Pressure swing distillation of azeotropic mixture – A simulation study Article Swipe

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Distillation Thermodynamics Chemistry Work (physics) Fractionating column Azeotrope Azeotropic distillation Fractional distillation Ethanol Volumetric flow rate Pressure drop Swing Chromatography Pressure swing adsorption Mechanical engineering Organic chemistry Physics Hydrogen Engineering

Asma Iqbal , Syed Akhlaq Ahmad ·

YOU? · · 2016 · Open Access · · DOI: https://doi.org/10.1016/j.pisc.2016.01.001 · OA: W2255352148

The aim of this work is to simulate a pressure-swing distillation column for the separation and purification of ethanol from the ethanol–water binary system. The choice for this system is due to the importance of the ethanol–water separation. A steady-state equilibrium-stage model based on normalised MESH equations is used to simulate pressure-swing distillation column applied for the production of ethanol. All the work has been carried out using Aspen Plus simulator, version 13.2. Among the activity coefficient models available, the WILSON-RK model with binary parameters predicted by the Aspen Plus simulator is shown to be the most accurate to correlate the experimental vapor-/liquid equilibrium (VLE) data available for the ethanol–water system. The simulation has been satisfactorily carried out for a mixture of 20 mol% ethanol in water at 1 atm pressure and 90 °C with a molar flow rate of 100 kmol/h. The adjusting parameters include D/F ratio and reflux ratio of the two columns to get water purity of 99.5 mol% from the bottom of the Low Pressure Column (LPC) and the ethanol purity of 99.7 mol% from the bottom of High Pressure Column (HPC).