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| propane dehydrogenation process flow diagram: Technology Economics: Propylene Via Propane Dehydrogenation Intratec, 2013-03-25 The rise of shale gas and the consequent reduction in propane prices added to the interest about Propane Dehydrogenation (PDH) processes - one of on-purpose propylene production technologies. This publication reviews the technical aspects of a PDH technology similar to the Uhde STAR process(r), which employs an oxydehydrogenation step. The analysis also includes estimates for both the capital investment and the operating costs of typical plants on the US Gulf Coast and in China. This study follows the same pattern as all Technology Economics studies developed by Intratec. About Technology Economics Technology Economics studies are advisory services ordered by leading chemical companies, which are disclosed to public after an agreeded upon period of time. All Technology Economics studies are based on the same rigorous methodology and well-defined structure, encompassing: Process flow diagrams and material balances Raw material and utility consumptions Major equipment sizing Inside and outside battery limits capital costs Detailed fixed and variable manufacturing expenses |
| propane dehydrogenation process flow diagram: Encyclopedia of Chemical Processing Sunggyu Lee, 2006 Supplying nearly 350 expertly-written articles on technologies that can maximize and enhance the research and production phases of current and emerging chemical manufacturing practices and techniques, this second edition provides gold standard articles on the methods, practices, products, and standards recently influencing the chemical industries. New material includes: design of key unit operations involved with chemical processes; design, unit operation, and integration of reactors and separation systems; process system peripherals such as pumps, valves, and controllers; analytical techniques and equipment; current industry practices; and pilot plant design and scale-up criteria. |
| propane dehydrogenation process flow diagram: Encyclopedia of Chemical Processing (Online) Sunggyu Lee, 2005-11-01 This second edition Encyclopedia supplies nearly 350 gold standard articles on the methods, practices, products, and standards influencing the chemical industries. It offers expertly written articles on technologies at the forefront of the field to maximize and enhance the research and production phases of current and emerging chemical manufacturing practices and techniques. This collecting of information is of vital interest to chemical, polymer, electrical, mechanical, and civil engineers, as well as chemists and chemical researchers. A complete reconceptualization of the classic reference series the Encyclopedia of Chemical Processing and Design, whose first volume published in 1976, this resource offers extensive A-Z treatment of the subject in five simultaneously published volumes, with comprehensive indexing of all five volumes in the back matter of each tome. It includes material on the design of key unit operations involved with chemical processes; the design, unit operation, and integration of reactors and separation systems; process system peripherals such as pumps, valves, and controllers; analytical techniques and equipment; and pilot plant design and scale-up criteria. This reference contains well-researched sections on automation, equipment, design and simulation, reliability and maintenance, separations technologies, and energy and environmental issues. Authoritative contributions cover chemical processing equipment, engineered systems, and laboratory apparatus currently utilized in the field. It also presents expert overviews on key engineering science topics in property predictions, measurements and analysis, novel materials and devices, and emerging chemical fields. ALSO AVAILABLE ONLINE This Taylor & Francis encyclopedia is also available through online subscription, offering a variety of extra benefits for both researchers, students, and librarians, including: Citation tracking and alerts Active reference linking Saved searches and marked lists HTML and PDF format options Contact Taylor and Francis for more information or to inquire about subscription options and print/online combination packages. US: (Tel) 1.888.318.2367; (E-mail) e-reference@taylorandfrancis.com International: (Tel) +44 (0) 20 7017 6062; (E-mail) online.sales@tandf.co.uk |
| propane dehydrogenation process flow diagram: Green Catalysis and Reaction Engineering Bala Subramaniam, 2022-09-29 Discover how to perform Life Cycle Analysis and develop next-generation sustainable chemical technologies. |
| propane dehydrogenation process flow diagram: CHEMICAL PROCESS CALCULATIONS PRASAD, RAM, 2022-04-13 The present textbook is written for undergraduate students of chemical engineering as per the syllabus framed by AICTE curriculum. It explains the basic chemical process principles in a lucid manner. SI units, chemical stoichiometry and measures of composition, behaviour of gases, vapour pressure of pure substances, and humidity and saturation are covered in detail. In addition, mass and energy balances of chemical processes have also been described. Chemical processes without chemical reactions include fluid flow, mixing, evaporation distillation, absorption and stripping, liquid–liquid extraction, leaching and washing, adsorption, drying, crystallization and membrane separation process. SALIENT FEATURES • Description of all concepts and principles with a rich pedagogy for easy understanding • Correct use of SI units • Over 270 solved examples for understanding the basic concepts • Answers to all chapter-end numerical problems for checking the accuracy of calculations TARGET AUDIENCE • BE/B.Tech (Chemical Engineering) |
| propane dehydrogenation process flow diagram: Sustainable Chemistry Research Ponnadurai Ramasami, 2023-10-24 This edited book of proceedings is a collection of seventeen selected and peer-reviewed contributions from the Virtual Conference on Chemistry and its Applications (VCCA-2022). VCCA-2022 was held online from 8th to 12th August 2022. The theme of the conference was Resilience and Sustainable Research through Basic Sciences. 500 participants from 55 countries participated in VCCA-2022. This volume 2 reflects the chapters covering computational and industrial aspects. |
| propane dehydrogenation process flow diagram: Membrane Technology Suzana Pereira Nunes, Klaus-Viktor Peinemann, 2006-12-13 Membrane Technology - a clean and energy saving alternative to traditional/conventional processes. Developed from a useful laboratory technique to a commercial separation technology, today it has widespread and rapidly expanding use in the chemical industry. It has established applications in areas such as hydrogen separation and recovery of organic vapors from process gas streams, and selective transport of organic solvents, and it is opening new perspectives for catalytic conversion in membrane reactors. Membrane technology provides a unique solution for industrial waste treatment and for controlled production of valuable chemicals. This book outlines several established applications of membranes in the chemical industry, reviews the available membranes and membrane processes for the field, and discusses the huge potential of this technology in chemical processes. Each chapter has been written by an international leading expert with extensive industrial experience in the field. |
| propane dehydrogenation process flow diagram: Introduction to Catalysis and Industrial Catalytic Processes Robert J. Farrauto, Lucas Dorazio, C. H. Bartholomew, 2016-04-11 Introduces major catalytic processes including products from the petroleum, chemical, environmental and alternative energy industries Provides an easy to read description of the fundamentals of catalysis and some of the major catalytic industrial processes used today Offers a rationale for process designs based on kinetics and thermodynamics Alternative energy topics include the hydrogen economy, fuels cells, bio catalytic (enzymes) production of ethanol fuel from corn and biodiesel from vegetable oils Problem sets of included with answers available to faculty who use the book Review: In less than 300 pages, it serves as an excellent introduction to these subjects whether for advanced students or those seeking to learn more about these subjects on their own time...Particularly useful are the succinct summaries throughout the book...excellent detail in the table of contents, a detailed index, key references at the end of each chapter, and challenging classroom questions... (GlobalCatalysis.com, May 2016) |
| propane dehydrogenation process flow diagram: Reactive Separation Processes Kulprathipanja, 2019-01-15 This book summarizes the available information in six known areas of reactive separation: reaction/distillation, reaction/extraction, reaction/absorption, reaction/adsorption, reaction/membrane, and reaction/crystallization. |
| propane dehydrogenation process flow diagram: The Changing Landscape of Hydrocarbon Feedstocks for Chemical Production National Academies of Sciences, Engineering, and Medicine, Division on Earth and Life Studies, Board on Chemical Sciences and Technology, 2016-12-10 A decade ago, the U.S. chemical industry was in decline. Of the more than 40 chemical manufacturing plants being built worldwide in the mid-2000s with more than $1 billion in capitalization, none were under construction in the United States. Today, as a result of abundant domestic supplies of affordable natural gas and natural gas liquids resulting from the dramatic rise in shale gas production, the U.S. chemical industry has gone from the world's highest-cost producer in 2005 to among the lowest-cost producers today. The low cost and increased supply of natural gas and natural gas liquids provides an opportunity to discover and develop new catalysts and processes to enable the direct conversion of natural gas and natural gas liquids into value-added chemicals with a lower carbon footprint. The economic implications of developing advanced technologies to utilize and process natural gas and natural gas liquids for chemical production could be significant, as commodity, intermediate, and fine chemicals represent a higher-economic-value use of shale gas compared with its use as a fuel. To better understand the opportunities for catalysis research in an era of shifting feedstocks for chemical production and to identify the gaps in the current research portfolio, the National Academies of Sciences, Engineering, and Medicine conducted an interactive, multidisciplinary workshop in March 2016. The goal of this workshop was to identify advances in catalysis that can enable the United States to fully realize the potential of the shale gas revolution for the U.S. chemical industry and, as a result, to help target the efforts of U.S. researchers and funding agencies on those areas of science and technology development that are most critical to achieving these advances. This publication summarizes the presentations and discussions from the workshop. |
| propane dehydrogenation process flow diagram: Propylene Production from Propane - Cost Analysis - Propylene E32A Intratec, 2016-03-01 This report presents a cost analysis of Polymer Grade (PG) Propylene production from propane using a dehydrogenation process. The process examined is similar to CB&I Lummus CATOFIN process. In this process, the dehydrogenation reaction is carried out in a fixed-bed reactor. This report examines one-time costs associated with the construction of a United States-based plant and the continuing costs associated with the daily operation of such a plant. More specifically, it discusses: * Capital Investment, broken down by: - Total fixed capital required, divided in production unit (ISBL); infrastructure (OSBL) and contingency - Alternative perspective on the total fixed capital, divided in direct costs, indirect costs and contingency - Working capital and costs incurred during industrial plant commissioning and start-up * Production cost, broken down by: - Manufacturing variable costs (raw materials, utilities) - Manufacturing fixed costs (maintenance costs, operating charges, plant overhead, local taxes and insurance) - Depreciation and corporate overhead costs * Raw materials consumption, products generation and labor requirements * Process block flow diagram and description of industrial site installations (production unit and infrastructure) This report was developed based essentially on the following reference(s): (1) US Patent 20120014846, issued to Lummus Technology in 2012; (2) US Patent 8101541, issued to Sud-Chemie in 2012 Keywords: PG Propylene, Clariant, Sud-Chemie, Propene, PDH, On-Purpose Propylene Production |
| propane dehydrogenation process flow diagram: Propylene Production from Propane - Cost Analysis - Propylene E33A Intratec, 2016-03-01 This report presents a cost analysis of Polymer Grade (PG) Propylene production from propane using a dehydrogenation process. The process examined is similar to Uhde STAR process. In this process, Propylene is produced through two dehydrogenation steps: a steam reforming step followed by oxyreaction. This report examines one-time costs associated with the construction of a United States-based plant and the continuing costs associated with the daily operation of such a plant. More specifically, it discusses: * Capital Investment, broken down by: - Total fixed capital required, divided in production unit (ISBL); infrastructure (OSBL) and contingency - Alternative perspective on the total fixed capital, divided in direct costs, indirect costs and contingency - Working capital and costs incurred during industrial plant commissioning and start-up * Production cost, broken down by: - Manufacturing variable costs (raw materials, utilities) - Manufacturing fixed costs (maintenance costs, operating charges, plant overhead, local taxes and insurance) - Depreciation and corporate overhead costs * Raw materials consumption, products generation and labor requirements * Process block flow diagram and description of industrial site installations (production unit and infrastructure) This report was developed based essentially on the following reference(s): US Patent 7678956, issued to Uhde in 2010 Keywords: PG Propylene, Steam Active Reforming, Thyssenkrupp, Propene, PDH, On-Purpose Propylene Production |
| propane dehydrogenation process flow diagram: Propylene Production from Propane - Cost Analysis - Propylene E31A Intratec, 2016-03-01 This report presents a cost analysis of Polymer Grade (PG) Propylene production from propane using a dehydrogenation process The process examined is similar to UOP Oleflex process. In this process, the dehydrogenation reaction is carried out in a moving-bed reactor. This report was developed based essentially on the following reference(s): (1) US Patent 20120108877, issued to UOP in 2012 (2) US Patent 5457256, issued to UOP in 1995 Keywords: PG Propylene, Continuous Catalyst Regeneration, CCR, Propene, PDH, On-Purpose Propylene Production |
| propane dehydrogenation process flow diagram: Technology Economics: Propylene Via Propane Dehydrogenation Intratec, 2013-03-26 A comprehensive study about on-purpose propylene production via propane dehydrogenation (PDH), a promising alternative that arises from the growing availability of low-cost propane in the United States, due to the exploitation of shale gas in the country. The technical aspects of a PDH process similar to the UOP Oleflex technology are reviewed. The analysis also includes estimates for both the capital investment and the operating costs of typical plants on the US Gulf Coast and in China. This study follows the same pattern as all Technology Economics studies developed by Intratec. About Technology Economics Technology Economics studies are advisory services ordered by leading chemical companies, which are disclosed to public after an agreeded upon period of time. All Technology Economics studies are based on the same rigorous methodology and well-defined structure, encompassing: Process flow diagrams and material balances Raw material and utility consumptions Major equipment sizing Inside and outside battery limits capital costs Detailed fixed and variable manufacturing expenses |
| propane dehydrogenation process flow diagram: Chemical Engineering Progress , 2004 |
| propane dehydrogenation process flow diagram: Plastics in the Circular Economy Vincent Voet, Jan Jager, Rudy Folkersma, 2021-03-22 We cannot imagine a world without plastics. Plastic products make our daily life safe, healthy and convenient. Besides all the benefits, the current plastics economy gives rise to environmental concerns with respect to fossil oil depletion and plastic waste accumulation. In a circular economy, however, plastics can be redesigned for reusability and recyclability. This book makes the topic of sustainable plastics approachable for students and career starters alike, describing the nature and chemistry of (bio)polymers as well as how to create a closed loop of plastic materials. |
| propane dehydrogenation process flow diagram: Chemical Process Design and Simulation: Aspen Plus and Aspen Hysys Applications Juma Haydary, 2019-01-23 A comprehensive and example oriented text for the study of chemical process design and simulation Chemical Process Design and Simulation is an accessible guide that offers information on the most important principles of chemical engineering design and includes illustrative examples of their application that uses simulation software. A comprehensive and practical resource, the text uses both Aspen Plus and Aspen Hysys simulation software. The author describes the basic methodologies for computer aided design and offers a description of the basic steps of process simulation in Aspen Plus and Aspen Hysys. The text reviews the design and simulation of individual simple unit operations that includes a mathematical model of each unit operation such as reactors, separators, and heat exchangers. The author also explores the design of new plants and simulation of existing plants where conventional chemicals and material mixtures with measurable compositions are used. In addition, to aid in comprehension, solutions to examples of real problems are included. The final section covers plant design and simulation of processes using nonconventional components. This important resource: Includes information on the application of both the Aspen Plus and Aspen Hysys software that enables a comparison of the two software systems Combines the basic theoretical principles of chemical process and design with real-world examples Covers both processes with conventional organic chemicals and processes with more complex materials such as solids, oil blends, polymers and electrolytes Presents examples that are solved using a new version of Aspen software, ASPEN One 9 Written for students and academics in the field of process design, Chemical Process Design and Simulation is a practical and accessible guide to the chemical process design and simulation using proven software. |
| propane dehydrogenation process flow diagram: Chemical Process Principles: Material and energy balances Olaf Andreas Hougen, 1954 |
| propane dehydrogenation process flow diagram: Principles of Chemical Engineering Processes Nayef Ghasem, Redhouane Henda, 2014-11-10 This book introduces the basic principles and calculation techniques used in chemical engineering. It discusses problems in material and energy balances related to chemical reactors; explains the concepts of dimensions, units, psychrometry, steam properties, and conservation of mass and energy; and demonstrates how MATLAB and Simulink can be used to solve complicated problems. This Second Edition contains additional homework problems and a new chapter related to single- and multiphase systems. Educational software, downloadable exercises, and a solutions manual are available with qualifying course adoption. |
| propane dehydrogenation process flow diagram: Sustainable Design Through Process Integration Mahmoud M. El-Halwagi, 2017-08-08 Sustainable Design through Process Integration: Fundamentals and Applications to Industrial Pollution Prevention, Resource Conservation, and Profitability Enhancement, Second Edition, is an important textbook that provides authoritative, comprehensive, and easy-to-follow coverage of the fundamental concepts and practical techniques on the use of process integration to maximize the efficiency and sustainability of industrial processes. The book is ideal for adoption in process design and sustainability courses. It is also a valuable guidebook to process, chemical, and environmental engineers who need to improve the design, operation, performance, and sustainability of industrial plants. The book covers pressing and high growth topics, including benchmarking process performance, identifying root causes of problems and opportunities for improvement, designing integrated solutions, enhancing profitability, conserving natural resources, and preventing pollution. Written by one of the world's foremost authorities on integrated process design and sustainability, the new edition contains new chapters and updated materials on various aspects of process integration and sustainable design. The new edition is also packed with numerous new examples and industrial applications. - Allows the reader to methodically develop rigorous targets that benchmark the performance of industrial processes then develop cost-effective implementations - Contains state-of-the-art process integration and improvement approaches and techniques including graphical, algebraic, and mathematical methods - Covers topics and applications that include profitability enhancement, mass and energy conservation, synthesis of innovative processes, retrofitting of existing systems, design and assessment of water, energy, and water-energy-nexus systems, and reconciliation of various sustainability objectives |
| propane dehydrogenation process flow diagram: Information Circular , 1949 |
| propane dehydrogenation process flow diagram: Sustainable Inorganic Chemistry David A. Atwood, 2016-09-21 The Earth's natural resources are finite and easily compromised by contamination from industrial chemicals and byproducts from the degradation of consumer products. The growing field of green and sustainable chemistry seeks to address this through the development of products and processes that are environmentally benign while remaining economically viable. Inorganic chemistry plays a critical role in this endeavor in areas such as resource extraction and isolation, renewable energy, catalytic processes, waste minimization and avoidance, and renewable industrial feedstocks. Sustainable Inorganic Chemistry presents a comprehensive overview of the many new developments taking place in this rapidly expanding field, in articles that discuss fundamental concepts alongside cutting-edge developments and applications. The volume includes educational reviews from leading scientists on a broad range of topics including: inorganic resources, sustainable synthetic methods, alternative reaction conditions, heterogeneous catalysis, photocatalysis, sustainable nanomaterials, renewable and clean fuels, water treatment and remediation, waste valorization and life cycle sustainability assessment. The content from this book will be added online to the Encyclopedia of Inorganic and Bioinorganic Chemistry. |
| propane dehydrogenation process flow diagram: Metal Oxides in Heterogeneous Catalysis Jacques C. Vedrine, 2018-01-11 Metal Oxides in Heterogeneous Catalysis is an overview of the past, present and future of heterogeneous catalysis using metal oxides catalysts. The book presents the historical, theoretical, and practical aspects of metal oxide-based heterogeneous catalysis. Metal Oxides in Heterogeneous Catalysis deals with fundamental information on heterogeneous catalysis, including reaction mechanisms and kinetics approaches.There is also a focus on the classification of metal oxides used as catalysts, preparation methods and touches on zeolites, mesoporous materials and Metal-organic frameworks (MOFs) in catalysis. It will touch on acid or base-type reactions, selective (partial) and total oxidation reactions, and enzymatic type reactions The book also touches heavily on the biomass applications of metal oxide catalysts and environmentally related/depollution reactions such as COVs elimination, DeNOx, and DeSOx. Finally, the book also deals with future trends and prospects in metal oxide-based heterogeneous catalysis. - Presents case studies in each chapter that provide a focus on the industrial applications - Includes fundamentals, key theories and practical applications of metal oxide-based heterogeneous catalysis in one comprehensive resource - Edited, and contributed, by leading experts who provide perspectives on synthesis, characterization and applications |
| propane dehydrogenation process flow diagram: The Theory of Recycle Processes in Chemical Engineering M. F. Nagiev, 2014-05-12 The Theory of Recycle Processes in Chemical Engineering deals with the theory and methods related to dynamic (flow) systems and with the processes in static systems with recycles, The book investigates complex recycle processes through the use of concepts and examples. The development and refinement of chemical technology involves processes that are purely chemical or technological in nature. The technological approach consists in the design of industrial processes where chemical reaction occurs with minimum by-products, and with the maximum useful employment of each unit of catalyst surface and reaction space. The book explores effective systems for the complex processing of chemical raw materials using the technological approach. The text reviews the elementary principles of the theory of recycle process through derivation of equations for simple recycling processes where one or more chemical reactions occur in a single medium or reactor in which the reactions happen consecutively, or in a parallel manner. The book also explains how the investigator can determine the technologically-optimum characteristics of the reaction unit employing five steps. The text will benefit industrial chemists, researchers, technical designers, and engineers, whose works are related with chemistry and recycling. |
| propane dehydrogenation process flow diagram: Chemical Process Principles Olaf A. Hougen, Kenneth M. Watson, Roland A. Ragatz, 1965 |
| propane dehydrogenation process flow diagram: Ludwig's Applied Process Design for Chemical and Petrochemical Plants A. Kayode Coker, 2011-08-30 This complete revision of Applied Process Design for Chemical and Petrochemical Plants, Volume 1 builds upon Ernest E. Ludwig's classic text to further enhance its use as a chemical engineering process design manual of methods and proven fundamentals. This new edition includes important supplemental mechanical and related data, nomographs and charts. Also included within are improved techniques and fundamental methodologies, to guide the engineer in designing process equipment and applying chemical processes to properly detailed equipment.All three volumes of Applied Process Design for Chemical and Petrochemical Plants serve the practicing engineer by providing organized design procedures, details on the equipment suitable for application selection, and charts in readily usable form. Process engineers, designers, and operators will find more chemical petrochemical plant design data in:Volume 2, Third Edition, which covers distillation and packed towers as well as material on azeotropes and ideal/non-ideal systems.Volume 3, Third Edition, which covers heat transfer, refrigeration systems, compression surge drums, and mechanical drivers.A. Kayode Coker, is Chairman of Chemical & Process Engineering Technology department at Jubail Industrial College in Saudi Arabia. He's both a chartered scientist and a chartered chemical engineer for more than 15 years. and an author of Fortran Programs for Chemical Process Design, Analysis and Simulation, Gulf Publishing Co., and Modeling of Chemical Kinetics and Reactor Design, Butterworth-Heinemann. - Provides improved design manuals for methods and proven fundamentals of process design with related data and charts - Covers a complete range of basic day-to-day petrochemical operation topics with new material on significant industry changes since 1995. |
| propane dehydrogenation process flow diagram: Catalog of Copyright Entries, Third Series Library of Congress. Copyright Office, 1948 |
| propane dehydrogenation process flow diagram: Proceedings , 2002 |
| propane dehydrogenation process flow diagram: Industrial Arene Chemistry Jacques Mortier, 2023-03-17 Industrial Arene Chemistry Explore the wide array of uses for aromatic hydrocarbons in this comprehensive reference Aromatics are a class of compounds—normally but not exclusively organic—which tend to be produced as by-products of various industrial processes. Their importance as petrochemical materials in themselves, along with the range of inter-relations between different aromatic chemicals, creates a complex and opportunity-filled market for aromatics. Industrial Arene Chemistry provides a thorough look at the conventional techniques required to use and produce these aromatic hydrocarbons. Beginning with an overview of the global aromatic market—including, but not limited to, manufacturers, markets of BTX, and downstream functional aromatics, aromatics derived from renewable sources, and economic forecasts—the book will also explore the impact shifting environmental factors will have on the future of aromatic chemistry. The text further explores BTX production processes differentiated according to the raw materials used. Importantly, this will establish the importance and growth of the biobased chemical industry. Industrial Arene Chemistry readers will also find: Case studies that describe major elements of specific technologies prototyped by contributors/companies as part of ongoing market development efforts Process chapters that include summaries of the conventional techniques and a more detailed discussion of recent high-impact studies Recent advances in conventional aromatic reactions, including alkylation, acylation and carboxylation, hydrogenation/reduction, oxidation, nitration/amination, sulfonation, and halogenation Industrial Arene Chemistry is a useful reference for chemists and chemical engineers who work with aromatics. |
| propane dehydrogenation process flow diagram: The Oil and Gas Journal , 1980 |
| propane dehydrogenation process flow diagram: Diolefins: Manufacture and Derivatives, 1968 Marshall Sittig, 1968 |
| propane dehydrogenation process flow diagram: , |
| propane dehydrogenation process flow diagram: Hydrocarbon Processing & Petroleum Refiner , 1960-07 |
| propane dehydrogenation process flow diagram: Chemistry of Petrochemical Processes Sami Matar Ph.D., Lewis F. Hatch Ph.D., 2001-07-26 In Chemistry of Petrochemical Processes, readers find a handy and valuable source of information containing insights into petrochemical reactions and products, process technology, and polymer synthesis. The book reviews and describes the reactions and processes involved in transforming petroleum-based hydrocarbons into the chemicals that form the basis of the multi-billion dollar petrochemical industry. In addition, the book includes information on new process developments for the production of raw materials and intermediates for petrochemicals that have surfaced since the book's first edition. - Provides a quick understanding of the chemical reactions associated with oil and gas processing - Contains insights into petrochemical reactions and products, process technology, and polymer synthesis |
| propane dehydrogenation process flow diagram: Petroleum Refiner , 1959-07 |
| propane dehydrogenation process flow diagram: Handbook of Petroleum Refining Processes, Fourth Edition Robert A. Meyers, 2016-03-18 This fully revised resource presents the latest technologies and processes for petroleum refining from the world’s leading producers. Handbook of Petroleum Refining Processes has become a key reference in the chemical and petroleum engineering markets. The book is unique in that it presents licensable technologies for the refining of petroleum and production of environmentally acceptable fuels and petrochemical intermediates. The new edition covers the gamut of global refining technologies in light of recent changes to the sources of these fuels, as well as the most up-to-date global environmental regulations. Contributions come from such major licensors of petroleum refining technology as UOP, Inc., Shell, ExxonMobil Research and Engineering Company (EMRE), Chevron Lummus Global, Phillips 66, Belco, BP, and others. The new edition shifts its emphasis to accommodate the increased production of shale gas and shale oil which is changing the overall mix of hydrocarbon feeds. Declining conventional crude production and the need for regional energy independence continues to drive demand to use lower-cost, alternate feedstocks such as coal, shale oil, and heavy crude. To use alternate feedstocks in existing refineries, many processes need to be modified. The increase in diesel demand and stricter fuel specifications is driving refiners to look for ways to produce higher yields from existing assets. The book reflects these factors, plus the increase in residue conversion; hydrocracking evolving as a primary conversion process; and hydrotreating increasing as a way to treat virgin and cracked middle distillate streams. Offers detailed description of process chemistry and thermodynamics and product by-product specifications of plants Contributors are drawn from the largest petroleum producers in the world, including Chevron, Shell, ExxonMobil, and UOP Covers the very latest technologies in the field of petroleum refining processes and the shift toward shale gas and oil A complete listing and explanation of licensable global technologies for the refining of petroleum and the production of environmentally acceptable fuels and petrochemical intermediates Provides product-by-product specifications and process economics – capital investment annualized capital costs and the price range for each product |
| propane dehydrogenation process flow diagram: Material and energy balances Olaf Andreas Hougen, 1954 |
| propane dehydrogenation process flow diagram: Rubber Facilities Disposal United States. Congress. Senate. Committee on Banking and Currency, 1955 |
| propane dehydrogenation process flow diagram: Rubber Facilities Disposal, Hearings Before a Subcommittee of ...,84-1 on S.691 ..,March8,9.10, and 11,1955 United States. Congress. Senate. Committee on Banking and Currency, 1955 |
| propane dehydrogenation process flow diagram: Scientific and Technical Mobilization United States. Congress. Senate. Committee on Military Affairs, 1944 |
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Propane (/ ˈproʊpeɪn /) is a three- carbon chain alkane with the molecular formula C3H8. It is a gas at standard temperature and pressure, but becomes liquid when compressed for …
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