Thermophysical properties of Ca(NO3)-NaNO3-KNO3 mixtures for heat transfer and thermal storage

In this study calcium nitrate, sodium nitrate, and potassium nitrate were mixed to form cheap ternary molten salts based on different weight ratios. These molten salts can be used as both sensible heat storage materials and latent heat storage materials. In addition, they can be directly used as hea...

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Bibliographic Details
Published in:Solar energy 2017-04, Vol.146, p.172
Main Authors: Chen, YY, Zhao, CY
Format: Article
Language:English
Subjects:
Calcium nitrate
Enthalpy
Freezing
Heat conductivity
Heat storage
Heat transfer
Latent heat
Liquid phases
Melting point
Melting points
Mixtures
Molten salts
Nitrates
Potassium
Potassium nitrate
Production costs
Salts
Sensible heat
Sodium nitrate
Sodium nitrates
Solar energy
Solid phases
Specific heat
Storage systems
Thermal conductivity
Thermal decomposition
Thermal storage
Thermophysical properties
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Summary:In this study calcium nitrate, sodium nitrate, and potassium nitrate were mixed to form cheap ternary molten salts based on different weight ratios. These molten salts can be used as both sensible heat storage materials and latent heat storage materials. In addition, they can be directly used as heat transfer fluids due to their low freezing temperatures. The results indicated that the mixture (Ca(N03)2:NaNO3:KNO3 = 32:24:44 wt%) had the best performance for latent heat storage with its enthalpy of 67 J/g and melting point of about 80 degrees Celsius. The specific heat capacity (1.7 J/(g degrees Celsius) for the solid phase and 1.2 J/(g degrees Celsius) for the liquid phase), viscosity (next to zero at 200 degrees Celsius), thermal conductivity (about 1-3 W/(m K)), thermal decomposition, and cycle stability of the molten salts were measured by DSC, Malvern Kinexus Ultra^sup +^, a transient plane thermal conductivity meter, STA, and XRD, respectively. The thermophysical properties including the low manufacturing cost showed that the molten salts have great potential applications in thermal storage systems.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2017.02.033