Enhanced specific heat capacity of molten salt-metal oxide nanofluid as heat transfer fluid for solar thermal applications

Engineering & Materials Science

• Specific heat 89%
• Molten materials 83%
• Salts 79%
• Oxides 73%
• Heat transfer 57%
• Metals 54%
• Fluids 54%
• Nanoparticles 42%
• Hot Temperature 41%
• TiO2 nanoparticles 41%
• Eutectics 29%
• Water 23%
• Stirling cycle 22%
• Lithium Chloride 20%
• Potassium chloride 19%
• Rankine cycle 16%
• Calorimeters 16%
• Silicones 15%
• Doping (additives) 15%
• Transmission electron microscopy 14%
• Energy conversion 14%
• Evaporation 14%
• Thermal energy 14%
• Temperature control 13%
• Coolants 13%
• Thermodynamic properties 13%
• Solar energy 12%
• Agglomeration 12%
• Thermodynamics 12%
• Power generation 12%
• Temperature 11%
• Scanning 10%
• Oils 9%

Chemical Compounds

• Heat Transfer 92%
• Molten Salt 90%
• Heat Capacity 86%
• Titanium Dioxide Nanoparticle 75%
• Eutectics 58%
• Oxide 46%
• Nanoparticle 42%
• Heat 42%
• Solar Power 42%
• Coolant 37%
• Chloride Salt 34%
• Agglomeration 27%
• Application 26%
• Solvent 26%
• Evaporation 25%
• Mixture 24%
• Amount 24%
• Transmission Electron Microscopy 18%
• Thermodynamics 17%
• Purity 14%

Earth & Environmental Sciences

• metal oxide 100%
• heat capacity 99%
• nanoparticle 79%
• heat transfer 74%
• salt 59%
• fluid 49%
• titanium dioxide 41%
• solar power 21%
• energy conversion 20%
• power generation 17%
• agglomeration 17%
• transmission electron microscopy 15%
• water 15%
• evaporation 13%
• chloride 13%
• thermodynamics 13%
• oil 10%
• temperature 6%