Molten salt

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Molten salts have a variety of uses. Molten chloride salt mixtures are commonly used as baths for various alloy heat treatments, such as annealing and martempering of steel. Cyanide and chloride salt mixtures are used for surface modification of alloys such as carburizing and nitrocarburizing of steel. Cryolite (a fluoride salt) is used as a solvent for aluminium oxide in the production of aluminium in the Hall-Héroult process. Fluoride, chloride, and hydroxide salts can be used as solvents in pyroprocessing of nuclear fuel. Molten salts (fluoride, chloride, and nitrate) can also be used as heat transfer fluids as well as for thermal storage. This thermal storage is used in solar thermal power plants.[1]

A commonly used thermal salt is the eutectic mixture of 60% sodium nitrate and 40% potassium nitrate, which can be used as liquid between 260-550°C. It has a heat of fusion of 161 J/g,[2] and a heat capacity of 1.53 J/(g K).[3]

Experimental salts using lithium may have a melting point of 116°C while still having a heat capacity of 1.54 J/(g K).[3] Salts may cost $1,000 per ton, and a typical plant may use 30,000 tons of salt.[4]

Regular table salt has a melting point of 800°C and a heat of fusion of 0.52 kJ/g.[5][6]

Ambient temperature molten salts

Ambient temperature molten salts are present in the liquid phase at standard conditions for temperature and pressure. Examples of such salts include N-ethylpyridinium bromide and aluminium chloride mix, discovered in 1951[7] and ethylammonium nitrate discovered by Paul Walden.


  1. "Molten Salts systems other applications link to Solar Power Plants" (PDF). National Renewable Energy Laboratory (NREL). Retrieved 2011-09-06.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  2. "Molten salts properties"
  3. 3.0 3.1 Reddy, Ramana G. "Novel Molten Salts Thermal Energy Storage for Concentrating Solar Power Generation" page 9 University of Alabama College of Engineering. Accessed: 9 December 2014.
  4. Bullis, Kevin. "Cheap Solar Power at Night" MIT Technology Review, 12 March 2012. Accessed: 9 December 2014.
  5. "NaCl CID 5234, 4.2.14 Other Experimental Properties"
  6. "NaCl Other Chemical/Physical Properties"
  7. Hurley, F. H.; Wier, T. P. J. Electrochem. Soc. 1951, 98, 203.


C.F. Baes, The chemistry and thermodynamics of molten salt reactor fuels, Proc. AIME Nuclear Fuel Reprocessing Symposium, Ames, Iowa, USA, 1969 (August 25)

See also