Electrification
Visualizing China’s Dominance in Battery Manufacturing (2022-2027P)
Visualizing China’s Dominance in Battery Manufacturing
With the world gearing up for the electric vehicle era, battery manufacturing has become a priority for many nations, including the United States.
However, having entered the race for batteries early, China is far and away in the lead.
Using the data and projections behind BloombergNEF’s lithium-ion supply chain rankings, this infographic visualizes battery manufacturing capacity by country in 2022 and 2027p, highlighting the extent of China’s battery dominance.
Battery Manufacturing Capacity by Country in 2022
In 2022, China had more battery production capacity than the rest of the world combined.
Rank | Country | 2022 Battery Cell Manufacturing Capacity, GWh | % of Total |
---|---|---|---|
#1 | 🇨🇳 China | 893 | 77% |
#2 | 🇵🇱 Poland | 73 | 6% |
#3 | 🇺🇸 U.S. | 70 | 6% |
#4 | 🇭🇺 Hungary | 38 | 3% |
#5 | 🇩🇪 Germany | 31 | 3% |
#6 | 🇸🇪 Sweden | 16 | 1% |
#7 | 🇰🇷 South Korea | 15 | 1% |
#8 | 🇯🇵 Japan | 12 | 1% |
#9 | 🇫🇷 France | 6 | 1% |
#10 | 🇮🇳 India | 3 | 0.2% |
🌍 Other | 7 | 1% | |
Total | 1,163 | 100% |
With nearly 900 gigawatt-hours of manufacturing capacity or 77% of the global total, China is home to six of the world’s 10 biggest battery makers. Behind China’s battery dominance is its vertical integration across the rest of the EV supply chain, from mining the metals to producing the EVs. It’s also the largest EV market, accounting for 52% of global sales in 2021.
Poland ranks second with less than one-tenth of China’s capacity. In addition, it hosts LG Energy Solution’s Wroclaw gigafactory, the largest of its kind in Europe and one of the largest in the world. Overall, European countries (including non-EU members) made up just 14% of global battery manufacturing capacity in 2022.
Although it lives in China’s shadow when it comes to batteries, the U.S. is also among the world’s lithium-ion powerhouses. As of 2022, it had eight major operational battery factories, concentrated in the Midwest and the South.
China’s Near-Monopoly Continues Through 2027
Global lithium-ion manufacturing capacity is projected to increase eightfold in the next five years. Here are the top 10 countries by projected battery production capacity in 2027:
Rank | Country | 2027P Battery Cell Manufacturing Capacity, GWh | % of Total |
---|---|---|---|
#1 | 🇨🇳 China | 6,197 | 69% |
#2 | 🇺🇸 U.S. | 908 | 10% |
#3 | 🇩🇪 Germany | 503 | 6% |
#4 | 🇭🇺 Hungary | 194 | 2% |
#5 | 🇸🇪 Sweden | 135 | 2% |
#6 | 🇵🇱 Poland | 112 | 1% |
#7 | 🇨🇦 Canada | 106 | 1% |
#8 | 🇪🇸 Spain | 98 | 1% |
#9 | 🇫🇷 France | 89 | 1% |
#10 | 🇲🇽 Mexico | 80 | 1% |
🌍 Other | 523 | 6% | |
Total | 8,945 | 100% |
China’s well-established advantage is set to continue through 2027, with 69% of the world’s battery manufacturing capacity.
Meanwhile, the U.S. is projected to increase its capacity by more than 10-fold in the next five years. EV tax credits in the Inflation Reduction Act are likely to incentivize battery manufacturing by rewarding EVs made with domestic materials. Alongside Ford and General Motors, Asian companies including Toyota, SK Innovation, and LG Energy Solution have all announced investments in U.S. battery manufacturing in recent months.
Europe will host six of the projected top 10 countries for battery production in 2027. Europe’s current and future battery plants come from a mix of domestic and foreign firms, including Germany’s Volkswagen, China’s CATL, and South Korea’s SK Innovation.
Can Countries Cut Ties With China?
Regardless of the growth in North America and Europe, China’s dominance is unmatched.
Battery manufacturing is just one piece of the puzzle, albeit a major one. Most of the parts and metals that make up a battery—like battery-grade lithium, electrolytes, separators, cathodes, and anodes—are primarily made in China.
Therefore, combating China’s dominance will be expensive. According to Bloomberg, the U.S. and Europe will have to invest $87 billion and $102 billion, respectively, to meet domestic battery demand with fully local supply chains by 2030.
Electrification
White Gold: Mapping U.S. Lithium Mines
In this graphic, Visual Capitalist partnerered with EnergyX to explore the size and location of U.S. lithium mines.
White Gold: Mapping U.S. Lithium Mines
The U.S. doubled imports of lithium-ion batteries for the third consecutive year in 2022, and with EV demand growing yearly, U.S. lithium mines must ramp up production or rely on other nations for their supply of refined lithium.
To determine if the domestic U.S. lithium opportunity can meet demand, we partnered with EnergyX to determine how much lithium sits within U.S. borders.
U.S. Lithium Projects
The most crucial measure of a lithium mine’s potential is the quantity that can be extracted from the source.
For each lithium resource, the potential volume of lithium carbonate equivalent (LCE) was calculated with a ratio of one metric ton of lithium producing 5.32 metric tons of LCE. Cumulatively, existing U.S. lithium projects contain 94.8 million metric tons of LCE.
Rank | Project Name | LCE, million metric tons (est.) |
---|---|---|
1 | McDermitt Caldera | 21.5 |
2 | Thacker Pass | 19.1 |
3 | Tonopah Flats | 18.0 |
4 | TLC Lithium | 10.7 |
5 | Clayton Valley (Century Lithium) | 6.3 |
6 | Zeus Lithium | 6.3 |
7 | Rhyolite Ridge | 3.4 |
8 | Arkansas Smackover (Phase 1A) | 2.8 |
9 | Basin Project | 2.2 |
10 | McGee Deposit | 2.1 |
11 | Arkansas Smackover (South West) | 1.8 |
12 | Clayton Valley (Lithium-X, Pure Energy) | 0.8 |
13 | Big Sandy | 0.3 |
14 | Imperial Valley/Salton Sea | 0.3 |
U.S. Lithium Opportunities, By State
U.S. lithium projects mainly exist in western states, with comparatively minor opportunities in central or eastern states.
State | LCE, million metric tons (est.) |
---|---|
Nevada | 88.2 |
Arkansas | 4.6 |
Arizona | 2.5 |
California | 0.3 |
Currently, the U.S. is sitting on a wealth of lithium that it is underutilizing. For context, in 2022, the U.S. only produced about 5,000 metric tons of LCE and imported a projected 19,000 metric tons of LCE, showing that the demand for the mineral is healthy.
The Next Gold Rush?
U.S. lithium companies have the opportunity to become global leaders in lithium production and accelerate the transition to sustainable energy sources. This is particularly important as the demand for lithium is increasing every year.
EnergyX is on a mission to meet U.S. lithium demands using groundbreaking technology that can extract 300% more lithium from a source than traditional methods.
You can take advantage of this opportunity by investing in EnergyX and joining other significant players like GM in becoming a shareholder.
Electrification
Will Direct Lithium Extraction Disrupt the $90B Lithium Market?
Visual Capitalist and EnergyX explore how direct lithium extraction could disrupt the $90B lithium industry.
Will Direct Lithium Extraction Disrupt the $90B Lithium Market?
Current lithium extraction and refinement methods are outdated, often harmful to the environment, and ultimately inefficient. So much so that by 2030, lithium demand will outstrip supply by a projected 1.42 million metric tons. But there is a solution: Direct lithium extraction (DLE).
For this graphic, we partnered with EnergyX to try to understand how DLE could help meet global lithium demands and change an industry that is critical to the clean energy transition.
The Lithium Problem
Lithium is crucial to many renewable energy technologies because it is this element that allows EV batteries to react. In fact, it’s so important that projections show the lithium industry growing from $22.2B in 2023 to nearly $90B by 2030.
But even with this incredible growth, as you can see from the table, refined lithium production will need to increase 86.5% over and above current projections.
2022 (million metric tons) | 2030P (million metric tons) | |
---|---|---|
Lithium Carbonate Demand | 0.46 | 1.21 |
Lithium Hydroxide Demand | 0.18 | 1.54 |
Lithium Metal Demand | 0 | 0.22 |
Lithium Mineral Demand | 0.07 | 0.09 |
Total Demand | 0.71 | 3.06 |
Total Supply | 0.75 | 1.64 |
The Solution: Direct Lithium Extraction
DLE is a process that uses a combination of solvent extraction, membranes, or adsorbents to extract and then refine lithium directly from its source. LiTASTM, the proprietary DLE technology developed by EnergyX, can recover an incredible 300% more lithium per ton than existing processes, making it the perfect tool to help meet lithium demands.
Additionally, LiTASTM can refine lithium at the lowest cost per unit volume directly from brine, an essential step in meeting tomorrow’s lithium demand and manufacturing next-generation batteries, while significantly reducing the footprint left by lithium mining.
Hard Rock Mining | Underground Reservoirs | Direct Lithium Extraction | |
---|---|---|---|
Direct CO2 Emissions | 15,000 kg | 5,000 kg | 3.5 kg |
Water Use | 170 m3 | 469 m3 | 34-94 m3 |
Lithium Recovery Rate | 58% | 30-40% | 90% |
Land Use | 464 m2 | 3124 m2 | 0.14 m2 |
Process Time | Variable | 18 months | 1-2 days |
Providing the World with Lithium
DLE promises to disrupt the outdated lithium industry by improving lithium recovery rates and slashing emissions, helping the world meet the energy demands of tomorrow’s electric vehicles.
EnergyX is on a mission to become a worldwide leader in the sustainable energy transition using groundbreaking direct lithium extraction technology. Don’t miss your chance to join companies like GM and invest in EnergyX to transform the future of renewable energy.
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