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This report presents a cost analysis of n-Butyraldehyde production from propylene and syngas. The process examined is similar to the LP OXO technology jointly licensed by JM Davy and Dow, employing Selector 30 catalyst. In this process, the production ratio of n- to iso-butyraldehyde in the oxo reaction is about 30. The n-Butyraldehyde is separated as the final product and the isobutyraldehyde is obtained as a by-product. This report was developed based essentially on the following reference(s): Keywords: Oxo Synthesis, Butanal, Synthesis Gas, H2, CO, Hydrogen, Carbon Monoxide
This report presents a cost analysis of 2-Ethylhexanol (2-EH) production from propylene and syngas. The process examined is similar to the LP OXO Selector technology jointly licensed by JM Davy and Dow. This report was developed based essentially on the following reference(s): (1) "OXO Synthesis", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition (2) US Patent 5001274 issued to Union Carbide (now Dow Chemical Company) in 1991 (3) WO1993020034 issued to Davy (now subsidiary of Johnson Matthey) in 1993 Keywords: oxo alcohol, oxo process
This report presents a cost analysis of n-Butyraldehyde production from propylene and syngas. The process examined is similar to the technology jointly developed by Rhodia (former Rhône-Poulenc) and Ruhrchemie. This process relies on a water-soluble rhodium catalyst for the hydroformylation of propylene to form n-butyraldehyde and isobutyraldehyde. The n-Butyraldehyde is separated as the final product and the isobutyraldehyde is obtained as a by-product. This report was developed based essentially on the following reference(s): Keywords: Oxo Synthesis, Butanal, Synthesis Gas, H2, CO, Hydrogen, Carbon Monoxide, Rhodia, Rhône-Poulenc, Ruhrchemie
Written by an author with over 38 years of experience in the chemical and petrochemical process industry, this handbook will present an analysis of the process steps used to produce industrial hydrocarbons from various raw materials. It is the first book to offer a thorough analysis of external factors effecting production such as: cost, availability and environmental legislation. An A-Z list of raw materials and their properties are presented along with a commentary regarding their cost and availability. Specific processing operations described in the book include: distillation, thermal cracking and coking, catalytic methods, hydroprocesses, thermal and catalytic reforming, isomerization, alkylation processes, polymerization processes, solvent processes, water removal, fractionation and acid gas removal. - Flow diagrams and descriptions of more than 250 leading-edge process technologies - An analysis of chemical reactions and process steps that are required to produce chemicals from various raw materials - Properties, availability and environmental impact of various raw materials used in hydrocarbon processing
This book includes selected papers from the ICGSCE 2014 with focus on the current trends of global resources used to meet the growing demands to improve life style coupled with environmental and social problems related to the resource consumption with emphasize to move towards sustainable development. It provides a platform for scientists and academicians from local and international universities and industries to promote, share and discuss various new issues and developments in different areas of Chemical Engineering with respect to global sustainability. Under the sustainability umbrella the topics covered are; alternative energy sources, alternative feedstock for energy and chemicals, alternative raw materials for household commodity, green process with minimal environmental impact, process intensification, waste minimization, recycling of wastes and providing quality water, food and medicines. Other topics covered include: 1. Oil and gas, Biofuel, Fuel cell, Renewable energy 2. Green technology, Sustainability, Environmental, Carbon sequestration, Carbon footprint, Natural resources 3. Chemical processes, Separation technology, Biotechnology, Nanotechnology, Food technology, Particle technology, Corrosion, Pharmaceutical, Phytochemical, Oleochemical 4. Process modeling, Process Simulation, Process control 5. Advanced material, Polymer, Catalyst, Enzyme 6. Policy, Regulations, Strategy and implementation, Safety, Management of science, Engineering education 7. Process Safety and Loss Prevention, Environmental and chemical risk assessment, Transportation risk analysis, Inherent safety.
Chemical Reaction Engineering: Essentials, Exercises and Examples presents the essentials of kinetics, reactor design and chemical reaction engineering for undergraduate students. Concise and didactic in its approach, it features over 70 resolved examples and many exercises.The work is organized in two parts: in the first part kinetics is presented
Sustainable production of hydrocarbon biofuels from biomass, fuels that are fully compatible with existing internal combustion engines, will allow the global transport economy to transition to a sustainable energy source without the need for capital-intensive new infrastructures. Hydrocarbon Biorefinery: Sustainable Processing of Biomass for Hydrocarbon Biofuels presents a comprehensive and easy to understand consolidation of existing knowledge for the production of hydrocarbon biofuels from biomass. Three major areas for the conversion of biomass to hydrocarbon biofuels are addressed: i) Chemical and thermochemical conversion processes, ii) Biological and biochemical conversion processes, and iii) Conversion processes of biomass-derived compounds. Additionally, the book includes process design, life cycle analysis of various processes, reaction engineering, catalysts, process conditions and process concepts, and is supported with detailed case studies. The economic viability of each process is specifically addressed to provide a clear guide for the economic development of future hydrocarbon biofuels. Hydrocarbon Biorefinery: Sustainable Processing of Biomass for Hydrocarbon Biofuels offers an all-in-one resource for researchers, graduate students, and industry professionals working in the area of bioenergy and will be of interest to energy engineers, chemical engineers, bioengineers, chemists, agricultural researchers, and mechanical engineers. Furthermore, this book provides structured foundational content on biorefineries for undergraduate and graduate students. - Presents fundamental concepts and processes of hydrocarbon biofuel production, covering chemical, biological, and biomass-derived conversion processes - Synthesizes the state-of-the-art research and commercial initiatives of this emerging concept into stand-alone chapters, serving as a structured resource for researchers and practitioners - Emphasizes the process design and economic feasibility of each process using life cycle assessments to support commercial development
Drawn from a symposium of the 210th National Meeting of the American Chemical Society held in Chicago in August 1995, this volume is meant to serve as a practical reference focusing on testing for the main hydrocarbon-conversion processes applied in oil refineries: catalytic cracking, hydroprocessing, and reforming. The volume contains 31 contributions divided into the following categories: an overview, catalyst deactivation by coke, deactivation of fluid catalytic cracking catalysts, deactivation of reforming catalysts, deactivation of hydroprocessing catalysts, testing of catalyst performance, and modeling of catalyst performance. Amply illustrated with bandw diagrams. Annotation copyright by Book News, Inc., Portland, OR
Separation processes on an industrial scale account for well over half of the capital and operating costs in the chemical industry. Knowledge of these processes is key for every student of chemical or process engineering. This book is ideally suited to university teaching, thanks to its wealth of exercises and solutions. The second edition boasts an even greater number of applied examples and case studies as well as references for further reading.