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Siting Experience Documents Only
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Managing the Nation's Commerical High-Level Radioactive Waste
Managing the Nation's Commerical High-Level Radioactive Waste
OECD/NEA: Switzerland
OECD/NEA: Switzerland
OECD/NEA: Germany
OECD/NEA: Germany
Development of Repository Concepts for Volunteer Siting Environments
Development of Repository Concepts for Volunteer Siting Environments
The primary objective of government policy, and of NUMO in implementing this policy is to ensure that a repository for Japan’s high-level radioactive waste is designed and located so as to provide secure isolation of the waste and adequate safety for present and future generations. This requires that the site of a repository has to be chosen carefully and an associated repository concept is selected which is appropriate for its specific geological and environmental conditions. At NUMO, we have chosen to implement a volunteering approach to siting.
Stakeholder Dialogue: Experience and Analysis
Stakeholder Dialogue: Experience and Analysis
The report begins with a consideration of the factors which have led to a growth in the use of dialogue processes, a clarification of key concepts and a classification of dialogue processes. A description of recent and current activities in Europe and North America is followed by discussion of the relationship of processes and contexts. This then leads to an identification of the key aims and evaluation criteria which will be used in the design of dialogue processes to be conducted in subsequent phases of the project.
Nuclear Power Safety in Lithuania: Annual Report 2011
Nuclear Power Safety in Lithuania: Annual Report 2011
Identifying remaining socio-technical challenges at the national level: Hungary
Identifying remaining socio-technical challenges at the national level: Hungary
This paper summarises the history of RWM in Hungary, with a special attention to changing decision making approaches, social conflicts, and socio-technical challenges. First the institutional background of RWM is outlined. Next, efforts to build facilities for the management of low- and intermediatelevel waste (L/ILRW) and high-level waste (HLW) are summarized. This is followed by the short description of remaining socio-technical challenges. Finally, changes in decision-making approaches and tools are analysed.
Public Meetings on Nuclear Waste Management: Their Function and Organization
Public Meetings on Nuclear Waste Management: Their Function and Organization
This report focuses on public meetings as a vehicle for public participation in nuclear waste management. The nature of public meetings is reviewed and the functions served by meetings highlighted. The range of participants and their concerns are addressed, including a review of the participants from past nuclear waste management meetings. A sound understanding of the expected participants allows DOE to tailor elements of the meeting, such as notification, format, and agenda to accommodate the attendees.
OECD/NEA: Japan
OECD/NEA: Japan
OECD/NEA: Poland
OECD/NEA: Poland
PUBLIC CONCERNS AND CHOICES REGARDING NUCLEAR WASTE REPOSITORIES
PUBLIC CONCERNS AND CHOICES REGARDING NUCLEAR WASTE REPOSITORIES
Survey research on nuclear power issues conducted in the late 1970s has determined that nuclear waste management is now considered to be one of the most important nuclear power issues both by the U.S. public and by key leadership groups. The purpose of this research was to determine the importance placed on specific issues associated with high-level waste disposal. In addition, policy option choices were asked regarding the siting of both low-level and high-level nuclear waste repositories.
A Persepctive on U.S. Nuclear Waste Policies for the Last 40 Years
A Persepctive on U.S. Nuclear Waste Policies for the Last 40 Years
Reactor and Fuel Cycle Technology Subcommittee Report to the Full Commission DRAFT
Reactor and Fuel Cycle Technology Subcommittee Report to the Full Commission DRAFT
The Reactor and Fuel Cycle Technology Subcommittee was formed to respond to the charge—set forth in the charter of the Blue Ribbon Commission—to evaluate existing fuel cycle technologies and R&D programs in terms of multiple criteria.
Identification, Description, and Characterization of Existing and Alternative Nuclear Energy Systems
Identification, Description, and Characterization of Existing and Alternative Nuclear Energy Systems
Fundamentally, a nuclear energy system uses nuclear fission to create heat, which is then available for generating electricity or other applications, including seawater desalination, heating, and production of other fuels. The nuclear energy system as currently deployed in the United States, Figure 1, consists of a number of integrated components, beginning with the natural resources required for nuclear fuel, followed by fissioning of the fuel in reactors connected to electricity generation facilities, and ending with the disposition of all wastes, including used nuclear fuel (UNF).
AN ANALYSIS OF INJURIES AT DEPARTMENT OF ENERGY WORK SITES
AN ANALYSIS OF INJURIES AT DEPARTMENT OF ENERGY WORK SITES
The Construction Industry Research and Policy Center (CIRPC) at the University of Tennessee was awarded a contract by the Center to Protect Workers’ Rights, under their grant program with the National Institute of Occupational Safety and Health (NIOSH), to analyze injuries of employees of the U. S. Department of Energy (DOE) and their contractors’ working at DOE work sites. The injury data analyzed were injuries recorded in DOE’s Computerized Accident Incident Reporting System (CAIRS).
Nuclear Waste Discussion Draft - FLO13341 - 113th Congress - 1st Session
Nuclear Waste Discussion Draft - FLO13341 - 113th Congress - 1st Session
To establish a new organization to manage nuclear waste, provide a consensual process for siting nuclear waste facilities, ensure adequate funding for managing nuclear waste, and for other purposes.
Proposed Alternative Strategy for the Department of Energy's Civilian Radioactive Waste Management Program: A Task Force Report
Proposed Alternative Strategy for the Department of Energy's Civilian Radioactive Waste Management Program: A Task Force Report
Over the decade since NWPA, the disposal
program's strategy, based on its interpretation of the
legislative mandate and regulatory requirements, has
sought:
• in a single large step and under a tight
schedule, to achieve the first-of-a-kind licensing
of a first-of-a-kind repository for isolating
wastes from the human environment for many
thousands of years.
• in a single large step and as rapidly as possible,
to build a full-scale repository and begin
disposing of the bulk of the nation's inventory
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
Strategy for the Management and Disposal of Used Nuclear Fuel and High-Level Radioactive Waste 3
Strategy for the Management and Disposal of Used Nuclear Fuel and High-Level Radioactive Waste 3
The Strategy for the Management and Disposal of Used Nuclear Fuel and High-Level Radioactive Waste is a framework for moving toward a sustainable program to deploy an integrated system capable of transporting, storing, and disposing of used nuclear fuel1 and high-level radioactive waste from civilian nuclear power generation, defense, national security and other activities.
Abridged History of Reactor and Fuel Cycle Technologies Development: A White Paper for the Reactor and Fuel Cycle Technology Subcommittee of the Blue Ribbon Commission
Abridged History of Reactor and Fuel Cycle Technologies Development: A White Paper for the Reactor and Fuel Cycle Technology Subcommittee of the Blue Ribbon Commission
The almost limitless energy of the atom was first harnessed in the United States, as scientists proved the basic physics of nuclear fission in a rudimentary reactor built in the floor of a squash court at the University of Chicago in 1942, and then harnessed that proven energy source in the form of atomic weapons used to end World War II. Scientists who accomplished this feat moved quickly after World War II to harness that power for peaceful uses, focusing primarily on electricity generation for industry, commerce, and household use.
BLUE RIBBON COMMISSION – Request for Information
BLUE RIBBON COMMISSION – Request for Information
o Request: The current balance of the Nuclear Waste Fund (NWF).
o Response: The balance of the Nuclear Waste Fund $24.56 billion as of November 2010. (Source: U.S. DOE OCRWM Annual Financial Report for Years Ended September 30, 2010 and 2009)
o Request: The NWF fee projections of future fee receipts.
What We've Heard - A Staff Summary of Major Themes in Testimony and Comments Received by the Blue Ribbon Commission on America’s Nuclear Future to Date
What We've Heard - A Staff Summary of Major Themes in Testimony and Comments Received by the Blue Ribbon Commission on America’s Nuclear Future to Date
The Commission is charged with submitting a
draft report to the Secretary of Energy before
the end of July 2011. To aid the Commissioners
in fulfilling that responsibility, the Commission
staff has prepared this report to summarize what
the Commission has heard up to this point in
the process. It does not attempt to recount every
comment or opinion submitted to the Commission
thus far; rather, the aim here is to summarize
major themes from the extensive testimony and
public comment the Commission has received to
Transuranic Burning Issues Related to a Second Geologic Repository
Transuranic Burning Issues Related to a Second Geologic Repository
This report defines issues that need to be addressed by a development program recently initiated to establish the viability of a transuranic program recently initiated to establish the viability of a transuranic burning concept application that would achieve a substantial delay to the need date for a second geologic repository. The visualized transuranic burning concept application is one in which spent fuel created after a date in the 2010 timeframe or later would be processed and the separated plutonium used to start up liquid metal reactors.
Technical Bases for Yucca Mountain Standards, Executive Summary
Technical Bases for Yucca Mountain Standards, Executive Summary
The United States currently has no place to dispose of the high-level radioactive waste
resulting from the production of the nuclear weapons and the operation of nuclear
electronic power plants. The only option under formal consideration at this time is to place
the waste in an underground geologic repository at Yucca Mountain in Nevada. However,
there is strong public debate about whether such a repository could protect humans from
the radioactive waste that will be dangerous for many thousands of years. This book