Direct microbial conversion of biomass to advanced biofuels /

'Direct Microbial Conversion of Biomass to Advanced Biofuels' is a stylized text that is rich in both the basic and applied sciences. It provides a higher level summary of the most important aspects of the topic, addressing critical problems solved by deep science. Expert users will find n...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Himmel, Michael E. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, [2015]
Temas:
Biomass conversion.
Biomass energy.
Microbial biotechnology.
Biomasse > Conversion.
Bio�energie.
Biotechnologie microbienne.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Biomass conversion
Biomass energy
Microbial biotechnology
Microbiology (non-medical)
Biotechnology.
Alternative & renewable energy sources & technology.
Industrial chemistry & chemical engineering.
Materials science.
Science.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Direct Microbial Conversion of Biomass to Advanced Biofuels; Copyright; Contents; Contributors; Foreword; Part 1
  • Direct Microbial Conversion of Biomass to Advanced Biofuels; Chapter 1
  • Feedstock Engineering and Biomass Pretreatments: New Views for a Greener Biofuels Process; Feedstock Engineering Aiming to Provide More Pretreatable and Digestable Biomass; In Planta Engineering for Reduced Recalcitrance Traits; Mild and Green Pretreatments of Biomass for Lower Toxicity in Lignocellulosic Hydrolysates and Solid Residues.
  • A New Concept of Tailored Chemoprocessing for Individual MicroorganismsBuilding Unified Chemobiomass Databases and Libraries of Chemicals; Conclusions; References; Chapter 2
  • Hydrocarbon Biosynthesis in Microorganisms; Introduction; Microbiology and Hydrocarbon Products; Enzymes and Mechanisms of Hydrocarbon Biosynthesis; Aldehyde Deformylating Oxygenase (Formerly Decarbonylase); Alpha Olefins via Cytochrome P450; Alpha Olefins via a Polyketide-Type Pathway; Conclusions; References; Chapter 3
  • Perspectives on Process Analysis for Advanced Biofuel Production; Introduction; Aerobic Bioprocess.
  • Aerobic Bioprocess DiscussionAnaerobic Bioprocess; Consolidated Bioprocessing; Data Gaps, Uncertainties, and Research Needs; Conclusion; References; Part 2
  • Biomass Structure and Recalcitrance; Chapter 4
  • Tailoring Plant Cell Wall Composition and Architecture for Conversion to Liquid Hydrocarbon Biofuels; Biomass Feedstocks are Already an Abundant Resource; Chemical Structure and Physical Properties of Lignocellulosic Biomass; Biochemical, Chemical and Pyrolytic Conversion Pathways Provide Alternative Routes to Fuels; Tailoring Biomass for Downstream Conversion Processes.
  • Adding Value to Plant Biomass Through Modification of LigninRedesigning Cellulose Microfibrils for Ease of Disassembly; Modification of Accessory Proteins for Altering Cellulose Microfibril Structure; Modifying Xylan Composition and Architecture in the Interstitial Space; Modulating Gene Expression Networks to Alter Lignin and Carbohydrate Composition and Architecture; Conclusions; References; Chapter 5
  • Processive Cellulases; References; Chapter 6
  • Bacterial AA10 Lytic Polysaccharide Monooxygenases Enhance the Hydrolytic Degradation of Recalcitrant Substrates.
  • Substrate Recalcitrance and Cellulase MixturesLytic Polysaccharide Monooxygenases; Conclusion; References; Chapter 7
  • New Insights into Microbial Strategies for Biomass Conversion; Introduction; Distinct Enzyme Synergy Paradigms in Cellulolytic Microorganisms; New Cellulose Digestion Strategies Promoting Interspecies Synergism; Future Perspective; References; Chapter 8
  • New Paradigms for Engineering Plant Cell Wall Degrading Enzymes; Introduction; Engineering of Single Enzymes; Cellulosome Engineering; Multifunctional Enzyme Design; Cell Wall-Anchored Paradigms; Reflections and Perspectives.

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