A comprehensive review on pre-treatment strategy for lignocellulosic food industry waste: Challenges and opportunities
[Display omitted] •Factors influencing the effective valorization of lignocellulose.•Classification of pretreatments with detailed description of various strategies.•Physical, Chemical, Biological and Physico-chemical pretreatment of lignocellulose.•Formation of inhibitory compounds post pre-treatme...
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| Published in | Bioresource technology Vol. 199; pp. 92 - 102 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
England
Elsevier Ltd
01.01.2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0960-8524 1873-2976 |
| DOI | 10.1016/j.biortech.2015.07.106 |
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| Abstract | [Display omitted]
•Factors influencing the effective valorization of lignocellulose.•Classification of pretreatments with detailed description of various strategies.•Physical, Chemical, Biological and Physico-chemical pretreatment of lignocellulose.•Formation of inhibitory compounds post pre-treatment of lignocellulose.•Strategies for effective removal of inhibitory compounds.
Lignocellulose is a generic term used to describe plant biomass. It is the most abundant renewable carbon resource in the world and is mainly composed of lignin, cellulose and hemicelluloses. Most of the food and food processing industry waste are lignocellulosic in nature with a global estimate of up to 1.3billion tons/year. Lignocellulose, on hydrolysis, releases reducing sugars which is used for the production of bioethanol, biogas, organic acids, enzymes and biosorbents. However, structural conformation, high lignin content and crystalline cellulose hinder its use for value addition. Pre-treatment strategies facilitate the exposure of more cellulose and hemicelluloses for enzymatic hydrolysis. The present article confers about the structure of lignocellulose and how it influences enzymatic degradation emphasising the need for pre-treatments along with a comprehensive analysis and categorisation of the same. Finally, this article concludes with a detailed discussion on microbial/enzymatic inhibitors that arise post pre-treatment and strategies to eliminate them. |
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| AbstractList | [Display omitted]
•Factors influencing the effective valorization of lignocellulose.•Classification of pretreatments with detailed description of various strategies.•Physical, Chemical, Biological and Physico-chemical pretreatment of lignocellulose.•Formation of inhibitory compounds post pre-treatment of lignocellulose.•Strategies for effective removal of inhibitory compounds.
Lignocellulose is a generic term used to describe plant biomass. It is the most abundant renewable carbon resource in the world and is mainly composed of lignin, cellulose and hemicelluloses. Most of the food and food processing industry waste are lignocellulosic in nature with a global estimate of up to 1.3billion tons/year. Lignocellulose, on hydrolysis, releases reducing sugars which is used for the production of bioethanol, biogas, organic acids, enzymes and biosorbents. However, structural conformation, high lignin content and crystalline cellulose hinder its use for value addition. Pre-treatment strategies facilitate the exposure of more cellulose and hemicelluloses for enzymatic hydrolysis. The present article confers about the structure of lignocellulose and how it influences enzymatic degradation emphasising the need for pre-treatments along with a comprehensive analysis and categorisation of the same. Finally, this article concludes with a detailed discussion on microbial/enzymatic inhibitors that arise post pre-treatment and strategies to eliminate them. Lignocellulose is a generic term used to describe plant biomass. It is the most abundant renewable carbon resource in the world and is mainly composed of lignin, cellulose and hemicelluloses. Most of the food and food processing industry waste are lignocellulosic in nature with a global estimate of up to 1.3 billion tons/year. Lignocellulose, on hydrolysis, releases reducing sugars which is used for the production of bioethanol, biogas, organic acids, enzymes and biosorbents. However, structural conformation, high lignin content and crystalline cellulose hinder its use for value addition. Pre-treatment strategies facilitate the exposure of more cellulose and hemicelluloses for enzymatic hydrolysis. The present article confers about the structure of lignocellulose and how it influences enzymatic degradation emphasising the need for pre-treatments along with a comprehensive analysis and categorisation of the same. Finally, this article concludes with a detailed discussion on microbial/enzymatic inhibitors that arise post pre-treatment and strategies to eliminate them. Lignocellulose is a generic term used to describe plant biomass. It is the most abundant renewable carbon resource in the world and is mainly composed of lignin, cellulose and hemicelluloses. Most of the food and food processing industry waste are lignocellulosic in nature with a global estimate of up to 1.3billion tons/year. Lignocellulose, on hydrolysis, releases reducing sugars which is used for the production of bioethanol, biogas, organic acids, enzymes and biosorbents. However, structural conformation, high lignin content and crystalline cellulose hinder its use for value addition. Pre-treatment strategies facilitate the exposure of more cellulose and hemicelluloses for enzymatic hydrolysis. The present article confers about the structure of lignocellulose and how it influences enzymatic degradation emphasising the need for pre-treatments along with a comprehensive analysis and categorisation of the same. Finally, this article concludes with a detailed discussion on microbial/enzymatic inhibitors that arise post pre-treatment and strategies to eliminate them. |
| Author | Jaiswal, Amit Kumar Ravindran, Rajeev |
| Author_xml | – sequence: 1 givenname: Rajeev surname: Ravindran fullname: Ravindran, Rajeev – sequence: 2 givenname: Amit Kumar surname: Jaiswal fullname: Jaiswal, Amit Kumar email: amit.jaiswal@dit.ie, akjaiswal@outlook.com |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26277268$$D View this record in MEDLINE/PubMed |
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•Factors influencing the effective valorization of lignocellulose.•Classification of pretreatments with detailed description of various... Lignocellulose is a generic term used to describe plant biomass. It is the most abundant renewable carbon resource in the world and is mainly composed of... |
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| SubjectTerms | bioethanol biogas Biomass biosorbents carbon cellulose enzymatic hydrolysis Enzyme inhibitors Food Industry Food industry waste food processing wastes hemicellulose hydrolysis Industrial Waste - analysis lignin Lignin - chemistry lignin content Lignocellulose phytomass Pre-treatment Refuse Disposal - methods Renewable resources technology |
| Title | A comprehensive review on pre-treatment strategy for lignocellulosic food industry waste: Challenges and opportunities |
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