复合多壁碳纳米管聚二甲基硅氧烷膜生物反应器强化高粱种子生物乙醇生产

A. Farahi, G. Najafpour, A. Ghoreyshi
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引用次数: 4

摘要

以高粱种子(Sorghum vulgare)为原料生产生物乙醇。用响应面法确定了最佳工艺条件。采用碱性处理和α-淀粉酶0.7 g/l和淀粉葡糖苷酶0.42 g/l双酶解法处理45 g/l的高粱籽粉。总糖的水解量为25.5 g/L,利用酿酒酵母生产8.1 g/L的常规生物乙醇。在膜生物反应器(MBR)中采用间歇发酵和膜渗透蒸发相结合的工艺生产生物乙醇。在MBR中应用商用聚二甲基硅氧烷/聚对苯二甲酸乙二醇酯/聚酰亚胺(PDMS/PET/PI)膜,MBR的肉汤乙醇浓度为10.15 g/l,冷阱乙醇浓度为70.2 g/l。培养液中细胞浓度由常规发酵的7.2 g/l提高到MBR发酵的9.05 g/l。此外,制备膜在MBR中生产乙醇,乙醇分离系数为8.7;肉汤乙醇浓度为11.1 g/ l,冷阱乙醇浓度为88.5 g/ l。在制备膜的MBR中,细胞浓度为10.2 g/l。在MBR中,表面修饰的多壁碳纳米管(MWCNT)包覆在膜上,乙醇分离系数为10.2,在肉汤和冷阱中乙醇浓度分别为11.9和110 g/l。最后,改性膜对MBR的细胞浓度为11.01 g/l。通过对比研究,MWCNT改性膜获得了最大的乙醇分离率和产率,并对其表面进行了电晕处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Composite Multi Wall Carbon Nano Tube Polydimethylsiloxane Membrane Bioreactor for Enhanced Bioethanol Production from Broomcorn Seeds
Broomcorn seed (Sorghum vulgare) was used as raw material for bioethanol production. Optimum conditions were obtained from response surface method. Broomcorn seed flour (45 g/l) was treated by alkaline treatment and dual enzymatic hydrolysis (0.7 g/l of α- amylase and 0.42 g/l of amyloglucosidase). The hydrolyzed total sugar of 25.5 g/L was used in conventional bioethanol production (8.1 g/l) using Saccharomyces cerevisiae. Enhanced bioethanol production was performed in membrane bioreactor (MBR) in integrated batch fermentation and membrane pervaporation process. Application of commercial polydimethylsiloxane/polyethyleneterephthalate/polyimide  (PDMS/PET/PI) membrane in MBR resulted in ethanol concentration of 10.15 g/l in broth and 70.2 g/l in cold trap of MBR. Cell concentration in broth was increased from 7.2 in conventional fermentation to 9.05 g/l in MBR. In addition, ethanol production in MBR using fabricated membrane having ethanol separation factor of 8.7; ethanol concentration in broth and cold trap were 11.1 and 88.5 g/ l, respectively. Also the cell concentration of 10.2 g/l was obtained in MBR with fabricated membrane. In MBR, surface modified multi wall carbon nano tube (MWCNT) coated on membrane having ethanol separation factor of 10.2, resulted ethanol concentration of 11.9 and 110 g/l in broth and cold trap, respectively. Finally, for MBR using modified membrane the cell concentration of 11.01 g/l was obtained. Based on a comparison study, maximum ethanol separation and yield were obtained for modified membrane having MWCNT and the surface was modified by corona treatment.
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