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Although most strategic metal reserves are unlikely to run out over the coming decades the perception of scarcity of certain minerals and metals may lead to increased speculation and volatility in price and supply. Strategically important metals are vital to advanced manufacturing, low-carbon technologies and other growing industries and the Government should provide reliable information on potential resource risks in a coordinated and coherent way. The UK also exports large quantities of scrap metal and waste electrical and electronic equipment (WEEE), often to developing countries. This metal not only is a potential resource for the UK but it is also an example of the UK exporting its environmental problems elsewhere. There are also concerns about the illegal export of WEEE, which is often labelled as second hand equipment for re-use, and calls for safeguards to be put in place. Despite a rate of 90% (by weight) metal recycling in the UK, it is of great concern that some strategic metals are likely to be lost in the 10% not being recycled. The report recommends: Improving existing legislation to ensure companies implement requirements on reporting non-financial information, such as human rights and health and safety issues; an evaluation by the Government of the potential for introducing similar legislation to that in the US whereby companies are required to produce detailed reports on 'conflict minerals' that they use. This report also brings the alleged activities of large dealers on the London Metals Exchange to the attention of the Office of Fair Trading. Finally, the report looks at domestic extraction and says planning regulations should not unnecessarily restrict the use of significant potential reserves and that domestic mining could alleviate risks associated with sourcing metals from external supply monopolies. In parallel the Government has to invest in research to ensure that future domestic mining has the least possible environmental impact
This report examines the role of rare earth metals and other materials in the clean energy economy. It was prepared by the U.S. Department of Energy (DoE) based on data collected and research performed during 2010. In the report, DoE describes plans to: (1) develop its first integrated research agenda addressing critical materials, building on three technical workshops convened by the DoE during November and December 2010; (2) strengthen its capacity for information-gathering on this topic; and (3) work closely with international partners, including Japan and Europe, to reduce vulnerability to supply disruptions and address critical material needs. Charts and tables. This is a print on demand report.
Committee Hearing No. 38. Continuation of hearings on strategic and critical materials.
The resources race is on. Powering our digital lives and green technologies are some of the Earth’s most precious metals — but they are running out. And what will happen when they do? The green-tech revolution has been lauded as the silver bullet to a new world. One that is at last free of oil, pollution, shortages, and cross-border tensions. Drawing on six years of research across a dozen countries, this book cuts across conventional green thinking to probe the hidden, dark side of green technology. By breaking free of fossil fuels, we are in fact setting ourselves up for a new dependence — on rare metals such as cobalt, gold, and palladium. They are essential to electric vehicles, wind turbines, solar panels, our smartphones, computers, tablets, and other everyday connected objects. China has captured the lion’s share of the rare metals industry, but consumers know very little about how they are mined and traded, or their environmental, economic, and geopolitical costs. The Rare Metals War is a vital exposé of the ticking time-bomb that lies beneath our new technological order. It uncovers the reality of our lavish and ambitious environmental quest that involves risks as formidable as those it seeks to resolve.
Within technical overview sections on such emerging areas as bioprocessing, bioconversion, biosolubilization, biosystems and biocleaning, this handsomely illustrated reference specifically surveys pioneering work in the genetic production of sulfatase enzymes for removing organic sulfur from coal; r
Recycling of waste from electrical and electronic equipment (WEEE) traditionally focuses on large quantities of waste materials such as plastics. However, some product groups in the WEEE contain hidden treasures in the form of critical metals. This project assesses the critical metals’ waste handling as part of five selected product groups, in the Nordic region. The environmental and economic benefits from the recycling of these metals currently and in the near future is quite substantial, mainly due to the presence of significant quantities of gold in the selected products.In order to contribute further to the circular economy concept, the Nordic countries should pay attention not only to quantitative but also to qualitative aspects of recycling, in order to capture recyclable materials that, although in small quantities, their recycling brings a high economic and environmental value.
Minerals are part of virtually every product we use. Common examples include copper used in electrical wiring and titanium used to make airplane frames and paint pigments. The Information Age has ushered in a number of new mineral uses in a number of products including cell phones (e.g., tantalum) and liquid crystal displays (e.g., indium). For some minerals, such as the platinum group metals used to make cataytic converters in cars, there is no substitute. If the supply of any given mineral were to become restricted, consumers and sectors of the U.S. economy could be significantly affected. Risks to minerals supplies can include a sudden increase in demand or the possibility that natural ores can be exhausted or become too difficult to extract. Minerals are more vulnerable to supply restrictions if they come from a limited number of mines, mining companies, or nations. Baseline information on minerals is currently collected at the federal level, but no established methodology has existed to identify potentially critical minerals. This book develops such a methodology and suggests an enhanced federal initiative to collect and analyze the additional data needed to support this type of tool.