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Bioenergy systems, biological sources and environmental impact /
| Clasificación: | Libro Electrónico |
|---|---|
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Science Publishers, Inc.,
[2013]
|
| Colección: | Energy science, engineering and technology
Environmental science, engineering and technology |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- BIOENERGY SYSTEMS, BIOLOGICAL SOURCES AND ENVIRONMENTAL IMPACT; BIOENERGY SYSTEMS, BIOLOGICAL SOURCES AND ENVIRONMENTAL IMPACT; CONTENTS ; PREFACE ; ASSESSING THE SUSTAINABILITY OF BIOENERGY SYSTEMS ; ABSTRACT ; 1. INTRODUCTION ; 2. THE SUSTAINABILITY AS ANALYTICAL FRAMEWORK; 2.1. Concept, Origin and Importance ; 2.2. The Energy Sustainability: An Integrating Perspective ; 2.3. The Context of Bioenergy in Argentina: Main Controversies ; 3. SUSTAINABILITY OF THE POTENTIAL BIOENERGY SYSTEMS FOR THE LERMA VALLEY, SALTA, ARGENTINA ; 3.1. Available Biomass and Energy Supply.
- 3.2. The Local Context for the Implementation of Bioenergy Systems 3.3. Analysis of Bioenergy Systems and Main Impacts on the Level of Local Sustainability ; i) The Sustainability Evaluation Criteria; ii) Bioenergy Systems and Sustainability Level ; CONCLUSION ; REFERENCES ; SOIL LOSS
- A FORGOTTEN ASPECTOF BIOFUEL PRODUCTION ; ABSTRACT ; 1. INTRODUCTION ; 2. IMPACT OF BIOFUEL PRODUCTION ON THE ENVIRONMENTAL QUALITY OF SOIL ; 2.1. Soil Erosion ; 2.1.1. Choice of Plants ; 2.1.2. Agricultural Management ; 2.2. Soil Organic Carbon ; 2.2.1. Choice of Plants ; 2.2.2. Agricultural Management.
- 2.3. Soil Structure2.3.1. Choice of Plants ; 2.3.2. Agricultural Management ; 2.4. Soil Biology; 2.4.1. Choice of Plants and Agricultural Management ; 2.4.2. Agricultural Management ; 3. ECOLOGICAL ASPECTS ; 4. ALTERNATIVE LANDS FOR BIOFUEL PRODUCTION ; 4.1. Degraded Soils as a Resource ; 4.2. Use of Contaminated Soils for Biofuel Production ; CONCLUSION ; REFERENCES ; EFFECTIVE BIOCATALYSTS FOR LIGNOCELLULOSIC BIOFUEL BY PROTEOMICS STUDY OF FUNGAL SECRETOME ; ABSTRACT ; INTRODUCTION ; PROTEOMIC TECHNIQUES AND FUNGAL PROTEIN QUANTIFICATION.
- LIGNOCELLULOSE BIOMASS AND CARBOHYDRATE HYDROLYZING ENZYMES LIGNIN DEGRADING ENZYMES BY P. CHRYSOSPORIUM ; SUMMARY AND PROSPECTIVE ; REFERENCES ; BIOMASS AVAILABILITY AND USES IN BRAZIL ; ABSTRACT ; LIST OF STATE NOMENCLATURE; 1. INTRODUCTION ; 2. MAIN BIOMASSES PRODUCED IN BRAZIL ; Sugarcane ; Oleaginous Plants ; 3. PRODUCTION STATISTICS ; 4. CURRENT AND POTENTIAL USES OF BIOMASS AND ITS CO-PRODUCTS ; CONCLUSION ; REFERENCES ; HOW FARMING AND FORESTRY CONVERGE:ENHANCING THE INTERFACE BETWEEN AGRICULTURAL PRODUCTION, AND TREE BIOMASS/BIOENERGY SYSTEMS.
- TO IMPROVE FARM-SCALE PRODUCTIVITY IN WESTERN AUSTRALIA ABSTRACT ; INTRODUCTION ; TREES, WIND SPEED, MICROCLIMATES, AND VEGETATIVE COMPETITION ; WINDBREAKS, CROPS, ENERGY, AND WATER USE EFFICIENCY ; WINDBREAK TREES, HORTICULTURAL FARM YIELDS, AND FROSTS ; TREES, LIVESTOCK, FODDER TREES AND PERENNIAL PASTURES ; TREES AND BROADACRE YIELDS ; CONCLUSION ; ACKNOWLEDGMENT ; REFERENCES ; HYDROGEN AND ETHANOL COMPARISON AS FUELS FOR INTERNAL COMBUSTION ENGINES; Abstract; 1. Introduction; 2. Bioethanol; 2.1. PropertiesandProduction; 2.2. BioethanolasaFuel; 3. Biohydrogen; 3.1. PropertiesandProduction.