posted on 2020-11-09, 06:04authored byMinhua Zhang, Lihang Chen, Jing Ma
In
this work, we focus on the separation of the key component vinyl
acetate (VAc) and the light components acetylene (C2H2), carbon dioxide (CO2), and acetaldehyde (CH3CHO) in the VAc synthesis process. The vapor–liquid
phase equilibrium (VLE) data were calculated for the binary systems
C2H2-VAc, CO2-VAc, and CH3CHO-VAc with Gibbs Ensemble Monte Carlo (GEMC) simulation in which
the force field parameters were obtained by the quantum chemistry
and parameter fitting method. By fitting the equilibrium data, the
binary interaction parameters of UNIQUAC thermodynamic models with
Henry’s law were determined and applied for the process modeling
of the industrial gas separation column. The consistency between the
calculation results and the industrial installation data confirmed
the accuracy of the fitted thermodynamic model. This work provided
a new way, using microscopic GEMC simulations and macro process modeling,
for developing a system without VLE experiment data.