In order to successfully compete as a sustainable energy source, the value of biomass must be maximized through the production of valuable co-products in the biorefinery. Specialty chemicals and other biobased products can be extracted from biomass prior to or after the conversion process, thus increasing the overall profitability and sustainability of the biorefinery.
Biorefinery Co-Products highlights various co-products that are present in biomass prior to and after processing, describes strategies for their extraction , and presents examples of bioenergy feedstocks that contain high value products.
Topics covered include:
Bioactive compounds from woody biomass
Phytochemicals from sugar cane, citrus waste and algae
Valuable products from corn and other oil seed crops
Proteins from forages
Enhancing the value of existing biomass processing streams
Aimed at academic researchers, professionals and specialists in the bioenergy industry, Biorefinery Co-Products is an essential text for all scientists and engineers working on the efficient separation, purification and manufacture of value-added biorefinery co-products.
For more information on the Wiley Series in Renewable resources, visit www.wiley.com/go/rrs
Editorial Reviews
From the Inside Flap
In order to successfully compete as a sustainable energy source, the value of biomass must be maximized through the production of valuable co-products in the biorefinery. Specialty chemicals and other biobased products can be extracted from biomass prior to or after the conversion process, thus increasing the overall profitability and sustainability of the biorefinery.
Biorefinery Co-Products highlights various co-products that are present in biomass prior or after processing, describes strategies for their extraction , and presents examples of bioenergy feedstocks that contain high value products.
Topics covered include:
Extraction of bioactive compounds from biomass
Phytochemicals from corn and algae
Co-products from cereal and oilseed biorefinery systems
Valuable compounds from citrus waste
Char from sugarcane bagasse
Aimed at academic researchers, professionals and specialists in the bioenergy industry, Biorefinery Co-Products is an essential text for all scientists and engineers working on the efficient separation, purification and manufacture of value-added biorefinery co-products.
For more information on the Wiley Series in Renewable resources, visit www.wiley.com/go/rrs
From the Back Cover
In order to successfully compete as a sustainable energy source, the value of biomass must be maximized through the production of valuable co-products in the biorefinery. Specialty chemicals and other biobased products can be extracted from biomass prior to or after the conversion process, thus increasing the overall profitability and sustainability of the biorefinery.
Biorefinery Co-Products highlights various co-products that are present in biomass prior or after processing, describes strategies for their extraction , and presents examples of bioenergy feedstocks that contain high value products.
Topics covered include:
Extraction of bioactive compounds from biomass
Phytochemicals from corn and algae
Co-products from cereal and oilseed biorefinery systems
Valuable compounds from citrus waste
Char from sugarcane bagasse
Aimed at academic researchers, professionals and specialists in the bioenergy industry, Biorefinery Co-Products is an essential text for all scientists and engineers working on the efficient separation, purification and manufacture of value-added biorefinery co-products.
For more information on the Wiley Series in Renewable resources, visit www.wiley.com/go/rrs
About the Author
Dr D. Julie Carrier is a Professor in Biological and Agricultural Engineering at the University of Arkansas. Her current research is aimed at extracting valuable chemical components from biomass. She has been working in this field for 10 years, accumulating over 50 peer-reviewed papers. In addition to her research, she teaches courses on properties of biological materials and biotechnology/bioprocessing. She has authored over 50 peer reviewed journal articles and 2 book chapters.
Danielle Julie Carrier, Department of Biological and Agricultural Engineering, University of Arkansas, Fayetteville, Arkansas, USA.
Shri Ramaswamy, Department of Bioproducts and Biosystems Engineering, Kaufert Lab, University of Minnesota, Saint Paul, Minnesota, USA.
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