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| rdfs:label | "Biohydrogen Production : Fundamentals and Technology Advances" |
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| schema:name | "Fundamentals and Technology Advances" @ja |
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| schema:creator 3 | <https://jpsearch.go.jp/entity/ncname/Khanna,_Namita> (➜ "Khanna, Namita") |
| schema:creator | <https://jpsearch.go.jp/entity/ncname/Das,_Debabrata> (➜ "Das, Debabrata") |
| schema:creator | <https://jpsearch.go.jp/entity/ncname/Dasgupta,_Chitralekha_Nag> (➜ "Dasgupta, Chitralekha Nag") |
| schema:datePublished | "2014" |
| schema:description 4 | "資料種別: Hardback" |
| schema:description | "分類: BIC:TCB; BIC:PSB; BIC:THX" |
| schema:description | "責任表示: By (author) Das, Debabrata; By (author) Khanna, Namita; By (author) Dasgupta, Chitralekha Nag" |
| schema:description | "備考: Biohydrogen Production: Fundamentals and Technology Advances covers the fundamentals of biohydrogen production technology, including microbiology, biochemistry, feedstock requirements, and molecular biology of the biological hydrogen production processes. It also gives insight into scale-up problems and limitations. In addition, the book discusses mathematical modeling of the various processes involved in biohydrogen production and the software required to model the processes. The book summarizes research advances that have been made in this field and discusses bottlenecks of the various processes, which presently limit the commercialization of this technology. The authors also focus on the process economy, policy, and environmental impact of this technology, since the future of biohydrogen production depends not only on research advances, but also on economic considerations (the cost of fossil fuels), social espousal, and the development of H2 energy systems. The book describes the fundamentals of this technology interwoven with more advanced research findings. Further reading is suggested at the end of each chapter. Since the beauty of any innovation is its applicability, socioeconomic impact, and cost energy analysis, the book examines each of these points to give you a holistic picture of this technology. Illustrative diagrams, flow charts, and comprehensive tables detailing the scientific advancements provide an opportunity to understand the process comprehensively and meticulously. Written in a lucid style, the book supplies a complete knowledge bank about biohydrogen production processes. (Nielsen Book)...(more)" |
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| schema:inLanguage | <http://id.loc.gov/vocabulary/iso639-2/eng> (➜ "英語") |
| schema:isbn | "9781466517998" |
| schema:numberOfPages | "408p" |
| schema:publisher | <https://ld.webcatplus.jp/entity/P1507795> |
| schema:size | "H235 x W156" |
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| schema:tocEntry | "Introduction Introduction Nonconventional Energy Resources Conventional Hydrogen Technologies and Limitations Biological Hydrogen Production Technology Properties of Hydrogen Book Overview References Microbiology Introduction Dark Fermentative Bacteria Photosynthetic Fermentative Bacteria Cyanobacteria Green Algae Concept of Consortia Development Synthetic Microorganisms-Are They the Future? Glossary References Hydrogen Production Processes Introduction Photobiological Hydrogen Production Photofermentation Dark Fermentation Hybrid Processes Microbial Electrolysis Cell Thermodynamic Limitations Glossary References Biohydrogen Feedstock Introduction Simple Sugars as Feedstock Complex Substrates as Feedstock Biomass Feedstock Organic Acids Waste as Feedstock Assessment of Cost Components for Several Feedstocksfor Dark Hydrogen Fermentation Conclusion Glossary References Molecular Biology of Hydrogenases and Their Accessory Genes Introduction Occurrence of Hydrogenase in Nature Classification of Hydrogenases Problems Associated with Oxygen Sensitivity ofHydrogenases and Plausible Solutions Evolutionary Significance of Hydrogenase Conclusion Glossary References Improvement of Hydrogen Production through MolecularApproaches and Metabolic Engineering Introduction Molecular Approaches Metabolic Engineering Conclusion Glossary References Process and Culture Parameters Introduction Factors Affecting Dark Fermentation Process Environmental Factors Affecting Hydrogen Productionin Photosynthetic Organisms Statistical Optimization of Factors Effecting BiohydrogenProduction Comparison of Suspended Cell versus Immobilized Systems Comparison of Batch Process versus Continuous Process Conclusion Glossary References Photobioreactors Introduction Types of PBRs Physicochemical Parameters Design Criterion Comparison of the Performance of the PBRs Energy Analysis Conclusion Glossary References Mathematical Modeling and Simulation of the BiohydrogenProduction Processes Introduction Development of Mathematical Models to CorrelateSubstrate and Biomass Concentration with Time Substrate Inhibition Model Determination of Cell Growth Kinetic Parameters:KS, mumax, Ki Cumulative Hydrogen Production by Modified Gompertz'sEquation Development of Mathematical Models for Cell GrowthKinetics in Photofermentation Process Modeling of Hydrogen Production by Photofermentation Conclusion Nomenclature References Scale-Up and Energy Analysis of Biohydrogen ProductionProcesses Introduction Determination of Scale-Up Parameters Scale-Up Methods Case Studies on Pilot-Scale Plants Mass and Energy Analysis Cost Analysis of the Process Conclusion Nomenclature Glossary References Biohydrogen Production Process Economics, Policy,and Environmental Impact Introduction Process Economy Environmental Impact Hydrogen Policy Issues and Barriers Status of Hydrogen in the Developed and theDeveloping Countries Future Outlook Glossary References Index...(more)" |