Waste Lithium-ion battery breaking and separation recycling system

The waste lithium-ion battery are mainly from the electrical vehicles, like the two wheels or the four wheels. The lithium battery generally has two types LiFePO4 as the anode and LiNi0.3Co0.3Mn0.3O2.

Our machine can process the lithium-ion LiFePO4 as the anode and LiNi0.3Co0.3Mn0.3O2. battery. The layout like the below:

1. To break the batteries pack to separate and check the core is qualified or not. The battery pack will dispatch the shell, elements, aluminum and copper.
2. The unqualified electric core will be crushed and separated. The crsher will be in the air device protection. The raw material will be anaerobic thermolysis. There will be a waste gas burner to make the exhausted air reach the discharged standard.
3. The next steps is to separate with the air blow or the water power to separate the cathode and anode powder and the copper and aluminum and the pile head, and the shell scraps.

Waste lithium-ion battery pack breaking lines adopts manual work and high level of automation.

After breaking, crushing, separation and other continuous process, we could get the diaphragm, shell, copper foil, aluminum foil, anode & cathode powder and other products.

The process is based on market demand, resource regeneration and benefit maximization. Fully efficient recovery of single lithium batteries, leftover bits of materials can be achieved.

The all discharge is standard after the waste water and off-gas are treated.

The ecnomical output data:

The technical parameter and consumption of the lithium-ion battery recycling line

Features:

1. With on-line oxygen content and temperature inspection, visual monitoring, PLC and charger etc, it intergrate the centrol interlock control. It reaches the CT4 explosion-proof. It is with high safty protection.
2. As it is with electricity to crush, it can process the LiFePO4 as the anode and LiNi0.3Co0.3Mn0.3O2 battery and other types batteries with high compatibility. Apart from it, its structure shear tooth can process large capacity. Further more the final scraps are loose and become flakes which are easy to recycle. Finally the crusher is safe and solve the salt water long discharge time and water polution.
3. The high yield of the cathod and anode powder. After the thermolysis and water power separation, the yield of cathod and anode power is about >98%(quality >98%), while the air blow separarion reaches 97%(quality >97%). The cathod powder aluminum content is <0.35%.
4. The high yield recycling of the copper and aluminum. After the color sorter and photoelectric detection and sorting, the final quality of the copper and aluminum is about >99%.
5. Environmental protection. The raw material in and out the machine is airtight. Also it is with anaerobic thermolysis, air and dust collecting system. We will strictly control the electrolyte and discharge. The air burner and purification use the specific technology wet defluorination. The execution HJ1186-2021 discharge standard.