Scientists from the National University of Science and Technology MISIS (NUST MISIS) have presented technology for recycling lithium batteries for electric transport: electric buses, electric scooters, electric cars, etc. It represents a complete engineering cycle: from safe opening and determination of the amount of technogenic raw materials to be extracted and recycled to the introduction of processing lines.
Recycling lithium batteries will reduce their cost by about 30-40% and solve the problem of safe and environmentally friendly storage. The technology can be used for the electric transport development program in Moscow.
“There are more than 56 electrochemical systems produced by industry, and each of them today requires its own method of opening and extracting useful components, which should be not only effective but also safe,” says Ph.D, Professor, Director of the NUST MISIS Center engineering industrial technologies, Vadim Tarasov.
In the current market situation, the reuse of batteries or their disposal is becoming an increasingly urgent issue, because according to calculations by Bloomberg NEF, the global stock of electric vehicle batteries is expected to exceed 3.4 million units by 2025.
NUST MISIS specialists have developed a universal method of opening batteries, the resource of which has been fully drained: they use a cryogenic vacuum installation, which is their know-how and is protected by a patent.
“The technology makes it possible to safely extract lithium and manganese dioxide from storage batteries, including from highly explosive electrochemical systems, including lithium-thionyl chloride, lithium — fluorocarbon, and even lithium-nitric acid chemical power sources in future, without the risk of explosion, added Vadim Tarasov.
“The technology is a multi-stage chain that includes the extraction of battery cells, the production of stainless steel, nickel and titanium during leaching, and some separate chemical operations for the separation of lithium from solution. ”
As a result of the application of the technology, the following substances are obtained at the output: spent electrolyte, which is recycled, and valuable metals: steel, nickel, titanium and lithium.
The method allows us to integrate into existing technological chains at enterprises and does not require significant investments in re-equipment. According to the developers’ estimates, the technology can be introduced at the enterprises of the Moscow region already in 2021-2022.