The catalyst material rotary furnace is mainly used for lithium battery positive electrode and silicon carbon negative electrode materials; Vanadium battery materials; High temperature synthesis and preparation of activated carbon; Activated carbon regeneration; Rare oxide; Catalyst materials; Magnetic materials; Powder metallurgy and other aspects. The heat source of the catalyst material rotary furnace comes from the resistance wire, and this rotary furnace adopts the bottom heating method of the cylinder. Therefore, the materials that need to be dried slip into the cylinder from the feed box and are pushed back by the spiral plate. Rotary furnaces are generally inclined, and materials flow to the rear under the action of gravity. At the same time, the materials are repeatedly reversed, carried to the upper end and continuously scattered, allowing the materials to exchange heat with the hot airflow inside the cylinder, thus achieving the purpose of drying
Structural characteristics of catalyst material rotary furnace:
Production method: intermittent
Furnace tube material: 304, 310S, 316L, nickel based alloy, titanium material, etc.
Furnace tube cross-sectional shape: circular
Usage temperature: determined based on furnace tube material
Heating method: electricity, natural gas Liquefied petroleum gas optional
Heating element: electric heating wire or burner
Refractory material: alumina polycrystalline fiber
Temperature control method: PID control
Catalyst material Rotary furnace characteristics:
Control method: touch screen PLC fully automatic
Temperature control accuracy: ± 1 ℃
Furnace inclination angle: -3~+25 degrees
Furnace tube speed: variable frequency adjustable
Gas: nitrogen, argon, oxygen, water vapor, hydrogen, acetylene Temperature control curve for ammonia decomposition gas, acetone, etc.
: 32 temperature curves can be prefabricated to meet different production needs
Feeding method: mobile spiral feeder
Storage method: inclined sealed discharge, no dust leakage
Technical parameters
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