Review of the Strategic Plan for International Collaboration on Fusion Science and Technology Research. Fusion Energy Sciences Advisory Committee (FESAC).
Review of the Strategic Plan for International Collaboration on Fusion Science and Technology Research. Fusion Energy Sciences Advisory Committee (FESAC).

Author:

Publisher:

Published: 1998

Total Pages: 63

ISBN-13:

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The United States Government has employed international collaborations in magnetic fusion energy research since the program was declassified in 1958. These collaborations have been successful not only in producing high quality scientific results that have contributed to the advancement of fusion science and technology, they have also allowed us to highly leverage our funding. Thus, in the 1980s, when the funding situation made it necessary to reduce the technical breadth of the U.S. domestic program, these highly leveraged collaborations became key strategic elements of the U.S. program, allowing us to maintain some degree of technical breadth. With the recent, nearly complete declassification of inertial confinement fusion, the use of some international collaboration is expected to be introduced in the related inertial fusion energy research activities as well. The United States has been a leader in establishing and fostering collaborations that have involved scientific and technological exchanges, joint planning, and joint work at fusion facilities in the U.S. and worldwide. These collaborative efforts have proven mutually beneficial to the United States and our partners. International collaborations are a tool that allows us to meet fusion program goals in the most effective way possible. Working with highly qualified people from other countries and other cultures provides the collaborators with an opportunity to see problems from new and different perspectives, allows solutions to arise from the diversity of the participants, and promotes both collaboration and friendly competition. In short, it provides an exciting and stimulating environment resulting in a synergistic effect that is good for science and good for the people of the world.

A Review of the DOE Plan for U.S. Fusion Community Participation in the ITER Program
A Review of the DOE Plan for U.S. Fusion Community Participation in the ITER Program

Author: National Research Council

Publisher: National Academies Press

Published: 2009-01-21

Total Pages: 57

ISBN-13: 0309178495

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ITER presents the United States and its international partners with the opportunity to explore new and exciting frontiers of plasma science while bringing the promise of fusion energy closer to reality. The ITER project has garnered the commitment and will draw on the scientific potential of seven international partners, China, the European Union, India, Japan, the Republic of Korea, Russia, and the United States, countries that represent more than half of the world's population. The success of ITER will depend on each partner's ability to fully engage itself in the scientific and technological challenges posed by advancing our understanding of fusion. In this book, the National Research Council assesses the current U.S. Department of Energy (DOE) plan for U.S. fusion community participation in ITER, evaluates the plan's elements, and recommends appropriate goals, procedures, and metrics for consideration in the future development of the plan.

Final Report of the Committee on a Strategic Plan for U.S. Burning Plasma Research
Final Report of the Committee on a Strategic Plan for U.S. Burning Plasma Research

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2019-05-31

Total Pages: 341

ISBN-13: 0309487463

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Fusion offers the prospect of virtually unlimited energy. The United States and many nations around the world have made enormous progress toward achieving fusion energy. With ITER scheduled to go online within a decade and demonstrate controlled fusion ten years later, now is the right time for the United States to develop plans to benefit from its investment in burning plasma research and take steps to develop fusion electricity for the nation's future energy needs. At the request of the Department of Energy, the National Academies of Sciences, Engineering, and Medicine organized a committee to develop a strategic plan for U.S. fusion research. The final report's two main recommendations are: (1) The United States should remain an ITER partner as the most cost-effective way to gain experience with a burning plasma at the scale of a power plant. (2) The United States should start a national program of accompanying research and technology leading to the construction of a compact pilot plant that produces electricity from fusion at the lowest possible capital cost.

Interim Report of the Committee on a Strategic Plan for U.S. Burning Plasma Research
Interim Report of the Committee on a Strategic Plan for U.S. Burning Plasma Research

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2018-03-19

Total Pages: 61

ISBN-13: 0309469333

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In January 2003, President George W. Bush announced that the United States would begin negotiations to join the ITER project and noted that "if successful, ITER would create the first fusion device capable of producing thermal energy comparable to the output of a power plant, making commercially viable fusion power available as soon as 2050." The United States and the other ITER members are now constructing ITER with the aim to demonstrate that magnetically confined plasmas can produce more fusion power than the power needed to sustain the plasma. This is a critical step towards producing and delivering electricity from fusion energy. Since the international establishment of the ITER project, ITER's construction schedule has slipped and ITER's costs have increased significantly, leading to questions about whether the United States should continue its commitment to participate in ITER. This study will advise how to best advance the fusion energy sciences in the United States given developments in the field, the specific international investments in fusion science and technology, and the priorities for the next ten years developed by the community and the Office of Fusion Energy Sciences (FES) that were recently reported to Congress. It will address the scientific justification and needs for strengthening the foundations for realizing fusion energy given a potential choice of U.S. participation or not in the ITER project, and develops future scenarios in either case. This interim report assesses the current status of U.S. fusion research and of the importance of burning plasma research to the development of fusion energy as well as to plasma science and other science and engineering disciplines. The final report will present strategies that incorporate continued progress toward a burning plasma experiment and a focus on innovation.

A Review of the DOE Plan for U.S. Fusion Community Participation in the ITER Program
A Review of the DOE Plan for U.S. Fusion Community Participation in the ITER Program

Author: National Research Council

Publisher: National Academies Press

Published: 2009-02-21

Total Pages: 56

ISBN-13: 0309124751

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ITER presents the United States and its international partners with the opportunity to explore new and exciting frontiers of plasma science while bringing the promise of fusion energy closer to reality. The ITER project has garnered the commitment and will draw on the scientific potential of seven international partners, China, the European Union, India, Japan, the Republic of Korea, Russia, and the United States, countries that represent more than half of the world's population. The success of ITER will depend on each partner's ability to fully engage itself in the scientific and technological challenges posed by advancing our understanding of fusion. In this book, the National Research Council assesses the current U.S. Department of Energy (DOE) plan for U.S. fusion community participation in ITER, evaluates the plan's elements, and recommends appropriate goals, procedures, and metrics for consideration in the future development of the plan.

Nuclear Fusion Energy Encyclopedia - Volume 2: ITER Project, Burning Plasma, American and International Fusion Research Facilities, Spinoffs, FESAC Reports, Toroidal Magnetic Fusion
Nuclear Fusion Energy Encyclopedia - Volume 2: ITER Project, Burning Plasma, American and International Fusion Research Facilities, Spinoffs, FESAC Reports, Toroidal Magnetic Fusion

Author: Department of Energy (DOE)

Publisher:

Published: 2017-06-03

Total Pages: 586

ISBN-13: 9781521433621

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This unique compilation of official information provides an incredibly comprehensive overview of all aspects of the worlds' quest for nuclear fusion energy, including the ambitious ITER experimental burning plasma project, U.S. fusion research and facilities, international efforts in China, Russia, South Korea, and other countries, and plans for the DEMO reactor and full-scale electrical generation plants. Because of the enormous size of this material, for reproduction in paperback format it has been divided into two parts.VOLUME 1 - Part 1: DOE Fusion Energy Sciences * Part 2: ITER Project Overview and U.S. Contribution * Part 3: The Next Generation of Fusion Energy Research (Hearing) * Part 4: Fusion Energy (GAO) * Part 5: Fusion Spinoffs: Making A Difference Today * Part 6: Report of the FESAC Subcommittee on the Priorities of the Magnetic Fusion Energy Science Program 2013 * Part 7: Report of the FESAC Subcommittee on the Prioritization of Proposed Scientific User Facilities for the Office of Science 2013 * Part 8: Fusion Energy Sciences Advisory Committee Report on Opportunities for and Modes of International Collaboration in Fusion Energy Sciences Research during the ITER Era - February 2012 * Part 9: Fusion Energy Sciences Advisory Committee Report on Opportunities for Fusion Materials Science and Technology Research Now and During the ITER Era February 2012 * Part 10: Report of the Burning Plasma Organization Panel on Planning for US Participation in ITER - September 3, 2009 * Part 11: Priorities, Gaps and Opportunities: Towards A Long-Range Strategic Plan For Magnetic Fusion Energy - A Report to the Fusion Energy Sciences Advisory Committee - October 2007VOLUME 2 - Part 11: Priorities, Gaps and Opportunities: Towards A Long-Range Strategic Plan For Magnetic Fusion Energy - A Report to the Fusion Energy Sciences Advisory Committee - October 2007 (conclusion) * Part 12: Report of the 2005 FESAC Facilities Panel - Characteristics and Contributions of the Three Major United States Toroidal Magnetic Fusion Facilities * Part 13: FESAC A Plan for the Development of Fusion Energy * Part 14: Report of the Fusion Energy Sciences Advisory Committee Burning Plasma Strategy Panel - A Burning Plasma Program Strategy To Advance Fusion Energy * Part 15: NSTX-U FY2013 Year End Report * Part 16: Fusion Energy Sciences Advisory Committee (FESAC) Meeting Minutes * Part 17: 2014 Fusion Energy Sciences Congressional Budget Request * Part 18: 2013 Fusion Energy Sciences Congressional Budget Request * Part 19: ITER Presentations

An Assessment of the Department of Energy's Office of Fusion Energy Sciences Program
An Assessment of the Department of Energy's Office of Fusion Energy Sciences Program

Author: National Research Council

Publisher: National Academies Press

Published: 2001-05-07

Total Pages: 112

ISBN-13: 0309183197

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The purpose of this assessment of the fusion energy sciences program of the Department of Energy's (DOE's) Office of Science is to evaluate the quality of the research program and to provide guidance for the future program strategy aimed at strengthening the research component of the program. The committee focused its review of the fusion program on magnetic confinement, or magnetic fusion energy (MFE), and touched only briefly on inertial fusion energy (IFE), because MFE-relevant research accounts for roughly 95 percent of the funding in the Office of Science's fusion program. Unless otherwise noted, all references to fusion in this report should be assumed to refer to magnetic fusion. Fusion research carried out in the United States under the sponsorship of the Office of Fusion Energy Sciences (OFES) has made remarkable strides over the years and recently passed several important milestones. For example, weakly burning plasmas with temperatures greatly exceeding those on the surface of the Sun have been created and diagnosed. Significant progress has been made in understanding and controlling instabilities and turbulence in plasma fusion experiments, thereby facilitating improved plasma confinement-remotely controlling turbulence in a 100-million-degree medium is a premier scientific achievement by any measure. Theory and modeling are now able to provide useful insights into instabilities and to guide experiments. Experiments and associated diagnostics are now able to extract enough information about the processes occurring in high-temperature plasmas to guide further developments in theory and modeling. Many of the major experimental and theoretical tools that have been developed are now converging to produce a qualitative change in the program's approach to scientific discovery. The U.S. program has traditionally been an important source of innovation and discovery for the international fusion energy effort. The goal of understanding at a fundamental level the physical processes governing observed plasma behavior has been a distinguishing feature of the program.

Nuclear Fusion Energy Encyclopedia - Volume 1: ITER Project, Burning Plasma, American and International Fusion Research Facilities, Spinoffs, FESAC Reports, Toroidal Magnetic Fusion
Nuclear Fusion Energy Encyclopedia - Volume 1: ITER Project, Burning Plasma, American and International Fusion Research Facilities, Spinoffs, FESAC Reports, Toroidal Magnetic Fusion

Author: Department of Energy (DOE)

Publisher:

Published: 2017-06-03

Total Pages: 614

ISBN-13: 9781521433584

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This unique compilation of official information provides an incredibly comprehensive overview of all aspects of the worlds' quest for nuclear fusion energy, including the ambitious ITER experimental burning plasma project, U.S. fusion research and facilities, international efforts in China, Russia, South Korea, and other countries, and plans for the DEMO reactor and full-scale electrical generation plants. Because of the enormous size of this material, for reproduction in paperback format it has been divided into two parts.VOLUME 1 - Part 1: DOE Fusion Energy Sciences * Part 2: ITER Project Overview and U.S. Contribution * Part 3: The Next Generation of Fusion Energy Research (Hearing) * Part 4: Fusion Energy (GAO) * Part 5: Fusion Spinoffs: Making A Difference Today * Part 6: Report of the FESAC Subcommittee on the Priorities of the Magnetic Fusion Energy Science Program 2013 * Part 7: Report of the FESAC Subcommittee on the Prioritization of Proposed Scientific User Facilities for the Office of Science 2013 * Part 8: Fusion Energy Sciences Advisory Committee Report on Opportunities for and Modes of International Collaboration in Fusion Energy Sciences Research during the ITER Era - February 2012 * Part 9: Fusion Energy Sciences Advisory Committee Report on Opportunities for Fusion Materials Science and Technology Research Now and During the ITER Era February 2012 * Part 10: Report of the Burning Plasma Organization Panel on Planning for US Participation in ITER - September 3, 2009 * Part 11: Priorities, Gaps and Opportunities: Towards A Long-Range Strategic Plan For Magnetic Fusion Energy - A Report to the Fusion Energy Sciences Advisory Committee - October 2007VOLUME 2 - Part 11: Priorities, Gaps and Opportunities: Towards A Long-Range Strategic Plan For Magnetic Fusion Energy - A Report to the Fusion Energy Sciences Advisory Committee - October 2007 (conclusion) * Part 12: Report of the 2005 FESAC Facilities Panel - Characteristics and Contributions of the Three Major United States Toroidal Magnetic Fusion Facilities * Part 13: FESAC A Plan for the Development of Fusion Energy * Part 14: Report of the Fusion Energy Sciences Advisory Committee Burning Plasma Strategy Panel - A Burning Plasma Program Strategy To Advance Fusion Energy * Part 15: NSTX-U FY2013 Year End Report * Part 16: Fusion Energy Sciences Advisory Committee (FESAC) Meeting Minutes * Part 17: 2014 Fusion Energy Sciences Congressional Budget Request * Part 18: 2013 Fusion Energy Sciences Congressional Budget Request * Part 19: ITER Presentations Fusion is a key element in long-term US energy plans. ITER will allow scientists to explore the physics of a burning plasma at energy densities close to that of a commercial power plant. This is a critical step towards producing and delivering electricity from fusion to the grid. Nuclear fusion occurs naturally in stars, like our sun. When hydrogen gets hot enough, the process of fusion occurs, releasing energy. On earth, producing fusion reactions by heating, compressing and confining hydrogen plasmas at 100 million degrees is a significant challenge. After years of research, scientists have learned that it is possible to create a self-heated fusion plasma and truly "bring a star to earth." Fusion has the potential to bring clean, abundant, safe energy to most of the world's populations. The fusion process produces no greenhouse gas emissions and generates no high-level radioactive waste. It is fueled by readily available resources: Deuterium (heavy hydrogen) is plentiful in water and tritium can be produced during the fusion process. Fusion could become a major contributor to the power grid for centuries to come.

Strategic Plan for the Restructured US Fusion Energy Sciences Program
Strategic Plan for the Restructured US Fusion Energy Sciences Program

Author:

Publisher:

Published: 1996

Total Pages: 20

ISBN-13:

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This plan reflects a transition to a restructured fusion program, with a change in focus from an energy technology development program to a fusion energy sciences program. Since the energy crisis of the early 1970's, the U.S. fusion program has presented itself as a goal- oriented fusion energy development program, with milestones that required rapidly increasing budgets. The Energy Policy Act of 1992 also called for a goal-oriented development program consistent with the Department's planning. Actual funding levels, however, have forced a premature narrowing of the program to the tokamak approach. By 1995, with no clear, immediate need driving the schedule for developing fusion energy and with enormous pressure to reduce discretionary spending, Congress cut fusion program funding for FY 1996 by one-third and called for a major restructuring of the program. Based on the recommendations of the Fusion Energy Advisory Committee (FEAC), the Department has decided to pursue a program that concentrates on world-class plasma, science, and on maintaining an involvement in fusion energy science through international collaboration. At the same time, the Japanese and Europeans, with energy situations different from ours, are continuing with their goal- oriented fusion programs. Collaboration with them provides a highly leveraged means of continued involvement in fusion energy science and technology, especially through participation in the engineering and design activities of the International Thermonuclear Experimental Reactor program, ITER. This restructured fusion energy sciences program, with its focus on fundamental fusion science and technology, may well provide insights that lead to more attractive fusion power plants, and will make use of the scientific infrastructure that will allow the United States to launch a fusion energy development program at some future date.