期刊
JOURNAL OF THE AMERICAN CERAMIC SOCIETY
卷 105, 期 5, 页码 3647-3653出版社
WILEY
DOI: 10.1111/jace.18354
关键词
molten chloride salts; phase stability; sapphire; thermodynamic modeling
资金
- US Department of Energy, Advanced Research Projects Agency-Energy [18/CJ000/06/01]
The development of molten salt reactors and concentrated solar power plants requires efficient instruments for monitoring the chemical conditions of the molten salt. Sapphire fibers are promising due to their radiation resistance and wider temperature range. This study uses thermodynamic modeling to analyze the compatibility of sapphire fibers with molten chloride salts and suggests that molybdenum and nickel could enhance the stability of sapphire in the desired temperature range. The presence of these cladding materials can provide a protective coating against corrosive molten salts.
The continued development of molten salt reactors and concentrated solar power plants requires highly efficient and stable instruments that can efficiently monitor the chemical conditions of the molten salt during long-term operation in both the fuel and coolant/heat transfer fluid loops. Sapphire (Al2O3) fibers have shown tremendous potential due to inherent radiation resistance and a broader operational range of temperature. In this work, computational thermodynamic modeling (CALPHAD) using the ThermoCalc software in conjunction with the SGTE (Scientific Group Thermodata Europe) Molten Salts (SALT1) and Pure Substances (Pure5) databases is applied to understand the compatibility of Al2O3 fibers with NaCl-MgCl2 eutectic molten salt in the temperature range of 1500-2500 K. The thermodynamic calculations show that sapphire fibers are not expected to be stable over the long-term when exposed to molten chloride salts at these temperatures. To improve the stability of these diagnostic fibers in molten salt environments, various pure metallic elements were evaluated as potential cladding materials for Al2O3 fibers. Based on the thermodynamic analysis, molybdenum (Mo) and nickel (Ni) could be effective cladding materials to enhance the stability of Al2O3 in NaCl-MgCl2 chloride salt molten bath in the desired temperature range. Thus, the presence of Mo and Ni cladding can provide a protective coating against the corrosive molten salts, thus improving the stability of Al2O3. Additionally, it is also shown that Al2O3 remains stable up to 2400 K in the presence of preexisting Al2MgO4 and Al2NiO4 in the eutectic molten chloride bath environment.
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