Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol

Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol

To save cost and input energy for bioethanol production, a consolidated continuous solid-state fermentation system composed of a rotating drum reactor, a humidifier, and a condenser was developed. Biomass, saccharifying enzymes, yeast, and a minimum amount of water are introduced into the system. Et...

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Main Authors: Moukamnerd,C., Kino-Oka,M.O., Sugiyama,M., Kaneko.,Y., Boonchird,C., Harashima,S., Noda,H., Ninomiya,K., Shioya,S., Katakura,Y.
Format: Article
Published: Springer Verlag 2015
Subjects:
Applied Microbiology and Biotechnology
Biotechnology
Online Access:http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=77955852609&origin=inward
http://cmuir.cmu.ac.th/handle/6653943832/39193
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-391932015-06-16T08:17:46Z Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol Moukamnerd,C. Kino-Oka,M.O. Sugiyama,M. Kaneko.,Y. Boonchird,C. Harashima,S. Noda,H. Ninomiya,K. Shioya,S. Katakura,Y. Applied Microbiology and Biotechnology Biotechnology To save cost and input energy for bioethanol production, a consolidated continuous solid-state fermentation system composed of a rotating drum reactor, a humidifier, and a condenser was developed. Biomass, saccharifying enzymes, yeast, and a minimum amount of water are introduced into the system. Ethanol produced by simultaneous saccharification and fermentation is continuously recovered as vapor from the headspace of the reactor, while the humidifier compensates for the water loss. From raw corn starch as a biomass model, 95∈±∈3, 226∈±∈9, 458∈±∈26, and 509∈±∈64 g∈l-1 of ethanol solutions were recovered continuously when the ethanol content in reactor was controlled at 10-20, 30-50, 50-70 and 75-85 g∈kg-mixture-1, respectively. The residue showed a lesser volume and higher solid content than that obtained by conventional liquid fermentation. The cost and energy for intensive waste water treatment are decreased, and the continuous fermentation enabled the sustainability of enzyme activity and yeast in the system. © 2010 Springer-Verlag. 2015-06-16T08:17:46Z 2015-06-16T08:17:46Z 2010-09-01 Article 01757598 2-s2.0-77955852609 10.1007/s00253-010-2716-y 20577734 http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=77955852609&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/39193 Springer Verlag
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Applied Microbiology and Biotechnology
Biotechnology
spellingShingle Applied Microbiology and Biotechnology
Biotechnology
Moukamnerd,C.
Kino-Oka,M.O.
Sugiyama,M.
Kaneko.,Y.
Boonchird,C.
Harashima,S.
Noda,H.
Ninomiya,K.
Shioya,S.
Katakura,Y.
Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
description To save cost and input energy for bioethanol production, a consolidated continuous solid-state fermentation system composed of a rotating drum reactor, a humidifier, and a condenser was developed. Biomass, saccharifying enzymes, yeast, and a minimum amount of water are introduced into the system. Ethanol produced by simultaneous saccharification and fermentation is continuously recovered as vapor from the headspace of the reactor, while the humidifier compensates for the water loss. From raw corn starch as a biomass model, 95∈±∈3, 226∈±∈9, 458∈±∈26, and 509∈±∈64 g∈l-1 of ethanol solutions were recovered continuously when the ethanol content in reactor was controlled at 10-20, 30-50, 50-70 and 75-85 g∈kg-mixture-1, respectively. The residue showed a lesser volume and higher solid content than that obtained by conventional liquid fermentation. The cost and energy for intensive waste water treatment are decreased, and the continuous fermentation enabled the sustainability of enzyme activity and yeast in the system. © 2010 Springer-Verlag.
format Article
author Moukamnerd,C.
Kino-Oka,M.O.
Sugiyama,M.
Kaneko.,Y.
Boonchird,C.
Harashima,S.
Noda,H.
Ninomiya,K.
Shioya,S.
Katakura,Y.
author_facet Moukamnerd,C.
Kino-Oka,M.O.
Sugiyama,M.
Kaneko.,Y.
Boonchird,C.
Harashima,S.
Noda,H.
Ninomiya,K.
Shioya,S.
Katakura,Y.
author_sort Moukamnerd,C.
title Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
title_short Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
title_full Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
title_fullStr Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
title_full_unstemmed Ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
title_sort ethanol production from biomass by repetitive solid-state fed-batch fermentation with continuous recovery of ethanol
publisher Springer Verlag
publishDate 2015
url http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=77955852609&origin=inward
http://cmuir.cmu.ac.th/handle/6653943832/39193
_version_ 1681421610217635840

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