Liquid–Liquid Extraction of Acetic Acid with 2-Methyltetrahydrofuran
Experiments, Process Modeling, and Economics
Antero T. Laitinen (VTT Technical Research Center of Finland)
Vyomesh M. Parsana (Gujarat Technological University)
Priyank Khirsariya (Gujarat Technological University)
Olli Jauhiainen (VTT Technical Research Center of Finland)
Marco Huotari (VTT Technical Research Center of Finland)
Juha Pekka Pokki (Aalto University)
Thijs J.H. Vlugt (TU Delft - Engineering Thermodynamics)
Mahinder Ramdin (TU Delft - Engineering Thermodynamics)
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Abstract
Acetic acid production from renewable processes such as biomass hydrolysis and electrochemical reduction of CO2 exhibits low concentrations, which make downstream separation challenging. We measured the vapor–liquid equilibria of the binary systems acetic acid + 2-methyltetrahydrofuran (2-MTHF), methyl-t-butyl ether (MTBE) + acetic acid, and the ternary liquid–liquid equilibria of the system 2-MTHF + AA + water, fitted the data to the UNIQUAC-HOC and NRTL models, designed a hybrid extraction-distillation process for acetic acid separation with 2-MTHF, and evaluated its economics and compared with that of three other commonly used solvents (i.e., ethyl acetate, MTBE, and methyl propyl ketone). The lowest and highest costs of separation were observed for MTBE and MPK, while 2-MTHF and EA showed similar performance. The cost of separation increased exponentially as the feed concentration decreased, and renewable processes should aim for at least 5 wt % acetic acid in the feed to allow economically feasible separation.
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