Selecting the Site: The Final Disposal at Olkiluoto
Selecting the Site: The Final Disposal at Olkiluoto
Posiva webpage discussing selecting the site for final disposal of spent fuel.
Posiva webpage discussing selecting the site for final disposal of spent fuel.
A summary of the radioactive waste management programs in Finland, including the national nuclear energy context; sources, types, and quantities of waste; radioactive waste management policies and programs; research and development; decommissioning and dismantling policies and projects; transport; authorities and implementing organizations; financing; and public information.
Presentation by Posiva Oy at The Stockholm Talks on October 2, 2013 on the status of the Finnish nuclear waste management program.
A summary of nuclear waste management in Finland, including energy use statistics, principles of nuclear waste management, financing, how waste is disposed of, the underground research laboratory, and the authorities involved in nuclear waste management.
The Finnish nuclear regulator needs another six months to review Posiva's application to build a waste encapsulation plant and a final repository at Olkiluoto.
A summary of the radioactive waste management programs in the Czech Republic, including information on nuclear energy; sources, types, and quantities of waste; radioactive waste management policies and programs; research and development; decommissioning and dismantling policies and projects; transport; competent authorities; and financing.
Over the course of the last two and a half years, Committee Republicans have reviewed in depth Administration actions associated with the Yucca Mountain Project and disposal of the Nation‘s spent nuclear fuel and high-level radioactive waste. Focusing in particular on the scientific and technical information and processes associated with key policy decisions, the Committee‘s effort included numerous letters to Administration officials, extensive questioning at Committee hearings, and acquisition and review of thousands of pages of internal documents.
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.
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.
Waste siting gridlock in the United States and Canada has led to experimentation with voluntary and hybrid or "mixed mode" siting. We review nuclear and hazardous waste voluntary siting (VS) results for selected cases in the U.S. and Canada. Findings indicate that VS is not a panacea. but that current siting efforts are inadequate tests of its potential. We suggest trials of improved VS protocols and more effort on hybrid approaches in which the developer chooses the site but is required to reach agreement on conditions with local stakeholders.
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.
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.
This study presents a synthesis of information and interpretations relevant to surficial processes at the Yucca Mountain Site. The report is part of the technical basis which will be used to evaluate the suitability of Yucca Mountain, Nevada, as a site for a mined geologic repository for the permanent disposal of high-level radioactive waste and spent nuclear fuel. It provides a description of the surface characteristics, preclosure hydrology, and erosion at the Yucca Mountain Site. This report will provide the technical basis to evaluate three technical guidelines from the U.S.
Long-term radioactive waste management (RWM) involves large and long-term research and development programmes in essentially all countries with civil nuclear programmes. Such programmes develop through different phases from basic research to more focussed applied research and development (R&D) and finally to the design and siting of proposed solutions. Internationally basic principles for the conduct of these programmes, basic safety principles and guidance on how to comply with them have largely been agreed upon.
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.
Nuclear waste disposal in the USA is a difficult policy issue infused with science, technology, and politics. This issue provides an example of the co-production of scientific knowledge and politics through public policy. The proponents of a repository site at Yucca Mountain, Nevada, argue that their decision to go ahead with the site is based on ‘sound science’, but the science they use to uphold their decision is influenced by politics. In turn, the politics of site selection has been altered by the scientific knowledge produced.
In the early 1970s the federal government selected an area in southeastern New Mexico containing large underground salt beds as potentially suitable for radioactive waste disposal. An extensive site characterization program was initiated by the federal government. This site became the "Waste Isolation Pilot Plant," better known as WIPP. It is now 1997, over two decades after the initial selection of the New Mexico site as a potential radioactive waste repository.