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This report presents a cost analysis of a typical Aluminum Chloride production process from aluminum metal and chlorine. In the process, chlorine gas is passed through molten aluminum in ceramic-lined, tube-shaped reactors, producing Anhydrous Aluminum Chloride. This report was developed based essentially on the following reference(s): (1) "Aluminum Chloride", McKetta, J., Inorganic Chemicals Handbook. Vol. 1 (2) "Aluminum Compounds, Inorganic", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition Keywords: Aluminum Trichloride, Aluminum Scrap, Anhydrous Aluminum Chloride
This report presents a cost analysis of a typical Aluminium Chloride production process from aluminium metal and chlorine. In the process, chlorine gas is passed through molten aluminium powder in ceramic lined tube shaped reactors, producing Aluminium Chloride. 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) Keywords: Aluminum Trichloride, Aluminium Scrap, Anhydrous Aluminium Chloride
This report presents a cost analysis of Vinyl Chloride production directly from ethane and chlorine. The process examined is similar to that developed by European Vinyls Corporation, now owned by INEOS. This process is still in its early development stage, but it has already been tested on a pilot scale plant. This report was developed based essentially on the following reference(s): Keywords: Chloroethene, 1,2-Dichloroethane, European Vinyls Corporation, EVC, INEOS, Ethane-To-VCM
This report presents a cost analysis of Phenethyl Alcohol production from benzene, ethylene oxide, and Aluminum chloride. In the process, benzene and ethylene oxide reacts in the presence of Aluminum trichloride, producing the Phenethyl Alcohol. This report was developed based essentially on the following reference(s): Keywords: 2-Phenylethanol, Phenylethyl Alcohol, Benzyl Carbinol
This report presents a cost analysis of Polyaluminum Chloride production from Aluminum hydroxide, sulfuric acid, hydrochloric acid, and calcium carbonate. In this process, Aluminum hydroxide is fed into the reactor containing sulfuric acid and hydrochloric acid. The solution obtained is neutralized with calcium carbonate resulting in a mixture of Polyaluminum Chloride and gypsum crystals. This report was developed based essentially on the following reference(s): Keywords: PAC, Poly-Aluminum Chloride
This report presents a cost analysis of a typical Aluminum Chloride production process from aluminum metal and chlorine In the process, chlorine gas is passed through molten aluminum in ceramic-lined, tube-shaped reactors, producing Anhydrous Aluminum Chloride. This report was developed based essentially on the following reference(s): (1) "Aluminum Chloride", McKetta, J., Inorganic Chemicals Handbook. Vol. 1 (2) "Aluminum Compounds, Inorganic", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition Keywords: Aluminum Trichloride, Aluminum Scrap, Anhydrous Aluminum Chloride
Analytical methods used in the Geologic Division laboratories of the U.S. Geological Survey for the inorganic chemical analysis of rock and mineral samples.
This monograph consists of manuscripts submitted by invited speakers who participated in the symposium "Industrial Environmental Chemistry: Waste Minimization in Industrial Processes and Remediation of Hazardous Waste," held March 24-26, 1992, at Texas A&M University. This meeting was the tenth annual international symposium sponsored by the Texas A&M Industry-University Cooperative Chemistry Program (IUCCP). The program was developed by an academic-industrial steering committee consisting of the co-chairmen, Professors Donald T. Sawyer and Arthur E. Martell of the Texas A&M University Chemistry Department, and members appointed by the sponsoring companies: Bernie A. Allen, Jr., Dow Chemical USA; Kirk W. Brown, Texas A&M University; Abraham Clearfield, Texas A&M University; Greg Leyes, Monsanto Company; Jay Warner, Hoechst-Celanese Corporation; Paul M. Zakriski, BF Goodrich Company; and Emile A. Schweikert, Texas A&M University (IUCCP Coordinator). The subject of this conference reflects the interest that has developed in academic institutions and industry for technological solutions to environmental contamination by industrial wastes. Progress is most likely with strategies that minimize waste production from industrial processes. Clearly the key to the protection and preservation of the environment will be through R&D that optimizes chemical processes to minimize or eliminate waste streams. Eleven of the papers are directed to waste minimization. An additional ten papers discuss chemical and biological remediation strategies for hazardous wastes that contaminate soils, sludges, and water.
This book describes and explains the methods by which three related ores and recyclables are made into high purity metals and chemicals, for materials processing. It focuses on present day processes and future developments rather than historical processes. Nickel, cobalt and platinum group metals are key elements for materials processing. They occur together in one book because they (i) map together on the periodic table (ii) occur together in many ores and (iii) are natural partners for further materials processing and materials manufacturing. They all are, for example, important catalysts – with platinum group metals being especially important for reducing car and truck emissions. Stainless steels and CoNiFe airplane engine super alloys are examples of practical usage. The product emphasises a sequential, building-block approach to the subject gained through the author's previous writings (particularly Extractive Metallurgy of Copper in four editions) and extensive experience. Due to the multiple metals involved and because each metal originates in several types of ore – e.g. tropical ores and arctic ores this necessitates a multi-contributor work drawing from multiple networks and both engineering and science. - Synthesizes detailed review of the fundamental chemistry and physics of extractive metallurgy with practical lessons from industrial consultancies at the leading international plants - Discusses Nickel, Cobalt and Platinum Group Metals for the first time in one book - Reviews extraction of multiple metals from the same tropical or arctic ore - Industrial, international and multidisciplinary focus on current standards of production supports best practice use of industrial resources