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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 ...
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". Biohydrogen III evaluates 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
active industrial participation in the organizing committee. Recently, the conference has begun a regular informal industrial roundtable (Session 4). This has become very popular as it allows industrial participants to speak more openly. For a broader perspective, R. James Woolsey, Former Direc tor of Central Intelligence Agency, gave an after-dinner address on "Wagon Trains for the 21st Century: The Role for Biorefineries. " He urged the attendees of the importance of their efforts to develop renewable, benign processes for the United States and the world based on both security and prosperity reasons. These related to energy supply, support of domestic agriculture, global warming, and other...
This book contains full papers of both oral and poster presentations of the international symposium 'Marine Bioprocess Engineering' which was held in Noordwijkerhout, The Netherlands, 1998. The symposium focused on the bioprocessing of marine natural products. Bioprocess engineering has been the key to success in the commercialization of biotechnology, especially with respect to biopharmaceuticals. In marine biotechnology, both new and existing biotechnological techniques are developed an applied to organisms from marine sources. For marine biotechnology, bioprocess engineering represents the link between discovery and commercialization. The diversity of marine life points to a myriad of new...
Antenna systems in phosynthetic procaryotes; Antenna systems in algae and higher plants; Bacterial reaction center; photosytem I.
153 posters. While plant biotechnology for enzyme production and designer biomass merged as "hot topics" throughout the Symposium, the preface for each session is included in the introductions. Special topic discussions were led on "Brazilian Bioethanol Progress" by Gisella Zanin, State University of Maringa, Brazil, and on "Nontradi tional Bioprocessing" by Gene Petersen, National Renewable Energy Labo ratory, Golden, CO. A tour of the Colorado Bioprocessing Center, a "state of the art" con tract research facility at Colorado State University highlighted the process development and scale-up activities ongoing with several industrial clients. The 1999 Charles D. Scott Award for Distinguished Contributions in the field of Biotechnology for Fuels and Chemicals was presented to Dr. Charles E. Wyman, Dartmouth College professor, Thayer School of Engineering, Hanover, New Hampshire. This award is named in honor of Dr. Charles D. Scott, the founder of this Symposium and its chair for the first ten years.