Research Approaches to Sustainable Biomass Systems.

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Researchers, students and engineers working with biofuels and biomass are increasingly expected to comprehend a new holistic systems perspective that begins with wise crop breeding and cultivation techniques and informs the entire conversion to energy process. This volume provides diverse examples o...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Tojo, Seishu
Otros Autores: Hirasawa, Tadashi
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Burlington : Elsevier Science, 2013.
Temas:
Biomass energy.
Renewable energy sources.
Bioénergie.
Énergies renouvelables.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Research Approaches to Sustainable Biomass Systems; Copyright; Contents; Preface; Acknowledgments; List of Contributors; Chapter 1
  • Background of Bioenergy Utilization Development in Japan; 1.1 ENVIRONMENTAL CHANGE WITH HUMAN ACTIVITIES; 1.2 JAPANESE BIOMASS UTILIZATION POLICY; REFERENCES; Chapter 2
  • Biomass as Local Resource; 2.1 DEFINITION AND CATEGORY OF BIOMASS; 2.2 POTENTIAL AMOUNT OF BIOMASS AND USE OF BIOENERGY; 2.3 BIOMASS SYSTEMS; REFERENCES; Chapter 3
  • Ecosystems and Biomass Systems; 3.1 NATURAL ECOSYSTEMS AND SATOYAMA UTILIZATION.
  • 3.2 BIOMASS PRODUCTION IN CULTIVATED FIELDS AND CONSERVATION OF ECOSYSTEMS3.3 BIOMASS PRODUCTION AND BIODIVERSITY IN PADDY FIELD ECOSYSTEMS; REFERENCES; Chapter 4
  • Production Technology for Bioenergy Crops and Trees; 4.1 PHOTOSYNTHESIS AND BIOMASS PRODUCTION IN ENERGY CROPS; 4.2 AGRONOMY AND BREEDING TECHNOLOGY FOR BIOENERGY CROPS; 4.3 PLANT MOLECULAR BREEDING TO ENERGY CROPS AS GENETIC IMPROVEMENTS OF BIOMASS SACCHARIFICATION; 4.4 IMPROVEMENT OF WOODY BIOMASS; REFERENCES; Chapter 5
  • Soil Fertility and Soil Microorganisms; 5.1 SOIL FERTILITY; 5.2 SOIL MANAGEMENT AND SOIL ORGANIC MATTER.
  • 5.3 SOIL MICROORGANISMS5.4 MICROBIALLY MEDIATED SOIL FERTILITY; REFERENCES; Chapter 6
  • Machinery and Information Technology for Biomass Production; 6.1 MACHINERY FOR PRODUCTION OF ENERGY CROP; 6.2 INFORMATION SYSTEMS IN CROP PRODUCTION; 6.3 HARVESTING THE FOREST BIOMASS; 6.4 INFORMATION SYSTEM FOR FORESTRY PRODUCTION; REFERENCES; Chapter 7
  • Pretreatment and Saccharification of Lignocellulosic Biomass; 7.1 COMPOSITION AND STRUCTURE OF LIGNOCELLULOSIC BIOMASS; 7.2 PRETREATMENT OF LIGNOCELLULOSIC BIOMASS.
  • 7.3 PRETREATMENT AND SACCHARIFICATION OF LIGNOCELLULOSIC BIOMASS USING SOLID ACID CATALYSTSREFERENCES; Chapter 8
  • Energy-Saving Biomass Processing with Polar Ionic Liquids; 8.1 CELLULOSE DISSOLUTION AND IONIC LIQUIDS; 8.2 REQUIRED FACTORS OF IONIC LIQUIDS FOR CELLULOSE DISSOLUTION; 8.3 DESIGN OF A NEW CLASS OF POLAR IONIC LIQUIDS; 8.4 POLAR IONIC LIQUIDS FOR BIOMASS PROCESSING WITHOUT HEATING; 8.5 CONCLUSION AND FUTURE ASPECTS; REFERENCES; Chapter 9
  • Enzymes for Cellulosic Biomass Conversion; 9.1 GENERAL INFORMATION ON CELLULASES; 9.2 STRUCTURE AND FUNCTION OF CELLULASES.
  • 9.3 OTHER BIOMASS-DEGRADING ENZYMESREFERENCES; Chapter 10
  • Ethanol Production from Biomass; 10.1 ETHANOL FERMENTATION; 10.2 ETHANOL-PRODUCING MICROORGANISMS; 10.3 METHODS OF ETHANOL FERMENTATION; REFERENCES; Chapter 11
  • Co-Generation by Ethanol Fuel; 11.1 FUEL CELL: INNOVATIVE TECHNOLOGY FOR GENERATING POWER AND HEAT; 11.2 HYDROGEN PRODUCTION THROUGH ETHANOL STEAM REFORMING; REFERENCES; Chapter 12
  • Thermochemical Transformation of Biomass; 12.1 NEED FOR BIOMASS UTILIZATION TECHNOLOGY IN JAPAN; 12.2 SOLIDIFICATION OF BIOMASS FUEL; 12.3 COMBUSTION; 12.4 GASIFICATION WITH METHANOL SYNTHESIS.

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