Key critical minerals such as rare earth elements are required to deliver new materials and technologies related to the green energy transition. The growth across the sector, especially for EVs, wind and solar energy and battery storage, is metal-intensive. With this background, demand for critical minerals is forecast to explode.
The International Energy Agency predicts that growth in demand for selected minerals for clean energy technologies between 2020-40, will see increases of 13x to 42x for lithium, 8x to 25x for graphite, 6x to 21x for cobalt, 7x to 19x for nickel, 3x to 8x for manganese, and 3x to 7x for rare earth elements .
Europe, in particular, is on a timer to deliver a sustainable, local supply of critical minerals to ensure that it does not suffer from rising geo-political tensions and demand constraints and achieve its ambitious 2050 Net Zero target.
Accordingly, EGT’s initial projects were strategically acquired to provide potential future supply options to the European battery market. Rare earth elements are used extensively across green energy applications from solar panels to wind turbines and EVs as well to high-tech appliances/communication devices and robotics, while graphite is used in multiple applications and importantly represents 50% by weight of the material of a lithium-ion battery.
