Tag Archives: rare earths India

Economic Consequences of Falling Asleep on Wheel: the Geopolitics of Energy Transition

American officials see Africa as helping to solve two problems. The first is a global shortfall in the minerals that will be needed if the world is to meet its climate goals.The second problem, at least for the West, is China’s outsized influence on supply chains. China refines 68% of the world’s nickel, 40% of copper, 59% of lithium and 73% of cobalt, according to a report in July by the Brookings Institution, an American think-tank. “China has had free rein for 15 years while the rest of the world was sleeping,” says Brian Menell, chief executive of TechMet, a minerals firm.

America views cobalt, which is used in batteries, as a cautionary tale. In Congo, the source of about 70% of global production, Chinese entities owned or had stakes in 15 of 19 cobalt-producing mines as of 2020. America’s decision to allow a US firm to sell one of Congo’s largest copper-cobalt mines to a Chinese one in 2020 is seen in Washington as an enormous act of stupidity. It is little comfort that battery-makers are trying to use less cobalt, in part because of concerns about operating in Congo. “We cannot allow China to become an OPEC of one in critical minerals,” says an American official, referring to the oil cartel.

It is possible to identify three strands in America’s approach. The first is a multilateral effort involving Western allies. In June, Jose Fernandez, America’s under-secretary of state for economic growth, energy, and the environment, launched the Minerals Security Partnership, whose 13 members include all the G-7 countries and the EU. Many of these countries are also looking to secure more scarce rocks. Britain launched a “critical minerals strategy” in July 2022 and later this month the European Commission will propose a Critical Raw Materials Act.

A second strand in America’s approach involves its development agencies “de-risking” projects as they have done in, say, agriculture or the power sector. As well as the us Export-Import Bank, which offers trade-financing, there is the International Development Finance Corporation (DFC)... Another potential success is a memorandum of understanding signed by America, Congo and Zambia in January. America says it will help Africa’s two largest copper exporters do more than just sell the metal in its elemental state. Under it, America agreed to help the two African countries build supply chains to process their raw minerals into battery precursors for electric vehicles.

Excerpts from How America plans to break China’s grip on African minerals, Economist,  Mar. 4, 2023

Human and Environmental Costs of Low-Carbon Technologies

Substantial amounts of raw materials will be required to build new low-carbon energy devices and infrastructure.  Such materials include cobalt, copper, lithium, cadmium, and rare earth elements (REEs)—needed for technologies such as solar photovoltaics, batteries, electric vehicle (EV) motors, wind turbines, fuel cells, and nuclear reactors…  A majority of the world’s cobalt is mined in the Democratic Republic of Congo (DRC), a country struggling to recover from years of armed conflict…Owing to a lack of preventative strategies and measures such as drilling with water and proper exhaust ventilation, many cobalt miners have extremely high levels of toxic metals in their body and are at risk of developing respiratory illness, heart disease, or cancer.

In addition, mining frequently results in severe environmental impacts and community dislocation. Moreover, metal production itself is energy intensive and difficult to decarbonize. Mining for copper,and mining for lithium has been criticized in Chile for depleting local groundwater resources across the Atacama Desert, destroying fragile ecosystems, and converting meadows and lagoons into salt flats. The extraction, crushing, refining, and processing of cadmium can pose risks such as groundwater or food contamination or worker exposure to hazardous chemicals. REE extraction in China has resulted  threatens rural groundwater aquifers as well as rivers and streams.

Although large-scale mining is often economically efficient, it has limited employment potential, only set to worsen with the recent arrival of fully automated mines. Even where there is relative political stability and stricter regulatory regimes in place, there can still be serious environmental failures, as exemplified by the recent global rise in dam failures at settling ponds for mine tailings. The level of distrust of extractive industries has even led to countrywide moratoria on all new mining projects, such as in El Salvador and the Philippines.

Traditional labor-intensive mechanisms of mining that involve less mechanization are called artisanal and small-scale mining (ASM). Although ASM is not immune from poor governance or environmental harm, it provides livelihood potential for at least 40 million people worldwide…. It is also usually more strongly embedded in local and national economies than foreign-owned, large-scale mining, with a greater level of value retained and distributed within the country. Diversifying mineral supply chains to allow for greater coexistence of small- and large-scale operations is needed. Yet, efforts to incorporate artisanal miners into the formal economy have often resulted in a scarcity of permits awarded, exorbitant costs for miners to legalize their operations, and extremely lengthy and bureaucratic processes for registration….There needs to be a focus on policies that recognize ASM’s livelihood potential in areas of extreme poverty. The recent decision of the London Metals Exchange to have a policy of “nondiscrimination” toward ASM is a positive sign in this regard.

A great deal of attention has focused on fostering transparency and accountability of mineral mining by means of voluntary traceability or even “ethical minerals” schemes. International groups, including Amnesty International, the United Nations, and the Organisation for Economic Co-operation and Development, have all called on mining companies to ensure that supply chains are not sourced from mines that involve illegal labor and/or child labor.

Traceability schemes, however, may be impossible to fully enforce in practice and could, in the extreme, merely become an exercise in public relations rather than improved governance and outcomes for miners…. Paramount among these is an acknowledgment that traceability schemes offer a largely technical solution to profoundly political problems and that these political issues cannot be circumvented or ignored if meaningful solutions for workers are to be found. Traceability schemes ultimately will have value if the market and consumers trust their authenticity and there are few potential opportunities for leakage in the system…

Extended producer responsibility (EPR) is a framework that stipulates that producers are responsible for the entire lifespan of a product, including at the end of its usefulness. EPR would, in particular, shift responsibility for collecting the valuable resource streams and materials inside used electronics from users or waste managers to the companies that produce the devices. EPR holds producers responsible for their products at the end of their useful life and encourages durability, extended product lifetimes, and designs that are easy to reuse, repair, or recover materials from. A successful EPR program known as PV Cycle has been in place in Europe for photovoltaics for about a decade and has helped drive a new market in used photovoltaics that has seen 30,000 metric tons of material recycled.

Benjamin K. Sovacool et al., Sustainable minerals and metals for a low-carbon future, Science, Jan. 3, 2020