THERMAL SCIENCE

International Scientific Journal

Authors of this Paper

External Links

H. Yamamoto

,

K. Yamaji

SUSTAINABLE ENERGY PATH

ABSTRACT
The uses of fossil fuels cause not only the resources exhaustion but also the environmental problems such as global warming. The purposes of this study are to evaluate paths to ward sustainable energy systems and roles of each renewable. In order to realize the purposes, the authors developed the global land use and energy model that figured the global energy supply systems in the future considering the cost minimization. Using the model the authors conducted a simulation in C30R scenario, which is a kind of strict CO2 emission limit scenarios and reduced CO2 emissions by 30% compared with Kyoto protocol forever scenario, and obtained the following results. In C30R scenario bio energy will supply 33% of all the primary energy consumption. How ever, wind and photo voltaic will supply 1.8% and 1.4% of all the primary energy consumption, respectively, because of the limits of power grid stability. The results imply that the strict limits of CO2 emissions are not sufficient to achieve the complete renewable energy systems. In order to use wind and photo voltaic as major energy resources we need not only to reduce the plant costs but also to develop unconventional renewable technologies. .
PAPER SUBMITTED: 2005-02-17
PAPER REVISED: 2005-06-25
PAPER ACCEPTED: 2005-08-31
DOI REFERENCE: https://doi.org/10.2298/TSCI0503007Y
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2005, VOLUME 9, ISSUE Issue 3, PAGES [7 - 14]
REFERENCES
  1. Johansson, T. B. et al., editors. Renewable Energy. Island Press, Washington D.C, (1993).
  2. Alcamo J. editor, IMAGE 2.0; Integrated Modeling of Global Climate Change, Kluwer Academic Publishers, (1994)
  3. Wind Energy Association and Greenpeace. Wind force 12. (http://www.choose-positive-energy.org/html/content/news prscntr.html) (last accessed on March 31, 2005).
  4. Yamamoto, H. et al., Evaluation of bioenergy potential with a multi-regional global-land-use-and-energy model, Biomass and Bioenergy, 21, (2001) pp.185-203
  5. Yamamoto, H. et al., Bioenergy in Energy Systems Evaluated by a Global Land Use and Energy Optimisation Model, Technical Report Y01005, Central Research Institute of Electric Power Industry, (2001).
  6. Fujii, Y. and Kaya, Y. Assessment of technology options for reducing CO2 emissions from man's global energy system, Transactions of the Institute of Electrical Engineers of Japan, 113-B, 11 (1993) pp.1213-1222.
  7. Food and Agriculture Organization of the United Nations (FAO). FAOSTAT-PC. indiskettes.
  8. Nakicenovic, N. et al. Special Report on Emissions Scenarios. Cambridge University Press, (2000).
  9. World Bank, World Development Report 1993, Oxford University Press, (1993).
  10. E.A. DeMeo. Renewable energy technology characterizations. Technical Report TR-109496, Electric Power Research Institute (EPRI) and U.S. Department of Energy (DOE), (1997).
  11. Agency for Natural Resouces and Energy, Material No. 4 for the 9th Sectional Meeting of New Energy, (http://www.meti.go.jp/report/data/g01006aj.html) (last accessed on March 31, 2005)
PDF VERSION [DOWNLOAD]
Sustainable energy path

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence