On Energy Systems



Our problem is that of structure and behavior of energy systems. I have been educated as a physicist and I try to look at things with a physicist’s eye. It now appears that energy systems, in spite of being mostly of sociological character, can be dealt with or analyzed in a way which strongly resembles astronomical systems: very precisely and with very simple mathematics.


Energy System Fission Product Primary Energy Nuclear Energy Electricity Consumption 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.


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  1. (1).
    J. Weingart, The Helios Strategy, J.Technological Forecasting and Social Change, in Press, (1978).Google Scholar
  2. (2).
    A. Takla and C. Mustacchi, Application de l’energie solaire au Senegal, Mali et Niger, RP/RAF/77/014/11–01/31, UNIDO, Vienna (1977).Google Scholar
  3. (3).
    H. Lieth, in H. Lieth and R.H. Whittaker (eds.), Historical Survey of Primary Productivity Research in Primary Productivity of the Biosphere, Springer Verlag (1975).Google Scholar
  4. (4).
    G.C. Szego and C.C.Kempt, Energy Forest and Fuel Plantations, Chemtec, 275, May (1973).Google Scholar
  5. M.D. Fraser, J.F. Henry and C.W. Vail, Design, Operation and Economics of the Energy Plantation, IGT Symposium on Clean Fuels from Biomass, Sewage, Urban Refuse and Agricultural Wastes, Orlando, Florida, January (1976).Google Scholar
  6. (5).
    C. Marchetti, On Properties and Behavior of Energy Systems, in UNITAR Seminar on Microbial Energy Conversion, Göttingen, FRG, E.Goltze KG (1976).Google Scholar
  7. C. Marchetti, Primary Energy Substitution Models: On the Interaction between Energy and Society, J.Technological Forecasting and Social Change, 10, 345 (1977).CrossRefGoogle Scholar
  8. C. Marchetti, Transport and Storage of Energy, in Energy and Physics, Proceedings of the 3rd General Conference of the European Physical Society, Bucharest, September (1975).Google Scholar
  9. (6).
    M.S. Mani, Ecology of Plant Galls, Dr.W.Junk Publications, The Hague (1964).Google Scholar
  10. (7).
    J.A. Lippincott, Molecular Basis of Plant Tumor Induction, Nature, 269, 465, 6 October (1977).Google Scholar
  11. (8).
    A. Hollaender (ed.), Genetic Engineering for Nitrogen Fixation, Plenum (1977).Google Scholar
  12. (9).
    J.L. Marx, Nitrogen Fixation: Prospects for Genetic Manipulation, Science, 196, 638, 6 May (1977).Google Scholar
  13. (10).
    W.J. Brill, Biological Nitrogen Fixation, Scientific American, March (1977).Google Scholar
  14. (11).
    R.W.F. Hardy and U.D. Hawelka, Nitrogen Fixation Research: A Key to World Food? Science, 188, 633, 9 May (1975).Google Scholar
  15. (12).
    D. Smith, L. Muscatine and D. Lewis, Carbohydrate Movement from Autotrophs to Heterotrophs in Parasite and Mutualistic Symbiosis, Biological Review, 44, 17 (1969).CrossRefGoogle Scholar
  16. (13).
    I. Zelitch, Improving the Efficiency of Photosynthesis, Science, 188, 626, 9 May (1975).Google Scholar

Copyright information

© Plenum Press, New York 1980

Authors and Affiliations

  1. 1.International Institute for Applied Systems AnalysisLaxenburgAustria

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