Improved Design of Maximum-Boiling Phenol/Cyclohexanone Separation with Experimentally Verified Vapor–Liquid Equilibrium Behaviors

Abstract: There are very few papers in the open literature studying the design of extractive distillation system for separating maximum-boiling mixtures. Using the knowledge of the curvature of the distillation boundary existing in such systems with a heavy entrainer, feasibility of separation can easily be determined by plotting the ternary diagram with distillation boundary and material balance lines of the studied system. In this paper, an industrially important phenol/cyclohexanone separation system is thoroughly st… Show more

“…In this study, the thermodynamic model employed was the UNIQUAC model. Some thermodynamic parameters were obtained through data regression of CYC/phenol/water by Wang [10] and Cai [11]et al , while other unmeasured parameters were sourced from the Aspen Plus user manual. Fig.…”

Extraction selection and process optimization of phenol-containing wastewater from coal chemical industry

“…In this study, the thermodynamic model employed was the UNIQUAC model. Some thermodynamic parameters were obtained through data regression of CYC/phenol/water by Wang [10] and Cai [11]et al , while other unmeasured parameters were sourced from the Aspen Plus user manual. Fig.…”

Extraction selection and process optimization of phenol-containing wastewater from coal chemical industry

Solubility determination of surface-active components from dynamic surface tension data

An intensified energy-saving architecture for side-stream extractive distillation of four-azeotrope mixtures considering economic, environmental and safety criteria simultaneously