摘要
In this paper, the vapor-liquid-solid phase-equilibrium property of a mixed gas hydrate formed by the blend of CFC alternatives HFC152a/HCFC14lb is studied under a constant volume condition and the phase diagram of the mixed gas hydrate is presented first time. It has been shown that a cool-storage material with superior performance property can be achieved from the mixed refrigerant hydrate, due to the principle of property compensation of mixtures. The experimelltal result reveals that HFC152a/HCFC141b mixed gas hydrate has an azeotropic melting property This means that mixed gas hydrates can has phaseequilibrium properties similar to that of mixture vapor-liquid phase equilibrium and it may be described by means of the solution theory. This discovery is significant for understanding the formation and phase change of mixed gas hydrates and improvement of gas-hydratethermal-energy-storage materials.
In this paper, the vapor-liquid-solid phase-equilibrium property of a mixed gas hydrate formed by the blend of CFC alternatives HFC152a/HCFC14lb is studied under a constant volume condition and the phase diagram of the mixed gas hydrate is presented first time. It has been shown that a cool-storage material with superior performance property can be achieved from the mixed refrigerant hydrate, due to the principle of property compensation of mixtures. The experimelltal result reveals that HFC152a/HCFC141b mixed gas hydrate has an azeotropic melting property This means that mixed gas hydrates can has phaseequilibrium properties similar to that of mixture vapor-liquid phase equilibrium and it may be described by means of the solution theory. This discovery is significant for understanding the formation and phase change of mixed gas hydrates and improvement of gas-hydratethermal-energy-storage materials.
出处
《工程热物理学报》
EI
CAS
CSCD
北大核心
1997年第6期657-660,共4页
Journal of Engineering Thermophysics
基金
国家自然科学基金
广东省自然科学基金