 | Renewable biological systems for alternative sustainable energy production. (FAO Agricultural Services Bulletin - 128) (1997) |
 |  | (introduction...) |
| | Acknowledgments |
| | Contributors |
| | Foreword |
| | Summary |
|  | Chapter 1 - Biological energy production |
| | 1.1 Energy and environmental issues |
| | 1.2 Photosynthesis and biomass |
| | 1.2.1 Photosynthetic efficiency |
| | 1.2.2 Biomass wastes and their conversion |
| | 1.2.3 Fuel production via microalgal CO2 fixation |
| | 1.3 General problems |
| | References |
| | Chapter 2 - Energy conversion by photosynthetic organisms |
| | (introduction...) |
| | 2.1 Photosynthetic capture of solar energy |
| | 2.1.1 Solar energy |
| | 2.1.2 Why is biotechnology now applied to energy technology? |
| | 2.2 Photosynthesis mechanisms |
| | (introduction...) |
| | 2.2.1 Plant photosynthesis |
| | 2.2.2 Bacterial photosynthesis |
| | 2.3 Hydrogen production through solar energy conversions |
| | (introduction...) |
| | 2.3.1 Cyanobacterial hydrogen production (plant-type photosynthesis) |
| | 2.3.2 Bacterial hydrogen production (bacterial-type photosynthesis) |
| | 2.3.3 Use of photosynthesized proteins in photoelectric conversion elements |
| | References |
| | Chapter 3 - Production of fuel alcohol from cellulosic biomass |
| | 3.1 Introduction |
| | 3.2 Cellulase production |
| | 3.2.1 Cellulase |
| | 3.2.2 Screening of cellulase-producing microorganisms |
| | 3.2.3 Strain improvement for cellulase production |
| | (introduction...) |
| | 3.2.3.1 Development of a process for high-titer cellulase production |
| | 3.2.3.2 Cellulase production at low cost |
| | 3.2.3.3 Potential for mass production of cellulase |
| | 3.3 Saccharification of cellulosic waste materials |
| | 3.3.1 Pre-treatment of cellulosic waste |
| | 3.3.2 Saccharification of cellulosic waste |
| | 3.3.2.1 Saccharification |
| | 3.3.2.2 Recovery and re-use of cellulase |
| | 3.3.2.3 Sugar concentration using reverse osmosis |
| | 3.4 Use of immobilized yeast cells in alcohol fermentation's |
| | (introduction...) |
| | 3.4.1 Preparation of immobilized yeast cells |
| | 3.4.2 Continuous plant operation using immobilized yeast cells |
| | 3.4.3 Fermentation processes used in ethanol production |
| | 3.4.4 Flash fermentation using immobilized yeast cells |
| | 3.5 Alcohol production using an integrated pilot plant |
| | (introduction...) |
| | 3.5.1 Outline |
| | 3.5.2 Pre-treatment of cellulosic biomass |
| | 3.5.3 Cellulase production |
| | 3.5.4 Saccharification of biomass |
| | 3.5.5 Enzyme recovery from biomass |
| | 3.5.6 Concentration of sugar solutions |
| | 3.5.7 Alcohol fermentation |
| | 3.5.8 Alcohol recovery |
| | 3.6 Feasibility study |
| | 3.7 Conclusion |
| | References |
| | Chapter 4 - Methane production |
| | (introduction...) |
| | 4.1 Microbial consortia and biological aspects of methane fermentation |
| | (introduction...) |
| | 4.1.1 Hydrolysis and acidogenesis |
| | 4.1.2 Acetogenesis and dehydrogenation |
| | 4.1.3 Methanogenesis |
| | 4.2 Molecular biology of methanogens |
| | (introduction...) |
| | 4.2.1 Genetic markers |
| | 4.2.2 Molecular cloning of methanogenic genes |
| | 4.2.3 Genetic transformations |
| | 4.3 Developments in bioreactor technology |
| | (introduction...) |
| | 4.3.1 Upflow anaerobic sludge blanket (UASB) |
| | 4.3.2 Upflow anaerobic filter process (UAFP) |
| | 4.3.3 Anaerobic fluidized-bed reactor (AFBR) |
| | 4.3.4 Two-phase methane fermentation processes |
| | References |
| | Chapter 5 - Hydrogen production |
| | 5.1 Introduction |
| | 5.2 Biophotolysis of water by microalgae and cyanobacteria |
| | (introduction...) |
| | 5.2.1 Hydrogenase-dependent hydrogen production |
| | 5.2.2 Nitrogenase-dependent hydrogen production |
| | 5.3 Hydrogen from organic compounds |
| | 5.3.1 Hydrogen production by photosynthetic bacteria |
| | 5.3.2 Combined photosynthetic and anaerobic and bacterial hydrogen production |
| | 5.4 Enhancement of hydrogen-producing capabilities through genetic engineering |
| | 5.5 Research and development on biological hydrogen production |
| | 5.6 Future prospects |
| | References |
| | Chapter 6 - Oil production |
| | 6.1 Oil substitutes from biomass |
| | 6.2 Microalgae as biological sources of lipids and hydrocarbons |
| | 6.3 Thermochemical liquefaction of microalgae |
| | 6.3.1 Liquid fuels from microalgal biomass |
| | 6.3.2 Cultivation of microalgae |
| | 6.3.3 Liquefaction of microalgae |
| | 6.4 Algal hydrogenation |
| | 6.5 Future prospects |
| | References |
| | Chapter 7 - The future of renewable biological energy systems |
| | 7.1 Introduction |
| | 7.2 Biomass production potential and efficiencies |
| | 7.3 Fuel alcohol production from biomass |
| | 7.4 Methane fermentations |
| | 7.5 Fuels derived from microalgae |
| | 7.6 Conclusions |
| | References |
| | FAO technical papers |
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