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The world needs practical energy intensity solutions
As the global population grows and resource pressures intensify, the need for practical solutions to reduce energy consumption and carbon intensity has never been more urgent.
Introducing African Rainbow Metal Technologies (ARMeT)
ARMeT is at the forefront of this endeavor, having developed and readied for commercialization a portfolio of groundbreaking technologies.
Our innovations will not only provide the green metals essential for the energy and infrastructure demands of tomorrow but will also dramatically lower energy intensity and carbon emissions.
Our first portfolio of game-changing technologies
SmeltDirect
SmeltDirect
SmeltDirect
SmeltDirect employs a unique reduction process for the production of ferroalloys, making it the first of its kind globally.
This breakthrough results in a 70% reduction in electrical energy consumption and up to 70% less carbon emissions compared to traditional smelting methods around the world today.
SmeltDirect can be used to produce f
SmeltDirect employs a unique reduction process for the production of ferroalloys, making it the first of its kind globally.
This breakthrough results in a 70% reduction in electrical energy consumption and up to 70% less carbon emissions compared to traditional smelting methods around the world today.
SmeltDirect can be used to produce ferrochrome, ferromanganese and pig iron at the bottom of the global cost curves. These metals are critical inputs to green steel manufacturing.
MnSO4
SmeltDirect
SmeltDirect
High-purity manganese sulphate (MnSO4) is a critical input to the manufacturing of EV and grid-scale batteries.
MnSO4 plays a vital role in enhancing the longevity, range and stability of EV batteries, thereby extending their lifecycle and further contributing to energy efficiency.
What sets our technology apart is its ability to produce m
High-purity manganese sulphate (MnSO4) is a critical input to the manufacturing of EV and grid-scale batteries.
MnSO4 plays a vital role in enhancing the longevity, range and stability of EV batteries, thereby extending their lifecycle and further contributing to energy efficiency.
What sets our technology apart is its ability to produce manganese sulphate from waste materials and low-grade ores, tapping into readily available resources while leveraging the principles of the circular economy.
ChlorLeach
SmeltDirect
ChlorLeach
Traditional leaching methods extract the primary metal from ores, often leaving other valuable elements to be discarded as waste.
ChlorLeach, however, extracts all valuable metals, minimizes ore waste and recycles chemical reagents which has a significant positive impact on the environment.
ChlorLeach can be applied to copper, nickel, and
Traditional leaching methods extract the primary metal from ores, often leaving other valuable elements to be discarded as waste.
ChlorLeach, however, extracts all valuable metals, minimizes ore waste and recycles chemical reagents which has a significant positive impact on the environment.
ChlorLeach can be applied to copper, nickel, and vanadium ores for full value extraction. As an example, the ChlorLeach technology can extract vanadium pentoxide from the processing of vanadium ore.
We are seeking investors and partners
We are seeking investors and partners who share our vision of developing and deploying transformative technologies that will power humanity while significantly reducing energy intensity and carbon emissions.