Abstract: . . .  economic attractiveness of trough heat systems. Even at the low production levels existing today, a system which combined the best of these improvements could reduce the energy cost of trough heat by about 40%. This improved system would be much more economically attractive relative to conventional energy sources. The high production scenario projected extremely attractive energy costs for the trough heat system, which could be expected to be competitive in a wide range of applications against natural . . .
. . .  Energy Laboratory (formerly the Solar Energy Research Institute) 1617 Cole Boulevard Golden, Colorado 80401-3393 Operated by the Midwest Research Institute for the U.S. Department of Energy under Contract No. DE-ACO2-83CH10093 December 1992 ECONOMIC STATUS AND PROSPECTS OF SOLAR THERMAL INDUSTRIAL HEAT Tom A. Williams National Renewable Energy Laboratory Golden, CO Mary Jane Hale National Renewable Energy Laboratory Golden, CO SUMMARY This paper provides estimates of the ievelized energy cost (LEC) . . .
. . .  Inc. 1989. “Opportunities for Third-Party Financing of Cogeneration, Utilities, and Infrastructure Improvements at USMC Installations.” Pacific Northwest Laboratory subcontractor report. Hale, M.J. and T. A. Williams, April 1983. “Current Performance and Potential Improvements in Solar Thermal Industrial Heat,” ASME/ASES Joint Solar Energy Conference, Washington, D.C. Wendelin, T., December 1991. “A Survey of Potential Low-Cost Concentrator Concepts for Use in Low-Temperature Water Detoxification.” . . .
. . .  Laboratory (formerly the Solar Energy Research Institute) 1617 Cole Boulevard Golden, Colorado 80401-3393 Operated by the Midwest Research Institute for the U.S. Department of Energy under Contract No. DE-ACO2-83CH10093 December 1992 ECONOMIC STATUS AND PROSPECTS OF SOLAR THERMAL INDUSTRIAL HEAT Tom A. Williams National Renewable Energy Laboratory Golden, CO Mary Jane Hale National Renewable Energy Laboratory Golden, CO SUMMARY This paper provides estimates of the ievelized energy cost (LEC) of a mid-temperature . . .
. . .  Improvements in Solar Thermal Industrial Heat,” ASME/ASES Joint Solar Energy Conference, Washington, D.C. Wendelin, T., December 1991. “A Survey of Potential Low-Cost Concentrator Concepts for Use in Low-Temperature Water Detoxification.” ASME International Solar Energy Conference, Maui, Hawaii. Tom A. Williams Mary Jane Hale  . . .
. . .  Third-Party Financing of Cogeneration, Utilities, and Infrastructure Improvements at USMC Installations.” Pacific Northwest Laboratory subcontractor report. Hale, M.J. and T. A. Williams, April 1983. “Current Performance and Potential Improvements in Solar Thermal Industrial Heat,” ASME/ASES Joint Solar Energy Conference, Washington, D.C. Wendelin, T., December 1991. “A Survey of Potential Low-Cost Concentrator Concepts for Use in Low-Temperature Water Detoxification.” ASME International Solar Energy Conference, . . .
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