Recent studies in the United States suggest that parabolic trough levelized energy costs (LECs) can be reduced 10–15% through integration of a large salt energy storage system coupled with the direct heating of molten salt in the solar field. While noteworthy, this relatively small predicted improvement may not justify the increased technical risks. Examples of potential issues include increased design complexity, higher maintenance costs, and salt freezing in the solar field. To make a compelling argument for development of this new system, we believe that additional technical advances beyond that previously reported will be required to achieve significant LEC reduction, greater than 25%. The new technical advances described include the development of a high-concentration trough that has double aperture and optical concentration of current technology. This trough is predicted to be more cost-effective than current technology because its cost and thermal losses are significantly lower. Recent trough optical performance improvements, such as more accurate facets and better alignment techniques, suggest a 2× trough is possible. Combining this new trough with a new low-melting point salt now under development suggests that a LEC cost reduction of is possible for a 50 MW, 2× salt plant relative to a conventional (1×) 50 MW oil plant. However, the 2× trough will also benefit plants that use synthetic oil in the field. A LEC comparison of 2× plants at sizes shows only a 6% advantage of salt over oil.
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November 2010
Research Papers
Conceptual Design of a 2× Trough for Use Within Salt and Oil-Based Parabolic Trough Power Plants
Richard B. Diver
Richard B. Diver
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Gregory J. Kolb
Richard B. Diver
J. Sol. Energy Eng. Nov 2010, 132(4): 041003 (6 pages)
Published Online: August 19, 2010
Article history
Received:
September 16, 2008
Revised:
April 21, 2010
Online:
August 19, 2010
Published:
August 19, 2010
Citation
Kolb, G. J., and Diver, R. B. (August 19, 2010). "Conceptual Design of a 2× Trough for Use Within Salt and Oil-Based Parabolic Trough Power Plants." ASME. J. Sol. Energy Eng. November 2010; 132(4): 041003. https://doi.org/10.1115/1.4002080
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