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World Energy Council

Data from the World Energy Council. Values in parentheses are from British Petroleum. ... [Pg.6]

Survey ofEnerg i Kesources 16th ed.. World Energy Council, London. [Pg.160]

The World Energy Council issues Conference reports on reserves, resources md production at six-year intervals. More limited reports ate issued at two-year intervals. The next report is expected in the fall of 1997. [Pg.161]

World Energy Council Commission. (1993). Energy for Tomorow s World. London Kogan Page. [Pg.630]

Energy For Tomorrow s World World Energy Council, 1993... [Pg.106]

World Energy Council (WEC), 2013. World Energy Resources - 2013 Survey. Available at https //www.worldenergy.org/wp-content/uploads/2013/09/... [Pg.21]

The World Energy Council has said that meeting new demands for electricity while reducing the current level of emissions will require tripling the world s nuclear plant capacity by 2050. [Pg.143]

WEA (2000). Chapter 5 Energy resources. In World Energy Assessment. Energy and the Challenge of Sustainability, ed. Goldemberg, J., New York United Nations Development Programme (UNDP), United Nations Department of Economic and Social Affairs (UNDESA), World Energy Council (WEC). [Pg.114]

WEC (World Energy Council) (2007). Survey of Energy Resources 2007. www. worldenergy.org/publications. [Pg.114]

O Hashi, K. and Hiraishi, K. (2001). A perspective of renewable energy and new technology in northeast Asia. World Energy Council, 18th Congress, Buenos Aires, October 2001. Tokyo Asian Pipeline Research Center of Shibaura Institute of Technology, Northeast Asian Gas and Pipeline Forum. [Pg.528]

Refs. 11 and 12. b To convert EJ to Btu, multiply by 9.48 x 1014. Data from the World Energy Council. Values in parentheses are from British Petroleum. Data from Oil and Gas Journal Data in parentheses are from World Oil ... [Pg.6]

As reported by the World Energy Council, the United States has about 15% of the world s estimated recoverable coal, more than any other country except China. See Fig. I. These statistics illustrate why the United States is a major exporter of coal. [Pg.389]

Sofregaz US, Daniel Bourjas and Bruno Hugout Gaz de France, 17th Congress of the World Energy Council 1998. [Pg.193]

OECD/EEA, 2002, Vision Tor the 2Est Century. Zero Emissions Technologies for Fossil Fuels. Technology Status Report , OECD, Paris World Energy Council, 2004, Drivers of the Energy Scene... [Pg.95]

Figure 1. Sources of energy consumed worldwide and in the United States in 2001. In that year, the United States consumed a total of 1.0 x 1019 J of energy, whereas worldwide consumption was 4.2 x 1019 J. (Data was obtained from British Petroleum and the World Energy Council.)... Figure 1. Sources of energy consumed worldwide and in the United States in 2001. In that year, the United States consumed a total of 1.0 x 1019 J of energy, whereas worldwide consumption was 4.2 x 1019 J. (Data was obtained from British Petroleum and the World Energy Council.)...
World Energy Council. Survey of Energy Sources. October 2001. Available from . [Pg.49]

Marruffo, R, Chirinos, M.L., Sarmiento, W.B.O., Bitumenes, S.A., Orinoco, and Her-nandez-Carstens, E., Orimulsion A Clean and Abundant Energy Source, paper presented at the 17th Congress of the World Energy Council, Houston, TX, September 14, 1998, available at www.worldenergy.org. [Pg.35]

Figure 5.8. Proven reserves of oil and natural gas liquids (unit Wy/m i.e., for each country, the average number of years for which an energy flow of 1 W per of land surface could be derived at 100% energy extraction efficiency). The resources are distributed over the country land areas, although many of the reserves and resources actually occur off-shore, cf. Fig. 5.9 (based upon data from World Energy Council, 1995 with area-based layout from Sorensen, 1999). Figure 5.8. Proven reserves of oil and natural gas liquids (unit Wy/m i.e., for each country, the average number of years for which an energy flow of 1 W per of land surface could be derived at 100% energy extraction efficiency). The resources are distributed over the country land areas, although many of the reserves and resources actually occur off-shore, cf. Fig. 5.9 (based upon data from World Energy Council, 1995 with area-based layout from Sorensen, 1999).
Figure 5.9. Off-shore fraction of the reserves given in Fig. 5.8 (based upon data from World Energy Council, 1995 with area-based layout from Sorensen, 1999). Figure 5.9. Off-shore fraction of the reserves given in Fig. 5.8 (based upon data from World Energy Council, 1995 with area-based layout from Sorensen, 1999).

See other pages where World Energy Council is mentioned: [Pg.62]    [Pg.101]    [Pg.145]    [Pg.669]    [Pg.22]    [Pg.335]    [Pg.86]    [Pg.394]    [Pg.267]   
See also in sourсe #XX -- [ Pg.305 , Pg.343 ]




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