期刊论文详细信息
Frontiers in Energy Research
Evaluation and Selection of Potential Biomass Sources of North-East India towards Sustainable Bioethanol Production
Handique, Pratap J.1  Talukdar, Narayan C.2  Das, Sudripta3  Labala, Rajendra K.3  Nongthombam, Grihalakshmi D.3 
[1] Department of Biotechnology, Gauhati University, India;Division of Life Sciences, Institute of Advanced Study in Science and Technology, India;Institute of Bioresources and Sustainable Development (IBSD), India
关键词: bioethanol;    lignocellulosic biomass;    pretreatment;    sugarcane bagasse;    Enzymatic saccharification;    Consolidated Bioprocessing;   
DOI  :  10.3389/fenrg.2017.00016
学科分类:能源(综合)
来源: Frontiers
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【 摘 要 】

Vegetation biomass production in North-East India within Indo-Burma biodiversity hotspot is luxuriant and available from April to October to consider their potential for bioethanol production. Potential of six lignocellulosic biomass (LCB) sources; namely, sugarcane bagasse (BG), cassava aerial parts (CS), ficus fruits (Ficus cunia) (FF), ‘phumdi’ (floating biomass) (PH), rice straw (RS) and sawdust (SD) were investigated for bioethanol production using standard techniques. Morphological and chemical changes were evaluated by Scanning electron microscopy (SEM) and Fourier transform infrared (FTIR) spectroscopy and quantity of sugars and inhibitors in LCB were determined by High performance liquid chromatography (HPLC). Hydrothermally treated BG, CS and FF released 954.54, 1354.33 and 1347.94 mg/L glucose and 779.31, 612.27 and 1570.11 mg/L of xylose, respectively. Inhibitors produced due to effect of hydrothermal pretreatment ranged from 42.8-145.78 mg/L acetic acid, below detection level (BDL) to 17.7 µg/L 5-hydroxymethylfurfural (HMF) and BDL to 56.78 µg/L furfural. The saccharification efficiency of hydrothermally treated LCB (1.35-28.64%) was significantly higher compared to their native counterparts (0.81-17.97%). Consolidated bioprocessing (CBP) of the LCB using MTCC 1755 (Fusarium oxysporum) resulted in maximum ethanol concentration of 0.85 g/l and corresponded to 42 mg ethanol per g of hydrothermally treated BG in 120 hrs followed by 0.83 g/L corresponding to 41.5 mg/g of untreated CS in 144 hrs. These ethanol concentrations corresponded to 23.43% and 21.54% of theoretical ethanol yield, respectively. LCB of CS and FF emerged as a suitable material to be subjected to test for enhanced ethanol production in future experiments through efficient fermentative microbial strains, appropriate enzyme loadings and standardization of other fermentation parameters.

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