Influence of hybrid nanoparticle additives on the thermal conductivity and dispersion stability of molten salts
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Elsevier BV
Reference76 articles.
1. Performance analysis and optimization of a 100 MW concentrated solar power plant with thermal energy storage;Praveen,2018
2. Recent advances on enhanced thermal conduction in phase change materials using carbon nanomaterials;Yadav;Journal of Energy Storage,2021
3. High-temperature molten-salt thermal energy storage and advanced-ultra-supercritical power cycles;Boretti;Journal of Energy Storage,2021
4. Effects of interfacial layer on thermal conductivity enhancement of solar salt-based nanofluids: insights from molecular dynamics simulations;Rao;Case Studies in Thermal Engineering,2022
5. Homogeneous molten salt formulations as thermal energy storage media and heat transfer fluid;Naresh;Journal of Energy Storage,2022
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