Thermal Stability and Performance Evaluation of Hitec Molten Salt for High-Temperature Energy Storage Applications

Abstract: The quest for advanced materials in thermal energy storage (TES) has become paramount in a world grappling with pressing demands for sustainable and reliable energy solutions. Among these materials, molten salts have emerged as up-and-coming contenders, owing to their exceptional thermal properties and wide operational temperature ranges. HITEC, a eutectic blend of sodium nitrate, sodium nitrite, and potassium nitrate, distinguishes itself as a superior choice due to its unique amalgamation of favorable therma… Show more

“…1b. While more traditional molten salts, like those used for concentrated solar power, have maximum usable temperatures of 823–873 K, 3,4 more recent developments in molten salts have improved the operating temperatures to ∼973 K, 5 allowing them to be used with the more efficient indirect Brayton cycle, 6 instead of the Rankine cycle used with solar salts. While using molten salt at high temperatures will lead to higher power conversion efficiencies, there may be additional safety concerns due to the degradation of the mechanical properties of the molten salt-compatible structural materials at elevated temperatures.…”

Thermoelectrics for nuclear fusion reactors: opportunities and challenges

“…1b. While more traditional molten salts, like those used for concentrated solar power, have maximum usable temperatures of 823–873 K, 3,4 more recent developments in molten salts have improved the operating temperatures to ∼973 K, 5 allowing them to be used with the more efficient indirect Brayton cycle, 6 instead of the Rankine cycle used with solar salts. While using molten salt at high temperatures will lead to higher power conversion efficiencies, there may be additional safety concerns due to the degradation of the mechanical properties of the molten salt-compatible structural materials at elevated temperatures.…”

Thermoelectrics for nuclear fusion reactors: opportunities and challenges

Enhancing thermal conductivity of novel ternary nitrate salt mixtures for thermal energy storage (TES) fluid