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This book which describes the world of metallurgical processing is influenced by a variety of factors not directly metallurgical. One major factor in all applications is materials handling. In Pyro-metallurgical processes, the processes are interconnected by materials handling systems which often require a major percentage of plant cost. The systems include sampling, storage, weighing, feeding and transporting of materials which all actively affect the performance of the metallurgical processes. Increasing productivity and improvements to plant environment demand that materials handling be improved. At the same time, sophisticated sampling and control systems are required to optimize the recipes and allow controlled reactions. By using handling technologies that accommodate both the process and the environment, sustainable improvements can be made.
Resource recovery and recycling from millions of tons of wastes produced from industrial activities is a continuing challenge for environmental engineers and researchers. Demand for conservation of resources, reduction in the quantity of waste and sustainable development with environmental control has been growing in every part of the world. Resource Recovery and Recycling from Metallurgical Wastes brings together the currently used techniques of waste processing and recycling, their applications with practical examples and economic potentials of the processes. Emphasis is on resource recovery by appropriate treatment and techniques. Material on the subject is scatterend in waste management and environmental related journals, conference volumes and government departmental technical reports. This work serves as a source book of information and as an educational technical reference for practicing scientists and engineers, as well as for students. - Describes the currently used and potential techniques for the recovery of valuable resources from mineral and metallurgical wastes - Discusses the applications to specific kinds of wastes with examples from current practices, as well as eht economics of the processes - Presents recent and emerging technologies of potentials in metal recycling and by-product utilization
The Proceedings focus primarily on alloys used in the iron and steel industry. Operating papers discuss the production of stainless steel from nickel ore by combining the Krupp-Renn with the BOF process, the production of ferro-nickel by a novel electric furnace process and chromium containing iron in the BOF, as well as furnace lining problems in ferro alloy smelting. A number of papers deal with various aspects of ferro-manganese production and ferro-molybdenum. The use of engineered carbide desulphurizer and the application of innovative cored wire in steel making is highlighted. Studies into the production of titanium silicide and the process leading to the recovery of vanadium from Suncor flyash is presented. Results of experimental work dealing with the preparation of nickel chromium alloys from Bird River chromite and nickel sulphide are discussed.
World-class scientists and engineers from more than six countries presented thirty-five papers on topics such as magnesium casting technology, metal matrix composites, mathematical modelling, solidification and reduction of light metals. Metal matrix composites are an important class of advanced industrial materials and significant advances have been achieved recently on the fabrication and characterization of their microstructures and mechanical properties.
This book contains 25 papers taken from proceedings of the Thirtieth Annual Conference of Metallurgists, the first to be organized by the Corrosion Science Section of the Metallurgical Society of CIM. The keynote paper, Environmental Definition, presented by Dr. Roger Staehle, sets the tone for the volume with a focus on maintaining reliable performance by controlling corrosion. In the subsequent papers presented here, topics discussed include corrosion protection and histories, water mains, inhibitors, and expert systems and data handling.
This volume provides in-depth coverage of environmental pollution sources, waste characteristics, control technologies, management strategies, facility innovations, process alternatives, costs, case histories, effluent standards, and future trends in waste treatment processes. It delineates methodologies, technologies, and the regional and global effects of important pollution control practices. It focuses on specific industrial and manufacturing wastes and their remediation. Topics include: heavy metals, electronics, chemical, and textile manufacturing.
WEEE Recycling: Research, Development, and Policies covers policies, research, development, and challenges in recycling of waste electrical and electronic equipment (WEEE). The book introduces WEEE management and then covers the environmental, economic, and societal applications of e-waste recycling, focusing on the technical challenges to designing efficient and sustainable recycling processes—including physical separation, pyrometallurgical, and hydrometallurgical processes. The development of processes for recovering strategic and critical metals from urban mining is a priority for many countries, especially those having few available ores mining. - Describes the two metallurgical processes—hydro- and pyro-metallurgy—and their application in recycling of metals - Provides a life cycle analysis in the WEEE recycling of metals - Outlines how to determine economic parameters in the recycling of waste metals - Discusses the socio economic and environmental implication of metal recycling
‘Waste’ is generally identified as goods or material that are perceived to be mostly valueless. However, objects that are perceived to be waste based on consumers’ object valuation can be redefined to create value. This requires a multitude of efforts using different strategies in waste prevention and management. This book is an edited collection of various chemical approaches used for valorization of solid wastes, particularly, waste electrical and electronic equipment, plastic waste, and agro-residue waste, that provide research insights into the concept "waste-to-energy". Covering a variety of interdisciplinary topics on waste treatment and resource recovery makes the book one for all that serves as an excellent reading material for engineers, science scholars, entrepreneurs, and organizations who are working in the field of waste management.