Integrated process to produce biohydrogen from wheat straw by enzymatic saccharification and dark fermentation

In this study, different pretreatment methods, including lyophilization, hydrothermal pretreatment, and ultrasound combined with dilute alkali post-cooking, were investigated to enhance the efficiency of enzymatic saccharification and biohydrogen production of the wheat straw. All pretreatment metho...

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Bibliographic Details
Published inInternational journal of hydrogen energy Vol. 48; no. 30; pp. 11153 - 11161
Main Authors Zhu, Jiubin, Song, Wenlu, Chen, Xue, Sun, Shaoni
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 08.04.2023
Subjects
Biohydrogen
Dark fermentation
Enterobacter aerogenes
Integrated treatment
RU
Biohydrogen
Dark fermentation
HTP
FT-IR
Enterobacter aerogenes
XRD
NREL
RC
NADH
Integrated treatment
CrIs
RL
SEM
RM
GC
VS
HPLC
TS
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Summary:In this study, different pretreatment methods, including lyophilization, hydrothermal pretreatment, and ultrasound combined with dilute alkali post-cooking, were investigated to enhance the efficiency of enzymatic saccharification and biohydrogen production of the wheat straw. All pretreatment methods could effectively remove lignin and hemicellulose while retaining cellulose, further enhancing the biomass accessibility for subsequently enzymatic saccharification and biohydrogen production. A reducing sugar concentration of 13.18 g/L was acquired when wheat straw was treated with ultrasound and dilute alkali cooking (RU). The sequential fermentative hydrogen yield of the substrate RU was 133.6 mL/g total solids (TS), which was 5.6-fold larger than that of the raw material (23.9 mL/g TS). The study confirmed that ultrasound combined with dilute alkali cooking was an effective method, which not only provided significant guideline for improving biohydrogen production but also presented helpful direction for the efficient pretreatment of other lignocellulosic biomass. •Several pretreatments were assessed and compared for deconstruction of wheat straw.•Pretreatment effectively destroyed the structure of wheat straw.•Ultrasound combined with dilute alkali cooking increased reducing sugar yields.•A maximum biohydrogen yield of 133.6 mL/g total solids was achieved.•Proper pretreatment enhanced the hydrogen production performance of wheat straw.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2022.05.056