loading page

Vapor-liquid phase equilibria behavior prediction of water/organic-organic binary mixture using machine learning
  • +3
  • Guanlun Sun,
  • Zhenyu Zhao,
  • Shengjie Sun,
  • Yiming Ma,
  • Hong Li,
  • Xin Gao
Guanlun Sun
Tianjin University School of Chemical Engineering and Technology
Author Profile
Zhenyu Zhao
Tianjin University School of Chemical Engineering and Technology
Author Profile
Shengjie Sun
Qingdao University
Author Profile
Yiming Ma
Tianjin University
Author Profile
Hong Li
National Engineering Research Ceter of Distillation Technology
Author Profile
Xin Gao
Tianjin university

Corresponding Author:[email protected]

Author Profile

Abstract

Basic thermodynamic data plays an important role in chemical applications. However, the traditional acquisition of thermodynamic data through experiments is laborious. Thermodynamic data prediction is considered as an alternative to the experiments, especially when qualitative analysis is needed prior to experimental studies. In this work, we report a successful machine-learning based approach to predict the fundamental thermodynamics characteristics of vapor-liquid equilibrium (VLE) process. A new dataset of the VLE experimental data of 210 kinds of binary mixture with screened descriptors were constructed. The obtained results show that the VLE characteristics of the target system can be fully revealed for a pre-analysis by ML methods and the RF model has more excellent predictive ability on the VLE behavior than the ANN model. This work pioneers the development of the generalized model on the prediction of the VLE data and provide useful information for mechanistic study on the VLE phenomenon.