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• W2901894166 abstract "Heat storage is a key technology in solar thermal power, helps solar thermal power eliminate the instability in energy supply for the grid, and provides continuous and stable high-quality electrical energy to improve power system efficiency and extend system life. Molten salt is an important material for heat storage and heat transfer in solar thermal power. In recent years, nanofluid technology has been applied to investigate heat storage and transfer materials, such as molten salt, to improve heat capacity. However, the nanofluid technology is hampered by the easy agglomeration of nanoparticles in molten salts, and this phenomenon degrades the performance of the molten salt nanofluids. To reduce or prevent agglomeration, a two-step method with high-temperature melting in preparing molten salt nanofluids is developed recently. Molten salt nanofluids obtained by high-temperature melting show good stability and long time to agglomerate. This paper presented the study on the thermophysical properties of molten salt nanofluids prepared by high-temperature melting method. The molten salt nanofluids possessed low-melting point salt as base liquid and SiO2 with a diameter of 20 nm as nanoparticles. The specific heat of this type of molten salt nanofluid was tested, and the optimum concentration of nanoparticles was determined. Results showed that the specific heat capacities of the molten salt nanofluid samples with different mass fractions of nanoparticles were higher than those of pure molten salt. The average specific heat of molten salt nanofluid with a mass fraction of 0.5% was the highest at 1.950 J/(g K), which was 24.5% more than that of pure molten salt. The thermophysical properties of molten salt nanofluids with a mass fraction of 0.5% and prepared by high-temperature melting were experimentally tested and compared with those of pure molten salt. These properties included melting point, primary crystallization point, thermal conductivity, viscosity, latent heat, and density. The molten salt nanofluids showed good performance for heat storage and transfer." @default.
• W2901894166 created "2018-11-29" @default.
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• W2901894166 date "2019-03-01" @default.
• W2901894166 modified "2023-09-26" @default.
• W2901894166 title "Experimental study on thermophysical properties of molten salt nanofluids prepared by high-temperature melting" @default.
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• W2901894166 doi "https://doi.org/10.1016/j.solmat.2018.11.003" @default.
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