Isopropyl alcohol is widely used as industrial chemical intermediates and common solvents in households, pharmaceuticals, food, cosmetics, and medical purposes. The high purity of isopropyl alcohol requires special separation from its impurity i.e. water due to isopropyl alcohol and water form an azeotropic point, which is difficult to separate using a conventional distillation method. The azeotropic point of this mixture is at isopropyl alcohol mole fraction of 0.68 and temperature of 353.4 K. One of the optimum methods to separate an azeotrope point is through the extractive distillation which use a third component as a solvent. Glycerol is one of the solvents which can be used as a potential entrainer in the extractive distillation. Glycerol is produced in the biodiesel production as a by-product. Moreover, glycerol is an eco-friendly chemical. In this work, the simulation of the extractive distillation of isopropyl alcohol/water system with glycerol as an entrainer was simulated using Aspen Plus. The Non-Random Two-Liquid (NRTL) model was used as thermodynamic model in the simulation.  The effect of stage number, binary feed stage, entrainer feed stage, and reflux ratio to the purity of isopropyl alcohol, and reboiler-condenser duties were examined to achieve the optimum design for the extractive distillation column with less energy requirements. The simulation results showed that the optimum configurations in the extractive distillation column design are at 25 theoretical stages, binary feed stage (BFS) of 20, entrainer feed stage (EFS) of 2, and reflux ratio (RR) of 0.5 to produce isopropyl alcohol with the purity of 99.27%. The design and sizing of the extractive distillation column were also proposed in this work.

isopropyl alcohol; water; glycerol; extractive distillation; process simulation

Arifin, S., Chien, I.-L. 2008. Design and Control of an Isopropyl Alcohol Dehydration Process via Extractive Distillation Using Dimethyl Sulfoxide as an Entrainer. Industrial & Engineering Chemistry Research. 47(3): 790–803.

ASTM. 2019. Standard Specification for Isopropyl Alcohol. Retrieved from https://www.astm.org/Standards/D770.html

Cháfer, A., de la Torre, J., Loras, S., Montón, J. B. 2018. Study of liquid–liquid extraction of ethanol + water azeotropic mixtures using two imidazolium-based ionic liquids. The Journal of Chemical Thermodynamics. 118. 92–99.

Gil, I. D., García, L. C., Rodríguez, G. 2014. Simulation of ethanol extractive distillation with mixed glycols as separating agent. Brazilian Journal of Chemical Engineering. 31(1): 259–270.

Gu, Y., Jérôme, F. 2013. Bio-based solvents: an emerging generation of fluids for the design of eco-efficient processes in catalysis and organic chemistry. Chemical Society Reviews. 42(24): 9550–9570.

Hartanto, D., Gupta, B. S., Taha, M., Lee, M.-J. 2016. Isobaric vapour–liquid equilibrium of (tert-butanol+water) system with biological buffer TRIS at 101.3kPa. The Journal of Chemical Thermodynamics. 98. 159–164.

Kalla, S., Upadhyaya, S., Singh, K., Dohare, R. K., Agarwal, M. 2016. A case study on separation of IPA-water mixture by extractive distillation using aspen plus. International Journal of Advanced Technology and Engineering Exploration. 3(24): 187–193.

Khosravi, T., Mosleh, S., Bakhtiari, O., Mohammadi, T. 2012. Mixed matrix membranes of Matrimid 5218 loaded with zeolite 4A for pervaporation separation of water–isopropanol mixtures. Chemical Engineering Research and Design. 90(12): 2353–2363.

Li, J., Li, R., Zhou, H., Yang, X., Ma, Z., Sun, L., Zhang, N. 2019. Energy-Saving Ionic Liquid-Based Extractive Distillation Configurations for Separating Ternary Azeotropic System of Tetrahydrofuran/Ethanol/Water. Industrial & Engineering Chemistry Research. 58(36): 16858-16868.

Megawati, Rengga, W. D. P., Fardhyanti, D. S., Akhir, A. E. 2018. Modelling of Adsorptive-distillation of Ethanol-water Using Natural and Synthetic Zeolites as Adsorbent. Journal of Physical Science. 29(Supp. 2): 243–256.

Novita, F. J., Lee, H.-Y., Lee, M. 2018. Energy-efficient and ecologically friendly hybrid extractive distillation using a pervaporation system for azeotropic feed compositions in alcohol dehydration process. Journal of the Taiwan Institute of Chemical Engineers. 91: 251–265.

Orchillés, A. V., Miguel, P. J., González-Alfaro, V., Llopis, F. J., Vercher, E., Martínez-Andreu, A.. Isobaric vapor-liquid equilibria for the extractive distillation of 2-propanol+water mixtures using 1-ethyl-3-methylimidazolium dicyanamide ionic liquid. The Journal of Chemical Thermodynamics. 110: 16–24.

Pereiro, A. B., Araújo, J. M. M., Esperança, J. M. S. S., Marrucho, I. M., Rebelo, L. P. N. 2012. Ionic liquids in separations of azeotropic systems – A review. The Journal of Chemical Thermodynamics. 46: 2–28.

Pienaar, C., Schwarz, C. E., Knoetze, J. H., Burger, A. J. 2013. Vapor–Liquid–Liquid Equilibria Measurements for the Dehydration of Ethanol, Isopropanol, and n-Propanol via Azeotropic Distillation Using DIPE and Isooctane as Entrainers. Journal of Chemical & Engineering Data. 58(3): 537–550.

Pla-Franco, J., Lladosa, E., Loras, S., Montón, J. B. 2013. Phase equilibria for the ternary systems ethanol, water+ethylene glycol or+glycerol at 101.3kPa. Fluid Phase Equilibria. 341: 54–60.

Rodriguez, N. R., Kroon, M. C. 2015. Isopropanol dehydration via extractive distillation using low transition temperature mixtures as entrainers. The Journal of Chemical Thermodynamics. 85: 216–221.

Udovenko V.V., Mazanko T.F., Plyngeu V.Ya. 1973. Dampf-Flüssig-Gleichgewicht in Systemen Isopropanol - Wasser und Isopropanol - Benzol. Izv. Vyssh.Uchebn.Zaved.Khim.Khim.Tekhnol. 16: 686–688.

US National Libary of Medicine. 2020. Isopropyl alcohol. Retrieved from https://pubchem.ncbi.nlm.nih.gov/compound/Isopropyl-alcohol

Vora, S. R., Thakore, P. S. B., Padhiyar, P. N., Pathan, A., Engineering, L. D. C. 2013. Effect Of Addition Of LiBr Salt In Iso-Propanol - Water Binary Azeotropic Mixture. International Journal of Scientific Engineering and Technology. 2(4): 245–248.

Zhang, L., Zhang, W., Yang, B. 2014. Experimental Measurement and Modeling of Ternary Vapor–Liquid Equilibrium for Water + 2-Propanol + Glycerol. Journal of Chemical & Engineering Data. 59(11): 3825–3830.

Zhigang, L., Jinchang, Z., Biaohua, C. 2002. Separation of aqueous isopropanol by reactive extractive distillation. Journal of Chemical Technology & Biotechnology. 77(11): 1251–1254.