%0
Generic
%T
Biohydrogen III
Renewable Energy System by Biological Solar Energy Conversion
%A Miyake, Jun
%7 Online-Ausg.
%I Elsevier Science
%@ 9780080443560
%@ 0080443567
%@ 9780080472119
%@ 0080472117
%@ 1280967927
%@ 9781280967924
%K Hydrogen Congresses Biotechnology
%K Biomass energy Congresses
%K Hydrogène Congrès Biotechnologie
%K Bioénergie Congrès
%K Hydrogen Biotechnology Congresses
%K Biomass energy Miyake Igarashi Rögner
%K TECHNOLOGY & ENGINEERING ; Chemical & Biochemical
%K Biomass energy
%K Hydrogen ; Biotechnology
%K Conference papers and proceedings
%K Electronic books
%K Electronic books Conference proceedings
%D 2004
%X Includes bibliographical references and index. - Description based on print version record
%X 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)
%X 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
%X 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
%X 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
%X 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
%X Cyanobacterial Hydrogenases
%C Elsevier Science
%C Burlington
%U http://slubdd.de/katalog?TN_libero_mab2