Optimization of dark fermentative H2 production from microalgal biomass by combined (acid+ultrasonic) pretreatment

Yun Y.-M.; Jung K.-W.; Kim D.-H.; Oh Y.-K.; Cho S.-K.; Shin H.-S.

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Optimization of dark fermentative H2 production from microalgal biomass by combined (acid+ultrasonic) pretreatment

机译：（酸+超声波）联合预处理优化微藻生物质生产深色发酵氢气的方法

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In this study, individual pretreatments (acid and ultrasonic) and a combination of these pretreatments were optimized to enhance the efficiency of dark fermentative hydrogen production (DFHP) from microalgal biomass. The experimental results show that the maximum H_2 production performance of 42.1mL H_2/g dry cell weight (dcw) was predicted at 0.79% (v/w) HCl and at a specific energy input (SEI) of 49,600kJ/kg dcw in the combined pretreatment, while it was limited in both individual pretreatments. Repeated batch testing of the predicted optimal conditions revealed that the combined pretreatment conditions for DFHP from microalgal biomass were successfully optimized by increasing the solubilization of the feedstock and by reducing the formation of the toxic 5-hydroxymethylfurfural (HMF).

机译：在这项研究中，对单个预处理（酸和超声波）以及这些预处理的组合进行了优化，以提高微藻类生物质生产深色发酵产氢（DFHP）的效率。实验结果表明，预计在H2生产量为42.1mL H_2 / g干细胞重量（dcw）时，其最大H_2生产性能为0.79％（v / w）HCl，比能量输入（SEI）为49,600kJ / kg dcw。联合预处理，但仅限于两个单独的预处理。对预期最佳条件的重复分批测试表明，通过增加原料的溶解度并减少有毒的5-羟甲基糠醛（HMF）的形成，成功地优化了微藻生物质中DFHP的联合预处理条件。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies 》 |2013年第null期| 共7页
作者
Yun Y.-M.; Jung K.-W.; Kim D.-H.; Oh Y.-K.; Cho S.-K.; Shin H.-S.;
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正文语种 eng
中图分类生物科学 ;
关键词
5-Hydroxymethylfurfural; Combined pretreatment; Dark fermentative hydrogen production; Microalgal biomass; Response surface methodology;

机译：5-羟甲基糠醛;联合预处理;暗发酵产氢;微藻生物质;响应面法;

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1. Optimization of dark fermentative H2 production from microalgal biomass by combined (acid+ultrasonic) pretreatment [J] . Yun Y.-M., Jung K.-W., Kim D.-H., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2013 ,第Null期

机译：（酸+超声波）联合预处理优化微藻生物质生产深色发酵氢气的方法
2. Fermentative hydrogen and methane production from microalgal biomass (Chlorella vulgaris) in a two-stage combined process [J] . Nils Wieczorek, Mehmet Ali Kucuker, Kerstin Kuchta Applied Energy . 2014 ,第nova1期

机译：通过两阶段组合过程从微藻生物质（小球藻）发酵生产氢气和甲烷
3. Improvement of biohydrogen production by optimization of pretreatment method and substrate to inoculum ratio from microalgal biomass and digested sludge [J] . Stanislaus Mishma S., Zhang Nan, Yuan Yue, Renewable energy . 2018 ,第NOVa期

机译：通过优化预处理方法以及微藻生物质和消化污泥的底物与接种物比率的优化来提高生物氢的生产
4. (cest2017_00385) Thermal, Alkali And Thermo-Alkali Pretreatments Applied On Monospecific Microalgal Biomass To Improve Anaerobic Biogas Production [C] . Campo G, Riggio V.A, Cerutti A. International Conference on Environmental Science and Technology . 2017

机译：（Cest2017_00385）热，碱和热碱预处理应用于单特异性微藻生物量，以改善厌氧沼气生产
5. Optimization of Biomass and Lipid Production in Heterotrophic Microalgal Cultures. [D] . De la Hoz Siegler, Hector, Jr. 2011

机译：异养微藻培养物中生物量和脂质产生的优化。
6. Fermentative hydrogen production using pretreated microalgal biomass as feedstock [O] . Jianlong Wang, Yanan Yin 2018

机译：使用预处理的微藻生物质作为原料进行发酵制氢
7. Influence of hydrothermal pretreatment on microalgal biomass anaerobic digestion and bioenergy production [O] . Passos, Fabiana Lopes del Rei, Ferrer Martí, Ivet 2015

机译：水热预处理对微藻生物量厌氧消化和生物能源生产的影响

Optimization of dark fermentative H2 production from microalgal biomass by combined (acid+ultrasonic) pretreatment

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