifies the key variables whose uncertainty drives the largest impact on net benefits for this recommended alternative. Figure 2 ranks the variables based on their contribution to cost uncertainty.

The estimate that has the greatest variation in the Alternative 2 overall results is the licensee labor rate.

The uncertainty in this variable would result in a change to the mean of ($5.8 million), a difference in costs that ranges between ($3.8 million) to ($9.6 million) with a 90-percent confidence level.

The estimate that has the second greatest variation in the Alternative 2 overall results is the number of licensees revising their decommissioning plans. The uncertainty in this variable would result in a change to the mean of ($1.5 million), a difference in costs that ranges between

($5.7 million) to ($7.2 million) with a 90-percent confidence level.

The estimate that has the third greatest variation in the Alternative 2 overall results is the number of hours required per DFP. The uncertainty variable would result in a change to the mean of

($0.7 million), a difference in costs that ranges from ($6.1 million) to ($6.8 million) with a 90-percent confidence level.

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The estimate that has the fourth greatest variation in the Alternative 2 overall results is the number of industry licensees with revised financial assurance mechanism values. The uncertainty variable would result in a change to the mean of ($0.6 million), a difference in costs that ranges from

($6.2 million) to ($6.8 million) with a 90-percent confidence level. The remainder of the variables result in small or minimal effect on the costs.

Licensee Labor Rate Licensees Revise Their Decommissioning Plans No. Hours per Decommissioning Funding Plan Industry Licensees with Revised Financial Assurance Mechanism Values Figure 2: Alternative 2 Cost Drivers (7-Percent Discount Rate)

10. Rulemaking Cost Justification This regulatory basis supports a rulemaking to update Appendix B to 10 CFR Part 30 to include more risk-informed values for the existing radionuclides by using the values provided in Appendix C to 10 CFR Part 20, adding radionuclides not currently included, and clarifying that only materials containing radionuclides with half-lives greater than 120 days are subject to DFA and a DFP. Updating the table would lead to aggregated cost savings that would exceed the projected cost of this one-time rulemaking. For example, the current generic bounding estimate for the cost of a license exemption is $278,000, consisting of an estimated $188,000 for the licensees development and submittal of a license exemption request and an estimated $90,000 for the NRCs review. As of July 2019, the NRC staff had processed seven DFP exemption requests for Ge-68/Ga-68 generators at a cost of approximately $1.95 million ($278,000 x 7 DFP exemption reviews). The rulemaking would avert the cost of all such exemptions in the future. In addition, the NRC has conducted 24 DFP reviews as of December 2021. Fewer of these DFP reviews would be needed after the recommended rulemaking. In addition, the Agreement States regulate 87 percent of the materials licensees in the United States. Therefore, the NRC projects that the averted regulatory costs from reduced exemptions and fewer DFP reviews across the National Materials Program would far exceed the one-time rulemaking cost of $6.5 million.

This rulemaking, in the NRC staffs view, would also have a number of additional benefits to licensees, the NRC, and the Agreement States. The proposed changes to Appendix B to 10 CFR Part 30 that are incorporated into this rulemaking will provide a more risk-informed method for determining the need for DFA. This includes aligning Appendix B to 10 CFR Part 30 with the NRCs regulatory authority under the EPAct and the more up-to-date radiation protection standards in 10 CFR Part 20. The addition of radionuclides not previously included will also reduce the need to use default values that, as noted in the OAS petition, are often considered overly burdensome.

29

This is especially beneficial with the increased use of new radionuclides for medical and industrial applications.

As previously noted, these changes will also address concerns brought forward by radiopharmaceutical companies and other emerging medical and industrial technologies that use or plan to use NARM radionuclides that are not currently included in Appendix B to 10 CFR Part 30. This includes providing a more risk-informed calculation of decommissioning funding costs by using more risk-informed radionuclide-specific possession values to determine the level of financial assurance or the need for a DFP instead of the current generic values.

Avoiding the use of generic values would likely minimize any delays in the review of licensing actions that impact the development of diagnostic and therapeutic products that rely on radionuclides not currently included in Appendix B to 10 CFR Part 30, likely increasing the availability of new medical and industrial applications to the general public and potentially reducing the number and severity of patient health and safety concerns. This would decrease the need for the NRC and the Agreement States to perform time-consuming and resource-intensive evaluations of requested exemptions on a case-by-case basis for unlisted radionuclides.

The NRC also considered additional benefits such as better resolution in radiodiagnostic imaging, reduction in effective doses to patients, reduction of overall costs to patients, and reduction of costs to licensees that must currently develop DFPs.

11. Cumulative Effects of Regulation The NRC has implemented a program to address the possible cumulative effects of regulation in the development of regulatory bases for rulemakings. The cumulative effects of regulation are an organizational effectiveness challenge that results from licensees implementing several complex positions, programs, or requirements within a prescribed implementation period and with limited available resources. The NRC interacts with outside stakeholders throughout the rulemaking process in order to resolve issues that can lead to implementation challenges and contribute to the cumulative effects of regulation. Feedback from stakeholders is important to help the NRC make better informed decisions on mitigating the impact of the cumulative effects of regulation.
12. Regulatory Flexibility Act The Regulatory Flexibility Act (5 United States Code (U.S.C.) 601 et seq.), as amended by the Small Business Regulatory Enforcement Fairness Act, requires the NRC to consider the impact of its rulemakings on small entities and evaluate alternatives that would accomplish regulatory objectives without unduly burdening small entities or erecting barriers to competition. In developing the proposed rule, the staff will evaluate how many small entities it anticipates this rulemaking would affect and what steps the NRC can take to mitigate the economic impacts on small entities. The staff will use public comments received on this document to inform this analysis.
13. Environmental Analysis This rulemaking would revise Appendix B to 10 CFR Part 30 to replace the current values with those in Appendix C to 10 CFR Part 20. Pursuant to 10 CFR 51.21, Criteria for and identification of licensing and regulatory actions requiring environmental assessments, the NRC will develop an environmental assessment along with this rulemaking to determine whether issuing this rule will result in any significant impacts.

30

14. NRC Strategic Plan This rulemaking supports the NRCs 2018-2022 Strategic Plan (NUREG-1614, Volume 7, issued February 2018) (ADAMS Accession No. ML18032A561) in relation to the strategic goal of ensuring the safe use of radioactive materials. The rulemaking would support NRC Safety Strategy 2, Further risk-inform the current regulatory framework in response to advances in science and technology, policy decisions, and other factors, including prioritizing efforts to focus on the most safety-significant issues, by updating Appendix B to 10 CFR Part 30 to include unlisted radionuclides and remove radionuclides with half-lives less than or equal to 120 days. In addition, the planned rulemaking would support NRC Safety Strategy 3, Enhance the effectiveness and efficiency of licensing and certification activities to maintain both quality and timeliness of licensing and certification reviews, by developing a regulatory framework that facilitates the ability of industry to manufacture and market useful medical and industrial products to support various applications, while providing reasonable assurance of adequate protection of public health and safety, promoting the common defense and security, and protecting the environment. 8 7F
15. Decision Rationale The NRC supports updating Appendix B to 10 CFR Part 30 to include more risk-informed values for the existing radionuclides and to add the unlisted NARM radionuclides using the values in Appendix C to 10 CFR Part 20. As noted in Table 1 of this regulatory basis, not only would this rulemaking satisfy the petitioners request and the Commissions direction to provide a simple approach for addressing concerns associated with the values in the current Appendix B to 10 CFR Part 30, it would also result in a table with more up-to-date and risk-informed values.

These changes, which include the addition of radionuclides associated with emerging medical and industrial technologies that the table currently excludes, could enable more efficient reviews of diagnostic and therapeutic products, thus increasing the availability of new medical and industrial applications to the general public and potentially reducing the number and severity of patient health and safety concerns. Also, as noted in Section 10, implementing this rulemaking would avert some costs to the licensee, NRC, and the Agreement States.

16. References Atomic Energy Act of 1954, as amended (42 U.S.C. 2011 et seq.).

Energy Policy Act of 2005, Pub. L. 109-58.

Energy Reorganization Act of 1974, as amended (42 U.S.C. 5801 et seq.).

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International Commission on Radiological Protection, ICRP Publication 26, Recommendations of the International Commission on Radiological Protection, adopted January 17, 1977.

8 The NRC has developed a draft strategic plan for fiscal years 2022-2026 (NUREG-1614, Volume 8, issued September 2021) (ADAMS Accession No. ML21260A054).

31

International Commission on Radiological Protection, ICRP Publication 30, Limits for Intakes of Radionuclides by Workers, Annals of the ICRP, Pergamon Press, London, 1979-1988.

, Limits for Intakes of Radionuclides by Workers, ICRP Publication 30 (Part 1), Ann. ICRP 2 (3-4), 1979.

I , Limits for Intakes of Radionuclides by Workers, ICRP Publication 30 (Supplement to Part 1), Ann. ICRP 3 (1-4), 1979.

, Limits for Intakes of Radionuclides by Workers, ICRP Publication 30 (Part 2), Ann. ICRP 4 (3-4), 1980.

, Limits for Intakes of Radionuclides by Workers, ICRP Publication 30 (Part 3), Ann. ICRP 6 (2-3), 1981.

, Limits for Intakes of Radionuclides by Workers, ICRP Publication 30 (Supplement B to Part 3), Ann. ICRP 8 (1-3), 1982.

, Limits for Intakes of Radionuclides by Workers, ICRP Publication 30 (Index), Ann. ICRP 8 (4), 1982.

, Limits for Intakes of Radionuclides by Workers: An Addendum, ICRP Publication 30 (Part 4), Ann. ICRP 19 (4), 1988.

National Bureau of Standards, Handbook 52, Maximum Permissible Amounts of Radioisotopes in the Human Body and Maximum Permissible Concentrations in Air and Water, U.S. Department of Commerce, Washington, DC, March 20, 1953.

National Bureau of Standards, Handbook 59, Permissible Dose from External Sources of Ionizing Radiation, U.S. Department of Commerce, Washington, DC, January 8, 1957.

Office of the Federal Register, Federal Register, Final Rule to Part 20, Standards for Protection Against Radiation, 22 FR 548, January 29, 1957.

Office of the Federal Register, Federal Register, Final Rule to Part 20, Standards for Protection Against Radiation; Miscellaneous Amendments, 25 FR 8595, September 7, 1960.

Office of the Federal Register, Federal Register, Final Rule to Part 20, Standards for Protection Against Radiation, 25 FR 10914, November 17, 1960.

Office of the Federal Register, Federal Register, Final Rule to Appendix C to Part 20, Standards for Protection Against Radiation, 35 FR 6425, April 22, 1970.

Office of the Federal Register, Federal Register, Advance Notice of Rulemaking for Decommissioning Criteria for Nuclear Facilities, 43 FR 10370, March 13, 1978.

Office of the Federal Register, Federal Register, Response to and Partial Denial of Petition for Rulemaking Filed by the Public Interest Research Group, et al. (Docket No. PRM-50-22),

44 FR 36523, June 22, 1979.

Office of the Federal Register, Federal Register, Proposed Rule: Decommissioning of Nuclear Facilities Regulation (10 CFR Parts 30, 40, 50, and 70), 45 FR 37011, May 5, 1980.

32

Office of the Federal Register, Federal Register, Decommissioning Criteria for Nuclear Facilities:

Notice of Availability of Draft Generic Environment Impact Statement (10 CFR Parts 30, 40, 50, and 70), 46 FR 11666, February 10, 1981.

Office of the Federal Register, Federal Register, Proposed Rule: Decommissioning Criteria for Nuclear Facilities (10 CFR Parts 30, 40, 50, 51, 70, and 72), 50 FR 5600, February 11, 1985.

Office of the Federal Register, Federal Register, Proposed Rule: Standards for Protection Against Radiation, 50 FR 51992, December 20, 1985.

Office of the Federal Register, Federal Register, Proposed Rule: Standards for Protection Against Radiation, Extension of Comment Period, 51 FR 1092, January 9, 1986.

Office of the Federal Register, Federal Register, Final Rule: Medical Use of Byproduct Material, 51 FR 36932 and 36951, October 16, 1986.

Office of the Federal Register, Federal Register, Final Rule: General Requirements for Decommissioning Nuclear Facilities, 53 FR 24018, June 27, 1988.

Office of the Federal Register, Federal Register, Final Rule: Standards for Protection Against Radiation, 56 FR 23360, May 21, 1991.

Office of the Federal Register, Federal Register, Final Rule: Standards for Protection Against Radiation; Removal of Expired Material, 58 FR 67657 and 67659, December 22, 1993.

Office of the Federal Register, Federal Register, Final Rule: Medical Use of Byproduct Material, 67 FR 20299, April 24, 2002.

Office of the Federal Register, Federal Register, Petition for Rulemaking: Naturally-Occurring and Accelerator-Produced Radioactive Materials, 82 FR 39971, August 23, 2017.

Office of the Federal Register, Federal Register, Petition for Rulemaking: Naturally-Occurring and Accelerator-Produced Radioactive Materials, 85 FR 75959, November 27, 2020.

Office of the Federal Register, Federal Register, Final Rule: Requirements for Expanded Definition of Byproduct Material (NARM Rule), 72 FR 55863, October 1, 2007.

Organization of Agreement States, PRM-30-66, Request of the Organization of Agreement States for the NRC to Amend Appendix B, Quantities of Licensed Material Requiring Labeling, Supersedes ML17123A233, April 14, 2017 (ADAMS Accession No. ML17173A063).

Regulatory Flexibility Act (5 U.S.C. 601 et seq.).

U.S. Nuclear Regulatory Commission, Advisory Committee on the Medical Uses of Isotopes, Germanium-68 (Ge-68) Decommissioning Funding Plan (DFP) Final Report, and addendum, August 12, 2015 (ADAMS Accession No. ML15231A047).

33

U.S. Nuclear Regulatory Commission, 01/07/2021 Public Meeting Re: Decommissioning Financial Assurance Requirements for Sealed and Unsealed Radioactive Material, January 7, 2021 (ADAMS Package Accession No. ML21026A339).

U.S. Nuclear Regulatory Commission, Comments Received on PRM-30-66, Organization of Agreement States, February 7, 2018 (ADAMS Package Accession No. ML18038A879).

U.S. Nuclear Regulatory Commission, Letter to All Medical (and Academic) Licensees on Decay in Storage before Disposal, June 4, 1981 (ADAMS Accession No. ML20136E300).

U.S. Nuclear Regulatory Commission, Management Directive 5.3, Agreement State Participation in Working Groups, June 22, 2016 (ADAMS Accession No. ML18073A142).

U.S. Nuclear Regulatory Commission, Management Directive 5.9, Adequacy and Compatibility of Program Elements for Agreement State Programs, April 26, 2018 (ADAMS Accession No. ML18081A070).

U.S. Nuclear Regulatory Commission, Memorandum, Authorization for Granting Specific Exemption from Decommissioning Funding Plan Requirement for Germanium-68/Gallium-68 Generators, July 29, 2016 (ADAMS Accession No. ML16082A415).

U.S. Nuclear Regulatory Commission, Memorandum, Revision of Technical Basis for Granting Specific Exemption from Decommissioning Funding Plan Requirement for Germanium-68/Gallium-68 Generators, July 13, 2017 (ADAMS Accession No. ML17075A487).

U.S. Nuclear Regulatory Commission, SECY-19-0125, Petition for Rulemaking and Rulemaking Plan on Decommissioning Financial Assurance Requirements for Sealed and Unsealed Radioactive Material (PRM-30-66; NRC-2017-0159), December 17, 2019 (ADAMS Accession No. ML18292A479).

U.S. Nuclear Regulatory Commission, NUREG-1221, Summary, Analysis, and Response to Public Comments on Proposed Amendments to 10 CFR Parts 30, 40, 50, 51, 70, and 72, Decommissioning Criteria for Nuclear Facilities, June 1988 (ADAMS Accession No. ML18073A149).

U.S. Nuclear Regulatory Commission, NUREG-1350, Volume 32, 2020-2021 Information Digest, October 2020 (ADAMS Accession No. ML20282A632).

U.S. Nuclear Regulatory Commission, NUREG-1556, Volume 20, Consolidated Guidance About Materials Licenses: Guidance About Administrative Licensing Procedures, Final Report, December 2000 (ADAMS Accession No. ML010250252).

U.S. Nuclear Regulatory Commission, NUREG-1614, Volume 7, Strategic Plan Fiscal Years 2018-2022, February 2018 (ADAMS Accession No. ML18032A561).

U.S. Nuclear Regulatory Commission, NUREG-1614, Volume 8, Draft Report for Comment, Strategic Plan Fiscal Years 2018-2022, February 2018 (ADAMS Accession No. ML21260A054).

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U.S. Nuclear Regulatory Commission, NUREG-1757, Volume 3, Revision 1, Consolidated NMSS Decommissioning Guidance: Financial Assurance, Recordkeeping, and Timeliness, Final Report, February 2012 (ADAMS Accession No. ML12048A683).

U.S. Nuclear Regulatory Commission, NUREG/BR-0058, Revision 5, Regulatory Analysis Guidelines of the U.S. Nuclear Regulatory Commission, Draft Report for Comment, April 2017 (ADAMS Accession No. ML17100A480).

U.S. Nuclear Regulatory Commission, NUREG/CR-1754, Technology, Safety and Costs of Decommissioning Reference Non-Fuel-Cycle Nuclear Facilities, February 1981 (ADAMS Accession No. ML20008E869).

U.S. Nuclear Regulatory Commission, SECY-78-13, Recommendations on Course of Action for Establishing Nuclear Facility Decommissioning Requirements, January 10, 1978 (ADAMS Accession No. ML22063A141).

U.S. Nuclear Regulatory Commission, SECY-78-13A, Supplemental Information to SECY-78-13 Recommendations on Course of Action for Establishing Nuclear Facility Decommissioning Requirements, January 31, 1978 (ADAMS Accession No. ML21252A614).

U.S. Nuclear Regulatory Commission, SRM-78-13, Recommendations on Course of Action for Establishing Nuclear Facility Decommissioning Requirements, February 17, 1978 (ADAMS Accession No. ML22063A473).

U.S. Nuclear Regulatory Commission, SRM-SECY-19-0125, Staff Requirements SECY-19-0125Petition for Rulemaking and Rulemaking Plan on Decommissioning Financial Assurance Requirements for Sealed and Unsealed Radioactive Material (PRM-30-66; NRC-2017-0159), October 13, 2020 (ADAMS Accession No. ML20287A248).

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Appendix AQuantities of Licensed Material Used to Assess Financial Assurance for Decommissioning (Proposed Updated Table)

Radionuclide Microcuries Radionuclide Microcuries Actinium-227 0.001 Gadolinium-151 10 Aluminum-26 10 Gadolinium-152 100 Americium-241 0.001 Gadolinium-153 10 Americium-242m 0.001 Germanium-68 10 Americium-243 0.001 Gold-195 10 Antimony-125 100 Hafnium-172 1 Argon-39 1,000 Hafnium-178m 0.1 Barium-133 100 Hafnium-182 0.1 Berkelium-247 0.001 Holmium-166m 1 Berkelium-249 0.1 Hydrogen-3 1,000 Beryllium-10 1 Indium-115 100 Bismuth-207 10 Iodine-129 1 Bismuth-210m 0.1 Iridium-194m 10 Cadmium-109 1 Iron-55 100 Cadmium-113m 0.1 Iron-60 1 Cadmium-113 100 Krypton-81 1,000 Calcium-41 100 Krypton-85 1,000 Calcium-45 100 Lanthanum-137 10 Californium-248 0.01 Lanthanum-138 100 Californium-249 0.001 Lead-202 10 Californium-250 0.001 Lead-205 100 Californium-251 0.001 Lead-210 0.01 Californium-252 0.001 Lutetium-173 10 Carbon-14 100 Lutetium-174m 10 Cerium-139 100 Lutetium-174 10 Cerium-144 1 Lutetium-176 100 Cesium-134 10 Lutetium-177m 10 Cesium-135 100 Manganese-53 1,000 Cesium-137 10 Manganese-54 100 Chlorine-36 10 Mercury-194 1 Cobalt-57 100 Molybdenum-93 10 Cobalt-60 1 Neptunium-235 100 Curium-242 0.01 Neptunium-236 0.001 Curium-243 0.001 Neptunium-237 0.001 Curium-244 0.001 Nickel-59 100 Curium-245 0.001 Nickel-63 100 Curium-246 0.001 Niobium-93m 10 Curium-247 0.001 Niobium-94 1 Curium-248 0.001 Osmium-194 1 Dysprosium-159 100 Palladium-107 10 Einsteinium-254 0.01 Platinum-193 1,000 Europium-150 1 Plutonium-236 0.001 Europium-152 1 Plutonium-238 0.001 Europium-154 1 Plutonium-239 0.001 Europium-155 10 Plutonium-240 0.001 Gadolinium-148 0.001 Plutonium-241 0.01 A-1

Radionuclide Microcuries Radionuclide Microcuries Plutonium-242 0.001 Tungsten-181 1,000 Plutonium-244 0.001 Uranium-232 0.001 Polonium-210 0.1 Uranium-233 0.001 Potassium-40 100 Uranium-234 0.001 Promethium-143 100 Uranium-235 0.001 Promethium-144 10 Uranium-236 0.001 Promethium-145 10 Uranium-238 100 Promethium-146 1 Uranium-natural 100 Promethium-147 10 Vanadium-49 1,000 Protactinium-231 0.001 Zinc-65 10 Radium-226 0.1 Zirconium-93 1 Radium-228 0.1 Any alpha-emitting Rhenium-184m 10 radionuclide not listed above 0.001 Rhenium-186m 10 or mixtures of alpha emitters Rhenium-187 1,000 of unknown composition Rhodium-101 10 Any radionuclide other than Rhodium-102m 10 alpha-emitting radionuclides 0.01 Rhodium-102 10 not listed above, or mixtures Rubidium-87 100 of beta emitters of unknown Ruthenium-106 1 composition Samarium-145 100 This table includes only radionuclides with a Samarium-146 1 half-life greater than 120 days. It excludes Samarium-147 100 radionuclides with a half-life less than or Samarium-151 10 equal to 120 days because they are not subject to decommissioning financial Selenium-79 100 assurance requirements.

Silicon-32 1 Silver-108m 1 Silver-110m 10 Sodium-22 10 Strontium-90 0.1 Tantalum-179 100 Technetium-97 1,000 Technetium-98 10 Technetium-99 100 Tellurium-121m 10 Tellurium-123 100 Terbium-157 10 Terbium-158 1 Thallium-204 100 Thorium-228 0.001 Thorium-229 0.001 Thorium-230 0.001 Thorium-232 100 Thorium-natural 100 Thulium-170 10 Thulium-171 10 Tin-119m 100 Tin-121m 100 Tin-123 10 Tin-126 10 Titanium-44 1 A-2

Appendix BData Tables Mean Most High Description Distribution Low Estimate Estimate Likely Estimate Alternative 2 - STAFF RECOMMENDATION Alternative 2 - Update the List of Radionuclides and the Values in Appendix B to Part 30 Table (NRC Selected)

Under Alternative 2, the NRC would update the current table in Appendix B to Part 30 using the radionuclides and values from Appendix C to Part 20. This includes the addition of radionuclides that are not currently in Appendix B. In addition to adding radionuclides and updating values to incorporate ICRP 26/30 methodologies, the NRC would remove all radionuclides with a half-life of 120 days or less from the table since they are not considered when assessing decommissioning financial assurance or developing decommissioning funding plans. By making these changes, licensees, the NRC, and the Agreement States would have an up-to-date table with more risk-informed values for use when assessing decommissioning financial assurance and developing decommissioning funding plans. Appendix A of the regulatory basis contains an updated version of the table.

Mean Most High Description Distribution Low Estimate Estimate Likely Estimate Amend Appendix B to add unlisted isotopes and assign them risk-informed specific possession values that result in decommissioning funding requirements that better reflect expected costs.

Alternative 2 NRC NRC review NUREG-1757, Volume 3 (number of documents) 1 1 1 NRC revise and issue guidance (e.g., NUREG-1757, Volume 3)

(200) PERT (250) (200) (150)

(number of hours)

NRC decommissioning rule notification to potentially affected 60 PERT 45 60 75 licensees (number of licensees)

NRC decommissioning rule notification to potentially affected (4) PERT (5) (4) (3) licensees (hours/licensee)

NRC review of licensees new or revised decommissioning funding plans or financial assurance funding (number of 40 PERT 20 40 60 reviews)

NRC review of licensees new or revised decommissioning (20) PERT (25) (20) (15) funding plans or financial assurance funding (hours/review)

Alternative 2 Agreement States Agreement States complete rulemakings to incorporate compatible regulations (number of Agreement State 38 PERT 29 38 48 rulemakings)

Agreement States complete rulemaking to incorporate (120) PERT (150) (120) (90) compatible regulations (hours/rulemaking)

Agreement States review and revise compatible guidance (e.g.,

(200) PERT (250) (200) (150)

NUREG-1757, Volume 3) (hours/revision)

Agreement States decommissioning rule notification to 600 PERT 450 600 750 potentially affected licensees (number of licensees)

Agreement States decommissioning rule notification to (4) PERT (5) (4) (3) potentially affected licensees (hours/licensee)

Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding 400 PERT 200 400 600 (number of reviews)

Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding (20) PERT (25) (20) (15)

(hours/ review)

B-1

Mean Most High Description Distribution Low Estimate Estimate Likely Estimate Alternative 2 Industry Licensees evaluate impact of rule on decommissioning funding 660 PERT 495 660 825 levels (number of licensees)

Licensees review rulemaking for revisions to their decommissioning funding plans or financial assurance funding (8) PERT (10) (8) (6)

(hours/licensee)

Licensees required to revise their decommissioning funding 440 PERT 220 440 660 plans or financial assurance funding (number of licensees)

Licensees required to revise their decommissioning funding (60) PERT (75) (60) (45) plans or financial assurance funding (hours/licensee)

Licensees required to increase their financial assurance 165 PERT 83 165 248 mechanism values (number of licensees)

Licensees required to increase their financial assurance (60) PERT (75) (60) (45) mechanism values (hours/licensee)

Alternative 3 (NOT SELECTED)

Alternative 3 - Partially Update Appendix B to Part 30 (Add unlisted NARM radionuclides and other radionuclides not currently listed to the existing table in Appendix B to Part 30)

Under this alternative, the NRC would add only the unlisted NARM radionuclides and other radionuclides not currently listed in Appendix B to Part 30 by using the values from the current Appendix C to Part 20 to populate the table. The radionuclides and values currently listed in the table would remain the same. This alternative would result in decommissioning financial assurance requirements being based on a disjointed table of radionuclides with values derived from multiple ICRP methodologies. Thus, this approach was not considered further.

Alternative 3 NRC NRC review NUREG-1757, Volume 3 (number of documents) 1 1 1 NRC revise and issue guidance (e.g., NUREG-1757, Volume 3)

(200) PERT (250) (200) (150)

(number of hours)

NRC decommissioning rule notification to potentially affected 60 PERT 45 60 75 licensees (number of licensees)

NRC decommissioning rule notification to potentially affected (4) PERT (5) (4) (3) licensees (hours/licensee)

NRC review of licensees new or revised decommissioning funding plans or financial assurance funding (number of 40 PERT 20 40 60 reviews)

NRC review of licensees new or revised decommissioning (20) PERT (25) (20) (15) funding plans or financial assurance funding (hours/review)

Alternative 3 Agreement States Agreement States complete rulemakings to incorporate compatible regulations (number of Agreement State 38 PERT 29 38 48 rulemakings)

Agreement States complete rulemakings to incorporate (180) PERT (225) (180) (135) compatible regulations (hours/rulemaking)

Agreement States review and revise compatible guidance (e.g.,

(200) PERT (250) (200) (150)

NUREG-1757, Volume 3) (hours/revision)

Agreement States decommissioning rule notification to 600 PERT 450 600 750 potentially affected licensees (number of licensees)

Agreement States decommissioning rule notification to (4) PERT (5) (4) (3) potentially affected licensees (hours/licensee)

Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding 400 PERT 200 400 600 (number of reviews)

B-2

Mean Most High Description Distribution Low Estimate Estimate Likely Estimate Agreement States review of licensees revised decommissioning funding plans or financial assurance funding (20) PERT (25) (20) (15)

(hours/ review)

Alternative 3 Industry Licensees evaluate impact of rule on decommissioning funding 660 PERT 495 660 825 levels (number of licensees)

Licensees review rulemaking for revisions to their decommissioning funding plans or financial assurance funding (8) PERT (10) (8) (6)

(hours/licensee)

Licensees required to revise their decommissioning funding 440 PERT 220 440 660 plans or financial assurance funding (number of licensees)

Licensees required to revise their decommissioning funding (60) PERT (75) (60) (45) plans or financial assurance funding (hours/licensee)

Licensees required to increase their financial assurance 165 PERT 83 165 248 mechanism values (number of licensees)

Licensees required to increase their financial assurance (60) PERT (75) (60) (45) mechanism values (hours/licensee)

Alternative 4 (NOT SELECTED)

Alternative 4 - Develop a New Process for Assessing Decommissioning Funding Costs Under this alternative, the NRC would move away from the use of generic table values and establish new criteria for determining decommissioning funding costs. This alternative would provide licensees with a more up-to-date and risk-informed approach for establishing decommissioning funding values based on their individual, site-specific needs. Implementing this alternative would require significant time, effort, and resources which have not currently been allocated. Thus, this approach was not considered further.

Alternative 4 NRC NRC establish a contract to develop a new methodology for 1 PERT 1 1 1 revising 10 CFR 30.35 NRC and contractor develop new methodology for revising (240) PERT (300) (240) (180) 10 CFR 30.35 (hours/rule)

NRC review of NUREG-1757, Volume 3 (number of 1 PERT 1 1 1 documents)

NRC review and revise NUREG-1757, Volume 3 (300) PERT (375) (300) (225)

(hours/revision)

NRC decommissioning rule notification to potentially affected 60 PERT 45 60 75 licensees (number of licensees)

NRC decommissioning rule notification to potentially affected (4) PERT (5) (4) (3) licensees (hours/licensee)

NRC review of licensees new or revised decommissioning funding plans or financial assurance funding (number of 40 PERT 20 40 60 reviews)

NRC review of licensees new or revised decommissioning (20) PERT (25) (20) (15) funding plans or financial assurance funding (hours/review)

Alternative 4 Agreement States Agreement States complete rulemakings to incorporate compatible regulations (number of Agreement States 38 PERT 29 38 48 rulemakings)

Agreement States complete rulemakings to incorporate (180) PERT (225) (180) (135) compatible regulations (hours/rulemaking)

Agreement States review and revise compatible guidance (200) PERT (250) (200) (150)

(e.g., NUREG-1757, Volume 3) (number of hours)

Agreement States decommissioning rule notification to 600 PERT 450 600 750 potentially affected licensees (number of licensees)

B-3

Mean Most High Description Distribution Low Estimate Estimate Likely Estimate Agreement States decommissioning rule notification to (4) PERT (5) (4) (3) potentially affected licensees (hours/licensee)

Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding 400 PERT 200 400 600 (number of reviews)

Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding (20) PERT (25) (20) (15)

(hours/review)

Alternative 4 Industry Licensees evaluate impact of rule on decommissioning funding 660 PERT 495 660 825 levels (number of licensees)

Licensees review rulemaking for revisions to their decommissioning funding plans or financial assurance funding (8) PERT (10) (8) (6)

(hours/licensee)

Licensees required to revise their decommissioning funding 440 PERT 220 440 660 plans or financial assurance funding (number of licensees)

Licensees required to revise their decommissioning funding (60) PERT (75) (60) (45) plans or financial assurance funding (hours/licensee)

Licensees required to increase their financial assurance 165 PERT 83 165 248 mechanism values (number of licensees)

Licensees required to increase their financial assurance (60) PERT (75) (60) (45) mechanism values (hours/licensee)

Alternative 5 (NOT SELECTED)

Alternative 5 - Update Appendix B to Part 30 and Develop a New Process for Assessing Decommissioning Funding Costs (Two rulemakings)

Alternative 5 combines Alternative 2 and Alternative 4 into a multistep rulemaking process. The NRC would implement Alternative 2 and update all the radionuclides listed in Appendix B to Part 30 using the values from Appendix C to Part 20. The NRC would then develop a more up-to-date and risk-informed process for assessing decommissioning funding costs. This alternative would require two rulemakings and would require significant time, effort, and resources which have not currently been allocated. This alternative was considered as part of the development of the Regulatory Basis but was not pursued.

Alternative 5 NRC 1st Rule: Update the list of radionuclides and values in table in 1 PERT 1 1 1 Appendix B to 10 CFR Part 30 1st Rule: NRC review NUREG-1757, Volume 3 (number of 1 PERT 1 1 1 documents) 1st Rule: NRC revise and issue guidance (e.g., NUREG-1757, (200) PERT (250) (200) (150)

Volume 3) (number of hours) 1st Rule: NRC decommissioning rule notification to potentially 60 PERT 45 60 75 affected licensees (number of licensees) 1st Rule: NRC decommissioning rule notification to potentially (4) PERT (5) (4) (3) affected licensees (hours/licensee) 1st Rule: NRC review of licensees new or revised decommissioning funding plans or financial assurance funding 40 PERT 20 40 60 (number of reviews) 1st Rule: NRC review of licensees new or revised decommissioning funding plans or financial assurance funding (20) PERT (25) (20) (15)

(hours/review) 2nd Rule: Contractor/NRC develop new methodology for 1 PERT 1 1 1 revising 10 CFR 30.35 2nd Rule: NRC/contractor change 10 CFR 30.35 (hours/rule) (240) PERT (300) (240) (180) 2nd Rule: NRC review NUREG-1757, Volume 3 (number of 1 PERT 1 1 1 documents)

B-4

Mean Most High Description Distribution Low Estimate Estimate Likely Estimate 2nd Rule: NRC revise existing NRC guidance (NUREG-1757, (300) PERT (375) (300) (225)

Volume 3) (hours) 2nd Rule: NRC decommissioning rule notification to potentially 60 PERT 45 60 75 affected licensees (number of licensees) 2nd Rule: NRC decommissioning rule notification to potentially (4) PERT (5) (4) (3) affected licensees (hours/licensee) 2nd Rule: NRC review of licensees new or revised decommissioning funding plans or financial assurance funding 40 PERT 20 40 60 (number of reviews) 2nd Rule: NRC review of licensees new or revised decommissioning funding plans or financial assurance funding (20) PERT (25) (20) (15)

(hours/review) (hours/review)

Alternative 5 Agreement States 1st Rule: Agreement States complete rulemakings to incorporate compatible regulations (number of Agreement 38 PERT 29 38 48 States rulemakings) 1st Rule: Agreement States complete rulemakings to (120) PERT (150) (120) (90) incorporate compatible regulations (hours/rulemaking) 1st Rule: Agreement States review and revise compatible (200) PERT (250) (200) (150) guidance (e.g., NUREG-1757, Volume 3) (hours/revision) 1st Rule: Agreement States decommissioning rule notification 600 PERT 450 600 750 to potentially affected licensees (number of licensees) 1st Rule: Agreement States decommissioning rule notification (4) PERT (5) (4) (3) to potentially affected licensees (hours/licensee) 1st Rule: Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding 400 PERT 200 400 600 (number of reviews) 1st Rule: Agreement States review of licensees new or revised decommissioning funding plans or financial assurance funding (20) PERT (25) (20) (15)

(hours/review) 2nd Rule: Agreement States complete rulemakings to incorporate compatible regulations (number of Agreement 38 PERT 29 38 48 States rulemakings) 2nd Rule: Agreement States complete rulemakings to (180) PERT (225) (180) (135) incorporate compatible regulations (hours/rulemaking) 2nd Rule: Agreement States review and revise compatible (200) PERT (250) (200) (150) guidance (e.g., NUREG-1757, Volume 3) (hours/revision) 2nd Rule: Agreement States decommissioning rule notification 600 PERT 450 600 750 to potentially affected licensees (number of licensees) 2nd Rule: Agreement States decommissioning rule notification (4) PERT (5) (4) (3) to potentially affected licensees (hours/licensee) 2nd Rule: Agreement States review of licensees new or revised decommissioning funding plans or financial assurance 400 PERT 200 400 600 funding (number of reviews) 2nd Rule: Agreement States review of licensees new or revised decommissioning funding plans or financial assurance (20) PERT (25) (20) (15) funding (number of reviews (hours/review))

B-5

Mean Most High Description Distribution Low Estimate Estimate Likely Estimate Alternative 5 Industry 1st Rule: Licensees evaluate impact of rule on 660 PERT 495 660 825 decommissioning funding levels (number of licensees) 1st Rule: Licensees review rulemaking for revisions to their decommissioning funding plans or financial assurance funding (8) PERT (10) (8) (6)

(hours/licensee) 1st Rule: Licensees required to revise their decommissioning funding plans or financial assurance funding (number of 440 PERT 220 440 660 licensees) 1st Rule: Licensees required to revise their decommissioning (60) PERT (75) (60) (45) funding plans or financial assurance funding (hours/licensee) 1st Rule: Licensees required to increase their financial 165 PERT 83 165 248 assurance mechanism values (number of licensees) 1st Rule: Licensees required to increase their financial (60) PERT (75) (60) (45) assurance mechanism values (hours/ licensee) 2nd Rule: Licensees evaluate impact of rule on 660 PERT 495 660 825 decommissioning funding levels (number of licensees) 2nd Rule: Licensees review rulemaking for revisions to their decommissioning funding plans or financial assurance funding (8) PERT (10) (8) (6)

(hours/licensee) 2nd Rule: Licensees required to revise their decommissioning funding plans or financial assurance funding (number of 440 PERT 220 440 660 licensees) 2nd Rule: Licensees required to revise their decommissioning (60) PERT (75) (60) (45) funding plans or financial assurance funding (hours/licensee) 2nd Rule: Licensees required to increase their financial 165 PERT 83 165 248 assurance mechanism values (number of licensees) 2nd Rule: Licensees required to increase their financial (60) PERT (75) (60) (45) assurance mechanism values (hours/licensee)

B-6

Appendix CSummary and Tables of Costs for Each Alternative by NRC, Agreement States, and Industry The Appendix C tables show the calculations for the net costs associated with each alternative by the NRC, Agreement States, and industry. Note that Alternative 1 is not included here, because it has no additional benefits (costs). See Table 5, Alternatives and Benefits (Costs),

for more information. Alternative 5 also is not included here, because it combines Alternative 2 and Alternative 4. See Appendix B, Data Tables, for more information.

Alternative 2 Table C-1: Alternative 2 - NRC Operations Benefits (Costs)

Weighted Net Benefits (Costs)

Number Number Year Activity Hourly of Items of Hours Undiscounted 7% NPV 3% NPV Rate NRC revise and issue 2025 guidance (e.g., NUREG-1757, 1 (200) $137 ($27,400) ($20,903) ($24,345)

Volume 3) (cost of revision)

NRC decommissioning rule notification to potentially 2025 60 (4) $137 ($32,880) ($25,084) ($29,213) affected licensees (cost of notification)

NRC review of licensees new or revised decommissioning 2025 funding plans or financial 40 (20) $137 ($109,600) ($83,613) ($97,378) assurance funding (cost of reviews)

NRC Operations Benefit (Cost) ($169,880) ($129,601) ($150,936)

Table C-2: Alternative 2 - Agreement State Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate Agreement States complete 2025 rulemakings to incorporate to 38 (120) $120 ($547,742) ($399,645) ($477,212) compatible regulations (cost of 2027 Agreement State rulemakings)

Agreement States review and revise compatible guidance 2025 38 (200) $120 ($912,904) ($696,450) ($811,103)

(e.g., NUREG-1757, Volume 3)

(cost of revisions)

Agreement States decommissioning rule 2025 notification to potentially 600 (4) $120 ($288,285) ($219,932) ($256,138) affected licensees (cost of notifications)

Agreement States review of licensees new or revised 2025 decommissioning funding plans 400 (20) $120 ($960,952) ($733,105) ($853,793) or financial assurance funding (cost of reviews)

Agreement State Net Benefits (Costs) ($2,709,883) ($2,049,132) ($2,398,246)

C-1

Table C-3: Alternative 2 - Industry Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly Undiscounte of Items Hours 7% NPV 3% NPV Rate d Licensees evaluate impact of rule on decommissioning 2025 660 (8) $120 ($634,228) ($483,850) ($563,503) funding levels (cost of evaluations)

Licensees required to revise their decommissioning funding 2025 440 (60) $120 ($3,171,140) ($2,419,248) ($2,817,517) plans or financial assurance funding (cost of revisions)

Licensees required to increase their financial assurance 2025 165 (60) $120 ($1,189,178) ($907,218) ($1,056,569) mechanism values (cost of revisions)

Industry Net Benefits (Costs) ($4,994,546) ($3,810,315) ($4,437,590)

Alternative 3 Table C-4: Alternative 3 - NRC Operations Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate NRC review and revise 2025 guidance (e.g., NUREG-1757, 1 (200) $137 ($27,400) ($20,903) ($24,345)

Volume 3) (cost of revisions)

NRC decommissioning rule notification to potentially 2025 60 (4) $137 ($32,880) ($25,084) ($29,213) affected licensees (cost of notifications)

NRC review of new or revised decommissioning 2025 funding plans or financial 40 (20) $137 ($109,600) ($83,613) ($97,378) assurance funding (cost of reviews)

NRC Operations Benefit (Cost) ($169,880) ($129,601) ($150,936)

C-2

Table C-5: Alternative 3 - Agreement State Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate Agreement States complete 2025 rulemakings to incorporate to 38 (120) $120 ($547,742) ($399,645) ($477,212) compatible regulations (cost 2027 of rulemakings)

Agreement States review and revise compatible 2025 guidance (e.g., NUREG- 38 (200) $120 ($912,904) ($696,450) ($811,103) 1757, Volume 3) (cost of revisions)

Agreement States decommissioning rule 2025 notification to potentially 600 (4) $120 ($288,285) ($219,932) ($256,138) affected licensees (cost of notifications)

Agreement States review of licensees new or revised 2025 decommissioning funding 400 (20) $120 ($960,952) ($733,105) ($853,793) plans or financial assurance funding (cost of reviews)

Agreement State Net Benefits (Costs) ($2,709,883) ($2,049,132) ($2,398,246)

Table C-6: Alternative 3 - Industry Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate Licensees evaluate impact of rule on decommissioning 2025 660 (8) $120 ($634,228) ($483,850) ($563,503) funding levels (cost of evaluations)

Licensees required to revise their decommissioning 2025 funding plans or financial 440 (60) $120 ($3,171,140) ($2,419,248) ($2,817,517) assurance funding (cost of revisions)

Licensees required to increase their financial 2025 165 (60) $120 ($1,189,178) ($907,218) ($1,056,569) assurance mechanism values (cost of revisions)

Industry Net Benefits (Costs) ($4,994,546) ($3,810,315) ($4,437,590)

C-3

Alternative 4 Table C-7: Alternative 4 - NRC Operations Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate NRC/contractor revise 2025 10 CFR 30.35 (cost of 1 (240) $137 ($32,880) ($25,084) ($29,213) revisions)

NRC review and revise guidance (e.g., NUREG-2025 1 (300) $137 ($41,100) ($31,355) ($36,517) 1757, Volume 3) (cost of revisions)

NRC decommissioning rule notification to potentially 2025 60 (4) $137 ($32,880) ($25,084) ($29,213) affected licensees (cost of notifications)

NRC review of new or revised decommissioning funding 2025 40 (20) $137 ($109,600) ($83,613) ($97,378) plans or financial assurance funding (cost of reviews)

NRC Operations Benefit (Cost) ($221,940) ($169,317) ($197,191)

Table C-8: Alternative 4 - Agreement State Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate Agreement States complete 2025 rulemakings to incorporate to 38 (180) $120 ($821,614) ($599,468) ($715,818) compatible regulations (cost 2027 of rulemakings)

Agreement States review and revise compatible 2025 guidance (e.g., NUREG- 38 (200) $120 ($912,904) ($696,450) ($811,103) 1757, Volume 3) (cost of revisions)

Agreement States decommissioning rule 2025 notification to potentially 600 (4) $120 ($288,285) ($219,932) ($256,138) affected licensees (cost of notifications)

Agreement States review of licensees new or revised 2025 decommissioning funding 400 (20) $120 ($960,952) ($733,105) ($853,793) plans or financial assurance funding (cost of reviews)

Agreement States Net Benefits (Costs) ($2,983,755) ($2,248,955) ($2,636,853)

C-4

Table C-9: Alternative 4 - Industry Benefits (Costs)

Weighted Net Benefits (Costs)

Number Labor Year Activity Hourly of Items Hours Undiscounted 7% NPV 3% NPV Rate Licensees evaluate impact of rule on decommissioning 2025 660 (8) $120 ($634,228) ($483,850) ($563,503) funding levels (cost of evaluations)

Licensees required to revise their decommissioning 2025 funding plans or financial 440 (60) $120 ($3,171,140) ($2,419,248) ($2,817,517) assurance funding (cost of revisions)

Licensees required to increase their financial 2025 165 (60) $120 ($1,189,178) ($907,218) ($1,056,569) assurance mechanism values (cost of revisions)

Industry Net Benefits (Costs) ($4,994,546) ($3,810,315) ($4,437,590)

C-5

Alternative 5 Table C-10: Alternative 5 - NRC Operations Benefits (Costs)

Weighted Net Benefits (Costs)

Number Number Year Activity Hourly of Items of Hours Undiscounted 7% NPV 3% NPV Rate 1st Rule: NRC revise 2025 NUREG-1757, Volume 3 1 (200) $137 ($27,400) ($20,903) ($24,345)

(cost of revision) 1st Rule: NRC decommissioning rule 2025 notification to potentially 60 (4) $137 ($32,880) ($25,084) ($29,213) affected licensees (cost of notifications)

NRC review of new or revised decommissioning 2025 funding plans or financial 40 (20) $137 ($109,600) ($83,613) ($97,378) assurance funding (cost of reviews) 2nd Rule: NRC revise 2029 1 (240) $137 ($32,880) ($19,136) ($25,956) 10 CFR 30.35 2nd Rule: NRC review and revise guidance 2029 (e.g., NUREG-1757, 1 (300) $137 ($41,100) ($23,921) ($32,445)

Volume 3) (cost of revisions) 2nd Rule: NRC decommissioning rule 2029 notification to potentially 60 (4) $137 ($32,880) ($19,136) ($25,956) affected licensees (cost of notifications) 2nd Rule: NRC review of new or revised decommissioning funding 2029 40 (20) $137 ($109,600) ($63,788) ($86,519) plans or financial assurance funding (cost of reviews) 1st Rule: NRC revise 2029 NUREG-1757, Volume 3 1 (200) $137 ($27,400) ($20,903) ($24,345)

(cost of revision)

NRC Operations Benefits (Costs) ($391,820) ($258,772) ($326,138)

C-6

Table C-11: Alternative 5 - Agreement States Benefits (Costs)

Weighted Net Benefits (Costs)

Number Number Year Activity Hourly of Items of Hours Undiscounted 7% NPV 3% NPV Rate 1st Rule: Agreement States complete 2025 rulemakings to thru incorporate compatible 38 (120) $120 ($547,742) ($399,645) ($477,212) 2027 regulations (cost of Agreement State rulemakings) 1st Rule: Agreement States review and revise compatible guidance 2025 38 (200) $120 ($912,904) ($696,450) ($811,103)

(e.g., NUREG-1757, Volume 3) (cost of revisions) 1st Rule: Agreement States decommissioning rule notification to 2025 600 (4) $120 ($288,285) ($219,932) ($256,138) potentially affected licensees (cost of notifications) 1st Rule: Agreement States review of licensees new or revised 2025 decommissioning funding 400 (20) $120 ($960,952) ($733,105) ($853,793) plans or financial assurance funding (cost of reviews) 2nd Rule: Agreement States complete 2029 rulemakings to thru incorporate compatible 38 (180) $120 ($821,614) ($457,331) ($635,995) 2031 regulations (cost of Agreement State rulemakings) 2nd Rule: Agreement States review and revise compatible guidance 2029 38 (200) $120 ($912,904) ($531,318) ($720,655)

(e.g., NUREG-1757, Volume 3) (cost of revisions) 2nd Rule: Agreement States decommissioning rule notification to 2029 600 (4) $120 ($288,285) ($167,785) ($227,575) potentially affected licensees (cost of notifications) 2nd Rule: Agreement States review of licensees new or revised 2029 decommissioning funding 400 (20) $120 ($960,952) ($559,283) ($758,584) plans or financial assurance funding (cost of reviews)

Total Agreement State Benefits (Costs) ($5,693,639) ($3,764,849) ($4,741,056)

C-7

Table C-12: Alternative 5 - Industry Benefits (Costs)

Weighted Net Benefits (Costs)

Number Number Year Activity Hourly of Items of Hours Undiscounted 7% NPV 3% NPV Rate 1st Rule: Licensees evaluate impact of rule 2025 on decommissioning 660 (8) $120 ($634,228) ($483,850) ($563,503) funding levels (cost of evaluations) 1st Rule: Licensees required to revise their decommissioning funding 2025 440 (60) $120 ($3,171,140) ($2,419,248) ($2,817,517) plans or financial assurance funding (cost of revisions) 1st Rule: Licensees required to increase their decommissioning funding 2025 165 (60) $120 ($1,189,178) ($907,218) ($1,056,569) plans or financial assurance funding (cost of revisions) 2nd Rule: Licensees evaluate impact of rule 2029 on decommissioning 660 (8) $120 ($634,228) ($369,127) ($500,666) funding levels (cost of evaluations) 2nd Rule: Licensees required to revise their decommissioning funding 2029 440 (60) $120 ($3,171,140) ($1,845,633) ($2,503,328) plans or financial assurance funding (cost of revisions) 2nd Rule: Licensees required to increase their decommissioning funding 2029 165 (60) $120 ($1,189,178) ($692,112) ($938,748) plans or financial assurance funding (cost of revisions)

Industry Benefits (Costs) ($9,989,092) ($6,717,187) ($8,380,330)

C-8

NRC Rulemaking Costs Table C-13: Alternatives 1 through 4 - NRC Implementation NRC NRC Implementation Benefits (Cost)

Year Activity Hours Hourly rate Undiscounted 7% NPV 3% NPV 2021 Develop/Issue regulatory basis 727 $137 ($99,634) ($99,634) ($99,634) 2022 Develop proposed rule 727 $137 ($99,634) ($93,116) ($96,732)

Develop/revise licensing guidance for 2022 291 $137 ($39,854) ($37,246) ($38,693) proposed rule 2023 Revise licensing guidance for final rule 291 $137 ($39,854) ($34,810) ($37,566) 2023 Develop final rule 727 $137 ($99,634) ($87,024) ($93,914) 2023 Develop Comment Resolution for final rule 291 $137 ($39,854) ($34,810) ($37,566) 2024 Complete final rule 727 $137 ($99,634) ($81,331) ($91,179)

NRC Implementation Benefits (Costs) 3,782 ($518,096) ($467,970) ($495,284)

Table C-14: Alternative 5 - NRC Implementation NRC NRC Implementation Benefits (Cost)

Year Activity Hours Hourly rate Undiscounted 7% NPV 3% NPV 1st Rule Change 2021 Develop/Issue regulatory basis 727 $137 ($99,634) ($99,634) ($99,634) 2022 Develop proposed rule 727 $137 ($99,634) ($93,116) ($96,732)

Develop/revise licensing guidance for 2022 291 $137 ($39,854) ($37,246) ($38,693) proposed rule 2023 Revise licensing guidance for final rule 291 $137 ($39,854) ($34,810) ($37,566) 2023 Develop final rule 727 $137 ($99,634) ($87,024) ($93,914) 2023 Develop Comment Resolution for final rule 291 $137 ($39,854) ($34,810) ($37,566) 2024 Complete final rule 727 $137 ($99,634) ($81,331) ($91,179)

Subtotal 1st Rule Change 3,782 ($518,096) ($467,970) ($495,284) 2nd Rule Change 2025 Develop/Issue regulatory basis 800 $137 ($109,597) ($83,611) ($97,376) 2026 Develop proposed rule 800 $137 ($109,597) ($78,141) ($94,540)

Develop/revise licensing guidance for 2026 320 $137 ($43,839) ($31,257) ($37,816) proposed rule 2027 Revise licensing guidance for final rule 320 $137 ($43,839) ($29,212) ($36,714) 2027 Develop final rule 800 $137 ($109,597) ($73,029) ($91,786) 2027 Develop Comment Resolution for final rule 320 $137 ($43,839) ($29,212) ($36,714) 2028 Complete final rule 800 $137 ($109,597) ($68,252) ($89,113)

Subtotal 2nd Rule Change 4,160 ($569,906) ($392,713) ($484,058)

NRC Implementation Benefits (Costs) 7,942 ($1,088,002) ($860,684) ($979,342)

C-9

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