Spec.
Full volume 25
Effective volume 20
Design pressure MPa 11.5
Design temperature 350
Working pressure MPa 9.8
Operating temperature 300
Motor power 750/dIICT4
Rotation speed rpm 20-750
Stirring form Double layer propulsion type
Heating method Jacketed external circulation
Material contact material S31603
Design life 10 years
Structure of lithium battery reactor
Lithium battery reactor generally includes the reactor body, rotation system, heating system, cooling system, vacuum system, control system and other parts.
1. Reactor body: The reactor is the main part of the equipment, generally made of stainless steel. There is a stirrer inside the reactor, which can mix the reaction and make the raw materials fully mixed and evenly reacted.
2. Rotating system: The rotating system is mainly composed of motor, reducer and other parts, which is used to control the rotating speed of the reactor.
3. Heating system: The heating system is composed of electric heaters, hot water and other parts, which is used to heat the reactor and heat the raw materials to a certain temperature for reaction.
4. Control system: The control system consists of PLC, touch screen and other parts, which are used to precisely control the temperature, rotation speed of the reactor.
Second, the principle of lithium battery reactor
The principle of lithium battery reactor is to mix and react the cathode and cathode materials with electrolyte to produce lithium ions, and then the lithium ions will flow through the electrolyte to generate electricity.
Lithium battery cathode materials generally use lithium cobaltate, ternary materials, etc., and negative materials use graphite, graphene, etc. In the reaction kettle, the cathode and cathode materials are mixed and reacted with the electrolyte to generate lithium ions. The stirrer in the reaction kettle can carry out the mixing reaction to make the reaction more uniform. Subsequently, the reacted materials are separated and dried to make cathode and anode materials. Finally, the cathode and cathode materials and electrolyte are assembled into a battery to generate electricity through the flow of electrolyte.
