Effect of alkaline pretreatment on photo-fermentative hydrogen production from giant reed: Comparison of NaOH and Ca(OH)(2)

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Effect of alkaline pretreatment on photo-fermentative hydrogen production from giant reed: Comparison of NaOH and Ca(OH)(2)

机译：碱性预处理对巨型芦苇的光发酵氢生产的影响：NaOH和Ca的比较（OH）（2）

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Giant reed was the first time used for photo-fermentative hydrogen production with HAU-M1 bacteria. Effects of NaOH and Ca(OH)(2) pretreatments of giant reed on structural changes, enzymatic digestibility, hydrogen production, and energy conversion efficiency were evaluated. Compared to Ca(OH)(2) pretreatment, NaOH pretreatment removed more dry matter and lignin at the same loading. The highest glucose yield (44.9%) of NaOH pretreatment was 1.74-fold higher than that of Ca(OH)(2) pretreatment. 20% NaOH pretreated giant reed biomass achieved the highest hydrogen yield (98.3 mL/g TS), which was 20% and 70% higher than the highest level of Ca (OH)(2) pretreated (20% Ca(OH)(2)) and untreated giant reed, respectively. Only giant reed biomass pretreated with 20% NaOH resulted in a significant (p < 0.05) increase (25%) in energy conversion efficiency.

机译：巨型芦苇是第一次用于与HAU-M1细菌的光发酵氢生产。评价NaOH和Ca（OH）（OH）（2）对结构变化的预处理，酶促消化，氢气产量和能量转化效率的影响。与Ca（OH）（2）预处理相比，NaOH预处理除去了更多的干物质和木质素。 NaOH预处理的最高葡萄糖产率（44.9％）比Ca（OH）（2）预处理的预处理高1.74倍。 20％NaOH预处理的巨型芦苇生物量实现了最高的氢屈服（98.3ml / g Ts），其比预处理（20％Ca（OH）的最高水平高（OH）（2）（2）（2 ）））分别和未经处理的巨型簧片。只有20％NaOH预处理的巨型芦苇生物量导致能量转换效率增加（P <0.05）增加（25％）。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2020年第2020期|共8页
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正文语种 eng
中图分类生物科学;
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Giant reed; Alkaline pretreatment; Photo-fermentative hydrogen production; Energy conversion efficiency;

机译：巨型芦苇;碱性预处理;光发酵氢气生产;能量转换效率;
入库时间 2022-08-20 15:57:06

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Effect of alkaline pretreatment on photo-fermentative hydrogen production from giant reed: Comparison of NaOH and Ca(OH)(2)

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