An entransy dissipation-based optimization principle for solar power tower plants
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Engineering,General Materials Science
Link
http://link.springer.com/content/pdf/10.1007/s11431-014-5491-7.pdf
Reference32 articles.
1. Romero M, Buck R, Pacheco J E. An update on solar central receiver systems, projects, and technologies. J Sol Energ-T ASME, 2002, 124: 98–108
2. Fang J B, Wei J J, Dong X W, et al. Thermal performance simulation of a solar cavity receiver under windy conditions. Sol Energy, 2011, 85: 126–138
3. Ortega J I, Burgaleta J I, Tellez F M. Central receiver system solar power plant using molten salt as heat transfer fluid. J Sol Energ-T ASME, 2008, 130: 0245011
4. Pitz P R, Botero N B, Steinfeld A. Heliostat field layout optimization for high-temperature solar thermochemical processing. Sol Energy, 2011, 85: 334–343
5. Noone C J, Torrilhon M, Mitsos A. Heliostat field optimization: A new computationally efficient model and biomimetic layout. Sol Energy, 2012, 86: 792–803
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