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In Biotechnology for Fuels and Chemicals: The Twenty-Eighth Symposium, leading researchers exchange cutting-edge technical information and update current trends in the development and application of biotechnology for sustainable production of fuels and chemicals. This symposium emphasizes advances in biotechnology to produce high-volume, low-price products from renewable resources, while improving the environment.
Biotechnology for Biofuel Production and Optimization is the compilation of current research findings that cover the entire process of biofuels production from manipulation of genes and pathways to organisms and renewable feedstocks for efficient biofuel production as well as different cultivation techniques and process scale-up considerations. This book captures recent breakthroughs in the interdisciplinary areas of systems and synthetic biology, metabolic engineering, and bioprocess engineering for renewable, cleaner sources of energy. - Describes state-of-the-art engineering of metabolic pathways for the production of a variety of fuel molecules - Discusses recent advances in synthetic biology and metabolic engineering for rational design, construction, evaluation of novel pathways and cell chassis - Covers genome engineering technologies to address complex biofuel-tolerant phenotypes for enhanced biofuel production in engineered chassis - Presents the use of novel microorganisms and expanded substrate utilization strategies for production of targeted fuel molecules - Explores biohybrid methods for harvesting bioenergy - Discusses bioreactor design and optimization of scale-up
Biotechnology in the Chemical Industry: Towards a Green and Sustainable Future focuses on achievements and prospects for biotechnology in sustainable production of goods and services, especially those that are derived at present mostly from the traditional chemical industry. It considers the future impact of industrial biotechnology and lays out the major research areas which must be addressed to move from a flourishing set of scientific disciplines to a major contributor to a successful future knowledge-based economy. The book focuses on the research needed to underpin three broad topics: biomass, bio-processes and bio-products, including bio-energy. Readers, including advanced students, researchers, industry professionals, academics, analysts, consultants, and anyone else interested, or involved in biotechnology will find this book very informative. - Offers a comprehensive introduction to the subject for researchers interested in the biotechnological applications in chemical industry - Provides a state-of-the art update on the field - Presents the economic and ecological advantages of industrial biotechnology - Discusses efforts made by developing countries towards industrial biotechnology - Describes new biotechnological applications - Includes the major challenges facing industrial biotechnology
Industrial Biorefineries and White Biotechnology provides a comprehensive look at the increasing focus on developing the processes and technologies needed for the conversion of biomass to liquid and gaseous fuels and chemicals, in particular, the development of low-cost technologies. During the last 3-4 years, there have been scientific and technological developments in the area; this book represents the most updated information and technological perspective on the topic. - Provides information on the most advanced and innovative pretreatment processes and technologies for biomass - Covers information on lignocellulosic and algal biomass to work on the principles of biorefinery - Provides information on integration of processes for the pretreatment of biomass - Designed as a textbook for both graduate students and researchers
With the Twenty-Third Symposium, we sustained the tradition of providing an informal, congenial atmosphere that our participants find conducive to pursuing technical discussion of program topics. The techni cal program consisted of six sessions with 38 oral presentations, a roundtable forum, two special topic discussions and a poster session con sisting of 230 posters. A special luncheon talk on "Natural Capitalism" by Karl Rabago of the Rocky Mountain Institute was particularly enlightening. More infor mation on these provocative approaches to resources and societal needs can be found at their website, www.rmi.org. While plant biotechnology and genetically modified organisms (GMOs) for enzyme production and designer biomass emerged as exciting areas throughout the Symposium, the frank exchange in the special topic sessions indicated the importance of thinking beyond the purely technical details in this important research area. The preface for each session is included in the introductions. Session Chairpersons and Co-Chairpersons Session 1: Advances in Biomass Production and Processing Chair: Sharon Shoemaker, University of California, Davis, CA Co-Chair: David Boron, US Department of Energy, Washington DC Session 2: Enzyme and Microbial Biocatalysts Chair: Elba Bon, Chemistry Institute, UFRI, Rio de Janeiro, Brazil Co-Chair: Steve Picataggio, Dupont Central, Wilmington, DE Session 3: Bioprocess Research and Development Chair: Guido Zacchi, University of Lund, Lund, Sweden Co-Chair: Mark Holtzapple, Texas A&M University, College Station, TX Session 4: Oil and Ethanol: An Excellent Mix? Chair: Carol Tombari, Mountain Energy Consultation LLC, Conifer, CO Session 5: Emerging Biorefinery Opportunities
State-of-the-art research by leading experts Advanced feedstock production and processing Enzyme and microbial biocatalysis Bioprocess research and development Commercialization of biobased products.
BRIAN H. DAVISON Oak Ridge National Laboratory MARK FINKELSTEIN National Renewable Energy Laboratory CHARLES E. WYMAN Oak Ridge National Laboratory The Eighteenth Symposium on Biotechnology for Fuels and Chemi cals continues to provide a forum for the presentation of research results and the exchange of ideas on advances in biotechnology for the produc tion of fuels and chemicals. Although the emphasis is on utilization of renewable resources, the scope of the Symposium is broader than this and includes bioconversion of fossil fuels and syngas and the new area of conversions in nonaqueous environments; these areas were discussed in Session 5 and in a Special Topic Discussion Group at the Symposium. In addition, recent developments in bioremediation were well represented in Session 6 and in the poster session. The Symposium involved both the development of new biological agents (such as enzymes or microbes) to carry out targeted conversions as well as bioprocess development. The first area covered improvements in enzymes as well as fundamental insights into substrate-enzyme inter actions and photosynthesis. The latter area focused on converting one material into another using biological agents through combinations of chemical engineering, biological sciences, and fermentation technology. This area also refers to an overall processing involving at least one bio logically catalyzed step in combination with other physical and/ or chemi cal processing operations. Agricultural crops, such as corn and corn fiber as well as woody biomass and lignocellulosic wastes, are emphasized for process feedstocks and their pretreatment investigated.
The consumption of petroleum has surged during the 20th century, at least partially because of the rise of the automobile industry. Today, fossil fuels such as coal, oil, and natural gas provide more than three quarters of the world's energy. Unfortunately, the growing demand for fossil fuel resources comes at a time of diminishing reserves of these nonrenewable resources. The worldwide reserves of oil are sufficient to supply energy and chemicals for only about another 40 years, causing widening concerns about rising oil prices. The use of biomass to produce energy is only one form of renewable energy that can be utilized to reduce the impact of energy production and use on the global environment. Biomass can be converted into three main products such as energy, biofuels and fine chemicals using a number of different processes. Today, it is a great challenge for researchers to find new environmentally benign methodology for biomass conversion, which are industrially profitable as well. This book focuses on the conversion of biomass to biofuels, bioenergy and fine chemicals with the interface of biotechnology, microbiology, chemistry and materials science. An international scientific authorship summarizes the state-of-the-art of the current research and gives an outlook on future developments.
This book provides an introduction to the basic science and technologies for the conversion of biomass (terrestrial and aquatic) into chemicals and fuels, as well as an overview of innovations in the field. The entire value chain for converting raw materials into platform molecules and their transformation into final products are presented in detail. Both cellulosic and oleaginous biomass are considered. The book contains contributions by both academic scientists and industrial technologists so that each topic combines state-of-the-art scientific knowledge with innovative technologies relevant to chemical industries. Selected topics include: Refinery of the future: feedstock, processes, products The terrestrial and aquatic biomass production and properties Chemical technologies and biotechnologies for the conversion of cellulose, hemicellulose, lignine, algae, residual biomass Thermal, catalytic and enzymatic conversion of biomass Production of chemicals, polymeric materials, fuels (biogas, biodiesel, bioethanol, biohydrogen) Policy aspects of biomass product chains LCA applied to the energetic, economic and environmental evaluation of the production of fuels from biomass: ethanol, biooil and biodiesel, biogas, biohydrogen
How much will it cost, how long will it take and is the technology ready to commercialize? These are the three most common questions received from founders, investors and employees looking to commercialize novel biotechnologies. This handbook provides industry insight and practical explanations of the commercialization process, including common pitfalls to avoid on the way to success. Mark Warner is a registered professional chemical engineer who started his career at Monsanto Chemical, turning waste pulp and paper byproducts into foods and chemicals. After spending a decade in large engineering firms, he joined an early-stage renewable energy venture and has not looked back. Mark leveraged the initial biofuels experience to hold executive level positions with industry names such as Impossible Foods, Solazyme, Harris Group and Imperium Renewables. Warner Advisors LLC was founded in 2015 with a mission of assisting early-stage biotechnology companies in commercializing their technologies. To date, Mark has consulted for over 40 industrial biotechnology ventures and is recognized as an expert in biotechnology commercialization.