Biological barriers to cellulosic ethanol /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Burkheisser, Ernest V.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2010.
Colección:Renewable energy.
Temas:
Cellulose > Biotechnology.
Biomass energy.
Cellulose > Biotechnologie.
Bioénergie.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Biomass energy
Cellulose > Biotechnology
Acceso en línea:Texto completo
Tabla de Contenidos:
  • BIOLOGICAL BARRIERSTO CELLULOSIC ETHANOL
  • BIOLOGICAL BARRIERS TO CELLULOSIC ETHANOL
  • TABLE OF CONTENTS
  • PREFACE
  • INTRODUCTION
  • JOINT WORKSHOP CHALLENGES BIOFUEL SCIENCE ANDTECHNOLOGY COMMUNITIES
  • AMERICAâ€?S ENERGY CHALLENGES
  • The Promise of Biofuels
  • A GROWING MANDATE FOR BIOFUELS: POLICY, LEGISLATIVE, AND OTHER DRIVERS
  • BENEFITS OF BIOFUELS
  • National Energy Security Benefits
  • Economic Benefits
  • Environmental Benefits
  • Climate Change
  • Other Environmental Benefits
  • FEASIBILITY OF BIOFUELS
  • Land Availability
  • A BILLION-TON ANNUAL SUPPLY OF BIOMASS: SUMMARY OFPOTENTIAL FOREST AND AGRICULTURAL RESOURCESAgricultural Sustainability of Biomass Production
  • Today â€? Fuel Ethanol Production from Corn Grain (Starch Ethanol)
  • Tomorrow â€? Biorefinery Concept to Produce Fuel Ethanol from CellulosicBiomass
  • Ethical, Legal, and Social Issues (ELSI)
  • EERE OBP PLATFORM FOR INTEGRATED BIOREFINERIES
  • ETHICAL, LEGAL, AND SOCIAL ISSUES FOR WIDESPREADDEVELOPMENT OF CELLULOSIC BIOFUELS
  • DOE OFFICE OF SCIENCE PROGRAMS
  • BIOMASS TO BIOFUELS WORKSHOP: CREATING A COMMONRESEARCH AGENDA TO OVERCOME TECHNOLOGY BARRIERSCITED REFERENCES
  • BACKGROUND READING
  • TECHNICAL STRATEGY: DEVELOPMENTOF A VIABLE CELLULOSIC BIOMASSTO BIOFUEL INDUSTRY
  • RESEARCH PHASE (WITHIN 5 YEARS)
  • Feedstock Use and Optimization
  • Deconstruction
  • Fermentation and Recovery
  • TECHNOLOGY DEPLOYMENT PHASE (WITHIN 10 YEARS)
  • Feedstocks
  • Deconstruction
  • Fermentation and Recovery
  • SYSTEMS INTEGRATION PHASE (WITHIN 15 YEARS)
  • Integration and Consolidation
  • SYSTEMS BIOLOGY TO OVERCOME BARRIERS TOCELLULOSIC ETHANOLLIGNOCELLULOSIC BIOMASS CHARACTERISTICS
  • Makeup, Structure, and Processability
  • IMAGE ANALYSIS OF BIOENERGY PLANT CELL SURFACES AT THEOBP BIOMASS SURFACE CHARACTERIZATION LAB (BSCL)
  • STRUCTURE AND ASSEMBLY OF CELL WALLS
  • OPTIMIZING LIGNIN COMPOSITION FOR MORE EFFICIENTBIOETHANOL PRODUCTION
  • FACTORS IN RECALCITRANCE OF LIGNOCELLULOSEPROCESSING TO SUGARS
  • Plant Architecture
  • Cell-Wall Architecture
  • Molecular Structure
  • OPTIMIZING HEMICELLULOSE ACETYLATION IN CELL WALLS
  • Hemicellulose Acetylation Degradation Products Are Toxic to MicrobesOPTIMIZATION OF PLANT CELL WALLS
  • Understanding Cell-Wall Structure and Function
  • Control of Lignin Synthesis and Structure
  • IMPROVED METHODS, TOOLS, AND TECHNOLOGIES
  • Technical Milestones
  • Within 5 years
  • Within 10 years
  • Within 15 years
  • CITED REFERENCES
  • FEEDSTOCKS FOR BIOFUELS
  • THE ARGUMENT FOR PERENNIAL BIOMASS CROPS
  • CREATION OF A NEW GENERATION OF LIGNOCELLULOSICENERGY CROPS
  • Maximizing Biomass Productivity
  • Domestication of Energy Crops

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