This advanced system integrates automation, intelligence, and environmental protection, mainly using a sophisticated process combining “mechanical physical crushing and sorting” and “wet metallurgical purification”. The workflow first ensures safety through precise discharge, and then enters the crushing and crushing process to separate the entire battery cell. Afterwards, fine sorting techniques such as wind separation, screening, magnetic separation, etc. are used to efficiently separate different components such as positive and negative electrode material fragments, membranes, and shells.
The core wet smelting process focuses on the valuable positive electrode black powder (rich in valuable metals such as cobalt, lithium, nickel, manganese, etc.). Through chemical reactions such as leaching, extraction, and precipitation, these precious metals are extracted in the form of high-purity lithium carbonate, cobalt sulfate, etc., and become high-quality raw materials for manufacturing new batteries, achieving a perfect transformation from “urban mines” to green resources.
Modern lithium battery recycling equipment not only has high metal recovery rate and purity, but also pays more attention to environmental protection control throughout the entire process. It is equipped with complete waste gas and wastewater treatment systems to prevent secondary pollution. It is not only a necessary means to protect the environment and eliminate hidden dangers, but also a powerful engine to leverage the billion dollar recycling market and promote the closed-loop green development of the new energy industry. Investing in lithium battery recycling and processing equipment is investing in a more sustainable future.
