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010   $a9786613620538
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100   $a20111208d2012      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aBiorefinery co-products$b[electronic resource] /$fedited by Danielle Julie Carrier, Shri Ramaswamy, Chantal Bergeron
210   $aChichester, West Sussex ;$aHoboken $cJohn Wiley & Sons$d2012
215   $a1 online resource (383 p.)
225 1 $aWiley Series in Renewable Resource ;$vv.18
300   $aDescription based upon print version of record.
311   $a0-470-97357-9 
320   $aIncludes bibliographical references and index.
327   $aBiorefinery Co-products: Phytochemicals, Primary Metabolites and Value-Added Biomass Processing; Contents; Series Preface; Preface; List of Contributors; 1 An Overview of Biorefinery Technology; 1.1 Introduction; 1.2 Feedstock; 1.3 Thermochemical Conversion of Biomass; 1.3.1 Fast Pyrolysis and Hydrothermal Liquefaction; 1.3.2 Gasification; 1.4 Biochemical Conversion; 1.4.1 Pretreatment; 1.4.2 Enzymatic Hydrolysis; 1.4.3 Fermentation; 1.4.4 Pre-Pretreatment; 1.5 Conclusion; Acknowledgements; References; 2 Overview of the Chemistry of Primary and Secondary Plant Metabolites; 2.1 Introduction
327   $a2.2 Primary Metabolites2.2.1 Saccharides (Sugars); 2.2.2 Lignin; 2.2.3 Amino Acids, Peptides, and Proteins; 2.2.4 Fatty Acids, Lipids; 2.2.5 Organic Acids; 2.3 Secondary Metabolites; 2.3.1 Simple Phenols and Phenolic Acids; 2.3.2 Polyphenols; 2.3.3 Terpenes; 2.3.4 Alkaloids; 2.4 Stability of Isolated Compounds; 2.5 Conclusion; References; 3 Separation and Purification of Phytochemicals as Co-Products in Biorefineries; 3.1 Introduction; 3.2 Conventional Separation Approaches; 3.2.1 Steam Distillation; 3.2.2 Conventional Solid-Liquid Extraction; 3.2.3 Ultrasound-Assisted Extraction
327   $a3.2.4 Microwave-Assisted Extraction3.2.5 Pressurized Subcritical Liquid Extraction; 3.3 Supercritical Fluid Extraction; 3.4 Separation and Purification of Phytochemicals from Plant Extracts and Dilute Solution in Biorefineries; 3.4.1 Liquid-Liquid Extraction; 3.4.2 Membrane Separation; 3.4.3 Molecular Distillation; 3.5 Summary; References; 4 Phytochemicals from Corn: a Processing Perspective; 4.1 Introduction: Corn Processes; 4.1.1 Dry Milling; 4.1.2 Wet Milling; 4.1.3 Alternative Wet Milling Processes; 4.1.4 Dry Grind; 4.1.5 Alternative Dry Grind Processes; 4.1.6 Nixtamalization
327   $a4.2 Phytochemicals Found in Corn4.2.1 Introduction; 4.2.2 Phytosterols; 4.2.3 Carotenoids; 4.2.4 Polyamine Conjugates; 4.3 Corn Processing Effects on Phytochemical Recovery; 4.3.1 Research with Corn Fiber Obtained from Wet Milling and Dry-Grind-Based Processes; 4.3.2 Research on Phytochemicals and the Nixtamalization Process; 4.4 Conclusions; References; 5 Co-Products from Cereal and Oilseed Biorefinery Systems; 5.1 Introduction; 5.2 Cereals; 5.2.1 Wheat; 5.2.2 Barley; 5.2.3 Sorghum; 5.3 Oilseed Biorefineries; 5.3.1 Oil- and Oilseed-Based Products; 5.3.2 Industrial Products; 5.4 Conclusions
327   $aReferences6 Bioactive Soy Co-Products; 6.1 Introduction; 6.1.1 Industrial Agricultural Biomass; 6.1.2 Processing of Co- and Byproducts; 6.1.3 Value Addition and Sustainability; 6.2 Co-Products Obtained from Industrial Biorefineries; 6.2.1 Cereal- and Legume-Based Industrial Co-Products; 6.2.2 Legume Co-Products - Soy; 6.3 Technologies Used to Extract Co-Products; 6.3.1 Extractive Distillation; 6.3.2 Adsorption; 6.3.3 Membrane Separation; 6.3.4 Supercritical and Subcritical Fluid Extractions; 6.4 Bioactivities and Nutritional Value in Biorefinery Co-Products; 6.4.1 Anti-Disease Properties
327   $a6.4.2 Food Products
330   $aIn order to successfully compete as a sustainable energy source, the value of biomass must be maximized through the production of valuable co-products in the biorefinery.  Specialty chemicals and other biobased products can be extracted from biomass prior to or after the conversion process, thus increasing the overall profitability and sustainability of the biorefinery. Biorefinery Co-Products highlights various co-products that are present in biomass prior to and after processing, describes strategies for their extraction , and presents examples of bioenergy feedstocks that contain h
410  0$aWiley Series in Renewable Resource
606   $aPlant biomass
606   $aBiomass energy
606   $aRenewable energy sources
606   $aPhytochemicals
615  0$aPlant biomass.
615  0$aBiomass energy.
615  0$aRenewable energy sources.
615  0$aPhytochemicals.
676   $a333.95/39
701   $aCarrier$b Danielle Julie$f1959-$0860466
701   $aRamaswamy$b Shri$f1957-$0860467
701   $aBergeron$b Chantal$f1967-$0860468
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910141336003321
996   $aBiorefinery co-products$91919794
997   $aUNINA