Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-28T16:21:18.347Z Has data issue: false hasContentIssue false

Environmental Implications of the Use of Fusion Power

Published online by Cambridge University Press:  24 August 2009

John P. Holdren
Affiliation:
Professor of Energy and Resources, Rm 100 Bldg T-4, University of California, Berkeley California 94720; Faculty Consultant, Magnetic Fusion Energy Division, Lawrence Livermore Laboratory; Faculty Scientist, Energy and Environment Division, Lawrence Berkeley Laboratory, Berkeley, California 94720, U.S.A.

Extract

Long-term limits to growth in energy-use will be imposed not by inability to expand supply but by the rising environmental and social costs of doing so. These costs will therefore be central issues in choosing long-term energy options. Energy from nuclear fusion, like solar energy, is not one technology but many. Some of the fusion possibilities seem likely to have very attractive environmental characteristics; others may be little better in these regards than nuclear fission.

Issues in fusion-reactor design that are crucial from the environmental standpoint include: size of tritium inventory and pathways for its release; nature and configuration of materials that are subject to neutron activation; forms and quantities of the stored energy that are internal to the reactor, and the nature of potential links between fusion technology and nuclear weaponry.

Type
Main Papers
Copyright
Copyright © Foundation for Environmental Conservation 1980

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Badger, B., Conn, R. W., Kulcinski, G. L. & others (1974). UWMAK-I: A Wisconsin Toroidal Fusion Reactor Design. Report UWFDM-68, Nuclear Engineering Department, University of Wisconsin, Madison, Wisconsin: Chs I–XIV, Appendixes A–C.Google Scholar
Committee on Literature Survey of Risks Associated with Nuclear Power (1979). Risks Associated with Nuclear Power. National Academy of Sciences, Washington, DC: xiv + 156 pp., illusti.Google Scholar
Ehrlich, P. R. & Holdren, J. P. (1975). Eight thousand million people by the year 2010? Environmental Conservation, 2(4), pp. 241–2.CrossRefGoogle Scholar
Energy Research and Development Administration (1975). Final Report of the Special Laser Fusion Advisory Panel. Report ERDA-28, National Technical Information Service, Springfield, Virginia: 13 pp.Google Scholar
Haefele, W., Holdren, J. P., Kessler, G., Kulcinski, G. L. (1977). Fusion and Fast Breeder Reactors. International Institute of Applied Systems Analysis, Laxenburg, Austria: xiii + 506 pp., illustr.Google Scholar
Hirsch, R. L. & Rice, W. L. R. (1974). Nuclear fusion and the environment. Environmental Conservation, 1(4), pp. 251–62, 13 figs.CrossRefGoogle Scholar
Holdren, J. P. (1978 a) Fusion energy in context: Its fitness for the long term. Science, 200, pp. 168–80.CrossRefGoogle ScholarPubMed
Holdren, J. P. (1978 b) Fusion power and nuclear weapons: A significant link? Bulletin of the Atomic Scientists, 43(3), pp. 45.CrossRefGoogle Scholar
Nuclear Energy Policy Study Group (1977). Nuclear Power Issues and Choices. Ballinger Publishers, Cambridge, Mass.: xvii + 418 pp., illustr.Google Scholar
Nuclear Regulatory Commission (1976). Reactor Safety Study: An Assessment of Accident Risks in U.S. Commercial Nuclear Power Plants. Appendix VI: Calculation of Reactor Accident Consequences. Report WASH-1400 (NUREG-75/014), National Technical Information Service, Springfield, Virginia: iii + Chs 1–14, Appendixes A–K.Google Scholar
Okrent, D., Kastenberg, W. E., Botts, T. E., Chan, C. K., Ferrell, W. L., Frederking, T. H. K., Sehnert, M. J. & Ullman, A. Z. (1976). On the safety of Tokamak type central station fusion power reactors. Nuclear Engineering and Design, 39, pp. 215–38.CrossRefGoogle Scholar
Sawdye, R. W. & Kazimi, M. S. (1978). Application of Probabilistic Consequence Analysis to the Assessment of Potential Radiological Hazards of Fusion Reactors. Report MITNE-220, Nuclear Engineering Department, Massachusetts Institute of Technology, Cambridge, Mass.: 107 pp., illustr.Google Scholar