Author : Department of Energy (DOE)
Publisher :
Page : 614 pages
File Size : 10,34 MB
Release : 2017-06-03
Category :
ISBN : 9781521433584
Book Description
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.