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This report presents a cost analysis of Chlorine production from sodium chloride. The process examined is a typical diaphragm process. In this process, an aqueous solution of sodium chloride (brine) is decomposed electrolytically in a diaphragm cell, producing Chlorine. Caustic soda (50 wt%) and hydrogen are also generated as products. This report was developed based essentially on the following reference(s): (1) "Chlorine", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition (2) EP Patent 1427871, issued to Industrie De Nora in 2011 Keywords: Chlor-Alkali, Caustic Soda, NaOH
This report presents a cost analysis of Sodium Hydroxide production from brine. The process examined is a typical diaphragm process. In this process, an aqueous solution of sodium chloride (brine) is decomposed electrolytically in a diaphragm cell, producing Sodium Hydroxide and chlorine. The Sodium Hydroxide product obtained is a 50 wt% aqueous solution. Hydrogen is also generated as by-products in the process. This report was developed based essentially on the following reference(s): (1) "Chlorine", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition (2) EP Patent 1427871, issued to Industrie De Nora in 2011 Keywords: Chlor-Alkali, Caustic Soda, NaOH
This report presents a cost analysis of Chlorine production from sodium chloride. The process examined is a typical membrane process. In this process, an aqueous solution of sodium chloride (brine) is decomposed electrolytically in a membrane cell, producing Chlorine. Caustic soda (50 wt%) and hydrogen are also generated as products. 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) Handbook of Chlor-Alkali Technology, 2005; (2) "Chlorine", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition Keywords: Chlor-Alkali, Caustic Soda, NaOH
This report presents a cost analysis of Chlorine production from sodium chloride. The process examined is a typical mercury cell process. In this process, an aqueous solution of sodium chloride (brine) is decomposed electrolytically in a mercury cell, producing Chlorine. Caustic soda (50 wt%) and hydrogen are also generated as products. This report was developed based essentially on the following reference(s): (1) Handbook of Chlor-Alkali Technology, 2005 (2) "Chlorine", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition Keywords: Chlor-Alkali, Caustic Soda, NaOH
Engineering registration is accelerating at a pace unequalled since institution of registration laws in the 1920s and 1930s. This phenomenon is not due to an easing of entrance require ments, since only vestiges of "grand fathering" and eminence exist in most states. Nor is it due to a lessening in the difficulty of the registration examinations. In fact, it is generally agreed that the Engineering Fundamentals Examination has significantly increased in difficulty over the last fifteen years. Why then the increased interest in registration among practicing engineers? Historically the professional engineer has been in private practice offering consulting services directly to the public. Registration laws were passed to protect the public from incompetent, untrained practioners in any engineering area. However, the registration laws go beyond estab lishing an individual's credentials. One reason for the new interest in engineering registration is the proliferation of new activity areas such as pollution control and energy conservation where the public is keenly aware of and insistent upon quality technological inputs.
Wood-polymer composites (WPC) are materials in which wood is impregnated with monomers that are then polymerised in the wood to tailor the material for special applications. The resulting properties of these materials, from lightness and enhanced mechanical properties to greater sustainability, has meant a growing number of applications in such areas as building, construction and automotive engineering. This important book reviews the manufacture of wood-polymer composites, how their properties can be assessed and improved and their range of uses.After an introductory chapter, the book reviews key aspects of manufacture, including raw materials, manufacturing technologies and interactions between wood and synthetic polymers. Building on this foundation, the following group of chapters discusses mechanical and other properties such as durability, creep behaviour and processing performance. The book concludes by looking at orientated wood-polymer composites, wood-polymer composite foams, at ways of assessing performance and at the range of current and future applications.With its distinguished editors and international team of contributors, Wood-polymer composites is a valuable reference for all those using and studying these important materials. - Provides a comprehensive survey of major new developments in wood-polymer composites - Reviews the key aspects of manufacture, including raw materials and manufacturing technologies - Discusses properties such as durability, creep behaviour and processing performance
This report presents a cost analysis of secondary Chlorine production from hydrogen chloride. The process examined is similar to the ThyssenKrupp Uhde hydrogen chloride electrolysis process. In this process, a hydrogen chloride solution in water is decomposed electrolytically in a diaphragm cell, producing Chlorine. Hydrogen is generated as by-product 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: Secondary chlorine, hydrogen chloride waste treatment, HCl, cholrine recovery