Special Edition: "The Covert Conflict on Lithium: An Examination of the Other Hidden War" News round-up, June 8, 2023
"The Covert Conflict on Lithium: An Examination of the Other Hidden War"
It is imperative to emphasize that a covert competition for supremacy in the lithium market is underway, with the Chinese government consolidating its authority over global extraction. (1) Of significant importance, China has commenced lithium concentration operations in Zimbabwe, Africa, by establishing a facility that includes a mine in proximity. Furthermore, Chinese corporations are engaged in similar initiatives in Namibia, Mali, and the Democratic Republic of Congo (2) Tianqi Lithium, a Chinese corporation, has made a substantial investment in the largest producer of lithium mineral concentrate globally, located in Australia. The investment being made carries significant implications for the global lithium market, highlighting the growing importance of lithium as a critical resource for the energy sector. The following statement elucidates the ownership framework of a joint venture within the lithium mining sector. Notably, Ganfeng Lithium, a Chinese enterprise, exercises control over a joint venture that possesses a 50% interest in the second-largest lithium ore mining site in Western Australia. (3)
The South American region, commonly called the "lithium triangle," comprising Argentina, Bolivia, and Chile, has garnered the interest of Chinese stakeholders owing to its substantial concentration of economically feasible lithium reserves, which constitute almost 50% of the global total (4). This region's significance in the global lithium market has made it a focal point for various international players, including China, seeking to secure a reliable supply of this critical resource. It is worth noting that the European Union is heavily dependent on this region to meet its lithium requirements (5)
Most Read…
Beaming Solar Energy From Space Gets a Step Closer
Scientists are testing how satellites could collect power from the sun and send clean electricity to Earth—and getting encouraging results
In this age of wireless everything, engineers are trying to perform the ultimate act of cord-cutting: generating abundant solar electricity in space and beaming it to the ground, no power cables required.
Spiegel By Corey S. Powell | Photographs by Francesca Forquet for The Wall Street Journal, June 7, 2023
The Global Competition for Raw Materials, Europe at Risk of Losing the Lithium Race
Without lithium, copper and rare earths, our mobile phones, electric cars and wind turbines wouldn't function. Currently we are almost exclusively dependent on China for these critical raw materials. But there might be a way out.
Spiegel By Simon Book, Michael Brächer, Christoph Giesen, Simon Hage, Claus Hecking, Martin Hesse, Stefan Schultz and Gerald Traufetter, June 8, 2023
UK says it spent nearly 40 billion pounds on power subsidies
According to the business ministry, businesses and other organizations have received around 5.5 billion pounds through the Energy Bill Relief Scheme. Additionally, almost 1 billion pounds have been allocated to other programmes. However, the cost of these subsidies has contributed to the increase in Britain's public borrowing since their launch in October.
Reuters, June 8, 2023
Taiwan activates air defence as China aircraft enter zone
The government of Taiwan has reported Chinese air force flights near Taiwan, a territory claimed by China and known as "The Land of Chiang Kai-shek." This raises concerns about security risks and territorial disputes between the two nations.
Reuters, June 8, 2023 / Editing by Germán & Co
How can strategic investment achieve both economic growth and social progress?… What is the role of renewable energy and battery storage in achieving the goals of the low-carbon economy?…
Cooperate with objective and ethical thinking…
Beaming Solar Energy From Space Gets a Step Closer
Scientists are testing how satellites could collect power from the sun and send clean electricity to Earth—and getting encouraging results
In this age of wireless everything, engineers are trying to perform the ultimate act of cord-cutting: generating abundant solar electricity in space and beaming it to the ground, no power cables required.
Spiegel By Corey S. Powell | Photographs by Francesca Forquet for The Wall Street Journal, June 7, 2023
More than half a century ago, an article titled “Power from the Sun” in the journal Science spelled out the rationale for this high-wireless act. Above Earth’s atmosphere, sunshine is never interrupted by cloudy skies, and there is no day or night. Satellites collecting solar power could theoretically operate around the clock, dispatching emission-free electricity wherever it’s needed, anywhere on Earth. But the concept was long dismissed as too complicated and expensive.
Now it is finally being put to the test.
On Jan. 3, a team at Caltech launched the Space Solar Power Demonstrator, an orbiting suite of experiments to test key components for space-based solar power. It switched on in May and has begun sending back encouraging early results. “People are realizing this isn’t just science fiction,” says Ali Hajimiri, an electrical engineer at Caltech and one of the project leaders on the demonstrator. “There may be a pathway to make this reality.”
Other related efforts are also gaining momentum. The European Space Agency is drawing up a blueprint for a possible European space-solar network. The China Academy of Space Technology has announced plans for a power-beaming satellite prototype by 2028. And military labs in the U.S. are experimenting with tech that could someday transmit space-based power to remote bases or combat zones.
One of the central challenges for all of these projects is finding a safe, efficient and reliable way to transmit gigawatts of power to the ground and then convert it into electricity that people can use. Microwave beams are the favored technique, in large part because they can travel freely through the air regardless of weather. While similar to those used in microwave ovens, these beams would be nowhere near as concentrated. A recent study by the European Commission found that the incoming microwave beams would be too feeble and diffuse to harm human health. Some involved in these projects say further thorough research will be needed for public acceptance, though.
How to Beam Power From Space
Engineers have long hoped to harvest clean, affordable solar power in orbit and send it down to Earth. A group at Caltech is now testing ultra-light structures and flexible electronics that could finally make the idea practical. Here's how it would work:
“It’s basically the same technology as wireless charging for your cellphone,” says Chris Rodenbeck, head of the Advanced Projects Group at the U.S. Naval Research Laboratory in Washington, D.C. In 2021, Rodenbeck and his collaborators sent a 1.6-kilowatt beam of microwaves (also similar to those used for Wi-Fi signals, but at a higher frequency) from a transmitter to a receiver two-thirds of a mile away at the U.S. Army Research Field in Blossom Point, Md. The researchers said they used microwaves because they travel freely through the air, unaffected by weather. Nobody has yet pulled off an equivalent feat from orbit, however.
The NRL has been experimenting with beaming technology in space using a device the size of a bread loaf called the photovoltaic radiofrequency antenna module, or PRAM. It flew aboard the U.S. Air Force’s X-37B space plane and effectively converted sunshine into microwaves—but didn’t actually direct the waves anywhere—before returning to Earth last year. Rodenbeck is working on a follow-on project, Arachne, run by the Air Force Research Laboratory in Dayton, Ohio. Arachne is designed to tackle the more challenging task of transmitting power from orbit to a station on the ground. It is scheduled for a 2025 launch.
The Caltech team is attempting to accelerate this process by testing multiple, potentially lower-cost technologies at once, with funding from billionaire real-estate developer and philanthropist Donald Bren, chairman and owner of Irvine Company. Many years ago, he was captivated by an article in Popular Science magazine about harvesting solar energy in space. “I’ve dreamed about how space-based solar power could solve some of humanity’s most urgent challenges,” he says. His donation of more than $100 million to Caltech over the past decade supported the creation of the Space Solar Power Demonstrator, the suite of technology tests that launched in January attached to a commercial satellite.
One of the key components on the Caltech demonstrator is a prototype power-beamer called Maple, short for Microwave Array for Power-transfer Low-orbit Experiment. It has generated microwaves and steered them from one part of the satellite to another, lighting up two test LEDs, Hajimiri says. The distance traveled is small, about a foot, but it is the first documented demonstration of power-beaming in space. The device also directed microwaves toward Earth, which were picked up by Caltech’s detectors on the ground.
Maple has a novel modular design that would combine a solar-energy collector and a transmitter into a single, self-contained unit. That approach could help address one of the most daunting obstacles to building solar-power satellites—their shocking size requirements. To match the output of a midsize power plant on Earth, a solar satellite would need at least 1 square mile of light-collecting area.
The Global Competition for Raw MaterialsEurope at Risk of Losing the Lithium Race
Without lithium, copper and rare earths, our mobile phones, electric cars and wind turbines wouldn't function. Currently we are almost exclusively dependent on China for these critical raw materials. But there might be a way out.
Spiegel By Simon Book, Michael Brächer, Christoph Giesen, Simon Hage, Claus Hecking, Martin Hesse, Stefan Schultz and Gerald Traufetter, June 8, 2023
Europe’s future smells like scorched metal. Sparks are flying, workers wearing protective goggles cut with unwavering focus through metal pipes. Here in the industrial park in Bitterfeld-Wolfen, just north of Leipzig, where AGFA once developed the first functioning color film in the world, a new German industrial miracle is taking shape: Europe’s first lithium refinery.
The man hoping to realize the project is named Dr. Heinz C. Schimmelbusch, a 78-year-old known lovingly as "Schibu” in the world of raw materials. Schimmelbusch is far from being an unknown: He is the former director of the legendary German industrial conglomerate Metallgesellschaft, once one of the country’s largest. Born in Vienna, he has bright blue eyes, carefully parted hair and a larger-than-life ego to match his reputation. The executive, whose career had actually seemed to come to an end 30 years ago, wants to build a final monument to himself with this latest project. And already, his refinery is being viewed as a key piece in Germany’s economic puzzle going forward.
Schibu’s company, called Advanced Metallurgical Group, or AMG for short, hopes to begin producing lithium hydroxide this year. It is the stuff that ecological dreams are made of, a metallic salt that is necessary for car batteries, wind turbines and solar facilities, the key to electromobility. The United Nations calls it "a pillar for a fossil fuel-free economy.” Approximately 10 kilograms of the stuff can be found in the battery of an electric SUV, such as BMW’s iX.
Soon, Schimmelbusch is hoping to refine 20,000 tons of lithium hydroxide per year in Bitterfeld, enough for half a million electric cars. Within just a few years, the plan calls for the total to increase to 100,000 tons annually. The raw material necessary is to initially come from Schimmelbusch’s own mine in Brazil, but might one day even be sourced from mines in Germany itself. The executive is currently investing hundreds of millions of euros to make that happen. "We have to act now. Otherwise, we’ll run out of time,” he says.
Reliable supplies of the raw materials necessary for the economy of the future is currently one of the most important challenges facing the global economy. Whether at the industry’s premier trade fare Hannover Messe, in European Parliament, at company headquarters or in lobbying discussion in Berlin, everyone sees the accelerating exploitation of metals, ores and minerals as inescapable for the salvation of the planet – for clean energy and the transportation revolution. Millions of jobs, fighting climate change, Germany’s future geopolitical independence: All that hinges on the availability of lithium, cobalt, nickel and graphite – and on rare earths like neodymium and praseodymium.
"The race for the raw materials is also a race for our future prosperity,” says Peter Buchholz, head of the German Mineral Resources Agency (DERA), a state-run informational and consultancy platform.
Were the global competition for raw materials a horse race, the odds would currently favor China. No country is home to larger mineral deposits and no country has been more active, more successful and more ruthless in exploiting them. The European Union Intelligence and Situation Center (INTCEN) recently warned that Beijing could seek to take advantage of its market position on batteries and solar cells. The European Center of Excellence for Countering Hybrid Threats (Hybrid CoE) has noted that China is increasingly turning to "economic coercion” as an instrument of geopolitical power.
As if a reminder were needed, Beijing recently targeted the American semiconductor manufacturer Micron, issuing a warning against using the company’s chips. Officially, the Chinese cited security concerns, but experts believe it was a response to U.S. sanctions.
Buchholz describes the current situation as a "systemic competition,” and says it is long past time for German companies to finally invest significant amounts of money into guaranteeing future supplies of raw materials. Instead of simply buying what they need on global markets, Buchholz says they must invest in exploitation and refinement, including buying ownership stakes in mines. "The best projects are currently being divvied up,” Buchholz says, and competitors from China are already in position. If the Germans don’t hurry, the DERA analyst says, the best deposits will all be gone.
The fact that Schimmelbusch, approaching his 80th birthday, has had to jump into the breach says a lot about the failure of German industry. For many years, senior German executives showed little interest in the issue of critical natural resources, with vital corporations like Siemens, BMW, Daimler, Thyssen and BASF largely unconcerned. The world, says one chemical industry executive, "was free, the markets were open, and prices were low.” Why bother devoting valuable capital to company-owned raw materials storage facilities? Why take the risk of exploiting resources oneself? Why take direct responsibility for environmental degradation and for provoking the anger of locals? Indeed, why submit to all that stress when the model of just-in-time purchases, mostly from China, was working just fine? "It was a huge advantage for use,” the chemical industry executive says. "We didn’t have to deal with the environmental mess and were able to receive quality products at reasonable prices.”
Periodic price fluctuations did little to change that approach – particularly since things were going rather well for the Germans, aside from a few shortages that were likely provoked by Beijing.
But the supply-chain breakdowns produced by the pandemic, the Russian invasion of Ukraine and China’s more aggressive stance toward Taiwan have combined to cast doubt on age-old assumptions that raw materials will always be accessible from somewhere. China has become far too irreplaceable, far too powerful as a supplier.
The European Commission now admits that Europe is "heavily dependent” on raw materials from China, leading to a "vulnerability” in the EU economy. Depending on the material, a maximum of 7 percent of European demand is met by production facilities in Europe. In other words, in the best case, 93 percent of demand for the vitally important metals must be met through imports – and 100 percent in the worst case.
And the West’s vulnerability is growing every day. According to the European Commission, the demand for lithium for batteries alone will increase to 90 times the current level by 2050, and the demand for cobalt will increase to 15 times the current level. The U.S. government already expects interest in such critical materials to increase by up to 600 percent by 2030.
Europe's demand for rare earth elements like neodymium is expected to be five to six times higher by the end of the decade than it was at the beginning, Brussels believes.
…“China may not be the world’s leader when it comes to extracting neodymium …
… but it does process the most globally … / … and is thus the main supplier to the EU.
Concerns have become so great that raw material supplies were a major focus of the recent G-7 summit in Japan. Though the heads of state and government were unable to agree on the establishment of a "Critical Raw Materials Club,” as the European Commission had recently proposed, a five-point plan was devised for the identification and exploitation of sources for critical metals and minerals.
"We want to change the situation,” German Chancellor Olaf Scholz said recently at the opening of the Hannover Messe. But how?
China – Domination Everywhere
Our destination is Bayan Obo, a once sacred place, the name of which means "rich mountain.” These days, though, the area has little to do with the spirituality of untouched nature. Rather, it is home to the largest rare earths mine in the world. The minerals have been exploited here, on the outermost fringe of China just before the Mongolian border, since 1958, and the site is home to at least a third of the world’s reserves. It is also one of very few mines in the world where all 17 of the coveted metals can be found in the rock belowground. Between 70 and 80 percent of the amount produced by China comes from here – equating to more than half of global production.
The drive to the mine leads along well-constructed roads through hills and past fields where sheep and cattle are grazing. But the landscape grows more austere the closer one gets to the mine. Mining companies have completely dug up the region, felling all the trees. Cranes and earthmovers are everywhere, as are the cars belong to state security. First three, then four and finally five dark-colored VW sedans with tinted windows begin following our taxi.
The road is blocked precisely 10 kilometers from the mine, with a police van parked across the traffic lanes. A uniformed officer blows vigorously into his whistle before then yelling so loud that it is audible through the closed windows: "Turn around!”
There is a second approach to the mine as well, requiring a detour of several hours through the scraggy landscape. Shortly before sundown, the second roadblock comes into view. Again, an official state security vehicle is present. And again, all cars are sent away.
"The Middle East has oil, China has rare earths."
Deng Xiaoping, Chinese leader, 1992
There are many reasons for why China is making its best-known export into a state secret. The raw materials business is rather filthy. Dynamite and heavy machinery is used to extract elements out of the earth or rock that have been there for millions of years. It must be blasted to bits, pulled to the surface and washed, a process that requires vast amounts of energy and water – and sometimes also releases radioactivity.
In Western countries, strict environmental regulations govern such operations, sometimes making them unprofitable. In China, by contrast, market leadership is the goal, and the environment is a secondary consideration, if it even enters the equation at all.
In Baotou, located 150 kilometers south of the mine, the material pulled out of the ground is processed, with the waste produced by the refinery dumped into the lake next door. Officials have built a two-meter high, concrete wall – several kilometers long – around the cesspool and nobody is allowed close to the water. Immersion would likely be deadly.
Baotou is essentially the global capital of raw materials, and the lake has turned into a tailings pond for 40, perhaps even 50, industrial operations that have set up shop in the region to process the metals. They have names like China North Rare Earth, Baotou Jinmeng Rare Earth and Baotou Dapeng Metal. Hundreds of factory chimneys just into the sky, beneath which extremely toxic chemicals are used to separate the 17 coveted rare earths from each other. From the lake, the toxic soup seeps into the groundwater, and likely also into the nearby Yellow River, one of the most important waterways in China, the basin of which is home to more than 100 million people.
The cancer rate in towns located along the lakeshore is high. Almost every family here, say residents, has lost at least one member to cancer. The tap water that comes out of the faucet in a restaurant next to the lake shimmers, with metal residuals visible to the naked eye. Locals say that they used to boil the water and then drink it, and some elderly residents still do so, though younger people who live in the region have come to understand that doing so does not lessen the amount of metal residue the water contains. Factories have also pumped fluoride-laden water into the lake, which can make bones brittle and leads to abnormal teeth growth.
Of the 51 raw materials that the EU now categorizes as strategically important or critical for Europe's supply ...
... 24 are primarily extracted in China, which is also the main processor for 33 out of the 51 raw materials. For heavy rare earth elements, which are essential for numerous modern technologies, there is currently not a single processing facility outside of China.
It was Deng Xiaoping, who led China from 1978 to 1989, who launched China on a path to becoming the world leader in raw materials. "The Middle East has oil, China has rare earths,” he said in 1992. The difference, however, is that while the OPEC cartel occasionally adjusts production to keep prices high, China’s rare-earths lever is incomparably larger, allowing the country to exert political influence around the world.
When Beijing 13 years ago suddenly reduced rare earth exports by 72 percent, it triggered an earthquake on the raw materials markets. For years, China had practiced aggressive price dumping to run its competitors into the ground, forcing mines in the U.S., Australia and Africa to close because they were unable to keep up with the low prices the Chinese were charging. But in the second half of 2010, the country’s leadership ordered that instead of the normal export total of 28,000 tons, only half be sent abroad. Officially due to environmental concerns.
The German government, then under the leadership of Christian Democrat Angela Merkel in coalition with the business-friendly Free Democrats, produced its first raw materials strategy in response – which was never really implemented, in part because China quickly returned to its more liberal export policy. But the lesson from that episode should have been: China won’t shy away from leveraging its raw materials to promote its interests.
And the country’s goal of dominating the world market has long since expanded far beyond national borders…
Currently, Beijing is gaining dominance in global lithium extraction. A few weeks ago, a Chinese facility for lithium concentration with an attached mine began operations in Zimbabwe, Africa. Chinese companies are also involved in similar projects in Namibia, Mali and the Democratic Republic of Congo.
In Australia, the Chinese corporation Tianqi Lithium has invested in the world's largest producer of lithium mineral concentrates. And the second-largest lithium ore mining site in the world, located in Western Australia, is controlled by a joint venture in which the Chinese company Ganfeng Lithium holds a 50-percent stake.
The Chinese are almost hyperactive in South America's lithium triangle: Argentina, Bolivia and Chile. The countries are home to the greatest reserves of the raw material.
Almost 50 percent of the world's commercially exploitable reserves – and more than half of the deposits of this key metal discovered to date – are located in the salt flats of the Andes region and under the soil of these three countries. The EU covers its lithium demands almost exclusively from this region.
One of the few who is attempting to stand up to Beijing’s market domination is Schimmelbusch. Right in the middle of the verdant hills of the Brazilian state of Minas Gerais, among the coffee plantations and cattle grazing lands, is a 180-meter-deep crater. Bulldozers and excavators are digging up the earth, while forklifts are loading up gigantic trucks with plastic bags. They contain spodumene, a mineral ground down into a white powder – and one of the primary commodities from which lithium can be extracted.
Schimmelbusch’s decision to get into the lithium business, which is now responsible for the majority of his 300-million-euro pre-tax profits, was something of a fortuity. As he was flying above his tantalum mine in Brazil in a helicopter several years ago, he looked down, he recalls, "and everything was white.” The mine workers had thrown the white, spodumene ore onto waste heaps, tailings for which they had no use. At some point, he says, "up there on the waste heaps, I decided to get involved in lithium.”
In order to turn a profit, though, he needed help from China – and it came in the form of "Doctor Li,” as Schimmelbusch calls him. Li Nanping is head of General Lithium, one of the market giants from China. Schimmelbusch says that the company immediately bought the largely unprocessed blocks of lithium ore – "and thus took on the associated risk.”
Since 2018, the AMG mine has been producing 90,000 tons of spodumene per year, a total that will be boosted to 130,000 tons starting this summer. The trucks rumble some 20 kilometers across dusty, unpaved roads, bouncing through potholes to a highway. From there, they travel a bit more than 500 kilometers to an industrial port in the state of Rio de Janeiro, where the sacks are loaded onto ships and sent to Shanghai. Once in China, the spodumene is processed into a lithium compound.
That is the cheapest route. But Schimmelbusch’s clients like Mercedes are increasingly prepared to pay a bit more if it means greater supply security. As soon as Schimmelbusch’s facility in Bitterfeld is finished, the ore from Brazil will all be sent to Germany for processing, leaving China out of the equation.
U.S. – Standing Up to China
For now, U.S. President Joe Biden is still in a good mood. "I am impressed. Thank you for not canceling on us,” California Governor Gavin Newsom says into the camera. "Are you kidding me?” Biden fires back. "We don’t have much going on, you know, other than Russia and Ukraine.” It’s February 22, 2022, two days before Moscow’s invasion of Ukraine, and the president is hosting politicians and industry representatives for a virtual round table to discuss critical raw materials.
The issue is tops on Washington’s priority list. In order to build a truly strong economy, says Biden, "we need a future that’s made in America.” He says that he would like to see entire supply chains for numerous products brought back to the country, including the raw materials that go into them. Mobile phones, kitchen appliances, electric vehicles: "Without these minerals, they can’t function.”
To achieve that goal, Biden says it is necessary to invest taxpayer money in domestic industry, and during the virtual meeting, he announces the first such expenditure: The company MP Materials is to receive $35 million to build the first and only refinery for heavy rare earth elements in the U.S. "This is not anti-China … it’s pro-America.”
The border between California and Nevada is home to an austere landscape of red rock that makes up the Mojave National Preserve. Deep inside the park is Mountain Pass Mine. Aside from a few desert tortoises and stray campers, though, nobody is particularly disturbed by the din coming from the mine’s outsized machinery. Once or twice a week is "blast day” at Mountain Pass, when explosives are detonated in the red rock inside the crater. The chunks produced by the blasts are then brought to the surface by gigantic dump trucks and emptied into the crusher: Large boulders are broken up into smaller rocks, the rocks are turned into gravel and the gravel is ultimately pulverized into a powder. The mine is in operation around the clock, seven days a week.
The Mountain Pass mine has been producing rare earths for more than 70 years, but it has never been as active as it is now, says Matt Sloustcher, chief lobbyist for MP Minerals. Into the 1990s, the mine was the largest producer of rare earths in the world, says Sloustcher. But then, China took over the global industry. Now, says Sloustcher, it's time to begin taking it back.
As recently as 2015, just 6,000 tons of material per year was coming out of Mountain Pass. The mine operators only extracted those minerals that could be quickly and easily sold, with the stones being sent from the Port of Los Angeles to China for processing – never to be seen again.
Today, MP Minerals has boosted annual production almost eight-fold, increasing staff from eight to 550 and investing a billion dollars in order to bring the entire value chain back to the U.S. From mining to rare-earth refinement to magnet production, everything is to take place on the North American continent.
A finishing facility was built right next to the mine, producing highly purified light rare earth elements. The green and purple shimmering liquids are to be sent from here to Texas, where they will be transformed into the magnets required by every electric motor. Mountain Pass expects that by the end of the year, it will receive the required certification to process heavy rare earth elements at the site as well – making it the only such facility in the entire Western hemisphere.
MP Minerals is particularly proud of its "environmentally conscious” processes. The water used in processing, says Sloustcher, is recycled and reused. There are no polluted lakes of the kind seen in Baotou. The mine, says Ryan Corbett, the chief financial officer of MP Minerals, is proof that the valuable raw materials can be produced in the West as well. The company, he says, is able to earn money in a competitive market while adhering to Western values and laws in an environmental and sustainable fashion.
But the Americans are paying an extremely high price for their independence. Biden’s Inflation Reduction Act (IRA) comes at a cost of $500 billion. The program is designed to put the U.S. on the path toward a "green economy,” and to push China out wherever possible. If they want to benefit from tax relief, companies are required to procure their raw materials from domestic deposits or allied countries wherever possible.
One example is the $7,500 tax credit for electric vehicles, which came into effect in mid-April. It requires carmakers to source 40 percent of the critical minerals they need for their batteries either from the U.S. or from countries linked to the U.S. through a free-trade agreement. That level is to climb to 80 percent by 2027. Furthermore, half of battery components must be assembled in North America, a share that will rise to 100 percent by 2029.
"There is an incredible race currently underway for the best deposits around the world."
Jonathan Evans, CEO of Lithium Americas
Corporate America is responding. From General Electric to General Motors, large and small industrial companies in the U.S. are investing billions in mines, refineries and battery factories. New projects are under development across the continent for lithium, copper, nickel and rare earths. The raw materials industry is experiencing a regular gold rush. Since the IRA entered force, more than $60 billion have been invested in more than 130 projects. Automaker GM, for example, has reserved the majority of the production from MP Minerals for itself in addition to sinking $650 million into production as well, through an investment in Lithium Americas, located near Winnemucca, Nevada. For the next 10 years, GM will be purchasing the entirety of the relatively young company’s production, with an option for extending the deal by another five years.
There is an incredible race currently underway for the best deposits around the world, says the CEO of Lithium Americas, Jonathan Evans, who used to work for Bayer in Düsseldorf. Every carmaker currently needs lithium, he says, since they are all jumping into the electric vehicle production. The market, he says, is unbelievably "tight,” and prices are rising.
Separating from China, Evans believes, will mean five to 10 "bumpy years” for the West. But, he points out, it was no different with the interstate highway system in the U.S.: It took 35 years for President Dwight D. Eisenhower’s plan to become reality. Getting started in the important thing, he says, something that Europe needs to do quickly if it doesn't want to fall hopelessly behind. All the technology and mining know-how, he says, once came from the Old Continent. China then made it big. Now, he says, it's time to turn things around again.
Europe – The Blame Game
Germany's response to this impressive business savvy receives her guest in a slightly rundown office on the outskirts of Dresden. Franziska Lederer of the Helmholtz Institute for Resource Technology is hoping to help solve Germany's raw material problems – with the help of viruses. Between flasks and vials, crucibles and cans of powder, the scientist explains her process for extracting rare earths from old compact fluorescent lights. In a completely environmentally friendly way, without the use of chemicals.
To make that happen, Lederer uses the bacteriophage M13, a virus that exclusively infects bacteria – and, oddly enough, also likes metals. In Lederer's lab, the virus is currently devouring the rare earths lanthanum, cerium, terbium, europium and yttrium, which are in the luminescent powder of the discarded light bulbs.
The bacteriophages can be stapled onto microscopic magnets. Lederer uses them to "fish" the rare earths out of the luminescent powder in a procedure known as "biofishing." It's a method that also works for lithium and cobalt, which are found in old electric car batteries. The method can even be used to extract gallium, the metal from the service water of solar companies.
Mathematically, the potential is huge. By 2020, around 25,000 tons of old fluorescent powder had been collected in the European Union. Because it contains toxic mercury, it is stored as sulfide in old tunnels underground. It could be "easily procured in large quantities and exploited using biofishing," Lederer says. According to her calculations, just under 4,800 tons of rare earths could be recovered in this way – theoretically enough to supply Germany for years to come.
But the process still isn't ready for the market yet. And it's also expensive. Just over 10 percent of Germany's raw material requirements can currently be met through recycling. Overall, says Christoph Helbig, who models global material cycles at the University of Bayreuth, the circular economy is likely to be a similar tour de force to Germany's "Energiewende" transition to green energies. "It will take at least 10 to 20 years" before more than 50 percent of demand for lithium and rare earths can be met through recycling, he says.
Nevertheless, Lederer is certain of a broad coalition of supporters. No strategy paper from Berlin or Brussels and no gathering of ideas from industry to combat the raw materials crisis can get around the circular economy. Germany and Europe, the strategy papers state, have a good chance of becoming world leaders in recycling technology and of securing a degree of self-sufficiency, at least in the long term, through the reprocessing of electronic waste.
The fact that Germany is so keen on recycling has to do with a narrative that starts in schools. Germany, it is taught in this country, is poor in raw materials, but rich in bright minds. The country's exceptional engineers, avant-garde physicians and world-class chemists are what gave it its economic strength and environmental power – and not, for the last several years, the mineral resources of the Ruhr region, the Lausitz region or the Upper Rhine Plain.
In fact, this is only partly true. There are also reserves of lithium, rare earths and tin under Europe's soils. Sweden's state-owned mining company LKAB, for example, announced at the beginning of the year that it had discovered Europe's largest deposit of rare earths north of the Arctic Circle. In the Upper Rhine Plain, an Australian-German consortium has plans to filter lithium from underground thermal springs. And Schimmelbusch's AMG recently acquired a 25-percent stake in the so-called Zinnwald project on the German-Czech border. Lithium is also to be dredged there. So far, the European Commission has assumed that only 5 percent of the demand for critical raw materials can be met from domestic sources. However, the higher the price of raw materials becomes, the more attractive their exploration and extraction grows.
But even then, domestic mining will remain much more difficult and, most importantly, more expensive than importing for the foreseeable future. There is a lack of capital, at this point even a lack of know-how and a lack of companies that are willing to take risks themselves. Since former mine operator Preussag was transformed into the tourism-focused corporation TUI and the old metals company ceased operations, Germany no longer has a real raw materials multinational in the country. No big companies have been willing to take the risk because operations would be too dirty, too expensive and too unreliable.
Because regardless whether in Chile or eastern Germany, the risk of failure is immense in the raw materials business. It can take up to 10 years to develop a new deposit. That means that before a ton of metal or mineral arrives at the factories in Stuttgart, Wolfsburg or Munich, a decade of investments has to be made. All kinds of things can go wrong on the way: The deposits can prove to be smaller than expected. The political framework can change, global market prices can fall and, with them, the financing.
And then there's popular resistance. If the erection of a wind turbine or the construction of a power line is accompanied by decades of protests in many places, large-scale mining in Germany are likely to be even more unpopular. The same applies elsewhere in Europe, where important raw material treasures often lie under the very soils that are also valuable for tourism, possibly even appearing more valuable in the short term. Places like the Portugal's Algarve or Italy's Po Valley.
Instead of promoting greater acceptance, the industry simply ignored the problem. German carmakers long refused to accept that the era of the internal combustion engine was coming to an end and that in the era of e-mobility, completely different primary products and raw materials would suddenly determine success or failure. Only the pandemic, the Russian invasion of Ukraine and the geostrategic confrontation with China have made it clear to the auto bosses that they will be crushed in the marketplace if they don't gain control of the new key raw materials. "The energy transition has now given way to the materials transition," reads one report on raw materials from Brussels. According to a study by the German Institute for International and Security Affairs (SWP), the world will soon be more dependent on critical raw materials such as rare earths than it is on oil today.
And a horror scenario is already making the rounds: deindustrialization. In the future, the greatest value creation will take place in regions that are rich in raw materials, some automobile industry executives are warning. Trade agreements and raw materials partnerships are needed quickly to secure access to resources Mercedes CEO Ola Källenius recently said, expressing the urgency of the situation.
The industry is crying out for help from the government in Berlin. "The market is no longer functioning, and the shortages will increase," says Matthias Wachter, a raw materials expert at the German Federation of Industries (BDI). "We need political support."
In one paper, BDI's lobbyists seek to blame the German raw materials disaster not on their own members, but on politicians. In other places, BDI argues, there is "targeted government support" for the mining and processing of raw materials.
The German government isn't interested in shouldering the blame. Franziska Brantner, the parliamentary state secretary in the Economics Ministry responsible for raw materials, is astonished by the chutzpah of the corporations. Of course, China is the world's largest supplier of processed critical raw materials and rare earths, she says. "But that has nothing to do with the fact that these substances don't exist elsewhere."
Brantner has been tasked by her boss, German Economics Minister Robert Habeck, with reducing Germany's dependency on key materials. Her many travels on that mission have taken her to Latin America, the United States, Canada and Africa. And before Easter, she was in Australia.
A member of the Green Party, Brantner says China also owes its rise to a blend of thoughtlessness, specialization and the division of labor at German companies. "Many were only concerned about getting the cheapest price," says Brantner. And China, she says, has always offered that, thanks to low wages and state subsidies. If the business community is now calling for help, it shouldn't "be a matter of the state assuming all the risk, but of supporting the companies." Industry, she says, can't go by the principle of privatizing the profits while making taxpayers carry the risks.
Brantner likes to illustrate just how recklessly industry has relinquished control of the issue of raw materials by pointing to the example of gallium production in Germany. The mineral is essential for the semiconductor industry, and it can also be used in the manufacture of light-emitting diodes. Domestic production continued until 2015, the 43-year-old says. But the plant was no match for much cheaper Chinese production and was therefore abandoned.
In an attempt to ensure that history doesn't repeat itself, Brantner presented a paper at the beginning of the year outlining pathways to a sustainable and resilient supply of raw materials. She also believes that policymakers can do some of the work themselves by, for example, providing financial support for feasibility studies and geological investigations and accelerating processes. A commodity fund is also being discussed with which the state-owned KfW development bank could hedge the risks of exploration in a similar manner to Hermes export guarantees. Berlin is even considering differential contracts under which the German government would assume part of the higher costs associated with raw materials that are produced domestically, fairly and sustainably.
But it is first and foremost the business community that must step up. The European Commission has proposed that large corporations be subject to a kind of audit for particularly critical and strategic raw materials in order to identify their own vulnerability. Brantner also wants to encourage companies to stockpile more critical raw materials. So far, this hasn't been worthwhile for companies for tax reasons, because it requires space and also ties up capital. The latter problem could be mitigated if companies didn't have to pay import duties until the materials were actually processed.
German Finance Minister Christian Lindner would have to implement such a tax break, which companies are strongly pushing for. Lindner appears to be skeptical in light of Germany's tight budget situation, but particularly given that stockpiling can help with short-term supply chain disruptions, like when a ship gets stuck in the Suez Canal, but does nothing to end strategic dependencies.
For the time being, Brantner's only option is to push for government-level raw materials partnerships like the one Economics Minister Habeck recently concluded with Colombia. These partnership agreements promise the mining companies not only fair payment for the use of their raw materials, but also sustainable mining in accordance with German environmental and social standards. More importantly, though: a share of the value added.
It's a more humane counter-design to the neo-colonial style used by China. And an approach that might actually catch on. Chilean President Gabriel Boric recently announced that all private companies in the country wanting to mine lithium in the future must partner with the state in joint ventures. Chile, Boric said, simply cannot afford not to take advantage of its lithium deposits.
In the past, there had been little talk in Germany's raw materials strategy of the country truly being on level-footing with the countries doing the mining. But that's now set to change. With a focus on local value creation, increased sustainability and human rights, you would have a unique selling point, argues Viktoria Reisch of Germanwatch, an NGO promoting sustainability, climate action and global equity in Berlin. "Now it is a matter of linking that approach with the European raw materials strategy," she says.
So far, though, little headway has been made on the latter. It is true that the European Commission just presented its Critical Raw Materials Act (CRMA), with which it intends to tackle the industry's supply bottlenecks and respond to the American offensive. But the paper offers little by way of concrete measures. It doesn't include fixed quotas for the recycling of raw materials or the extraction of metals from domestic soil. Nor does it provide any timetable. "Many had hoped for considerably more," says a German government official.
So, What Comes Next?
On the edge of the city center in Essen, in building Q6 of Thyssenkrupp headquarters, Martin Stillger formulates an answer that many of his customers might not like to hear at all. Stillger presides over a seemingly endless raw materials empire at Thyssenkrupp Materials Services. If the industry is the junkie and China is the drug cartel, then Stillger is the dealer. The man has pretty much everything on offer that creation provides. Steel, stainless steel, aluminum. But also gases and rare earths, precisely the critical raw materials Europe so urgently needs. A quarter of a million customers worldwide buy 16 billion euros worth of goods each year from Stillger.
Of course, Stillger says, China is an important supplier for many products. Sometimes, it's the only one. Nevertheless, there are alternatives, and the pandemic, with all the distortions it brought, has even accelerated their development. The problem: Domestic metals, ores and primary products may be cleaner and safer, but they are also far more expensive.
For 15 years, Stillger steered the fortunes of a medium-sized mechanical engineering company that was once a pioneer in China. In other words, he knows the enemy – at least that's how he might put it. Stillger sees a need for a fundamental change – in the minds of management. The executive has identified a huge management failure on the part of domestic industry, saying that the very people who are now calling most loudly for help from politicians on the issue of raw materials are often the same ones who "always made the decision on the basis of cost alone" in the past. For decades, buyers have been "trained and incentivized to negotiating the lowest price," he says. Everyone thought: Peace and freedom are prevailing. So they bought from China, he says. "Now they are realizing that we're at a dead end and there is no way of turning around."
"We're at a dead end and there is no way of turning around."
Martin Stillger, CEO of Thyssenkrupp Materials Services
He argues that executives are needed "who can withstand the cycles of the commodities industry" and buy outside China even when "the price gap widens." Governments, Stillger says, should only step in and help where corporations are making an honest effort to become less dependent. Otherwise, everything would remain the same. The parallels to the gas and oil supply crunch following Russia's invasion of Ukraine, and the moves made to reduce reliance on Moscow, are clear. It's a principle Stillger calls: "Learning through pain."
In the small town of Zimmern ob Rottweil in Baden-Württemberg, people know what a learning curve of this sort feels like. Predicting growing demand early on, entrepreneur Wolfgang Schmutz entered into a joint venture in 2018 with Bolivian state-owned lithium company YLB to extract tens of thousands of tons of lithium brine from the famous Uyuni salt lake. Schmutz wanted to use it to supply the domestic auto industry. Even then, German Economics Minister Peter Altmaier of the center-right Christian Democratic Union (CDU) party traveled to the signing of the contract for the project, called ACISA.
But things started heading south from there. In the fall of 2019, Bolivian President Evo Morales scrapped the ACISA program, with Schmutz learning about it on the radio one morning. The Bolivians hadn't even informed him. The German government and the Baden-Württemberg state government in Stuttgart were just as surprised as Schmutz, and they were ultimately unable to find a solution. "It wasn't meant to be," he says, dourly. Schmutz has since shifted his focus back to mechanical and plant engineering.
The Economics Ministry in Berlin says the company got involved with the wrong partners. But it also seems clear that the South Americans would almost certainly have dealt differently with a multinational corporation like Mercedes-Benz or Siemens.
The project has since been given to another party. In January, a foreign consortium led by the CATL Group was awarded the contract by the Bolivian government. The treasure in the Uyuni salt lake will now be exploited for decades to come - by a Chinese, state-owned company.
Seaboard: pioneers in power generation in the country…
…“More than 32 years ago, back in January 1990, Seaboard began operations as the first independent power producer (IPP) in the Dominican Republic. They became pioneers in the electricity market by way of the commercial operations of Estrella del Norte, a 40MW floating power generation plant and the first of three built for Seaboard by Wärtsilä.
UK says it spent nearly 40 billion pounds on power subsidies
According to the business ministry, businesses and other organizations have received around 5.5 billion pounds through the Energy Bill Relief Scheme. Additionally, almost 1 billion pounds have been allocated to other programmes. However, the cost of these subsidies has contributed to the increase in Britain's public borrowing since their launch in October.
Reuters, June 8, 20232
LONDON, June 8 (Reuters) - Britain's government said on Thursday that it has paid almost 40 billion pounds ($50 billion) in energy subsidies since it began to help households and businesses cope with the surge in power bills after Russia's invasion of Ukraine.
Between the launch of the schemes in October and March, nearly 21 billion pounds was spent on the Energy Price Guarantee (EPG) programme that supports households with their bills, the government said.
A further 12 billion pounds was paid under the Energy Bills Support Scheme, which offered homes payments of 400 pounds towards their bills over the winter months.
Businesses and other organisations received about 5.5 billion pounds under the Energy Bill Relief Scheme and almost 1 billion pounds was spent on other programmes, the business ministry said.
The cost of the subsidies has helped to swell Britain's public borrowing since they were launched last October.
The Office for National Statistics has put the cost at 41.2 billion pounds in the financial year ending in March.
The EPG subsidies for households are due to end in July as regulated prices fall below the level of the cap. Support for businesses is scheduled to run until March 2024.
The energy ministry said the some of the funding for the energy subsidies would come from a so-called windfall tax on energy producers which was expected to raise almost 26 billion pounds by March 2028.
Taiwan activates air defence as China aircraft enter zone
The government of Taiwan has reported Chinese air force flights near Taiwan, a territory claimed by China and known as "The Land of Chiang Kai-shek." This raises concerns about security risks and territorial disputes between the two nations.
Reuters, June 8, 2023 / Editing by Germán & Co
Airplane is seen in front of Chinese and Taiwanese flags in this illustration, August 6, 2022. REUTERS/Dado Ruvic/Illustration
TAIPEI, June 8 (Reuters) - Taiwan activated its defence systems on Thursday after reporting 37 Chinese military aircraft flying into the island's air defence zone, some of which then flew into the western Pacific, in Beijing's latest mass air incursion.
China, which views democratically governed Taiwan as its own territory, has over the past three years regularly flown its air force into the skies near the island, though not into Taiwan's territorial air space.
Taiwan's defence ministry said that from 5 a.m. (2100 GMT on Wednesday) it had detected 37 Chinese air force planes, including J-11 and J-16 fighters as well as nuclear-capable H-6 bombers, flying into the southwestern corner of its air defence identification zone, or ADIZ.
The ADIZ is a broader area Taiwan monitors and patrols to give its forces more time to respond to threats.
Some of the Chinese aircraft flew to Taiwan's southeast and crossed into the western Pacific to perform "air surveillance and long distance navigation training", the ministry said in a statement.
Advertisement · Scroll to continue
Taiwan sent its aircraft and ships to keep watch and activated land-based missile systems, it added, using its standard wording for how it responds to such Chinese activity.
China's defence ministry did not immediately respond to a request for comment.
China completed a second phase of joint air patrols with Russia over the Western Pacific on Wednesday, following flights on the previous day over the Sea of Japan and East China Sea, prompting concern in Japan over its national security.
Japan's defence ministry said it scrambled a jet fighter on Thursday morning in response to a Chinese information-gathering aircraft Y-9 flying over the Pacific Ocean and east of Taiwan.
Japan also lodged a protest against China for its naval and coast guard vessels entering Japan's territorial waters along the country's southwest archipelago on Thursday, Tokyo's top spokesperson Hirokazu Matsuno told a press conference.
Advertisement · Scroll to continue
Laura Rosenberger, chair of the American Institute in Taiwan, which manages the unofficial relationship between Washington and Taipei, is visiting Taiwan this week.
On Monday, she told Taiwan media that the United States had an enduring interest in preserving stability in the Taiwan Strait and the United States would continue to arm the island, a source of constant friction in Sino-U.S. ties.
In April, China held war games around Taiwan following a trip to the United States by Taiwan President Tsai Ing-wen.
Taiwan's government rejects China's sovereignty claims and says only the island's people can decide their future.
Reporting by Ben Blanchard in Taipei; Additional reporting by Kantaro Komiya in Tokyo; Editing by Tom Hogue and Raju Gopalakrishnan