Energy Storage Science and Technology ›› 2021, Vol. 10 ›› Issue (5): 1729-1734.doi: 10.19799/j.cnki.2095-4239.2021.0320

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The phase diagram prediction and experimental study of ternary same cation systems

Cong HE(), Yuanwei LU, Wenbing SONG, Xiaotong CHEN, Yuting WU, Zhansheng FAN   

  1. Key Laboratory of Enhanced Heat Transfer and Energy Conservation of Ministry of Education and Key Laboratory of Heat Transfer and Energy Convervation of Beijing, Beijing University of Technology, Beijing 100124, China
  • Received:2021-07-05 Revised:2021-07-15 Online:2021-09-05 Published:2021-09-08

Abstract:

New high-temperature thermal storage/storage materials with higher service temperatures must be developed to improve the efficiency of third-generation concentrated solar thermal power generation technology and reduce the system's operating costs. Based on the same-cation principle, three molten salts, i.e., sodium nitrate (NaNO3), sodium chloride (NaCl), and sodium carbonate (Na2CO3) of the same sodium ion, were selected as base salts, and the phase diagram principle guided the preparation of mixed molten salts. The phase diagram thermodynamic calculation of the NaNO3-NaCl-Na2CO3 ternary system was carried out using the FactSage software program. The thermophysical analysis of several groups of eutectic salts near the lowest eutectic point was carried out using a differential scanning calorimeter. The results showed that when the molar ratio of the molten salts in the ternary system(NaNO3:NaCl:Na2CO3) was 0.92:0.064:0.016, the melting point of the system was the lowest, the lowest eutectic point was 279.9 ℃, and the latent heat was 194.1 J/g. These results were essentially consistent with the theoretical calculation result (291 ℃), verifying the model's accuracy. Other thermophysical properties of the system at the lowest eutectic point were measured. The decomposition temperature of the system at this ratio was 648 ℃ (the mass loss rate was 5%), and the specific heat value was 1.60 J/(g·K) (500 ℃). The measured specific heat value increased by 0.12 compared with Solar Salt and 0.28 compared with Hitec salt. The new ternary system had large latent heat of molten salts and a broad temperature range. It showed significant potential in the preparation of latent heat storage involving composite materials. The system can be used as a reference for developing new thermal storage/storage materials for solar power generation and as a guide for the development of mixed molten salts using phase diagram theory.

Key words: molten salt, phase diagram, concentrating solar power, thermophysical properties

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