It has been established that the development of a storage option and increasing the operating temperature for parabolic trough electric systems can significantly reduce the levelized electricity cost compared to the current state of the art. Both improvements require a new heat transfer fluid that must have a very low vapor pressure at the hot operating temperature and combined with a high thermal stability, higher than 450°C. Further, the piping layout of trough plants dictates that the fluid not be allowed to freeze, which dictates the use of extensive insulation and heat tracing unless the fluid has a freezing point near 0°C. At present, it seems likely that this “ideal” fluid will have to be found among organic rather than inorganic salts. We are, therefore, investigating the chemical and thermal properties of “room temperature ionic liquids” that hold much promise as a new class of heat transfer or storage fluids.

Issue Section:
Technical Papers
Keywords:
solar absorber-convertors, solar energy concentrators, solar heating, thermal energy storage, thermal analysis, thermal stability, heat transfer
Topics:
Fluids, Solar energy, Thermal stability, Parabolic troughs, Thermal energy storage, Temperature
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