Biobutanol production from sulfuric acid-pretreated red algal biomass by a newly isolated Clostridium sp. strain WK

Hong Ying; Chen Chaoyang; Wu Yi-Rui

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Biobutanol production from sulfuric acid-pretreated red algal biomass by a newly isolated Clostridium sp. strain WK

机译：通过新分离的蛋白质sp从硫酸预处理的红藻生物量产生生物催化剂。菌株WK.

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Marine biomass, especially the algal biomass, is currently considered to be one of the most potential candidates for biofuels conversion during the development of biomass utilization. In this study, a diluted sulfuric acid pretreatment method was established for biobutanol from red algal biomass Gelidium amansii using a newly isolated Clostridium sp. strain WK. Under the optimal condition of 2% sulfuric acid treated in 20 Min at 131 degrees C, the maximal hydrolysis percentage of biomass can reach up to 80.95%, and the biobutanol production was obtained to be 3.46 g/L with a yield of 0.20 g/g after the fermentation of biomass hydrolysate. This result demonstrated a 12.5-fold enhancement of conversion efficiency compared with the untreated control, which provides a new and efficient way to develop the biobutanol industry by utilizing the abundant, low cost, and carbohydrate-rich algal biomass.

机译：海洋生物质，特别是藻类生物量，目前被认为是生物量利用过程中最潜在的生物燃料转化候选者之一。在该研究中，使用新分离的蛋白质SP从红藻生物量甘蓝甘露酸的生物灭菌醇建立稀硫酸预处理方法。菌株WK。在131℃下在20分钟处理的2％硫酸的最佳条件下，生物质的最大水解百分比可达80.95％，得到生物丁醇产量为3.46g / L，产率为0.20g / 将生物质水解产物发酵后。这一结果表明，与未处理的对照相比，转化效率的增强12.5倍，这为通过利用丰富，低成本和富含碳水化合物的藻类生物量提供了一种新的和有效的方式来开发生物催化剂行业。

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《Biotechnology and Applied Biochemistry》 |2020年第5期|共6页
作者
Hong Ying; Chen Chaoyang; Wu Yi-Rui;
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Shantou Univ Dept Biol Shantou 515063 Guangdong Peoples R China;

Shantou Univ Dept Biol Shantou 515063 Guangdong Peoples R China;

Shantou Univ Dept Biol Shantou 515063 Guangdong Peoples R China;

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正文语种 eng
中图分类生物工程学（生物技术）;生物化学;
关键词
Biofuels production; Algal biomass; Pretreatment; Clostridium species; Diluted acid;

机译：生物燃料生产;藻类生物量;预处理;梭菌种类;稀释酸;

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Biobutanol production from sulfuric acid-pretreated red algal biomass by a newly isolated Clostridium sp. strain WK

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