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FINAL ENVIRONMENTAL IMPACT STATEMENT Waste Isolation Pilot Plant Volume 1 of 2
FINAL ENVIRONMENTAL IMPACT STATEMENT Waste Isolation Pilot Plant Volume 1 of 2
This document provides environmental input for certain decisions in the U.S. Department of Energy (DOE) program for managing the transuranic radio-active waste generated in the national defense program. This final environ-mental impact statement was preceded by a draft statement published by the DOE in April 1979. Large quantities of radioactive waste have resulted from the production of nuclear weapons and the operation of military reactors in national defense programs. This waste includes both high-level waste (HLW) and transuranic (TRU) waste.
SITING PROCESS FOR A CENTRALISED STORAGE FACILITY (ATC) FOR SPENT FUEL AND HIGH LEVEL WASTE IN SPAIN
SITING PROCESS FOR A CENTRALISED STORAGE FACILITY (ATC) FOR SPENT FUEL AND HIGH LEVEL WASTE IN SPAIN
Annual Report 2010 on Radiation and Nuclear Safety in the Republic of Slovenia
Annual Report 2010 on Radiation and Nuclear Safety in the Republic of Slovenia
In 2010, there were no events that posed a serious radiological threat to the population in Slovenia. There were also no particularities in relation to the services of radiation practices and operators of radiation facilities.
The Krško NPP operated without shutdowns and production was interrupted only for the annual outage. In 2010, the power plant produced 5.7 TWh in total and achieved 89.9% availability. The nuclear power plant had no major problems during the September floods, when the Sava river otherwise seriously threatened settlements in Posavje.
Swedish Nuclear Waste Efforts
Swedish Nuclear Waste Efforts
The 1976 Parliamentary election in Sweden resulted in a coalition government which imposed extremely stringent requirements for the waste produced by Swedish nuclear power plants. The industry responded with a crash study, the Nuclear Fuel Safety (KBS) project, with experts drawn from hundreds of universities and related scientific institutions. A year later, the industry presented “a complete scheme for absolutely safe storage of nuclear waste” in engineered facilities located at about 500 m depth in the Swedish granite bedrock (KBS-I).
Specific Design Principles for Deep Geological Repositories and Requirements for the Safety Case
Specific Design Principles for Deep Geological Repositories and Requirements for the Safety Case
The Swiss Federal Nuclear Safety Inspectorate (ENSI) is the regulatory authority for nuclear safety and security of the nuclear installations in Switzerland. ENSI issues guidelines either in its capacity as regulatory authority or based on a mandate in an ordinance. Guidelines are support documents that formalise the implementation of legal requirements and facilitate uniformity of implementation practices. They further concretise the state-of-the-art in science and technology.
Waste Isolation Projects - FY 1977
Waste Isolation Projects - FY 1977
The primary goal of the ongoing LLL program is to develop the technology and data base required to license a nuclear repository in a crystalline rock medium, located at or near the Nevada Test Site (NTS). Our secondary goal is to apply this technology in helping the Department of Energy (DOE) develop repositories in other media and locations.
Technical overview of the SAFIR 2 report: Safety Assessment and Feasibility Interim Report 2
Technical overview of the SAFIR 2 report: Safety Assessment and Feasibility Interim Report 2
This document is the technical overview of the SAFIR 2 report that synthesises all of the technical and scientific knowledge available at the end of the second phase (1990–2000) of the ONDRAF/NIRAS programme of methodological research and development on the final disposal of category B and C waste in a poorly-indurated clay formation. The SAFIR 2 report will be handed over by ONDRAF/NIRAS to its supervisory Minister at the beginning of 2002, after publication approval by its Board of Directors.
Spent Fuel Storage Requirements 1991-2040
Spent Fuel Storage Requirements 1991-2040
Historical inventories of spent fuel are combined with U.S Department of Energy (DOE) projections of future discharges from commercial nuclear reactors in the United States to provide estimates of spent fuel storage requirements over the next 50 years, through the year 2040. The needs for storage capacity beyond that presently available in the pools are estimated. These estimates incorporate the maximum capacities within current-and planned in-pool storage facilities and any planned transshipments of fuel to ther reactors or, facilities.
WIPP Chronology
WIPP Chronology
WHITE PAPER Regarding OPPOSITION TO THE HIGH-LEVEL NUCLEAR WASTE STORAGE FACILITY Proposed By PRIVATE FUEL STORAGE On The SKULL VALLEY BAND OF GOSHUTE INDIAN RESERVATION SKULL VALLEY, UTAH
WHITE PAPER Regarding OPPOSITION TO THE HIGH-LEVEL NUCLEAR WASTE STORAGE FACILITY Proposed By PRIVATE FUEL STORAGE On The SKULL VALLEY BAND OF GOSHUTE INDIAN RESERVATION SKULL VALLEY, UTAH
There are no nuclear power plants in Utah. Despite that, Utah is targeted to be the site of the largest facility ever licensed for storage of spent nuclear fuel rods (high-level nuclear waste) from nuclear power plants. This proposed site would store up to 40,000 metric tons of spent nuclear fuel. The storage of this amount of waste in one location is equivalent to all the commercial spent nuclear fuel rods in the United States. The Federal government has responsibility for permanently storing this high-level nuclear waste, but after 18 years, it has missed the deadline.
The BRIDGE
The BRIDGE
Civilian Nuclear Spent Fuel Temporary Storage Options
Civilian Nuclear Spent Fuel Temporary Storage Options
The Department of Energy (DOE) is studying a site at Yucca Mountain, Nevada, for a permanent underground repository for highly radioactive spent fuel from nuclear reactors, but delays have pushed back the facility’s opening date to 2010 at the earliest. In the meantime, spent fuel is accumulating at U.S. nuclear plant sites at the rate of about 2,000 metric tons per year. Major options for managing those growing quantities of nuclear spent fuel include continued storage at reactors, construction of a DOE interim storage site near Yucca Mountain, and licensing of private storage facilities.
Geologic and Hydrologic Characterization and Evaluation of the Basin and Range Province Relative to the Disposal of High-level Radioactive Waste -- Part 2
Geologic and Hydrologic Characterization and Evaluation of the Basin and Range Province Relative to the Disposal of High-level Radioactive Waste -- Part 2
The U.S. Geological Survey's program for geologic and hydrologic evaluation of physiographic provinces to identify areas potentially suitable for locating repository sites for disposal of high-level nuclear wastes was announced to the Governors of the eight States in the Basin and Range Province on May 6, 1981. Representatives of Arizona, California, Idaho, New Mexico, Nevada, Oregon, Texas, and Utah, were invited to cooperate with the Federal Government in the evaluation process.
TESTIMONY of the STATE OF UTAH REGARDING THE DEPARTMENT OF ENERGY'S IMPLEMENTATION OF THE NUCLEAR WASTE POLICY ACT OF 1982
TESTIMONY of the STATE OF UTAH REGARDING THE DEPARTMENT OF ENERGY'S IMPLEMENTATION OF THE NUCLEAR WASTE POLICY ACT OF 1982
Sectoral Plan for Deep Geological Repositories: Conceptual Part
Sectoral Plan for Deep Geological Repositories: Conceptual Part
The conceptual part of the sectoral plan for deep geological repositories defines the goals of the federal government in this area and the procedures and criteria to be applied in selecting sites for deep geological repositories for all categories of waste in Switzerland. The focus of the site selection process is on safetybased criteria, with land use and socio-economic aspects playing a secondary role.
RD&D-Programme 98 Treatment and final disposal of nuclear waste Programme for research, development and demonstration of encapsulation and geological disposal
RD&D-Programme 98 Treatment and final disposal of nuclear waste Programme for research, development and demonstration of encapsulation and geological disposal
During the next few years, SKB will add the results of county studies and additional feasibility studies to the background data for siting of the deep repository. We plan to be able to choose at least two sites for site investigations in 2001. The investigations, which will include test drillings, should be able to be started in 2002. An important milestone will thereby be passed in the siting work.<br/><br/>The technology for deep disposal will be tested on full scale at our laboratories in Oskarshamn.
TREATMENT AND FINAL DISPOSAL OF NUCLEAR WASTE: SUPPLEMENT TO THE 1992 PROGRAMME IN RESPONSE TO THE GOVERNMENT DECISION OF DECEMBER 16, 1993
Treatment and final disposal of nuclear waste: Programme for encapsulation, deep geological disposal, and research, development and demonstration: Ch 1 - 5
Treatment and final disposal of nuclear waste: Programme for encapsulation, deep geological disposal, and research, development and demonstration: Ch 1 - 5
In RD&D-Programme 92, SKB presented a partially new strategy for its activities. The new strategy entailed a focusing and concentration on the implementation of deep disposal of a limited quantity (about 800 tonnes) of encapsulated spent nuclear fuel during the coming 20-year period. Following this initial deposition, the results of the work will be evaluated, and only then will a decision be taken as to how and when regular deposition of the main body of the fuel and other long-lived nuclear waste will take place.
Site selection - Siting of the Final Repository for Spent Nuclear Fuel
Site selection - Siting of the Final Repository for Spent Nuclear Fuel
SKB has selected Forsmark as the site for the final repository for spent nuclear fuel. The site selection<br/>is the end result of an extensive siting process that began in the early 1990s. The strategy and<br/>plan for the work was based on experience from investigations and development work over a period<br/>of more than ten years prior to then.<br/>This document describes the siting work and SKB’s choice of site for the final repository.
RD&D-Programme 2001 Programme for research, development and demonstration of methods for the management and disposal of nuclear waste
RD&D-Programme 2001 Programme for research, development and demonstration of methods for the management and disposal of nuclear waste
The preceding RD&D-Programme from 1998 was supplemented in December 2000 by an integrated account of method, site selection and programme prior to the site<br/>investigation phase. Since the latter account lies close in time, SKB has chosen to<br/>concentrate RD&D-Programme 2001 on research and technology development. Viewpoints<br/>offered on previous RD&D-programmes and comments from the review of the<br/>SR 97 safety assessment comprise important input for RD&D-Programme 2001.
Integrated account of method, site selection and programme prior to the site investigation phase
Integrated account of method, site selection and programme prior to the site investigation phase
In order to dispose of the spent nuclear fuel in a safe manner, SKB plans to site<br/>a deep repository and an encapsulation plant with associated canister fabrication<br/>and transportation system. After an integrated evaluation of feasibility studies<br/>and other material, SKB will proceed with investigations of the rock and studies<br/>regarding establishment of the deep disposal system in the municipality of<br/>Oskarshamn or in Northern Uppland.
Viewing Back End of Nuclear Fuel Cycles Synoptically and Comparatively
Viewing Back End of Nuclear Fuel Cycles Synoptically and Comparatively
Handling and final disposal of nuclear waste. September 1989
Handling and final disposal of nuclear waste. September 1989
For those parts of the waste system that have already been taken into operation - transportation and handling systems, central interim storage facility for spent nuclear fuel (CLAB) and final repository for reactor waste (SFR)- the research and development stage has already largely been passed. The programme presented here therefore pertains primarily to the treatment and final disposal of spent fuel and the decommissioning of nuclear power plants.
Safety Case Plan
Safety Case Plan
Following the guidelines set forth by the Ministry of Trade and Industry (now Ministry of Employment and Economy) Posiva is preparing to submit the construction license application for a spent fuel repository by the end of the year 2012. The long-term safety section supporting the license application is based on a safety case, which, according to the internationally adopted definition, is a compilation of the evidence, analyses and arguments that quantify and substantiate the safety and the level of expert confidence in the safety of the planned repository.