Pretreatment Optimization of Cholinium Ionic Liquid for Maximizing Sugar Release from Rice Straw

IEEA '18 Pub Date : 2018-03-28 DOI:10.1145/3208854.3208864

Inatda Srisampao, Peerapong Pornwongthong, S. Roddecha, Wawat Rodiahwati, M. Sriariyanun

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引用次数: 7

Abstract

In the biofuel production, an important step in biofuel production from lignocellulosic biomass is the transformation of cellulose into glucose by the function of cellulase. Pretreatment is a necessary process to promote the enzyme efficiency in hydrolysis. In this study, cholinium acetate ([Ch][OAc]), an ionic liquid (IL), was applied in pretreatment of rice straw. The [Ch][OAc] pretreatment conditions were optimized to maximize sugar release of rice straw using a response surface methodology (RSM) with three testing parameters, including loading mass ratio per IL, treatment time, and reaction temperature. The hydrolysis results demonstrated that the highest production of reducing sugars at 57.12 mg/0.1 g-rice straw was achieved at 130 °C for 304.27 min and using 13.79% loading mass ratio, which was 6.57 times higher than the untreated rice straw. Moreover, impacts of [Ch][OAc] pretreatment were analyzed using FTIR. The result showed that [Ch][OAc] removed crystallinity structure of cellulose and lignin content. These results suggested the potential of [Ch][OAc] pretreatment of biofuel production from lignocellulosic biomass.

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最大化稻草糖释放的胆离子液体预处理优化

在生物燃料生产中，木质纤维素生物质生产生物燃料的一个重要步骤是通过纤维素酶的作用将纤维素转化为葡萄糖。预处理是提高酶水解效率的必要步骤。本研究将离子液体(IL)醋酸胆碱([Ch][OAc])应用于稻草预处理。采用响应面法(RSM)对[Ch][OAc]预处理条件进行优化，以最大限度地提高稻草糖的释放量。结果表明，在130℃、304.27 min、13.79%的负载质量比条件下，还原糖产量达到57.12 mg/0.1 g，是未处理稻草的6.57倍。并用FTIR分析了[Ch][OAc]预处理的影响。结果表明，[Ch][OAc]对纤维素的结晶度结构和木质素含量有去除作用。这些结果表明[Ch][OAc]预处理木质纤维素生物质生产生物燃料的潜力。

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IEEA '18

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