BioHydrogen
(Sprache: Englisch)
The world needs clean and renewable energy and hydrogen represents an almost ideal resource. Hydrogen is the simplest and most abundant molecule in the universe, yet one that is a challenge to produce from renewable resources. Biohydrogen, or hydrogen...
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Klappentext zu „BioHydrogen “
The world needs clean and renewable energy and hydrogen represents an almost ideal resource. Hydrogen is the simplest and most abundant molecule in the universe, yet one that is a challenge to produce from renewable resources. Biohydrogen, or hydrogen produced from renewable resources such as water or organic wastes by biological means, is a goal worthy of increased global attention and resources. The purpose of BioHydrogen '97 was to bring together leaders in the biological p- duction of hydrogen from the United States, Japan, Europe, and elsewhere to exchange scientific and technical information and catalyze further cooperative programs. Parti- pants came from at least different countries representing academia, industry, and g- ernment. Especially important participants were young research scientists and engineers: the next generation of contributors. The conference consisted of plenary presentations, topical sessions, posters, and mini-workshop discussions on key areas of biohydrogen. It was designed to maximize - formation exchange, personal interaction among participants, and formulate new inter- tional initiatives. BioHydrogen '97 was an outgrowth of an international workshop convened by the Research Institute of Innovative Technology for the Earth (RITE) and was held in Tokyo, Japan, November 24-25, 1994. The RITE workshop was highly successful but largely l- ited to traditional biochemical and biological studies and not engineering research topics.
Inhaltsverzeichnis zu „BioHydrogen “
- BioHydrogen 97: Keynote Address; E.E. David, Jr.- The Science of BioHydrogen: An Energetic View; J. Miyake.
- The Technology of BioHydrogen; J.R. Benemann.
- Marine Genomes; T. Matsunaga, H. Takeyama.
- Commencement Challenge; P. Takahashi.
- Maximizing Photosynthetic Productivity and Light Utilization in Microalgae by Minimizing the Light-Harvesting Chlorophyll Antenna Size of the Photosystems; A.Melis, et al.Nostoc
- PCC 73102 and H2: Knowledge, Research, and Biotechnological Challenges; P. Lindblad, et al.
- Molecular Biology of Hydrogenases; C. Tose, et al.
- Effect of Hydrogenase 3 Over-Expression and Disruption of Nitrate Reductase on Fermamentive Hydrogen Production in Escherichia coli:
- A Metabolic Engineering Approach; K.Sode, et al.
- Improvement of Bacterial Light-Dependent Hydrogen Production by Altering the Photosynthetic Pigment Ratio; M. Miyake, etal.
- A Toolkit for Metabolic Engineering of Bacteria: Application to Hydrogen Production; J.D. Keasling, et al.
- Electron Transport as a Limiting Factor in Biological Hydrogen Production; P.C. Hallenbeck, etal.
- Reconstitution of an Iron-Only Hydrogenase; H. McTavish.
- 52 additionel articles
- Index
Bibliographische Angaben
- 2013, 1998, 552 Seiten, Maße: 17,8 x 25,4 cm, Kartoniert (TB), Englisch
- Herausgegeben: Oskar R. Zaborsky
- Verlag: Springer, Berlin
- ISBN-10: 1475785534
- ISBN-13: 9781475785531
Sprache:
Englisch
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