| CPC B09B 3/35 (2022.01) [B09B 3/38 (2022.01); B09B 3/40 (2022.01); C10B 47/40 (2013.01); C10B 53/00 (2013.01); H01M 10/54 (2013.01); B09B 2101/16 (2022.01)] | 8 Claims |
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1. A vacuum cracking method for power batteries, comprising the following steps:
(1) feeding waste power batteries from a feed hopper into a roller press for rolling treatment to obtain a crushed material;
(2) transporting the crushed material to a cracking unit through a first sealing unit for preheating, then heating and cracking the crushed material under an inert atmosphere or vacuum to obtain cracked gas, solid cracked products and non-crackable products; wherein, the cracking is gradient cracking with gradient temperatures of 350-450° C., 450-550° C. and 550-650° C. and a cracking time of 0.2-5 h; and
(3) transporting the solid cracked products and the non-crackable products to a pyrolysis unit through a second sealing unit for pyrolysis under aerobic atmosphere to obtain pyrolysis gas and non-pyrolysis products, wherein the pyrolysis gas is mainly composed of carbon dioxide and water vapor, and the said non-pyrolysis products are mainly cathode material powder, anode material powder, copper powder, iron powder, aluminum powder and oxides of copper, iron and aluminum; wherein, a pyrolysis temperature is 400-600° C., a pyrolysis time is 0.5-5 h, and a pyrolysis pressure is atmospheric pressure; and
an apparatus for the vacuum cracking method for power batteries comprises a cylinder and further comprises following components arranged sequentially from top to bottom:
a rolling unit, arranged in the cylinder and comprising a plurality of pressure rollers arranged at intervals in a vertical direction and a fifth driving apparatus for driving rotation of the pressure rollers;
the first sealing unit, arranged in the cylinder;
the cracking unit, arranged in the cylinder and comprising a first heater, a first air inlet, a first air outlet and a pipeline, wherein the first heater is arranged outside the cylinder and heats the outer surface of the cylinder, and the pipeline is connected with the first heater and the first air outlet;
the second sealing unit, arranged in the cylinder;
the pyrolysis unit, arranged in the cylinder and comprising a second heater, a second air inlet, a second air outlet, a first stirring paddle and a first driving unit for driving rotation of the first stirring paddle, wherein the second heater is arranged outside the cylinder to make the second heater heat the outer surface of the cylinder, and the second heater is connected with the pipeline; and
a third sealing unit, arranged in the cylinder;
the second sealing unit is arranged between the cracking unit in the step (2) and the pyrolysis unit in the step (3);
the cracking unit further comprises a first screw arranged transversely, a second driving unit, a barrel body, a propeller, a third driving unit and a first bottom plate; the second driving unit is used for driving the first screw to rotate, the third driving unit is used for driving the propeller to rotate, the barrel body is installed below the first screw, the first bottom plate is installed below the barrel body, and the propeller is located in the barrel body and installed on the first bottom plate; the diameter of the barrel body is smaller than that of the cylinder, an opening of the barrel body faces downward, and a clearance space is formed between the opening of the barrel body and the first bottom plate; and a spindle of the propeller is hollow, where the cracked material falls onto the second sealing unit through the hollow portion of the spindle.
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