机构地区:[1]School of Chemical Engineering,Sichuan University,Chengdu 610065,China
出 处:《Chinese Journal of Chemical Engineering》2019年第10期2518-2525,共8页中国化学工程学报(英文版)
基 金:Supported by the National Key Research and Development Program of China(2016YFD0200404);the Sichuan Science and Technology Program(2018RZ0145).
摘 要:The solubility of ammonium dihydrogen phosphate(MAP)in the water–methanol system is essential for antisolvent crystallization studies.To investigate the effect of methanol on the solubility of MAP in water,the solubility of MAP in the water–methanol system was determined by dynamic method and static equilibrium method at temperatures ranging from 293.2 to 343.2 K at atmospheric pressure.Results showed that the solubility of MAP increased with the increase of temperature and the increase of water mole fraction in the water–methanol system.The experimental solubility data were correlated with the modified Apelblat equation,the combined nearly ideal binary solvent/Redlich–Kister(CNIBS/R–K)model and the Jouyban–Acree model.The calculated results based on these three models were in very good agreement with the experimental data with the average relative deviations of 0.65%,0.97%,and 5.38%,respectively.Simultaneously,the thermodynamic properties of the MAP dissolution process in the water–methanol system,including Gibbs energy change,enthalpy,and entropy were obtained by the Van’t Hoff equation,which can be used to assess the crystallization process.The solubility of ammonium dihydrogen phosphate(MAP) in the water–methanol system is essential for antisolvent crystallization studies. To investigate the effect of methanol on the solubility of MAP in water, the solubility of MAP in the water–methanol system was determined by dynamic method and static equilibrium method at temperatures ranging from 293.2 to 343.2 K at atmospheric pressure. Results showed that the solubility of MAP increased with the increase of temperature and the increase of water mole fraction in the water–methanol system. The experimental solubility data were correlated with the modified Apelblat equation, the combined nearly ideal binary solvent/Redlich–Kister(CNIBS/R–K) model and the Jouyban–Acree model. The calculated results based on these three models were in very good agreement with the experimental data with the average relative deviations of 0.65%, 0.97%, and 5.38%, respectively. Simultaneously, the thermodynamic properties of the MAP dissolution process in the water–methanol system, including Gibbs energy change, enthalpy, and entropy were obtained by the Van’t Hoff equation, which can be used to assess the crystallization process.
关 键 词:AMMONIUM DIHYDROGEN phosphate SOLUBILITY Water–methanol SYSTEM
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