Notices. Notice of the OMB review of information collection and solicitation of public comment
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BILLING CODE 7555-01-M NUCLEAR REGULATORY COMMISSION Agency Information Collection Activities: Submission for the Office of Management and Budget
(OMB)Review; Comment Request AGENCY: U.S. Nuclear Regulatory Commission (NRC). ACTION: Notice of the OMB review of information collection and solicitation of public comment. SUMMARY: The NRC has recently submitted to OMB for review the following proposal for the collection of information under the provisions of the Paperwork Reduction Act of 1995 (44 U.S.C. Chapter 35). The NRC hereby informs potential respondents that an agency may not conduct or sponsor, and that a person is not required to respond to, a collection of information unless it displays a currently valid OMB control number. 1. *Type of submission, new, revision, or extension:* Extension. 2. *The title of the information collection:* 10 CFR Part 75—Safeguards on Nuclear Material, Implementation of US/IAEA Agreement. 3. *The form number if applicable:* N/A. 4. *How often the collection is required:* Installation information is submitted upon written notification from the Commission. Changes are submitted as they occur. Nuclear material accounting and control information is submitted in accordance with specific instructions. 5. *Who will be required or asked to report:* All persons licensed or certified by the Commission or Agreement States to possess source or special nuclear material at an installation specified on the U.S. eligible facilities list as determined by the Secretary of State or his designee and filed with the Commission, as well as holders of construction permits and persons who intend to receive source material. 6. *An estimate of the number of annual responses:* 8. 7. *The estimated number of annual respondents:* Seven, one of which perform the reporting and recordkeeping and the other six perform the recordkeeping only. The NRC-licensed facilities selected for inspection will be reporting or updating design information. This one facility and the six facilities selected pursuant to a separate protocol will maintain transfer and material balance records, but reporting to the IAEA will be through the U.S. State system (Nuclear Materials Management and Safeguards System). 8. *An estimate of the total number of hours needed annually to complete the requirement or request:* 2,800 (.2 hours for reporting and 2,800 hours for recordkeeping [400 hours per recordkeeper]). 9. *An indication of whether Section 3507(d), Public Law 104-13 applies:* N/A. 10. *Abstract:* 10 CFR Part 75 establishes requirements to implement the agreement between the United States and the International Atomic Energy Agency (IAEA). Under that agreement, NRC is required to collect information and make it available to the IAEA. A copy of the final supporting statement may be viewed free of charge at the NRC Public Document Room, One White Flint North, 11555 Rockville Pike, Room O-1 F21, Rockville, MD 20852. OMB clearance requests are available at the NRC worldwide Web site: *http://www.nrc.gov/public-involve/doc-comment/omb/index.html.* The document will be available on the NRC home page site for 60 days after the signature date of this notice. Comments and questions should be directed to the OMB reviewer listed below by July 5, 2005. Comments received after this date will be considered if it is practical to do so, but assurance of consideration cannot be given to comments received after this date. John Asalone, Office of Information and Regulatory Affairs (3150-0055), NEOB-10202, Office of Management and Budget, Washington, DC 20503. Comments can also be e-mailed to *John_A._Asalone@ombeop.gov* or submitted by telephone at
(202)395-3087. The NRC Clearance Officer is Brenda Jo. Shelton, 301-415-7233. Dated at Rockville, Maryland, this 26th day of May, 2005. For the Nuclear Regulatory Commission. Brenda Jo. Shelton, NRC Clearance Officer, Office of the Chief Information Officer. [FR Doc. E5-2847 Filed 6-2-05; 8:45 am] BILLING CODE 7590-01-P NUCLEAR REGULATORY COMMISSION Receipt of Request for Action Under 10 CFR 2.206 Docket No. 040-08850, License No. SUB-1440, ATK Tactical Systems Company, LLC Docket No. 030-28641, License No. 42-23539-01AF, Department of the Air Force Docket No. 040-06394, License No. SMB-141, Department of the Army Docket No. 040-07086, License No. SUB-734, Department of the Army Docket No. 040-08814, License No. SMB-1411, Department of the Army Docket No. 040-08838, License No. SUB-1435, Department of the Army Docket No. 040-07354, License No. SUB-834, Department of the Army Docket No. 040-08779, License No. SUC-1391, Department of the Army Docket No. 040-08767, License No. SUC-1380, Department of the Army Docket No. 030-29462, License No. 45-23645-01NA, Department of the Navy Notice is hereby given that by petition dated April 3, 2005, James Salsman has requested that the U.S. Nuclear Regulatory Commission take action with regard to licensees holding a depleted uranium munitions license. The petitioner requests that “* * * all licenses allowing the possession, transport, storage, or use of pyrophoric uranium munitions be modified to impose enforceable conditions on all such licensees in order to rectify their misconduct * * *.” The petitioner states “The basis for this request is the gross negligence on the part of the licensees, * * *.” The request is being treated pursuant to 10 CFR 2.206 of the Commission's regulations. The request has been referred to the Director of the Office of Nuclear Material Safety and Safeguards (NMSS). As provided by 10 CFR 2.206, appropriate action will be taken on this petition within 120 days. The petitioner discussed the petition with the NMSS Petition Review Board on May 4, 2005. The results of that discussion were considered in the Board's determination regarding the petitioner's request for immediate action and in establishing the schedule for the review of the petition. By letter dated May 26, 2005, the Director denied the petitioner's request for immediate action regarding depleted uranium munitions licenses. A copy of the petition (Accession Number ML051240497) is available in the Agencywide Documents and Management System (ADAMS) for inspection at the Commission's Public Document Room, located at One White Flint North, 11555 Rockville Pike (first floor), Rockville, Maryland, and from the ADAMS Public Library component on NRC's Web site, *http://www.nrc.gov* (the Public Electronic Reading Room). Dated at Rockville, Maryland, this 26th day of May, 2005. For the Nuclear Regulatory Commission. Jack R. Strosnider, Director, Office of Nuclear Material Safety and Safeguards. [FR Doc. E5-2846 Filed 6-2-05; 8:45 am] BILLING CODE 7590-01-P NUCLEAR REGULATORY COMMISSION DEPARTMENT OF THE INTERIOR Geological Survey [Docket No. 50-274] United States Geological Survey Triga Reactor Environmental Assessment and Finding of No Significant Impact The U.S. Nuclear Regulatory Commission
(NRC)is considering issuance of an amendment to Facility License No. R-113, issued to the Department of the Interior, United States Geological Survey (the licensee), which authorizes operation of the United States Geological Survey TRIGA Reactor (GSTR), in Lakewood, Colorado. Therefore, as required by 10 CFR 51.21, the NRC is issuing this environmental assessment and finding of no significant impact. Environmental Assessment Identification of the Proposed Action The proposed action would revise Facility License No. R-113 to change the license expiration date from October 10, 2007, to February 24, 2009, to recapture the construction time between the issuance date of Construction Permit No. CPRR-102 (October 10, 1967) and issuance date of Facility Operating License No. R-113 (February 24, 1969) to allow a 40-year operating license term. The GSTR is located in a building on the grounds of the Denver Federal Center, a complex of U.S. Government offices and laboratories owned by the U.S. Government about 7 miles (11.3 km) southwest of the central Denver, Colorado, business area. The reactor is a General Atomics TRIGA-Mark I design with a maximum steady state power level of 1 megawatt thermal power (MW(t)). The reactor can be operated in a pulse mode with reactivity insertions not to exceed 2.1% delta k/k. The reactor core is at the bottom of an open pool with about 20 ft (6 m) of water above the core for radiation shielding. The fuel moderator elements consist of a homogeneous mixture of uranium-zirconium hydride. The elements are rods about 28 inches (71 cm) long with a diameter of about 1.5 inch (4 cm). The fuel elements are clad in stainless steel. The reactor pool is surrounded by a biological shield. The reactor is inside a confinement building. The construction permit for the facility (CPRR-102) was issued to the licensee on October 10, 1967. On February 24, 1969, Facility Operating License No. R-113 was issued to the licensee. The facility normally operates during the day shift from Monday to Friday. The proposed action is in accordance with the licensee's application for amendment dated April 30, 2002, as supplemented by letters dated March 11 and 24, 2005. The Need for the Proposed Action The proposed action is needed to recapture the time spent constructing the plant. The amendment will allow operation of the GSTR reactor for a term of 40 years from the date of issuance of the facility license. Environmental Impacts of the Proposed Action The NRC has completed its safety evaluation of the proposed amendment to change the expiration date of the facility license to recapture time between construction and operation to allow a 40-year operating license term and concludes there is reasonable assurance that the GSTR will continue to operate safely for the additional period of time authorized by the amendment. The licensee has not requested any changes to the facility design or operating conditions as part of this amendment request. Data from the last 5 years of operation was assessed to determine the radiological impact of the facility on the environment. The licensee does environmental surveys by measuring the exposure at five outdoor environmental stations near the GSTR facility with thermoluminescent dosimeters (TLDs). The results from the TLD with the maximum exposure (with background subtracted) were as follows: Year Maximum (rad/yr) (except 2000, which is in rem/yr) 2004 0.0226 2003 0.0157 2002 0.0233 2001 0.0427 2000 0.0974 These doses are within the regulatory limits of 0.1 rem per year total effective dose equivalent for doses to members of the public given in 10 CFR 20.1301. In addition, the licensee has calculated the dose to the individual member of the public likely to receive the highest dose from air emission of radioactive material to the environment to demonstrate compliance with 10 CFR 20.1101(d). This regulation provides for an as low as is reasonably achievable criteria for air emissions as a result of which an individual member of the public receives a total effective dose equivalent
(TEDE)of less than 10 mrem per year. The results of calculations for the years 2000-2004, are as follows: Year Dose (mrem/yr) 2004 0.1 2003 0.1 2002 0.2 2001 0.3 2000 0.2 These doses are within the 10 mrem per year TEDE constraint on air emissions given in 10 CFR 20.1101(d). The airborne effluent releases are as follows: Year Curies released (argon-41) Curies released (total) 2004 1.718 1.719 2003 2.289 2.290 2002 2.442 2.443 2001 4.868 4.869 2000 2.910 2.912 Airborne effluent releases from the facility consist primarily of argon-41. This is characteristic for research reactors. The releases from the facility were below the average concentration requirements of the facility technical specifications. The licensee has not released liquid effluent to the sanitary sewer or the environment since 1990. The small amounts of liquid waste generated by reactor operations are evaporated or are solidified for disposal. Shipments of solid radioactive waste off site for disposal at approved sites were as follows (note that these numbers also include some solid waste from other U.S. Geological Survey activities and therefore are bounding for the reactor facility): Year Volume (cubic feet) Activity
(mCi)2004 0 0 2003 7.5 10 2002 7.5 5 2001 7.5 194 2000 7.5 106 The NRC inspection program confirmed that the waste shipments met the requirements of the regulations in 10 CFR Part 20 for waste disposal. The principal radioactive waste generated at the GSTR is demineralizer resin. The licensee did not ship radioactive waste off site in 2004. The licensee collects groundwater samples from a monitoring well down gradient from the GSTR. These samples were analyzed for tritium, which is the only significant reactor-produced radionuclide in the primary coolant. Tritium is also soluble in water, which makes it a sensitive indicator of the reactor's impact, if any, on groundwater. Between 2000 and 2004, except for one sample, the results have been below the licensee's lower limit of measuring detection. The sample that showed a positive result was slightly above the licensee's lower limit of measuring detection and significantly below regulatory limits. The radiological releases from the facility and the associated doses to the public are within regulatory limits or facility technical specifications and do not have a significant impact on human health or the environment. The licensee's environmental radiation monitoring includes soil and water sampling and direct radiation readings. The results of the monitoring program indicate that the facility does not have a significant impact on human health or the environment. Releases of radioactive material from the facility to the environment for the proposed construction permit recapture period are estimated to continue at levels similar to previous levels, which were within regulatory limits. Occupational doses to GSTR staff and users meet the regulatory requirements in 10 CFR part 20, subpart C, and are as low as is reasonably achievable. No changes in reactor operation that would lead to an increase in occupational dose are expected as a result of the proposed action. The proposed action will not increase the probability or consequences of accidents, no changes are being made in the types of any effluents that may be released off site, and there is no significant increase in occupational or public radiation exposure. Therefore, no significant radiological environmental impacts are associated with the proposed action. With regard to potential nonradiological impacts, the proposed action does not have a potential to impact historic properties. No chemicals which are discharged to the environment are used for activities under the reactor license. The facility uses approximately 600,000 gallons of water annually. The water is supplied by a utility, Denver Water, which is able to supply 745 million gallons of potable water a day. Most of the water is used in the cooling tower and the water is lost to the atmosphere as water vapor or discharged to the sanitary sewer as bleedoff water. Wastewater from the facility discharges to the Denver Wastewater Management Division system. The site for the reactor facility is several rooms in a building at the Denver Federal Center. No Federal- or State-listed plants or animals are known to be found on the GSTR site. The GSTR uses a minimal amount of water for reactor operation, has no major refurbishment or construction activities planned, and will have no significant change in the types or amounts of effluents leaving the facility as a result of construction permit recapture. Therefore, the proposed action is not expected to affect aquatic and terrestrial biota. The staff concludes there are no significant nonradiological environmental impacts associated with the proposed action. Accordingly, the NRC concludes that no significant environmental impacts are associated with the proposed action. Environmental Impacts of the Alternatives to the Proposed Action As an alternative to the proposed action, the staff considered denial of the proposed action ( *i.e.* , the no-action alternative). Denial of the proposed action will result in expiration of the current license in October 2007, and the commencement of decommissioning if an application for license renewal is not made. If the application is denied, the licensee is expected to apply for renewal of the license. Whether the reactor is operating under the proposed action or a renewed license or during the evaluation of a timely renewal application, the environmental impacts of the proposed action and the alternative are similar. If the Commission denied the application for license renewal, facility operations would end and decommissioning would be required with no significant impact on the environment. The environmental impacts of the proposed action and this alternative action are similar. In addition, the benefits of research conducted by the facility would be lost. Alternative Use of Resources This action does not involve the use of any resources not previously considered in the Hazards Summary Report dated December 1966 prepared for initial licensing of the facility. Agencies and Persons Consulted In accordance with the agency's stated policy, on March 18 and 21, and April 7, 2005, the staff consulted with the Colorado State official, Mr. Steve Tarlton, Unit Leader, Radiation Protection Program, Hazardous Materials and Waste Management Division, Colorado Department of Public Health and Environment, regarding the environmental impact of the proposed action. The State official discussed the fact that groundwater-monitoring wells existed at the Denver Federal Center. The State official was not aware if any groundwater samples were analyzed for radionuclides. However, if data existed, it would contribute to the discussion of the environmental impact of the GSTR. This issue was discussed with the licensee, who confirmed that samples from a groundwater-monitoring well down gradient from the GSTR were routinely collected and analyzed. This data has been added to the environmental assessment. Finding of No Significant Impact On the basis of the environmental assessment, the NRC concludes that the proposed action will not have a significant effect on the quality of the human environment. Accordingly, the NRC has determined not to prepare an environmental impact statement for the proposed action. For further details with respect to the proposed action, see the licensee's letter dated April 30, 2002, as supplemented by letters dated March 11 and 24, 2005. Documents may be examined, and/or copied for a fee, at the NRC's Public Document Room
(PDR)at One White Flint North, Public File Area O-1-F-21, 11555 Rockville Pike (first floor), Rockville, Maryland. Publicly available records will be accessible electronically from the Agencywide Documents Access and Management System (ADAMS) Public Electronic Reading Room on the Internet at the NRC Web site, *http://www.nrc.gov/reading-rm/adams.html* . Persons who do not have access to ADAMS or who encounter problems in accessing the documents located in ADAMS should contact the NRC PDR reference staff by telephone at 1-800-397-4209 or 301-415-4737 or by e-mail to *pdr@nrc.gov* . Dated at Rockville, Maryland, this 23rd day of May 2005. For the Nuclear Regulatory Commission. Patrick M. Madden, Section Chief, Research and Test Reactors Section, New, Research and Test Reactors Program, Division of Regulatory Improvement Programs, Office of Nuclear Reactor Regulation. [FR Doc. E5-2849 Filed 6-2-05; 8:45 am] BILLING CODE 7590-01-P NUCLEAR REGULATORY COMMISSION [Docket No. 50-029] Environmental Assessment and Finding of No Significant Impact Related to License Termination Plan for the Yankee Atomic Electric Company; License DPR-003, Rowe, MA AGENCY: Nuclear Regulatory Commission. ACTION: Environmental Assessment and Finding of No Significant Impact. FOR FURTHER INFORMATION CONTACT: John Hickman, Division of Waste Management and Environmental Protection, Office of Nuclear Material Safety and Safeguards, U.S. Nuclear Regulatory Commission, Mail Stop T7E18, Washington, DC 20555-00001. Telephone:
(301)415-3017; e-mail *jbh@nrc.gov.* SUPPLEMENTARY INFORMATION: 1.0 Introduction The U.S. Nuclear Regulatory Commission
(NRC)(or the staff) is considering Yankee Atomic Electric Company's request for approval of the License Termination Plan
(LTP)submitted for the Yankee Nuclear Power Station
(YNPS)in Rowe, Massachusetts. The NRC has prepared this environmental assessment
(EA)to determine the environmental impacts (radiological and non-radiological) of approving the LTP and of subsequently releasing the site for unrestricted use (as defined in 10 CFR 20.1402). This is consistent with the final rule, 10 CFR 50.82 that appeared in the **Federal Register** on July 29, 1996 (61 FR 39278, Decommissioning of Nuclear Power Reactors), which established the criteria for license termination and the requirement for a license termination plan. As discussed in Section 1.3 below, the primary scope of this EA is the evaluation of the impacts of the radiation release criteria and the adequacy of the final status survey, as presented in the LTP. 1.1 Background YNPS is a deactivated pressurized-water nuclear reactor situated on a small portion of a 2,200-acre site. The site is located in northwestern Massachusetts in Franklin County, near the southern Vermont border. The plant and most of the 2,200-acre site are owned by the Yankee Atomic Electric Company (YAEC). A small portion on the west side of the site (along the east bank of the Sherman Reservoir) is owned by USGen New England, Inc. The YNPS plant was constructed between 1958 and 1960 and operated commercially at 185 megawatts electrical production (after a 1963 upgrade) until 1992. In 1992, YAEC determined that closing the plant would be in the best economic interest of its customers. In December 1993, NRC amended the YNPS operating license to retain a “possession-only” status. YAEC began dismantling and decommissioning activities at that time. These activities continue and their relevance with respect to this EA is discussed in Section 1.3. The spent nuclear fuel remaining onsite was transferred in 2003 from the spent fuel pool to the independent spent fuel storage installation (ISFSI) located adjacent to the plant. The spent fuel pool was subsequently drained in compliance with regulatory requirements. In November 2003, YAEC submitted its LTP with a goal to complete decommissioning by mid-2005 (YAEC, 2003). Draft Revision 1 to the plan was submitted September 2, 2004 (YAEC, 2004a), in response to a NRC request for additional information (NRC, 2004). Subsequently, on November 19, 2004, YAEC submitted Revision 1 to the LTP (YAEC, 2004f). YAEC is proposing to decontaminate the YNPS site to meet the unrestricted release criteria of 10 CFR 20.1402. Additionally, YAEC has stated that it intends to comply with the Commonwealth of Massachusetts cleanup criteria of 105 CMR 120.291 established by the Massachusetts Department of Public Health
(MDPH)and the Massachusetts Department of Environmental Protection (MDEP). Most site structures will be demolished to grade or entirely removed, and most buried piping or utilities removed. Basements will be perforated to allow groundwater to flow through during remediation. The following structures will remain after phased release of the site: the administration building, guard building, a small switchyard outside the guard building, the ISFSI, the ISFSI security building, and access roads. After the irradiated fuel has been removed from the site and prior to license termination the ISFSI and ISFSI security building will be removed. 1.2 Need for the Proposed Action Licensees of nuclear facilities must apply to the NRC before terminating a license voluntarily and decommissioning a facility. YAEC submitted the LTP, as required by 10 CFR 50.82, before requesting license termination. The NRC must determine whether the proposed procedures, adequacy of radiation criteria for license termination, and the final status survey planned for completing decommissioning appear sufficient and, if implemented according to the plan, would demonstrate that the site is suitable for release. 1.3 Scope To fulfill its obligations under the National Environmental Policy Act (NEPA), the NRC must evaluate the radiological and nonradiological environmental impacts associated with approval of the LTP and subsequent termination of the license. These evaluations involve an assessment of the impacts of the remaining buildings or structures and residual material present at the site at the time of license termination. As described in the Statements of Consideration accompanying the Final Rule on Decommissioning of Nuclear Power Reactors (61 FR 39278), the NRC must consider the following in order to approve the LTP:
(1)The licensee's plan for assuring that adequate funds will be available for final site release,
(2)radiation release criteria for license termination, and
(3)the adequacy of the final survey required to verify that these release criteria have been met. 1.3.1 Issues Studied in Detail Consistent with NEPA regulations and guidance to focus on environmental issues of concern, impacts to land use, water resources, and human health were selected for detailed study because of their potential to be affected by an approval of the LTP. These issues are discussed in this EA due to the potential for impacts from remaining structures and/or residual material left at the site. 1.3.2 Issues Eliminated From Detailed Study Issues eliminated from detailed study in this EA include air quality, historic and cultural resources, ecological resources (including endangered and threatened species), socioeconomic conditions, transportation, noise, visual and scenic quality, off-site waste management, and accident scenarios. These issues were eliminated because they would not be affected by implementation of the LTP at the site ( *i.e.* , ensuring the site meets radiation release criteria in the final status survey). The financial assurance review, which is a required part of the LTP approval, is not related to human health or the environment and will not be discussed in this EA. Impacts from decommissioning activities at the YNPS site are not evaluated in this EA. NRC has already assessed power plant decommissioning impacts in programmatic NEPA documents. Specifically, the environmental impact statement for decommissioning activities (NRC, 1988, 2002) discusses the range of impacts expected from power plant decommissioning activities. Further, in reviewing the LTP, the staff also determined that the environmental impacts were enveloped by the generic analysis performed in support of “Radiological Criteria for License Termination.” (62 FR 39058) Decommissioning impacts at the YNPS site were also addressed in the YAEC's Post-Shutdown Decommissioning Activities Report (PSDAR) (YAEC, 2000). Additionally, the Commission has made a generic determination that, if necessary, spent fuel generated in any reactor can be stored safely and without significant environmental impacts for at least 30 years beyond the plant's licensed operating life (64 FR 68005 and 10 CFR 51.23). Therefore, this EA does not evaluate environmental impacts of spent fuel storage in the onsite independent spent fuel storage installation (ISFSI). However, the ISFSI is discussed briefly in Sections 3.2 and 4.1. 2.0 Proposed Action and Alternatives 2.1 The Proposed Action The proposed action is the NRC's review and approval of YAEC's LTP. The NRC staff will review the plan to ensure that the license termination activities ( *i.e.* , designation of radiation release criteria and design of the final status survey) will comply with NRC regulations. If NRC approves the plan, the approval will be issued in the form of an amendment to the YNPS license (Possession Only License No. DPR-3). YAEC plans to complete decommissioning of the YNPS site for unrestricted use, as described in the LTP and consistent with NRC regulations at 10 CFR 20.1402. In addition, YAEC intends to comply with the Commonwealth of Massachusetts cleanup criteria in 105 CMR 120.291 specified by the MDPH and by the MDEP in the Massachusetts Contingency Plan
(MCP)and Solid Waste Regulations, as applicable. To meet NRC's unrestricted release criteria, areas of the site will be divided into survey units. These units will be sampled or surveyed in accordance with the LTP to verify that site-specific criteria have been met. These criteria, known as “derived concentration guideline levels” (DCGLs), are discussed further in Sections 3.4 and 4.3. Initially, YAEC plans to release all but 87 acres of the site for unrestricted use after having passed the final survey. The remaining 87 acres would remain on the license until the spent fuel is shipped offsite for permanent disposal (see Section 4.1) and the ISFSI is decommissioned. At that time, the remaining acreage would again be surveyed and, contingent on survey results, the license terminated. 2.2 Alternatives As an alternative to the proposed action, the staff considered the “no-action alternative.” The no-action alternative would maintain the status quo. This would result in no change to current environmental impacts, which are larger than those resulting from the proposed action. 3.0 Affected Environment 3.1 Site Description The YNPS site is located at 49 Yankee Road, approximately three miles north-northwest of the northwestern Massachusetts town of Rowe, in Franklin County. The site is adjacent to the Vermont border on land characterized by heavily wooded, steep hills. It is situated within the Deerfield River Valley and abuts the eastern shores of the Deerfield River and Sherman Reservoir. Hills bounding the Deerfield River valley rise 500 to 1000 feet above the site, reaching elevations of 2100 feet above mean sea level (ERM, 2004a). The combined population of the two nearest towns, Rowe and Monroe, is less than 500. The YNPS property consists of about 2,200 acres in the towns of Rowe and Monroe. Most of this property (approximately 1,825-acres) is owned by YAEC; the remaining portion is owned by USGen New England, Inc., (USGen). The USGen property is a narrow strip of upland to the west of the plant, extending along the entire eastern bank of Sherman Reservoir. USGen also owns the reservoir itself, the Sherman Dam, property west of the Sherman Reservoir, and property downstream of Sherman Dam encompassing both banks of the Deerfield River. YNPS operations have been conducted on about 15 developed acres, primarily on land owned by YAEC, but extending onto property owned by USGen (ERM, 2004a). The YNPS site is divided into three areas based on past site activities and land use: 1. Industrial Area: approximately 12-acre fenced portion of the site that contains industrial plant structures and operations. 2. Radiologically Controlled Area (RCA): 4-acre parcel within the industrial area that contains radiological materials associated with plant operation. 3. Non-Industrial Area: remaining land outside the fenced industrial area that contains the USGen Sherman Station hydroelectric plant, the Sherman Reservoir and Dam, transmission lines traversing the site, administration building and visitor center, roadways, fill areas and undeveloped woodland (YAEC, 2004b; ERM, 2004a). During construction of the YNPS facility, some construction and demolition debris was placed into what is now the Southeast Construction Fill Area (SCFA). This area of approximately 1.5 acres contains soil and rock, in addition to wood, concrete, asphalt, and metal debris. In accordance with MDEP Solid Waste permits, YAEC plans to remove the materials from this area, returning native soils to other areas of the site for regrading. Ecology and Cultural Resources The U.S. Fish and Wildlife Service confirmed in correspondence with YAEC that no federally listed endangered or threatened species occur on the site. (ERM, 2004b) Massachusetts species of concern have been identified on the YNPS site. A northern spring salamander was identified in a headwater channel of Wheeler Brook. The bristly black currant was discovered in a drainage area along the Wheeler Brook Divertment, outside the site's eastern fenceline. Longnose suckers are documented to exist in the Sherman Reservoir. YAEC is working with the Massachusetts Division of Fisheries & Wildlife under the National Heritage and Endangered Species Program (NHESP) to develop a plan for the protection of these species during the remainder of decommissioning activities. Several resources of cultural and historic significance exist at the site; however, none of these have been affected by decommissioning activities. A 2003 report documents these resources, most of which are located in the undeveloped uplands (PAL, 2003). The report also includes a management plan that meets Massachusetts Historical Commission guidelines. 3.1.1 Existing Radiological Contamination The majority of the site located outside the industrial area was determined to be non-impacted (about 2170 acres), as documented in Section 2.5 of the LTP. The non-impacted area consists mostly of forested, rugged terrain that has not been disturbed. This determination is based on both the Historical Site Assessment (YAEC, 2004c) and additional characterization surveys. Radiologically-impacted areas of the site include the industrial area and surrounding open land areas extending out approximately 1000 feet from the vapor container (now dismantled). The radiologically impacted areas comprise approximately 30 acres, the majority of which are minimally impacted (contain residual radioactivity at levels no greater than a fraction of the proposed DCGLs). For a more detailed description of initial radiological characterization of the impacted area, refer to the YNPS Historical Site Assessment and Section 2.4 of the LTP. The Historical Site Assessment also identified low levels of contamination, primarily Co-60, in the sediments of Sherman Reservoir. This radioactive material was deposited as a result of permitted and monitored radioactive liquid releases. Characterization surveys showed the radioactive material concentration is a small fraction of the proposed DCGLs. Areas with potentially contaminated sediments are included in the final status surveys for further evaluation. Characterization Process Site characterization activities were performed in two phases, initial and continuing. The results of the initial phase were submitted to the NRC in January 2004. After a review of the results of the initial characterization, YAEC initiated the continuing phase, which will be ongoing throughout the remainder of the decommissioning activities. The results would be used to guide the remediation activities, and to confirm the appropriateness of the radiological source terms used for the dose model and basis for the corresponding DCGLs by media. Site characterization surveys are conducted to determine the nature and extent of radiological contamination at the YNPS site. The purpose of the site characterization survey is to:
(1)Permit planning for remediation activities;
(2)demonstrate that it is unlikely that significant quantities of residual radioactivity have gone undetected at the site after remediation;
(3)provide information to design the final site survey ( *i.e.* , identify survey unit classifications for impacted areas); and
(4)provide input to dose modeling (NRC, 2003). Site characterization activities include the collection of various types of samples, including soil, sediment, water, concrete, metal, and surface residues. Surveys and sampling conducted during site characterization are based on knowledge of the plant history and likely areas of contamination. In accordance with 10 CFR 50.82(a)(9)(ii)(A), radiological conditions of the site were provided in Section 2.0 of the LTP. The results of sample analyses and the use of the results in identifying the significant radionuclides expected to be present after remediation are described in Attachments 2B and 2C of Chapter 2 of the LTP. YAEC conducted a series of sample analyses using site media believed to represent the distribution of radionuclide contaminants, and their decay-corrected isotopic distribution, over the operational history of the plant. In its technical basis document, YAEC describes the method that was used to determine radionuclides that could be present at the site (YAEC 2003). The radionuclides include, but are not limited to: 3 H, 14 C, 54 Mn, 55 Fe, 57 Co, 58 Co, 59 Ni, 60 Co, 63 Ni, 65 Zn, 90 Sr, 94 Nb, 99 Tc, 106 Ru, 108m Ag, 125 Sb, 129 I, 134 Cs, 137 Cs, 144 Ce, 145 Pm, 152 Eu, 154 Eu, 155 Eu, 238 Pu, 239 Pu, 240 Pu, 241 Pu, 241 Am, 243 Cm, and 244 Cm. These radionuclides include fission and activation products, which are typical of those found in pressurized-water reactor plants. These radionuclides are also described in two NRC documents: NUREG/CR-0130, “Technology, Safety and Costs of Decommissioning a Reference Pressurized Water Reactor Power Station,” (Smith *et al.* , 1978) and NUREG/CR-3474, “Long-Lived Activation Products in Reactor Materials,” (Evans *et al.* , 1984). Based on dose model assumptions (including the expected time at which the site will be remediated) YAEC has identified the following 22 radionuclides as potentially contributing to the dose after license termination: 3 H, 14 C, 55 Fe, 60 Co, 63 Ni, 90 Sr, 94 Nb, 99 Tc, 108m Ag, 125 Sb, 134 Cs, 137 Cs, 152 Eu, 154 Eu, 155 Eu, 238 Pu, 239 Pu, 240 Pu, 241 Pu, 241 Am, 243 Cm, and 244 Cm. Accordingly, these radionuclides would form the basis in planning and conducting all final status surveys, and demonstrating compliance with the site release criteria. 3.1.2 Existing Hazardous and Chemical Contamination Chemical Use Over the YNPS plant's operating life, a number of hazardous materials or chemicals were used throughout the industrial area. Some of these materials are: water treatment and other maintenance chemicals, fuel, lubricating and transformer oils (including oils containing polychlorinated biphenyls (PCBs)), and chemicals used for the various reactor systems (including boron, hydrazine, 1,1,1-trichloroethane, and trisodium phosphate). Additionally, some of the building structures and surfaces contain asbestos, PCB-containing paint, and/or lead-based paint (ERM, 2004a). While the plant was operating, it was classified as a small quantity generator of hazardous wastes under the Resource Conservation and Recovery Act (RCRA). However, YAEC is currently a large quantity generator (generating over 1,000 kilograms of hazardous wastes per month) due to the increased volume of hazardous and mixed wastes associated with decommissioning activities. The MDEP regulates YAEC's hazardous waste generation and storage activities. Contamination and Remediation Nonradiological chemical cleanup at the site must comply with MDEP regulations under the Massachusetts Contingency Plan
(MCP)(310 CMR 40.00), which regulates the investigation and cleanup of oil and hazardous materials releases to soil or water (ERM, 2004a), and the MDEP Solid Waste Regulations at 310 CMR 19.000, which regulate the investigation and remediation of the SCFA and the review of beneficial reuse determination
(BUD)permits. YAEC had intended to remediate onsite contamination to enable future use of the site without restrictions, however deed restrictions will be utilized in the remediation of the industrial use of the site. The primary non-radiological contaminant of concern at the site is PCBs. A release of PCB-containing paint chips from the vapor container (reactor containment) into the Sherman Reservoir was discovered in the spring of 2000. The paint chips migrated to the reservoir through the stormwater drainage system. Immediate action was taken to remediate some of the storm drain sediments. Additional cleanup has been ongoing since 2001, including remediation of soils in landscaped areas onsite and of the sediments in the Sherman Reservoir and western storm drainage ditch. PCBs in soils and sediments are being remediated to meet the requirements of both the MDEP and the U.S. Environmental Protection Agency
(EPA)Toxic Substances Control Act
(TSCA)generally to a level of 1 milligrams/kilogram (mg/kg, or parts-per-million). YAEC has documented its PCB remediation program in three reports prepared according to MCP requirements: Phase II Comprehensive Site Assessment, Phase III Remedial Action Plan, and Phase IV Remedy Implementation Plan. Massachusetts and Vermont public health agencies have issued advisories due to the presence of mercury in fish from the Sherman Reservoir. Atmospheric deposition from industrial activities is a likely source of the mercury found in these fish. Additionally, PCBs were detected at trace levels in the tissues of fish in the vicinity of the East Storm Drain Outfall. The source of the PCBs is likely the PCB-containing paint chips that migrated into the reservoir. The licensee is controlling any remaining PCB-containing paint so no further environmental impact is expected. As discussed in Section 3.1.2, YAEC is in the process of remediating the PCB-contaminated areas of the reservoir near the East Storm Drain Outfall (ERM, 2004a). YAEC began an additional site-wide characterization of soils, groundwater, and sediments in 2003 and identified several areas for further study. According to the June 2004 Site Characterization Status Report (ERM, 2004c) and the January 2005 Phase II Comprehensive Site Assessment Report, minor contamination in groundwater and sediment, as well as localized areas of contaminated soil, were identified as requiring further evaluation. Groundwater contaminants are discussed in Section 3.3.2. Sediment impacts include PCBs, which is consistent with previous investigations. Soil impacts include low levels of the following compounds: petroleum hydrocarbon impacts near parking areas; PCBs near the transformer yard; dioxin near the former incinerator; lead around the former shooting range; and beryllium near the ISFSI and former cooling water discharge structure. YAEC will continue to work with the MDEP to fulfill MCP requirements and demonstrate that the entire site has been adequately characterized and remediated where necessary, according to MDEP regulations. When the site is released from NRC jurisdiction, it will remain under state jurisdiction until all nonradiological contamination issues are resolved with the MDEP. As discussed earlier, most site buildings are being demolished to ground level, and some foundations (notably, the Spent Fuel Pool/Ion Exchange Pit, or SFP/IXP) will be removed entirely. Basements will be remediated to meet the DCGLs before they are perforated to facilitate groundwater flow. Soils will be used to backfill the basements and other holes. Additionally, concrete demolition debris generated from dismantlement activities may be used as backfill material if it passes the final status survey or contains no detectable contamination. Backfill using concrete demolition debris will be conducted under a BUD permit from MDEP, which will include a deed restriction and compliance with MDEP and MDPH requirements for such reuse. 3.2 Land Use YNPS industrial and administrative operations are conducted on approximately 15 acres of land, primarily owned by YAEC but also including property owned by USGen, as discussed in Section 3.1. The USGen property, consisting of a segment that extends along the entire eastern bank of the Sherman Reservoir, is subject to a 2001 Grant of Conservation Restriction issued by the Massachusetts Department of Environmental Management. USGen has agreed to restrict future uses of its property for preservation purposes, except as necessary for operation of its hydroelectric power plant (ERM, 2004a). Approximately 87 acres of the site is dedicated to the long term storage (about 20 years) of spent fuel and other high-level radioactive waste in the ISFSI. The ISFSI consists of a concrete pad within a fence and a buffer area with a 300-meter radius. Transmission lines and two public roads traverse the site. Readsboro Road runs in a north-south direction approximately 1500 feet west of the plant, across the river. Monroe Hill Road is approximately 2500 feet from the plant to the southwest, running in a north-south direction between the towns of Rowe and Monroe. Some farms and a few commercial sites are located in the surrounding area. There are no exclusively commercial areas within five miles of the site. The only industrial property in the area is the adjacent USGen hydroelectric station and five associated powerhouses that are situated near the Sherman and other reservoirs along the Deerfield River. The nearest highway and railroad right-of-way are each located about five miles south of the site. Several public lands and conservation areas are located within five miles of the site (YAEC, 1999, 2004a). The river is used for recreation and sport fishing, as well as for producing hydroelectric power. 3.3 Water Resources The discussion of water resources is divided into surface water and groundwater. The following sections provide a summary of the characteristics of each within and around the YNPS site. 3.3.1 Surface Water Surface Water Features Surface water bodies on the site or in its immediate vicinity include the Deerfield River, Sherman Reservoir, Wheeler Brook and an associated tributary, a divertment from Wheeler Brook, a discharge canal, and the stormwater drainage systems for the eastern and western halves of the Industrial Area. Wheeler Brook and its tributaries flow about 400 to 500 feet outside the Industrial Area around the south and east sides of the site before Wheeler Brook discharges into Sherman Reservoir (Framatome, 2003). Sherman Reservoir was formed by the installation of Sherman Dam on the Deerfield River. The reservoir is approximately two miles long, a quarter mile wide, and up to 75 feet deep along its central channel (Framatome, 2003). The discharge canal, which discharges into the Sherman Reservoir, was constructed to receive return water from the plant's cooling water processes. Stormwater at the site flows into two systems, the East Storm Drain System and the West Storm Drain System, draining the eastern and western halves of the Industrial Area, respectively. The East Storm Drain System discharges to the Sherman Reservoir, while the West Storm Drain System discharges to the Deerfield River. Stormwater from the undeveloped uplands is captured by the Wheeler Brook Divertment. The divertment flows into Wheeler Brook, which flows into the Sherman Reservoir. Wetlands on the site are located in several areas and primarily border water bodies such as the Sherman Reservoir, Deerfield River, Wheeler Brook, and associated tributaries. Additional wetland areas were identified in the two stormwater detention basins at the site. Some isolated wetlands exist in the southern part of the site. Wetlands were formally delineated in an Abbreviated Notice of Resource Area Delineation (Woodlot, 2004), which was approved by the Town of Rowe Conservation Commission in March 2004. Wastewater Discharges During the plant operation, stormwater, service water, and noncontact cooling water were discharged as wastewaters through seven outfalls to the Sherman Reservoir and the West Storm Drain System (to the river). Currently, stormwater and treated wastewaters from the laboratory or from decommissioning activities are discharged through three remaining outfalls. Discharges are approved under a National Pollution Discharge Elimination System (NPDES) permit issued jointly by the MDEP and EPA, which sets specific limits for pH, oil and grease, suspended solids, and flow, and also requires the maintenance of a Stormwater Pollution Prevention Plan (ERM, 2004b). These discharges are also monitored and treated for radiological materials according to NRC requirements. A temporary wastewater processing system treats and stores wastewaters received from the radioactive laboratory sump discharge line. This water is treated and then batch-discharged. Discharges of these wastewaters through the treatment plant or through the stormwater drainage system are covered under the NPDES permit. The temporary treatment system will be dismantled and disposed of off-site as radioactive waste (YAEC, 2004a). The auxiliary service water system is being used to supply water from the Sherman Reservoir to support decontamination and dismantling activities. The system will be dismantled once it is no longer needed for these activities (YAEC, 2004a). Three septic systems with several associated leach fields have been used at the YNPS site. The leach fields are located generally on the western portion of the site. Three of these leach fields have been in use since 1978, when two formerly-used leach fields were abandoned in place. 3.3.2 Groundwater Aquifers and Geology The groundwater system at the YNPS site is a product of the geology, particularly the petrology and hydraulic conductivity of the rocks, the glacial history, the geomorphology, and the hydrology of this area. The YNPS site is located on the east side of the Berkshire Mountains predominantly on a terrace of the Deerfield River. The terrace is recessed into the east side of a two mile wide glacially-derived river valley where the valley walls rise to over 1,000 feet above the river elevation. The YNPS plant is adjacent to a dammed portion of the Deerfield River, Sherman Dam and Sherman Reservoir. The local gradient for this portion of the Deerfield River is 28.4 feet/mile over a river distance of about 33 miles from the Vermont border at the Sherman Pond to the West Deerfield, Massachusetts gauging station (Framatome, 2003). The local groundwater system is extremely complex, with three groundwater-bearing units, from top to bottom: stratified drift, glaciolacustrine, and bedrock. The stratified drift unit contains permeable surficial sands and gravels,10 to 20 feet thick, that are water-laid, ice-contact deposits derived from a melting glacier. The glaciolacustrine unit comprises sediments up to 260 feet thick of glaciolacustrine origin, containing multiple, relatively thin water-bearing units of fine to medium-grained sand, interspersed within relatively impermeable, fine-grained sand and silts. The bedrock unit is a gray, medium-grained, moderately foliated metamorphic rock that contains significant amounts of megacrystals of plagioclase feldspar albite. This bedrock is the upper member of the Lower Cambrian Hoosac Formation, which is relatively competent with few fractures (YAEC, 2004e). Contamination and Monitoring As discussed in Section 3.1.2, YAEC began additional site-wide characterization of groundwater in 2003 and identified several areas for further study. According to the June 2004 Site Characterization Status Report (ERM, 2004c), nonradiological contamination in groundwater and sediment, as well as localized areas of contaminated soil, were identified that required further evaluation. Non-radiological groundwater contaminants identified were found to be in isolated areas and do not suggest the presence of a plume. These contaminants include low levels of 1,1-dichloroethane, PCBs, and petroleum hydrocarbons. YAEC will continue to work with the MDEP to fulfill MCP requirements and demonstrate that groundwater has been adequately characterized and remediated where necessary. Radiological groundwater monitoring at the YNPS site (excluding monitoring for the Radiological Environmental Monitoring Program) has occurred since the plant shut down in 1992. Currently, 39 monitoring wells are in operation throughout the site. Monitoring wells were installed in stages, as follows: two in the late 1970s, 15 in 1993-94, 21 from 1997 through 2001, and 17 during the summer of 2003, with 14 of the older wells properly abandoned due to decommissioning (demolition) activities. Most of the wells that were installed prior to 2003 are located in the RCA, although a few are either downgradient or upgradient of the RCA. All of the wells installed before 2003 except one are shallow, ranging in depth from 7 to 31 feet below the land surface. The exception is a 49-foot bedrock monitoring well in the RCA. The monitoring wells installed during the summer of 2003 contain wells screened as follows: three in the stratified drift unit, seven in the glaciolacustrine unit, and seven in the bedrock unit. Groundwater samples have been collected for radiological analysis since 1993. Until 2003, YAEC analyzed the groundwater samples for tritium, gross alpha, gross beta, and gamma spectroscopy. The analytical results for these samples ( *i.e.* , groundwater samples from monitoring wells screened primarily in the stratified drift unit) indicated that only tritium was present above the minimum detection concentration. The largest tritium concentrations were observed in wells located immediately downgradient of the spent fuel pit and ion exchange pit (SFP/IXP). In 2003, YAEC made several changes to improve site characterization and sampling and analytical procedures: 1. During the summer of 2003, YAEC installed 17 monitoring wells, as mentioned above, to characterize the glaciolacustrine and bedrock units more adequately. YAEC installed additional monitoring wells in 2004 and will install more as required by MDEP to improve its characterization of groundwater at the site. 2. YAEC began quarterly sampling events in 2003, and in 2004 improved sampling procedures by measuring the groundwater levels in all monitoring wells within a few hours before any water samples were collected. YAEC has also committed to collecting the water samples from the monitoring wells over a shorter time period. 3. YAEC improved and explained its analytical analysis of the groundwater samples by analyzing for the radionuclides of concern at the YNPS site. Table 2-6 of the LTP lists the radionuclides of concern (or see Section 3.1.1). In July and November 2003, YAEC conducted analyses for these radionuclides of concern and for Mn-54. Tritium was the only plant-generated radionuclide that was detected in samples from the July and November 2003 events. The largest tritium concentration historically observed at the YNPS site was groundwater flowing from Sherman Spring early in plant operation, which is downgradient from the Sherman Dam and Sherman Pond near the Deerfield River. Groundwater from Sherman Spring had a tritium concentration of 7,195,000 picoCuries/liter (pCi/L) in December 1965. The tritium contamination is reported to have been caused by a leakage from the SFP/IXP, which was repaired in May 1965 and in 1979, when a stainless-steel liner was installed. Tritium levels in groundwater samples from Sherman Spring have decreased steadily over time, and have varied from non-detectable
(ND)to 890 picoCuries/liter in recent monitoring rounds. Tritium concentrations from the July and November 2003, sampling events are variable by space and time throughout the hydrogeologic units at the site. The tritium plume extends from the source area at the SFP/IXP towards Sherman Spring and the Deerfield River, with the highest tritium concentrations present immediately downgradient of the SFP/IXP. The maximum tritium concentrations were approximately 2,000 pCi/L in the stratified drift unit, 45,000 pCi/L in the glaciolacustrine unit, and 6,000 pCi/L in the bedrock unit. 3.4 Human Health Potential human health hazards associated with the YNPS site range from potential exposure to very low levels of radioactivity in soils and groundwater, to limited areas of relatively high levels of radioactivity within the remaining portions of the reactor support structures and systems. The intent of the final decommissioning activity at the site is to reduce radiological contamination at the site to meet NRC's unrestricted release criteria, and to also meet the criteria of the MDPH and MDEP. After decommissioning activities are complete, license termination activities will verify adequacy of the radiological release criteria ( *i.e.* , DCGLs) and the final status survey. Unrestricted use of the site is defined in 10 CFR 20.1402, as follows: A site will be considered acceptable for unrestricted use if the residual radioactivity that is distinguishable from background radiation results in a TEDE [total effective dose equivalent] to an average member of the critical group that does not exceed 25 mrem [millirem] (0.25 mSv) [milliSievert] per year, including that from groundwater sources of drinking water, and that the residual radioactivity has been reduced to levels that are as low as reasonably achievable (ALARA) * * *. As planned, the 0.25 mSv/yr (25 mrem/yr) TEDE all-pathway limit would be achieved at the site through the application of DCGLs used to measure the adequacy of remediation activities. The DCGLs in use at the YNPS site were calculated using dose models based on guidance provided in NUREG/CR-5512, Volumes 1, 2, and 3, NUREG/CR-6697, and the computer codes RESRAD Version 6.21 and RESRAD-BUILD Version 3.21 code for generating the DCGLs. These dose models translate residual radioactivity into potential radiation doses to the public, based on select land-use scenarios, exposure pathways, and identified critical groups. A critical group is defined as the group of individuals reasonably expected to receive the greatest exposure to residual radioactivity given the assumptions of a given scenario. Such scenarios and their associated modeling are designed to overestimate, rather than underestimate, potential dose. YAEC has also agreed to meet the following radiological site criteria of the Commonwealth of Massachusetts: 1 mrem/yr for concrete rubble used on-site as fill; 10 mrem/yr for the entire site; and the risk criteria for cumulative radiological and non-radiological risk as determined by a Risk Assessment according to the MCP. 4.0 Environmental Impacts 4.1 Land Use YAEC plans to release eventually all of the property associated with the YNPS site to local, state, or federal government or non-profit entities for conservation purposes. YAEC has developed an American Land Title Association survey to document the site's legal boundaries. In addition, natural and cultural resources inventories and management plans have been developed. The management plans specify the obligations necessary to preserve the site for conservation (YAEC, 2004b). Termination of the YAEC license is not reasonably expected to result in any adverse impacts to onsite and adjacent land use. Soils not meeting the radiological criteria for license termination will be removed and disposed of at a licensed facility as low-level radioactive waste. Initially, most of the YAEC-owned property would be released, except for approximately 87 acres containing the spent fuel storage facility and associated buffer zone. That acreage would be released when the fuel is removed to a permanent repository and the storage facility is decommissioned. Land on and directly adjacent to the site is expected to remain heavily wooded, with lightly populated communities in the surrounding area. Recreational opportunities afforded by the Deerfield River will likely continue and could increase. The deed restriction required by the MDEP Solid Waste BUD permit will require prior written approval by the MDEP for any use of the former industrial area of the site other than as passive recreation, and will prohibit excavations in that area. 4.2 Water Resources Approval of the LTP and eventual termination of the license are not anticipated to result in any significant impacts to either surface water or groundwater. The approved radiation release criteria must be met as a condition of license termination and release of the site. 4.2.1 Surface Water Land areas from which precipitation runs off to surface waters, will be subject to further investigation, remediation where necessary, and the final status survey. YAEC will need to verify that DCGLs have been met in accordance with Section 5 of the LTP, thus demonstrating compliance with the release criteria. Further, YAEC will need to demonstrate compliance with the MCP surface water requirements for both nonradiological and radiological contaminants. YAEC's future license termination also would not be expected to result in any adverse impact to surface water flow or quality, as batch discharges will cease along with other license termination activities. Prior to license termination, the amount of impervious area will be reduced by about 8 acres (from about 9.5 acres) due to revegetation of areas currently occupied by buildings, roads, and parking lots (ERM, 2004d). YAEC intends to leave the current stormwater drainages unaltered to prevent the destruction of wetland areas that have formed in the drainages. Drainage pipes will be closed, so that discharges will likely continue as sheet flow from the drainages into water bodies. Both the existing water supply system (upgradient supply well) and sewage system will remain in place. YAEC will inspect the remaining septic systems (discussed in Section 3.3.1) for compliance with state septic system regulations before the property title is transferred. Groundwater monitoring wells have been installed and monitored in the vicinity of the site septic systems. Several closure activities are being conducted on or near wetlands resources. YAEC has prepared an Integrated Permit Package to address the regulatory requirements applicable to such activities (ERM, 2004d). The activities requiring wetlands-related permits include PCB remediation, decommissioning of circulating water intake and discharge structures, removal of the Southeast Construction Fill Area, implementation of Sherman Dam flood control measures, and regrading of the site. Additionally, a wetlands restoration plan has been developed (Woodlot, 2004) to implement the permit requirements. Further information concerning wetlands activities can be found in the Integrated Permit Package and the Wetland Restoration and Replication Plan (Woodlot, 2004). YAEC samples three surface water sites for its Radiological Environmental Monitoring Program
(REMP)at the YNPS site. The Deerfield River is sampled downstream from the YNPS site at Bear Swamp Lower Reservoir with an automatic sampler every two hours. These samples are composited each month. YAEC also collects monthly grab samples from Sherman Pond and from an upstream Deerfield River site at the Harriman Reservoir. Samples from all three sites are analyzed for gamma emitting radionuclides, tritium, and gross beta. The tritium and gamma spectroscopy results for 2003 indicated that no surface water samples contained detectable levels of plant-generated radionuclides. Also, the gross beta averages for 2003 were slightly greater at the upstream Deerfield River site than at the downstream site (YAEC, 2004d). Based upon these recent data, YAEC states that the surface waters do not require remediation pertaining to plant-generated radionuclides. 4.2.2 Groundwater YAEC states that remediation will not likely be required for groundwater at the YNPS site to meet NRC's license termination criteria because H-3 levels are expected to meet NRC's unrestricted release criteria when the site is released (when the ISFSI is decommissioned and the license terminated). If decommissioning activities at the YNPS site increase the concentrations of plant-generated radionuclides dissolved in the groundwater, the monitoring program at this site should detect this change. Groundwater samples from the existing 39 monitoring wells should indicate changes in the groundwater downgradient from the radiologically-controlled area. Because some monitoring wells have been abandoned during decommissioning, new monitoring wells will need to be installed to meet MDEP requirements to characterize potential changes in the level of plant-generated radionuclides dissolved in the groundwater. Groundwater at the site also will be required to meet the dose-based radiological criteris of the MDPH and the risk-based criteria of the MDEP Risk Assessment process (for both radiological and non-radiological parameters). 4.3 Human Health Impacts Compliance with 10 CFR 20.1402 for unrestricted release (and, therefore, human health protection requirements) is contingent upon successful remediation and/or removal of contaminated soil, groundwater, ancillary contaminated materials, and structures to acceptable levels (corresponding to a total dose of 0.25 mSv/yr (25 mrem/yr) or less per year) to an average member of the critical group. In addition, residual radioactivity must meet the ALARA requirements of the rule. As noted in Sec. 3.4, YAEC also has agreed to meet the more restrictive radiological release criteria of the MDPH and the MDEP. Derived Concentration Guideline Levels YAEC has defined levels of residual radioactivity for various sources at the site that correspond to meeting the dose limit. These acceptable levels are defined as the DCGLs. Potential radiation doses for the bounding exposure scenarios are calculated by assuming an average fixed concentration level for each of the potential sources of residual radioactivity. The sources are soil, building surfaces, subsurface partial structures, and concrete debris. Two critical groups were identified to whom the DCGLs would be applicable: A full-time resident farmer group (associated with soil, building surfaces, subsurface partial structures, and concrete debris sources) and a building occupancy group (associated with the building surfaces source). The DCGLs for each source were derived using the radiation doses per unit activity and a separate dose constraint for each source. Table 4-1 lists the DCGLs for each radionuclide from each source. Within each critical group, each DCGL was selected to correspond to a fraction of the 0.25 mSv/yr (25 mrem/yr) dose limit so that the total dose to the average member of that group from all sources would equal the limit. For the resident farmer critical group, the doses corresponding to DCGLs (and totaling 25 mrem/yr) are: • Subsurface partial structures: 0.005 mSv/yr (0.5 mrem/yr) • Groundwater: 0.0077 mSv/yr (0.77 mrem/yr). • Concrete debris and soil: 0.2373 mSv/yr (23.73 mrem/yr) In areas that have co-mingled soil and concrete debris, YAEC would use the smaller of the two DCGLs for each radionuclide (see Table 4-1), and for areas with only soil, YAEC would use the soil DCGLs. For the building occupancy critical group, YAEC would take a sum-of-fractions approach to ensure that if a member of the public were both a member of the building occupancy critical group and the resident farmer critical group, their total dose would be less than 0.25 mSv/yr (25 mrem/yr). Any actual doses would likely be much less than the 0.25 mSv/yr (25 mrem/yr) limit. This is due to the conservatism in both the modeling and the assumption that the entire source would have residual radioactivity at the DCGL. (It is more likely that the sources will have residual radioactivity at considerably less than the DCGLs.) Provided compliance with the 10 CFR 20.1402 limit is demonstrated through the results of the final status survey, there would be no anticipated adverse impacts to human health from approval of license termination, as described in the environmental impact statement for license termination (NUREG-1496) (NRC, 1997a). Exposure Scenarios The manner in which the DCGLs are derived for the YNPS site is documented in Chapter 6 of the LTP, Revision 1. In deriving the DCGLs, an adult resident farmer is considered to represent the average member of the critical group. The hypothetical resident farmer is assumed to build a house on the contaminated soil (or soil/concrete debris mix), draw water from a well placed into the tritium plume, grow plant food and fodder on the contaminated area, raise livestock on the contaminated area, and catch fish from a pond on the contaminated area. The resident farmer scenario is considered the bounding scenario because it embodies the greatest number of exposure pathways, represents the longest exposure durations, and includes the greatest number of sources, of all scenarios envisioned. The DCGLs are shown in Table 4-1. The NRC will evaluate the appropriateness of the postulated exposure scenarios and the methodology used for deriving the DCGLs as part of its review of the LTP. The NRC staff's Safety Evaluation Report will provide the details of this review. Survey Design YAEC would use a series of surveys, including the final status survey, to demonstrate compliance with the radiological release criteria consistent with the Multi-Agency Radiation Survey and Site Investigation Manual (NRC, 1997a). Planning for the final status survey involves an iterative process that requires appropriate site classification (on the basis of the potential residual radioactivity levels relative to the DCGLs) and formal planning using the Data Quality Objective process. YAEC has committed to an integrated design that would address the selection of appropriate survey and laboratory instrumentation and procedures, including a statistically-based measurement and sampling plan for collecting and evaluating the data needed for the final status survey. YAEC has requested that it be permitted to modify the classification levels based on new information during the decommissioning process. Table 4-1.—Derived Concentration Guideline Levels* Radionuclide Soil (pCi/g)† Building surface (dpm/100 cm 2 ) ‡ Subsurface partial structures (pCI/g) § Concrete debris† (pCi/g) H-3 3.5E+02 3.4E+08 1.35E+02 9.5E+01 (cellar holes). 2.8E+02 (grading). C-14 5.2E+00 1.0E+07 2.34E+03 7.2E+00. Fe-55 2.8E+04 4.0E+07 1.4E+02. Co-60 3.8E+00 1.8E+04 3.45E+03 4.3E+00. Ni-63 7.7E+02 3.7E+07 6.16E+04 1.0E+02. Sr-90 1.6E+00 1.5E+05 1.39E+01 7.5E01. Nb-94 6.8E+00 2.6E+04 7.0E+00. Tc-99 1.3E+01 1.4E+07 6.1E+01. Ag-108m 6.9E+00 2.5E+04 7.0E+00. Sb-125 3.0E+01 1.0E+05 3.1E+01. Cs-134 4.7E+00 2.9E+04 4.7E+00. Cs-137 8.2E+00 6.3E+04 1.45E+03 6.7E+00. Eu-152 9.5E+00 3.7E+04 9.5E+00. Eu-154 9.0E+00 3.4E+04 9.1E+00. Eu-155 3.8E+02 6.5E+05 3.8E+02. Pu-238 3.1E+01 5.7E+03 9.5E+00. Pu-239 2.8E+01 5.1E+03 8.8E+00. Pu-241 9.3E+02 2.5E+05 1.4E+02. Am-241 2.8E+01 5.0E=03 4.1E+00. Cm-243 3.0E+01 7.2E+03 4.7E+00. * To convert to Bq from pCi, multiply by 0.037. † Represents a dose of 23.73 mrem/yr. ‡ Represents a dose of 25 mrem/yr. § Represents a dose of 0.5 mrem/yr, radionuclides based upon those found in concrete samples. 5.0 Agencies and Persons Consulted and Sources Used A copy of the Environmental Assessment was provided to the Commonwealth of Massachusetts on March 3, 2005. The Massachusetts Department of Environmental Protection provided comments by letter dated March 31, 2005, which were incorporated into this EA. The NRC staff has determined that the proposed action would not affect listed threatened or endangered species or critical habitat designated under the Endangered Species Act. Therefore, no consultation is required under Section 7 of the Endangered Species Act. Likewise, the NRC staff has determined that the proposed action would not affect historic or archaeological resources. Therefore, no consultation is required under Section 106 of the National Historic Preservation Act. 6.0 Conclusion The NRC has prepared this EA related to the issuance of a license amendment that would approve the LTP. On the basis of this EA, the NRC has concluded that there are no significant environmental impacts and the proposed license amendment does not warrant the preparation of an Environmental Impact Statement. Accordingly, it has been determined that a Finding of No Significant Impact is appropriate. The documents related to this proposed action are available for public inspection and copying at NRC's Public Document Room at NRC Headquarters, One White Flint North, 1555 Rockville Pike, Rockville, Maryland 20852. Most of these documents also are available for public review through our electronic reading room (ADAMS): *http://www.nrc.gov/reading-rm/adams.html* . 7.0 List of Preparers C. McKenney, Health Physicist, Division of Waste Management, dose assessment. J. Peckenpaugh, Hydrologist, Division of Waste Management, groundwater issues. C. Schulte, Project Manager, Division of Waste Management and Environmental Protection, non-radiological environmental issues. J. Thompson, Health Physicist, Division of Waste Management and Environmental Protection, Final Status Survey, radiation release criteria. 8.0 List of Acronyms ALARA as low as reasonably achievable BUD beneficial reuse determination CFR Code of Federal Regulations DCGL derived concentration guideline limit dpm/100cm 2 disintegrations per minute per 100 square centimeters EA environmental assessment EPA Environmental Protection Agency FR Federal Register FSS final status survey ISFSI independent spent fuel storage installation kV kilovolt LTP license termination plan MCP Massachusetts Contingency Plan MDEP Massachusetts Department of Environmental Protection MDPH Massachusetts Department of Public Health, Radiation Control Program mrem/y millirem per year mSv/yr milliSievert per year NEPA National Environmental Policy Act NHESP National Heritage and Endangered Species Program NPDES National Pollution Discharge Elimination System NRC Nuclear Regulatory Commission ORISE Oak Ridge Institute for Science and Education PCBs Polychlorinated biphenyls pCi/L picocurie per liter PSDAR post shutdown decommissioning activities report RCA Radiologically-controlled area REMP Radiological Environmental Monitoring Program RCRA Resource Conservation and Recovery Act SCFA Southeast Construction Fill Area TEDE total effective dose equivalent TSCA Toxic Substances Control Act YAEC Yankee Atomic Electric Company YNPS Yankee Nuclear Power Station 9.0 References 10 CFR Part 20. *Code of Federal Regulations* , Title 10, Energy, Part 20, “Standards for protection against radiation.” 10 CFR Part 50. *Code of Federal Regulations* , Title 10, Energy, Part 50, “Domestic licensing of production and utilization facilities.” 10 CFR Part 51. *Code of Federal Regulations* , Title 10, Energy, Part 51, “Environmental protection regulations for domestic licensing and related regulatory functions.” 61 FR 39278. “Decommissioning of Nuclear Power Reactors.” **Federal Register** . July 29, 1996. 62 FR 39058. “Radiological Criteria for License Termination. Final Rule.” **Federal Register** . July 21, 1997. 64 FR 68005. “Waste Confidence Decision Review.” **Federal Register** . December 6, 1999. Evans *et al.* , 1984. “Long-Lived Activation Products in Reactor Materials,” NUREG/CR-3474. August 1984. U.S. Nuclear Regulatory Commission, Washington, DC. ERM, 2004a. “Baseline Environmental Report,” April 30, 2004. Environmental Resources Management, Boston, Massachusetts. ERM, 2004b, “Expanded Environmental Notification Form,” March 31, 2004. Environmental Resources Management, Boston, Massachusetts. ERM, 2004c, “Site Characterization Status Report,” June 4, 2004. Environmental Resources Management, Boston, Massachusetts. ERM, 2004d, “Integrated Permit Package, Yankee Nuclear Power Station,” May 7, 2004. Environmental Resources Management, Boston, Massachusetts. Kennedy and Strenge, 1992. “Residual Radioactive Contamination From Decommissioning.” NUREG/CR-5512, Volume 1. October 1992. U.S. Nuclear Regulatory Commission, Washington, DC. Kleinschmidt, 2004. “Post-Decommissioning Grading Plan and Stormwater Management Analysis,” August 2004. Kleinschmidt Energy and Water Resource Consultants. MASS, 2004. “Certificate of the Secretary of Environmental Affairs on the Expanded Environmental Notification Form,” May 7, 2004, Massachusetts Executive Office of Environmental Affairs, Boston, Massachusetts. MHC, 2003. Letter, Massachusetts Historical Commission to YAEC, “Yankee Nuclear Power Station Decommissioning, Rowe; MHC#33426,” dated August 18, 2003. NRC, 1988. “Final Generic Environmental Impact Statement on the Decommissioning of Nuclear Facilities.” August 1988. U.S. Nuclear Regulatory Commission, Washington, DC. NRC, 1997a. “Generic Environmental Impact Statement in Support of Rulemaking on Radiological Criteria for License Termination of NRC-Licensed Nuclear Facilities.” NUREG-1496. July 1997. U.S. Nuclear Regulatory Commission, Washington, DC. NRC, 1997b. “Multi-Agency Radiation Survey and Site Investigation Manual (MARSSIM).” NUREG-1575. December 1997. U.S. Nuclear Regulatory Commission, Washington, DC. NRC, 2002. “Generic Environmental Impact Statement on the Decommissioning of Nuclear Facilities. Supplement Dealing with Decommissioning of Nuclear Power Reactors.” November 2002. NUREG-0586, Supplement 1, U.S. Nuclear Regulatory Commission, Washington, DC. NRC, 2003. “Consolidated NMSS Decommissioning Guidance,” NUREG-1757. September 2003 NRC, 2004. Letter, NRC to YAEC, “Yankee
(Rowe)Nuclear Power Station—Request for Additional Information Re: License Termination Plan,” dated June 16, 2004. PAL, 2003. “Archeological Reconnaissance Survey, Archeological Resources Management Plan, Yankee Nuclear Power Station,” November, 2003. Public Archeology Laboratory, Inc., Pawtucket, Rhode Island. Smith *et al.* , 1978. “Technology, Safety and Costs of Decommissioning a Reference Pressurized Water Reactor Power Station.” NUREG/CR-0130. June 1978. U.S. Nuclear Regulatory Commission, Washington, DC. Woodlot, 2004. “Yankee Nuclear Power Station Site Closure Project Wetland Restoration and Replication Plan,” August 2004. Woodlot Alternatives, Inc., Topsham, Maine, and Environmental Resources Management, Boston, Massachusetts. YAEC, 1993. “YNPS Decommissioning Environmental Report,” December, 1993, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2000. “Post Shutdown Decommissioning Activities Report,” June, 2001. Excerpted from the YNPS Final Safety Analysis Report, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2003. “YNPS License Termination Plan,” Revision 0. November 24, 2003, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2004a. “YNPS License Termination Plan,” Draft Revision 1, September 2, 2004, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2004b. “Site Closure Project Plan,” Revision 2. March 31, 2004, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2004c. “YNPS Historical Site Assessment,” January 2004, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2004d. “Annual Radiological Environmental Operating Report,” Yankee Rowe Station Radiological Environmental Monitoring Program—January 1, 2003—December 31, 2003. Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2004e. “Hydrogeologic Report of 2003 Supplemental Investigation” March 15, 2004. Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2004f. “YNPS License Termination Plan,” Revision 1, November 19, 2004, Yankee Atomic Electric Company, Rowe, Massachusetts. YAEC, 2005. “Supplement to Proposed Amendment to YNPS Possession Only License,” April 7, 2005, Yankee Atomic Electric Company, Rowe, Massachusetts. Framatome, 2003. “Site Ground Water Data Collection for YNPS Decommissioning, quo; Rev 1. February, 2003, Framatome ANP DE&S, Marlborough, Massachusetts. Dated at Rockville, Maryland, this 23rd day of May, 2005. For the Nuclear Regulatory Commission. Andrew Persinko, Acting Deputy Director, Division of Waste Management and Environmental Protection, Office of Nuclear Material Safety and Safeguards. [FR Doc. E5-2850 Filed 6-2-05; 8:45 am] BILLING CODE 7590-01-P RAILROAD RETIREMENT BOARD Agency Forms Submitted for OMB Review *Summary:* In accordance with the Paperwork Reduction Act of 1995 (44 U.S.C. Chapter 35), the Railroad Retirement Board
(RRB)has submitted the following proposal(s) for the collection of information to the Office of Management and Budget for review and approval. Summary of Proposal(s)
(1)*Collection title:* Statement Regarding Contributions and Support.
(2)*Form(s) submitted:* G-134.
(3)*OMB Number:* 3220-0099.
(4)*Expiration date of current OMB clearance:* 09/30/2005.
(5)*Type of request:* Extension of a currently approved collection.
(6)*Respondents:* Individuals or households.
(7)*Estimated annual number of respondents:* 100.
(8)*Total annual responses:* 100.
(9)*Total annual reporting hours:* 259.
(10)*Collection description:* Dependency on the employee for one-half support at the time of the employee's death can be a condition affecting eligibility for a survivor annuity provided for under Section 2 of the Railroad Retirement Act. One-half support is also a condition which may negate the public service pension offset in Tier 1 for a spouse or widow(er). FOR FURTHER INFORMATION CONTACT: Copies of the forms and supporting documents can be obtained from Charles Mierzwa, the agency clearance officer (312-751-3363) or *Charles.Mierzwa@rrb.gov.* Comments regarding the information collection should be addressed to Ronald J. Hodapp, Railroad Retirement Board, 844 North Rush Street, Chicago, Illinois, 60611-2092 or *Ronald.Hodapp@rrb.gov* and to the OMB Desk Officer for the RRB, at the Office of Management and Budget, Room 10230, New Executive Office Building, Washington, DC 20503. Charles Mierzwa, Clearance Officer. [FR Doc. 05-11032 Filed 6-2-05; 8:45 am]
Connectionstraces to 7
Traces to 7 documents
CFR
- Requests for action under this subpart.§ 2.206
- Criteria for and identification of licensing and regulatory actions requiring environmental assessments.§ 51.21
- Dose limits for individual members of the public.§ 20.1301
- Radiation protection programs.§ 20.1101
- Radiological criteria for unrestricted use.§ 20.1402
- Termination of license.§ 50.82
- Environmental impacts of continued storage of spent nuclear fuel beyond the licensed life for operation of a reactor.§ 51.23
5 references not yet in our index
- 10 CFR 75
- Pub. L. 104-13
- 10 CFR 20
- 10 CFR 50
- 10 CFR 51
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Notice of the OMB review of information collection and solicitation of public comment
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Pub. L.Pub. L. 104-13
Cite10 CFR 20
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Cite10 CFR 51
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