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Introduces the reader to the production of the products in a refinery • Introduces the reader to the types of test methods applied to petroleum products, including the need for specifications • Provides detailed explanations for accurately analyzing and characterizing modern petroleum products • Rewritten to include new and evolving test methods • Updates on the evolving test methods and new test methods as well as the various environmental regulations are presented
The Fischer-Tropsch process is gaining recognition again due to the world-wide increase in energy needs and decrease in oil availability. The increasing interest in utilizing biomass as a potential renewable feedstock in energy generation is further supporting this development. The book covers the production and refining of Fischer-Tropsch syncrude to fuels and chemicals systematically and comprehensively, presenting a wealth of new knowledge and material. As such, it deals extensively with aspects of engineering, chemistry and catalysis. This handbook and ready reference adopts a fundamental approach, looking at the molecules and their transformation from feed to product. Numerous examples illustrate the possibilities and limitations of Fischer-Tropsch syncrude as feesdstock. Of great interest to everyone interested in refining - not just Fischer-Tropsch specialists. From the Contents: Fischer-Tropsch Facilities and Refineries at a Glance Production of Fischer-Tropsch Syncrude Industrial Fischer-Tropsch Facilities Synthetic Transportation Fuels Refining Technology Refinery Design
Since the introduction of the jet engine and its increasing refinement, fuel began to assume a much more prominent role in the overall design of the aircraft [1-1]. Fuel has now reached at least an equal design consideration as the engine and airframe [1-2]. There are several reasons for this increased importance of the fuel in the overall system. In addition to its essential function of providing the energy necessary for flight [1-3], the fuel will act as the primary heat sink required for cooling the aircraft and its equipment [1-4]. In many future systems, the fuel will constitute over fifty percent (50%) of the total weight [1-5] of the system and the fuel cost may well be as high as fifty percent (50%) of the direct operating cost (Figure. 1.1.). The purpose of this mini book is to summarize the progress made to date in the development of these advanced hydrocarbon fuels and to submit the necessary requirements for future hydrocarbon fuels for the aerospace industry. The idea of regular supersonic flight of air-breathing weapon systems has become a reality within previous years and the advancement of even faster systems will continue [1-7]. This incredible boost in flight speed has led to significant increases in the relative value of the fuel to the general system [1-8]. In the period of the piston engine, airplane designers were more concerned with the engine and the airframe rather than with the fuel [1-9]. The choice of fuel to be utilized in the airplane was often of secondary significance [1-9]. All things considered, with the presentation of the jet engine motor and its expanding change, the fuel began to assume significantly more fundamental capacity in the general plan till the point has now achieved where the fuel has obtained at least proportionate status with the motor and the airframe [1-10].
Production Processes of Renewable Aviation Fuel: Present Technologies and Future Trends presents the available production processes for renewable aviation fuel, including the application of intensification and energy integration strategies. Despite biofuels have gained a lot of interest in the last years, renewable aviation fuel is one of the less studied. In the last ten years, there has been an incredible growth in the number of patents and articles related with its production processes. Several transformation pathways have been proposed, and new ones have been outlined. The book contains the main information about the production processes of renewable aviation fuel, considering international standards, available technologies, and recent scientific contributions. It also outlines the motivation for the development of renewable aviation fuel, and its main processing pathways from the different renewable raw materials. In addition, the application of intensification and energy integration strategies is presented, along with the identified future trends in this area - Includes the motivation for the development of renewable aviation fuel and applicable standards - Describes the processing pathways from biomass to produce renewable aviation fuel - Presents the application of intensification and energy integration strategies for the production of renewable aviation fuel - The future trends in the production processes of renewable aviation fuel are discussed