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This collection addresses new research and technology for increased efficiency, energy reduction, and waste minimization in mineral processing, extractive metallurgy, and recycling. Professor Patrick R. Taylor and his students have been studying these topics for the past 45 years. Chapters include new directions in: · Mineral Processing · Hydrometallurgy · Pyrometallurgy · Electrometallurgy · Metals and E waste recycling · Waste minimization (including by-product recovery) · Innovations in metallurgical engineering education and curriculum development
This collection addresses new research and technology for increased efficiency, energy reduction, and waste minimization in mineral processing, extractive metallurgy, and recycling. Professor Patrick R. Taylor and his students have been studying these topics for the past 45 years. Chapters include new directions in: · Mineral Processing · Hydrometallurgy · Pyrometallurgy · Electrometallurgy · Metals and E waste recycling · Waste minimization (including by-product recovery) · Innovations in metallurgical engineering education and curriculum development
In recent years, global metallurgical industries have experienced fast and prosperous growth. High-temperature metallurgical technology is the backbone to support the technical, environmental, and economical needs for this growth. This collection features contributions covering the advancements and developments of new high-temperature metallurgical technologies and their applications to the areas of processing of minerals; extraction of metals; preparation of refractory and ceramic materials; sintering and synthesis of fine particles; treatment and recycling of slag and wastes; and saving of energy and protection of environment. The volume will have a broad impact on the academics and professionals serving the metallurgical industries around the world.
Metal recycling is a complex business that is becoming increasingly difficult! Recycling started long ago, when people realized that it was more resource- and cost-efficient than just throwing away the resources and starting all over again. In this report, we discuss how to increase metal-recycling rates - and thus resource efficiency - from both quantity and quality viewpoints. The discussion is based on data about recycling input, and the technological infrastructure and worldwide economic realities of recycling. Decision-makers set increasingly ambitious targets for recycling, but far too much valuable metal today is lost because of the imperfect collection of end-of-life (EoL) products, improper practices, or structural deficiencies within the recycling chain, which hinder achieving our goals of high resource efficiency and resource security, and of better recycling rates.
This book addresses recycling technologies for many of the valuable and scarce materials from spent lithium-ion batteries. A successful transition to electric mobility will result in large volumes of these. The book discusses engineering issues in the entire process chain from disassembly over mechanical conditioning to chemical treatment. A framework for environmental and economic evaluation is presented and recommendations for researchers as well as for potential operators are derived.
Increasingly stringent environmental regulations and industry adoption of waste minimization guidelines have thus, stimulated the need for the development of recycling and reuse options for metal related waste. This book, therefore, gives an overview of the waste generation, recycle and reuse along the mining, beneficiation, extraction, manufacturing and post-consumer value chain. This book reviews current status and future trends in the recycling and reuse of mineral and metal waste and also details the policy and legislation regarding the waste management, health and environmental impacts in the mining, beneficiation, metal extraction and manufacturing processes. This book is a useful reference for engineers and researchers in industry, policymakers and legislators in governance, and academics on the current status and future trends in the recycling and reuse of mineral and metal waste. Some of the key features of the book are as follows: Holistic approach to waste generation, recycling and reuse along the minerals and metals extraction. Detailed overview of metallurgical waste generation. Practical examples with complete flow sheets, techniques and interventions on waste management. Integrates the technical issues related to efficient resources utilization with the policy and regulatory framework. Novel approach to addressing future commodity shortages.
Environmental Impact of Mining and Mineral Processing: Management, Monitoring, and Auditing Strategies covers all the aspects related to mining and the environment, including environmental assessment at the early planning stages, environmental management during mine operation, and the identification of major impacts. Technologies for the treatment of mining, mineral processing, and metallurgical wastes are also covered, along with environmental management of mining wastes, including disposal options and the treatment of mining effluents. - Presents a systematic approach for environmental assessment of mining and mineral processing projects - Provides expert advice for the implementation of environmental management systems that are unique to the mining industry - Effectively addresses a number of environmental challenges, including air quality, water quality, acid mine drainage, and land and economic impacts - Explains the latest in environmental monitoring and control systems to limit the environmental impact of mining and processing operations
This collection presents papers from a symposium on extraction of rare metals as well as rare extraction processing techniques used in metal production. It covers metals essential for critical modern technologies including electronics, electric motors, generators, energy storage systems, and specialty alloys. ​Rare metals are the main building blocks of many emerging critical technologies and have been receiving significant attention in recent years. Much research in academia and industry is devoted to finding novel techniques to extract critical and rare metals from primary and secondary sources. The technologies that rely on critical metals are dominating the world, and finding a way to extract and supply them effectively is highly desirable and beneficial. Rapid development of these technologies entails fast advancement of the resource and processing industry for their building materials. Authors from academia and industry exchange knowledge on developing, operating, and advancing extractive and processing technologies. Contributions cover rare-earth elements (magnets, catalysts, phosphors, and others), energy storage materials (lithium, cobalt, vanadium, graphite), alloy elements (scandium, niobium, titanium), and materials for electronics (gallium, germanium, indium, gold, silver). The contributions also cover various processing techniques in mineral beneficiation, hydrometallurgy, separation and purification, pyrometallurgy, electrometallurgy, supercritical fluid extraction, and recycling (batteries, magnets, electrical and electronic equipment).
Methane is a potent greenhouse gas, a relatively clean burning fossil fuel, but also a renewable biofuel when biologically produced from waste treatment plants. Most (~70%) of the global methane emission comes from methanogenic archaea, namely methanogens that produce methane from simple substrates such as H2/CO2, formate, acetate, methanol, and other methylated compounds. Methanogens are found across all corners of the earth, including but not limited to wetlands, animals and humans, rice fields, landfills, sewage, ocean, termites, and hydrothermal vents. Their extensive adaptations to such a wide range of habitats predict a cross-boundary significance of methanogens in many areas such as the environment, energy, agriculture, biotechnology, and human and animal health. The goal of this Research Topic is to offer a forum that highlights the cross-boundary significance of methanogens by bringing together methanogen research from diverse settings to one place. This cross-boundary significance is currently underappreciated but imperative to collectively understanding and helping to solve some of the biggest and most urgent challenges humanity is facing such as global warming, food and energy insecurity, pollution, and disease. As a more potent and shorter-lived greenhouse gas than CO2, methane has moved to the center stage in our efforts in rapidly combating climate change. Presumably, methanogens and their associated microbes may have been forced into a positive feedback loop to fuel the sharp rise of methane in recent years. On the other hand, methanogens are considered keystone species in the ecosystem, which are vital to the stability of the natural biome therein. However, the roles of methanogens as keystone species across their habitats are underexplored. Moreover, the role of methanogens in human and animal intestinal microbiomes have been reconsidered with evidence for links to disease and impact on nutrition. Last but not the least, methanogens are emerging as a cell factory model for green manufacturing, because of their abilities to convert CO2 to valuable biochemicals. Further efforts in the bioengineering of methanogens have the potential to expand their commercial application from waste treatment to biomanufacturing. We welcome both basic and translational studies relevant to methanogens from any setting. Studies with a focus on methanogens are highly encouraged, and manuscripts having methanogens as a significant component are also welcome. All studies should emphasize and envisage their implications in understanding and/or solving one or more challenges humanity is facing. To encourage submissions from multiple disciplines, this Research Topic is cross-listed with a number of Frontiers journals and sections. Manuscripts in the forms of Original Research, Review (including systematic and mini review), Methods, Hypothesis and Theory, and Perspectives are all welcome. Manuscript summary submissions are highly encouraged but all manuscripts submitted prior to the manuscript submission deadline will receive full consideration. This Research Topic is dedicated to Dr. William Barny Whitman, Emeritus Professor of Microbiology at the University of Georgia, Athens, GA. His 40+ years (and still counting) of productive research in methanogens, roseobacter, and other prokaryotes have contributed to and will continue to inspire new discoveries in the cross-boundary significance of both archaea and bacteria – the unseen majority. COI Statement: S.K.-M.R.R. is co-founder of Arkeon GmbH. M.P. is a consultant for Bausch Health, Ferring Pharmaceuticals Inc., Salvo Health, and Vivante Health Inc.