Biohydrogen III: Renewable Energy System by Biological Solar Energy Conversion

Medientyp: E-Book

Titel: Biohydrogen III : Renewable Energy System by Biological Solar Energy Conversion

Enthält: Cover; Elsevier Internet Homepage; Related Journals; To Contact the Publisher; Preface; Contents; Hydrogen Production; New Frontiers of Hydrogen Energy Systems; Abstract; Introduction; Water-Splitting Systems by Renewable Energy; Sonalysis and the Bubble Fusion; Hydrogen Storage Systems; Hydrogen Utilization Systems; Summary; References; Novel Approaches to Exploit Microbial Hydrogen Metabolism; Abstract; Hydrogenases; Hydrogenase Structure; Assembly of NiFe Hydrogenases; Photosynthetic Bacteria; Why Thiocapsa Roseopersicina BBS?; Stable Hydrogenase (HydSL/HynSL); Unstable Hydrogenase (HupSL)
Soluble Hydrogenase (HoxYH)Sensor Hydrogenase (HupUV); Accessory Genes Participating in the Assembly of NiFe Hydrogenases in T. Roseopersicina; Inventory of the Identified Accessory Genes; hypC; hypD; hypE; hypF; hupK; hydD/hynD; Heterologous Complementation Studies; Construction of Deletion Mutants; Methanotrophic Hydrogenases; Hydrogen Production by Whole Cells; Multiple Hydrogenases; Membrane-Bound Hydrogenase; Soluble Hydrogenase; Hydrogen-driven MMO Activities; Utilisation of Hydrogen Metabolism in Biotechnological Applications; Biogas; Acknowledgements; References
Application of Hydrogenase for Renewable Energy Model SystemsIntroduction; Photoproduction of Hydrogen by Inorganic Semiconductor TiO2- Hydrogenase Model System; Photoproduction of Hydrogen by Inorganic Semiconductor Cds - Hydrogenase Model System; Production and Oxidation of Hydrogen by Hydrogenase with Metal as Electron Donor/Acceptor; Hydrogen Enzyme Electrode for Renewable Energy; Hydrogenase in Energy Saving and Environmental Protecting Systems; Conclusion; References; Photosynthesis and Photobioreactor
Photo-Biological Hydrogen Production by the Uptakehydrogenase and PHB Synthase Deficient Mutant of Rhodobacter SphaeroidesAbstract; Introduction; Materials and Methods; Microorganisms; Cultivation; Analysis; Results & Discussion; Growth and Hydrogen Production; Carbon Sources; Initial pH and Agitation; Light Intensity; Summary; References; Hydrogen Production by Suspension and Immobilized Cultures of Phototrophic Microorganisms. Technological Aspects; Abstract; Introduction; Definitions and Units; Suspension Cultures; Cultivation Regime; Photobioreactors
Possibilities of Technological Methods in Solution of Problems Raised in Biohydrogen Photoproduction ResearchLow Efficiency of Light Energy Bioconversion; Sensitivity of Key Enzymes (Nitrogenase and Hydrogenase) to Oxygen; Low Saturating Light Intensity Comparing with Sun Light; Low Specific Rates of Hydrogen Photoproduction; Immobilized Cultures; Methods and Matrixes for Immobilization of Photosynthetic Microorganisms; Hydrogen Production by Immobilized Cultures; Acknowledgements; References; Hydrogenase; The Potential of Using Cyanobacteria as Producers of Molecular Hydrogen; Introduction
Cyanobacterial Hydrogenases

Beteiligte: Miyake, Jun [Sonstige Person, Familie und Körperschaft]

Erschienen: Burlington: Elsevier Science, 2004
Online-Ausg., [S.l.]: HathiTrust Digital Library

Ausgabe: Online-Ausg.

Umfang: Online Ressource (viii, 187 p.); illustrations

Sprache: Englisch

ISBN: 9780080443560; 0080443567; 9780080472119; 0080472117; 1280967927; 9781280967924

Schlagwörter: Hydrogen Congresses Biotechnology ; Biomass energy Congresses ; Hydrogène Congrès Biotechnologie ; Bioénergie Congrès ; Hydrogen Biotechnology Congresses ; Biomass energy Miyake Igarashi Rögner ; TECHNOLOGY & ENGINEERING ; Chemical & Biochemical ; Biomass energy ; Hydrogen ; Biotechnology ; Conference papers and proceedings ; Electronic books ; Electronic books Conference proceedings

Art der Reproduktion: Online-Ausg.

Hersteller der Reproduktion: [S.l.]: HathiTrust Digital Library

Entstehung:

Anmerkungen: Includes bibliographical references and index. - Description based on print version record
Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002

Beschreibung: Hydrogen Production; New Frontiers of Hydrogen Energy Systems, Novel Approachesto Exploit Microbial Hydrogen Metabolism, Application of Hydrogenase for Renewable Energy Model Systems; Photosynthesis and Photobioreactor; Photo-Biological Hydrogen Production by the Uptakehydrogenase and PHB Synthase Deficient Mutant of Rhodobacter Sphaeroides, Hydrogen Production by Suspension and Immobilized Cultures of Phototrophic Microorganisms. Technological Aspects; Hydrogenase, The Potential of Using Cyanobacteria as Producers of Molecular Hydrogen Photobiological Hydrogen Production by Cyanobacteria Utilizing Nitrogenase Systems Present Status and Future Development, Fundamentals and Limiting Processes of Biological Hydrogen Production; Bio Molecular Device The Isolation of Green Algal Strains with Outstanding H2-Productivity, Identification of a CIS-Acting Element Controlling Anaerobic Expression of the hydA Gene from Chlamydomonas Reinhardtii, Glycolipid Liquid Crystals as Novel Matrices for Membrane Protein Manipulations, Artificial Phytanyl-Chained Glycolipid Vesicle Membranes with Low Proton Permeability a Suitable for Proton Pump Reconstitution Matrices, Amphipols: Strategies for an Improved PS2 Environment in Detergent-Free Aqueous Solution, Monolayers and Longmuir-Blodgett Films of Photosystem I on Various Subphase Surfaces, Modular Device for Hydrogen Production: Optimization of (Individual) Components

I. HYDROGEN PRODUCTION -- New frontiers of hydrogen energy systems T. Ohta -- Novel approaches to exploit microbial hydrogen metabolism K.L. Kovács ... [et al.] -- Application of hydrogenase for renewable energy model systems N.A. Zorin -- II. PHOTOSYNTHESIS AND PHOTOBIOREACTOR -- Photo-biological hydrogen production by the uptakehydrogenase and PHB synthase deficient mutant of Rhodobacter Sphaeroides M.S. Kim ... [et al.] -- Hydrogen production by suspension and immobilized cultures of phototrophic microorganisms. Technological aspects A.A. Tsygankov -- III. HYDROGENASE -- The potential of using cyanobacteria as producers of molecular hydrogen P. Lindblad -- Photobiological hydrogen production by cyanobacteria utilizing nitrogenase systems -- present status and future development H. Sakurai ... [et al.] -- Fundamentals and limiting processes of biological hydrogen production P.C. Hallenbeck -- IV. BIO MOLECULAR DEVICE -- The isolation of green algal strains with outstanding H 2 -productivity M. Winkler ... [et al.] -- Identification of a CIS-acting element controlling anaerobic expression of the lydA gene from Chlamydomonas Reinhardtii M. Stirnberg T. Happe -- Glycolipid liquid crystals as novel matrices for membrane protein manipulations M. Hato T. Baba -- Artificial phytanyl-chained glycolipid vesicle membranes with low proton permeability are suitable for proton pump reconstitution matrices T. Baba M. Hato -- Amphipols: strategies for an improved PS2 environment in detergent-free aqueous solution M. Nowaczyk ... [et al.] -- Monolayers and longmuir-blodgett films of photosystem I on various subphase surfaces D.J. Qian ... [et al.] -- Modular device for hydrogen production: optimization of (individual) components A. Prodöhl ... [et al.]

Hydrogen is an almost ideal fuel and its wider use will result in an improvement in the environment due to factors including decreased air pollution. Hydrogen is the element of greatest abundance in the universe; however, its production from renewable resources remains a major challenge. The papers presented within this volume enhance and expand upon presentations made at the "Workshop on Biohydrogen 2002". The contents evaluate the current status of Biohydrogen research worldwide and consider future research directions. * Important research on new fuel opportunities * 15 contributions from the world's leading experts

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