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This book, the outgrowth of a graduate course the authors taught at the Massachusetts Institute of Technology, was designed to fill an urgent need—the training of engineers in the production of synthetic fuels to replace dwindling supplies of natural ones. The authors presented synthetic fuels as a unified engineering subject, while recognizing that many of its principles are well-understood aspects of various engineering fields. The presentation begins with a review of chemical and physical fundamentals and conversion fundamentals, and proceeds to coal gasification and gas upgrading. Subsequent chapters examine liquids and clean solids produced from coal, liquids obtained from oil shale and tar sands, biomass conversion, and environmental, economic, and related aspects of synthetic fuel use. The text is directed toward beginning graduate students and advanced undergraduates in chemical and mechanical engineering, but should also appeal to students from other disciplines, including environmental, mining, petroleum, and industrial engineering, as well as chemistry. It also serves as a reference and guide for professionals.
Capitalize on the Vast Potential of Alternative Energy Sources Such as Fuel Cells and Biofuels Synthetic Fuels Handbook is a comprehensive guide to the benefits and trade-offs of numerous alternative fuels, presenting expert analyses of the different properties, processes, and performance characteristics of each fuel. It discusses the concept systems and technology involved in the production of fuels on both industrial and individual scales. Written by internationally renowned fuels expert James G. Speight, this vital resource describes the production and properties of fuels from natural gas and natural gas hydrates...tar sand bitumen...coal...oil shale...synthesis gas...crops...wood sources...biomass...industrial and domestic waste...landfill gas...and much more. Using both U.S. and SI units, Synthetic Fuels Handbook features: Information on conventional and nonconventional fuel sources Discussion of the production of alternative fuels on both industrial and individual scales Analyses of properties and uses of gaseous, liquid, and solid fuels from different sources Comparison of properties of alternative fuels with petroleum-based fuels Discover All the Benefits and Trade-Offs of Synthetic Fuels • Fuel sources: conventional and nonconventional • Natural gas and natural gas hydrates • Petroleum and heavy oil • Tar sand bitumen • Coal • Oil shale • Synthesis gas • Crops • Wood sources • Biomass • Industrial and domestic waste • Landfill gas • Comparison of the properties and uses of gaseous fuels from different sources • Comparison of the properties and uses of liquid fuels from different sources • Comparison of the properties and uses of solid fuels from different sources
Gasification involves the conversion of carbon sources without combustion to syngas, which can be used as a fuel itself or further processed to synthetic fuels. The technology provides a potentially more efficient means of energy generation than direct combustion. This book provides an overview of gasification science and engineering and the production of synthetic fuels by gasification from a variety of feedstocks. Part one introduces gasification, reviewing the scientific basis of the process and gasification engineering. Part two then addresses gasification and synthentic fuel production processes. Finally, chapters in part three outline the different applications of gasification, with chapters on the conversion of different types of feedstock. - Examines the design of gasifiers, the preparation of feedstocks, and the economic, environmental and policy issues related to gasification - Reviews gasification processes for liquid fuel production - Outlines the different applications of gasification technology
Energy – in the headlines, discussed controversially, vital. The use of regenerative energy in many primary forms leads to the necessity to store grid dimensions for maintaining continuous supply and enabling the replacement of fossil fuel systems. Chemical energy storage is one of the possibilities besides mechano-thermal and biological systems. This work starts with the more general aspects of chemical energy storage in the context of the geosphere and evolves to dealing with aspects of electrochemistry, catalysis, synthesis of catalysts, functional analysis of catalytic processes and with the interface between electrochemistry and heterogeneous catalysis. Top-notch experts provide a sound, practical, hands-on insight into the present status of energy conversion aimed primarily at the young emerging research front.
"Presents 100 samples of organic substances characterized under identical conditions by thermogravimetry (TG) and differential thermal analysis (DTA) in addition to proximate analysis-providing accurate information essential in research and engineering applications related to fuel preparation. Discusses nonisothermal kinetic techniques, mathematical models, and other parameter estimation procedures that facilitate the extrapolation of results obtained under various conditions-including the Gaur and Reed method, an important advance in understanding the kinetics of thermal data!"