A review of biological delignification and detoxification methods for lignocellulosic bioethanol production
Future biorefineries will integrate biomass conversion processes to produce fuels, power, heat and value-added chemicals. Due to its low price and wide distribution, lignocellulosic biomass is expected to play an important role toward this goal. Regarding renewable biofuel production, bioethanol from lignocellulosic feedstocks is considered the most feasible option for fossil fuels replacement since these raw materials do not compete with food or feed crops. In the overall process, lignin, the natural barrier of the lignocellulosic biomass, represents an important limiting factor in biomass digestibility. In order to reduce the recalcitrant structure of lignocellulose, biological pretreatments have been promoted as sustainable and environmentally friendly alternatives to traditional physico-chemical technologies, which are expensive and pollute the environment. These approaches include the use of diverse white-rot fungi and/or ligninolytic enzymes, which disrupt lignin polymers and facilitate the bioconversion of the sugar fraction into ethanol. As there is still no suitable biological pretreatment technology ready to scale up in an industrial context, white-rot fungi and/or ligninolytic enzymes have also been proposed to overcome, in a separated or in situ biodetoxification step, the effect of the inhibitors produced by non-biological pretreatments. The present work reviews the latest studies regarding the application of different microorganisms or enzymes as useful and environmentally friendly delignification and detoxification technologies for lignocellulosic biofuel production. This review also points out the main challenges and possible ways to make these technologies a reality for the bioethanol industry. © 2015 Informa Healthcare USA, Inc.
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Format: | artículo de revisión biblioteca |
Language: | English |
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Taylor & Francis
2015
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Subjects: | Bioethanol, Biodelignification, Biodetoxification, Biorefinery, Ligninolytic enzymes, Lignocellulose, White-rot fungi, |
Online Access: | http://hdl.handle.net/20.500.12792/2998 http://hdl.handle.net/10261/290180 |
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dig-inia-es-10261-2901802023-02-17T08:28:14Z A review of biological delignification and detoxification methods for lignocellulosic bioethanol production Moreno, A. D. Ibarra Trejo, David Alvira, P. Tomás-Pejó, E. Ballesteros, M. Bioethanol Biodelignification Biodetoxification Biorefinery Ligninolytic enzymes Lignocellulose White-rot fungi Future biorefineries will integrate biomass conversion processes to produce fuels, power, heat and value-added chemicals. Due to its low price and wide distribution, lignocellulosic biomass is expected to play an important role toward this goal. Regarding renewable biofuel production, bioethanol from lignocellulosic feedstocks is considered the most feasible option for fossil fuels replacement since these raw materials do not compete with food or feed crops. In the overall process, lignin, the natural barrier of the lignocellulosic biomass, represents an important limiting factor in biomass digestibility. In order to reduce the recalcitrant structure of lignocellulose, biological pretreatments have been promoted as sustainable and environmentally friendly alternatives to traditional physico-chemical technologies, which are expensive and pollute the environment. These approaches include the use of diverse white-rot fungi and/or ligninolytic enzymes, which disrupt lignin polymers and facilitate the bioconversion of the sugar fraction into ethanol. As there is still no suitable biological pretreatment technology ready to scale up in an industrial context, white-rot fungi and/or ligninolytic enzymes have also been proposed to overcome, in a separated or in situ biodetoxification step, the effect of the inhibitors produced by non-biological pretreatments. The present work reviews the latest studies regarding the application of different microorganisms or enzymes as useful and environmentally friendly delignification and detoxification technologies for lignocellulosic biofuel production. This review also points out the main challenges and possible ways to make these technologies a reality for the bioethanol industry. © 2015 Informa Healthcare USA, Inc. 2023-02-17T08:28:14Z 2023-02-17T08:28:14Z 2015 artículo de revisión Critical Reviews Biotechnology 35(3): 342-354 (2015) 0738-8551 http://hdl.handle.net/20.500.12792/2998 http://hdl.handle.net/10261/290180 10.3109/07388551.2013.878896 1549-7801 en none Taylor & Francis |
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Bioethanol Biodelignification Biodetoxification Biorefinery Ligninolytic enzymes Lignocellulose White-rot fungi Bioethanol Biodelignification Biodetoxification Biorefinery Ligninolytic enzymes Lignocellulose White-rot fungi |
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Bioethanol Biodelignification Biodetoxification Biorefinery Ligninolytic enzymes Lignocellulose White-rot fungi Bioethanol Biodelignification Biodetoxification Biorefinery Ligninolytic enzymes Lignocellulose White-rot fungi Moreno, A. D. Ibarra Trejo, David Alvira, P. Tomás-Pejó, E. Ballesteros, M. A review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
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Future biorefineries will integrate biomass conversion processes to produce fuels, power, heat and value-added chemicals. Due to its low price and wide distribution, lignocellulosic biomass is expected to play an important role toward this goal. Regarding renewable biofuel production, bioethanol from lignocellulosic feedstocks is considered the most feasible option for fossil fuels replacement since these raw materials do not compete with food or feed crops. In the overall process, lignin, the natural barrier of the lignocellulosic biomass, represents an important limiting factor in biomass digestibility. In order to reduce the recalcitrant structure of lignocellulose, biological pretreatments have been promoted as sustainable and environmentally friendly alternatives to traditional physico-chemical technologies, which are expensive and pollute the environment. These approaches include the use of diverse white-rot fungi and/or ligninolytic enzymes, which disrupt lignin polymers and facilitate the bioconversion of the sugar fraction into ethanol. As there is still no suitable biological pretreatment technology ready to scale up in an industrial context, white-rot fungi and/or ligninolytic enzymes have also been proposed to overcome, in a separated or in situ biodetoxification step, the effect of the inhibitors produced by non-biological pretreatments. The present work reviews the latest studies regarding the application of different microorganisms or enzymes as useful and environmentally friendly delignification and detoxification technologies for lignocellulosic biofuel production. This review also points out the main challenges and possible ways to make these technologies a reality for the bioethanol industry. © 2015 Informa Healthcare USA, Inc. |
format |
artículo de revisión |
topic_facet |
Bioethanol Biodelignification Biodetoxification Biorefinery Ligninolytic enzymes Lignocellulose White-rot fungi |
author |
Moreno, A. D. Ibarra Trejo, David Alvira, P. Tomás-Pejó, E. Ballesteros, M. |
author_facet |
Moreno, A. D. Ibarra Trejo, David Alvira, P. Tomás-Pejó, E. Ballesteros, M. |
author_sort |
Moreno, A. D. |
title |
A review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
title_short |
A review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
title_full |
A review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
title_fullStr |
A review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
title_full_unstemmed |
A review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
title_sort |
review of biological delignification and detoxification methods for lignocellulosic bioethanol production |
publisher |
Taylor & Francis |
publishDate |
2015 |
url |
http://hdl.handle.net/20.500.12792/2998 http://hdl.handle.net/10261/290180 |
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