Improving agricultural straw preparation logistics stream in bio-methane production: experimental studies and application analysis

Improving agricultural straw preparation logistics stream in bio-methane production: experimental studies and application analysis

Long-term production in commercial straw biogas plants has been rare in China due to inefficiencies in the logistics stream. Biomass densification could be a potential solution to this issue. Therefore, we conducted a study to evaluate whether biomass densification is a more efficient and sustainabl...

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Bibliographic Details
Published in:3 Biotech Vol. 7; no. 5; pp. 283 - 11
Main Authors: Tao, Luo, Junting, Pan, Xi, Meng, Hailong, Huang, Yan, Long, Xia, Xiong, Ruyi, Huang, Zili, Mei
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-10-2017
Springer Nature B.V
Subjects:
Agriculture
Biogas
Bioinformatics
Biomass
Biomaterials
Biotechnology
Briquets
Cancer Research
Chemistry
Chemistry and Materials Science
Comparative analysis
Competitiveness
Corn
Densification
Fermentation
Logistics
Methane
Original
Original Article
Plants (botany)
Pretreatment
Stem Cells
Straw
Model
Feedstock
Biomass densification
Corn stove
Biogas plant
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Summary:Long-term production in commercial straw biogas plants has been rare in China due to inefficiencies in the logistics stream. Biomass densification could be a potential solution to this issue. Therefore, we conducted a study to evaluate whether biomass densification is a more efficient and sustainable option. We performed methane production experiments to investigate fermentation characteristics of briquettes (with a new pretreatment, model II) and rubs (with a common pretreatment, model I). A 3000-m 3 biogas plant was used to conduct a comparative analysis with solar eMergy joules. Results showed that the methane yield of briquettes of corn stover was 66.74% higher than that of rubs, and the briquettes had better digestion performance in terms of CH 4 content, VFA, and alcohol. The two models required almost the same eMergy investment input, while model II obtained a greater quantity of net eMergy (16.5% higher) in comparison with model I. The net eMergy yield ratio (EYR) (biogas only) of model I and model II was 0.99 and 1.67, respectively, showing less market competitiveness for commercial operations with model I. Meanwhile, the logistic costs of model II could be reduced to approximately US $34,514 annually.
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ISSN:2190-572X
2190-5738
DOI:10.1007/s13205-017-0914-3