Different effects of ozone and aqueous ammonia in a combined pretreatment method on rice straw and dairy manure fiber for enhancing biomethane production

Different effects of ozone and aqueous ammonia in a combined pretreatment method on rice straw and dairy manure fiber for enhancing biomethane production

•Combined ozone and soaking in aqueous ammonia pretreatment processes were investigated.•SAA time had a major function for pretreatment of rice straw via the OSAA pretreatment.•Ozone time was more important than SAA for manure fiber via the OSAA process.•Pretreatment parameters optimizing depends on...

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Bibliographic Details
Published in:Bioresource technology Vol. 282; pp. 275 - 284
Main Authors: Ai, Ping, Zhang, Xiuzhi, Dinamarca, Carlos, Elsayed, Mahdy, Yu, Liang, Xi, Jiang, Mei, Zili
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-06-2019
Subjects:
Ammonia - pharmacology
Anaerobic digestion
Biofuels
Dietary Fiber - metabolism
Lignin - metabolism
Lignocellulose
Manure
Methane - biosynthesis
Oryza - metabolism
Ozone
Ozone - pharmacology
Pretreatment
Soaking in aqueous ammonia
Ozone
Soaking in aqueous ammonia
Pretreatment
Lignocellulose
Anaerobic digestion
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Summary:•Combined ozone and soaking in aqueous ammonia pretreatment processes were investigated.•SAA time had a major function for pretreatment of rice straw via the OSAA pretreatment.•Ozone time was more important than SAA for manure fiber via the OSAA process.•Pretreatment parameters optimizing depends on the difference of substrates character. Low digestibility of lignocellulosic feedstock is the most important limitation for biogas production. The synergistic effects of ozone and aqueous ammonia (OSAA) on different types of lignocelluloses including rice straw and dairy manure fiber were investigated. OSAA significantly increased biogas production of rice straw by 114.2%–172.8% when compared with using ozonation alone, while increased by 6.2%–8.8% with manure fiber. OSAA pretreatment increased biogas production of manure fiber by 55.3%–103.6% when compared with soaking aqueous ammonia (SAA) alone, while by 28.8%–39.9% with rice straw. The specific effects of pretreatment time on anaerobic digestion of manure fiber differed noticeably from those on rice straw. Ozonation time had a major function for pretreatment of manure fiber via the OSAA process, but SAA pretreatment time was more important than that for rice straw.
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ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2019.03.021