陈丽杰

个人信息Personal Information

副教授

硕士生导师

性别:女

毕业院校:大连理工大学

学位:硕士

所在单位:生物工程学院

电子邮箱:ljchen@dlut.edu.cn

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The advanced strategy for enhancing biobutanol production and high-efficient product recovery with reduced wastewater generation

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论文类型:期刊论文

发表时间:2017-06-10

发表刊物:BIOTECHNOLOGY FOR BIOFUELS

收录刊物:SCIE、EI、PubMed、Scopus

卷号:10

期号:1

页面范围:148

ISSN号:1754-6834

关键字:Jerusalem artichoke stalk; Biobutanol; ABE fermentation; Vapor stripping-vapor permeation; Product recovery

摘要:Background: Butanol as an important chemical and potential fuel could be produced via ABE fermentation from lignocellulosic biomass. The use of food-related feedstocks such as maize and sugar cane may not be a sustainable solution to world's energy needs. Recently, Jerusalem artichoke tubers containing inulin have been used as feedstock for butanol production, but this bioprocess is not commercially feasible due to the great value of inulin as functional food. Till now, there is a gap on the utilization of Jerusalem artichoke stalk (JAS) as feedstock for microbial butanol production.
   Results: Biobutanol production from JAS was investigated in order to improve cellulose digestibility and efficient biobutanol fermentation. Compared with 9.0 g/L butanol (14.7 g/L ABE) production by 2% NaOH pretreatment of JAS, 11.8 g/L butanol (17.6 g/L ABE) was produced in the best scenario conditions of NaOH-H2O2 pretreatment, washing times and citrate buffer strengths etc. Furthermore, more than >64% water in washing pretreated JAS process could be saved, with improving butanol production by >25.0%. To mimic in situ product recovery for ABE fermentation, the vapor stripping-vapor permeation (VSVP) process steadily produced 323.4-348.7 g/L butanol (542.7-594.0 g/L ABE) in condensate, which showed more potentials than pervaporation for butanol recovery.
   Conclusions: Therefore, the present study demonstrated an effective strategy on efficient biobutanol production using lignocellulosic biomass. The process optimization could contribute to significant reduction of wastewater emission and the improvement of lignocellulosic biomass digestibility and biobutanol production, which makes biobutanol production more efficient using JAS.