Global Rural Electrification: A Different Race Initiative
Publication: Journal of Aerospace Engineering
Volume 4, Issue 4
Abstract
“Perhaps the single greatest contribution that could be made to environmental conservation would be the invention of a satisfactory fuel‐wood substitute” for developing nations. Providing electric power from orbit under a program of energy as foreign aid to developing nations will benefit the local and global environment and people living on the margins of existence, and it will provide technically challenging jobs to the engineers and scientists of all the nations that undertake such a massive project. Civil engineers can, if they and their professional societies so choose, play a significant, if not integral, role in using the resources of Earth and its surroundings for the benefit of mankind under a program of energy from space. This paper extends the concepts from a previous work by the writer to global rural electrification based on electric power from power stations, built in geosynchronous orbit out of lunar materials, distributed to individual villages and rural electric cooperatives via microwaves for a cost of between 6 cents and 45 cents per kilowatt‐hour. Power would be available in modular increments of 25–100 kilowatts with an average capital cost as low as $5,000 per kilowatt. The goals of the program for global rural electrification are twofold: to provide electric power from space at competitive costs, relative to current costs, to rural and agricultural areas, and to divert resources from weapons development to infrastructure development. The potential for involvement by civil engineers is limited only by their own lack of vision and daring.
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References
1.
Balanis, C. A. (1984). Antenna theory: Analysis and design. Harper & Row, New York, NY.
2.
Barnes, D. F. (1988). Electric power for rural growth: How electricity affects rural life in developing countries. Westview Press, Boulder, Colo.
3.
EASE/ACCESS, Post mission management report. (1985). NASA Marshall Space Flight Center, Huntsville, Ala.
4.
Dregne, H. E. (1985). “Aridity and land degradation.” Environment, Oct. 16–33.
5.
DOE/NASA Reference System Report. (1978). U.S. Dept. of Energy, NASA, Washington, D.C., 13.
6.
Electric power from orbit: A critique of a satellite power system. (1981). Committee on Satellite Power Systems, Environmental Studies Board, Commission on Natural Resources, National Research Council, National Academy Press, Washington, D.C.
7.
Feynman, R. P., Leighton, R. B., and Sands, M. (1963). The Feynman lectures on physics. Addison‐Wesley Publishing, Reading, Mass.
8.
Glaser, P. E. (1968). “Power from the sun: Its future.” Science, 162, Nov., 857–886.
9.
Glaser, P. E. (1975). “The satellite solar power station: An option for energy production on earth.” AIAA Paper 75‐637, AIAA/AAS Solar Energy Conference, Los Angeles, Calif., April 1975. American Institute of Aeronautics and Astronautics, Washington, D.C.
10.
Leonard, R. S. (1989). “A different race: Global rural electrification and the role of developing countries.” Symp. on Space Commercialization: Roles of Developing Countries, Mar., Nashville, Tenn., University of Tennessee Space Institute.
11.
Leonard, R. S. (1990), “A different race: The philosophy.” J. Aerosp. Eng., ASCE, 3(3).
12.
Meinel, A. B., and Meinel, M. P. (1976). Applied solar energy: An introduction. Addison‐Wesley Publishing, Reading, Mass.
13.
Morone, J. G., and Woodhouse, E. J. (1989). The demise of nuclear energy? Lessons for the democratic control of technology. Yale University Press, New Haven, Conn.
14.
Roland, A. (1985). “The shuttle: Triump or turkey.” Discover, Nov., 29–49.
15.
Snow, Kubby, and Dunbar, 1981, A Small Scale Lunar Launcher for Early Lunar Material Utilization, Space Manufacturing Facilities IV, Conference Proceedings, American Institute of Aeronautics and Astronautics/Space Studies Institute, Princeton, NJ.
16.
Woodcock, G. (1979). “Solar power satellite system definition study.” Document No. DI 80‐25461‐2, Vol. II, Phase II, Boeing, Huntsville, Ala.
Information & Authors
Information
Published In
Journal of Aerospace Engineering
Volume 4 • Issue 4 • October 1991
Pages: 290 - 309
Copyright
Copyright © 1991 ASCE.
History
Published online: Oct 1, 1991
Published in print: Oct 1991
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