| Literature DB >> 27839857 |
Di Cai1, Song Hu1, Qi Miao1, Changjing Chen1, Huidong Chen2, Changwei Zhang1, Ping Li1, Peiyong Qin3, Tianwei Tan1.
Abstract
Two-stage pervaporation for ABE recovery from fermentation broth was studied to reduce the energy cost. The permeate after the first stage in situ pervaporation system was further used as the feedstock in the second stage of pervaporation unit using the same PDMS/PVDF membrane. A total 782.5g/L of ABE (304.56g/L of acetone, 451.98g/L of butanol and 25.97g/L of ethanol) was achieved in the second stage permeate, while the overall acetone, butanol and ethanol separation factors were: 70.7-89.73, 70.48-84.74 and 9.05-13.58, respectively. Furthermore, the theoretical evaporation energy requirement for ABE separation in the consolidate fermentation, which containing two-stage pervaporation and the following distillation process, was estimated less than ∼13.2MJ/kg-butanol. The required evaporation energy was only 36.7% of the energy content of butanol. The novel two-stage pervaporation process was effective in increasing ABE production and reducing energy consumption of the solvents separation system.Entities:
Keywords: ABE fermentation; In situ product recovery; PDMS membrane; Pervaporation
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Year: 2016 PMID: 27839857 DOI: 10.1016/j.biortech.2016.11.010
Source DB: PubMed Journal: Bioresour Technol ISSN: 0960-8524 Impact factor: 9.642