Abstract
In the petrochemical industry process,the relative volatility between the components to be separated is close to one or the azeotrope that systems are difficult to separate.Liquid-liquid extraction is a common and effective separation method,and selecting an extraction agent is the key to extraction technology research.In this paper,a design method of extractants based on elements and chemical bonds was proposed.A knowledge-based molecular design method was adopted to pre-select elements and chemical bond groups.The molecules were automatically synthesized according to specific combination rules to avoid the problem of"combination explosion"of molecules.The target properties of the extractant were set,and the extractant meeting the requirements was selected by predicting the cor-relation physical properties of the generated molecules.Based on the separation performance of the extractant in liquid-liquid extraction and the relative importance of each index,the fuzzy compre-hensive evaluation membership function was established,the analytic hierarchy process determined the mass ratio of each index,and the consistency test results were passed.The results of case study based on quantum chemical analysis demonstrated that effective determination of extractants for the analysis of benzene-cyclohexane systems.The results unanimously prove that the method has important theo-retical significance and application value.
基金项目
National Natural Science Foundation of China(22178190)
NETL
NSTL
万方数据