Issue 16, 2021, Issue in Progress

Hydrophilic and organophilic pervaporation of industrially important α,β and α,ω-diols

Abstract

The distillation-based purification of α,β and α,ω-diols is energy and resource intensive, as well as time consuming. Pervaporation separation is considered to be a remarkable energy efficient membrane technology for purification of diols. Thus, as a core pervaporation process, hydrophilic polyvinyl alcohol (PVA) membranes for the removal of water from 1,2-hexanediol (1,2-HDO) and organophilic polydimethylsiloxane–polysulfone (PDMS–PSF) membranes for the removal of isopropanol from 1,5 pentanediol (1,5-PDO) were employed. For 1,2-HDO/water separation using a feed having a 1 : 4 weight ratio of 1,2-HDO/water, the membrane prepared using 4 vol% glutaraldehyde (GA4) showed the best performance, yielding a flux of 0.59 kg m−2 h−1 and a separation factor of 175 at 40 °C. In the organophilic pervaporation separation of the 1,5-PDO/IPA feed having a 9 : 1 weight ratio of components, the PDMS membrane prepared with a molar ratio of TEOS alkoxy groups to PDMS hydroxyl groups of 70 yielded a flux of 0.12 kg m−2 h−1 and separation factor of 17 638 at 40 °C. Long term stability analysis found that both hydrophilic (PVA) and organophilic (PDMS) membranes retained excellent pervaporation output over 18 days' continuous exposure to the feed. Both the hydrophilic and organophilic membranes exhibited promising separation performance at elevated operating conditions, showing their great potential for purification of α,β and α,ω-diols.

Graphical abstract: Hydrophilic and organophilic pervaporation of industrially important α,β and α,ω-diols

Supplementary files

Article information

Article type
Paper
Submitted
19 Jan 2021
Accepted
16 Feb 2021
First published
01 Mar 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 9274-9284

Hydrophilic and organophilic pervaporation of industrially important α,β and α,ω-diols

S. Chaudhari, H. Shin, S. Choi, K. Cho, M. Shon, S. Nam and Y. Park, RSC Adv., 2021, 11, 9274 DOI: 10.1039/D1RA00467K

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