An apparatus is provided for detaching substrate components such as electronic components mounted on a substrate. The apparatus has a screw blade roller having a screw blade attached to a rotary shaft of the screw blade roller, wherein the apparatus causes the screw blade roller to come into contact with the electronic components mounted on the substrate and detaches the electronic components while the screw blade roller rotates. In the apparatus, two or more screw blades are arranged, and the winding direction of the screw blade(s) in one side of the screw blade roller is opposite to the winding direction of the screw blade(s) in the other side of the screw blade roller. Also, the screw blade roller is placed at a front side of the substrate where many components are typically mounted. A feed roller supporting a rear side of the substrate is placed at the rear side of the substrate.

A method of recovering an electrode material of the present disclosure comprises: providing an electrode laminate roll in which an electrode laminate is wound, wherein the electrode laminate includes a current collector foil and an electrode material laminated on at least one surface of the current collector foil, unwinding the electrode laminate from the electrode laminate roll and transporting the electrode laminate in the longitudinal direction, and spraying dry ice particles onto the electrode laminate during transport and crushing the electrode material to separate the electrode material from the current collector foil.

A discharging mechanism of a medical waste sterilization processing apparatus includes a central processing module, a waste processing module, a sterilization module, a monitoring module, a protection module, and a discharge module. The waste processing module and the sterilization module are communicatively connected to the central processing module, the sterilization module is connected to the waste processing module for sterilizing the waste processing module; the monitoring module is provided at the connection of the sterilization module and the waste processing module and is communicatively connected to the central processing module; the protection module is provided in the waste processing module and communicating with the central processing module; the discharge module is connected to the waste processing module and the protection module for discharging processed medical waste. The apparatus has an emergency treatment function to cope with a leakage situation, thereby improving its safety coefficient.

A device for treating uranium tailings with microorganism is provided and includes a treatment container, a spray water distribution assembly, a microbial incubator and a first pump. The water is transported from the microbial incubator to the spray water distribution assembly through the first pump, allowing the microorganisms to enter the interior of the uranium tailings in the treatment container. After treatment is completed, the water is collected by the water collection cylinder and sent back to the microbial incubator for recovery, so as to reduce the waste of microorganisms. The even distribution of horizontal spray pipes can evenly spray water containing microorganisms on the uranium tailings in the treatment container, which makes the distribution of microorganisms in the uranium tailings more uniform and can prevent inadequate treatment and improve the treatment efficiency of microorganisms on uranium tailings.

A method for recycling a solar panel that is to be implemented by a solar panel recycling system is provided. The solar panel recycling system includes a measuring equipment, a removal equipment, and a control unit. The solar panel includes a cover layer and a base layer. The method includes steps of: the measuring equipment measuring a first height of the cover layer and a second height of the base layer; the control unit obtaining a first parameter based on the second height, obtaining a second parameter based on the first height; the control unit controlling the removal equipment, according to the first parameter, to physically remove a portion of the solar panel to obtain a main body remainder; and the control unit controlling the removal equipment, according to the second parameter, to physically remove a portion of the main body remainder to obtain a cover remainder.

A method of preparing an injection slurry for the sequestration of battery recycling waste includes contacting at least one battery recycling waste stream with an optional liquid, thereby forming a slurry, screening the slurry thereby forming a screened slurry, conditioning the screened slurry thereby forming a conditioned slurry, and determining whether a threshold injection criterion of the conditioned slurry has been met. The threshold injection criterion has been met, an injection slurry is thereby formed. A method of sequestering battery waste includes introducing an injection slurry including battery recycling waste into a subsurface structure at a depth of at least 500 m.

A method of preparing an injection slurry for the sequestration of battery recycling waste includes contacting at least one battery recycling waste stream with an optional liquid, thereby forming a slurry, screening the slurry thereby forming a screened slurry, conditioning the screened slurry thereby forming a conditioned slurry, and determining whether a threshold injection criterion of the conditioned slurry has been met. The threshold injection criterion has been met, an injection slurry is thereby formed. A method of sequestering battery waste includes introducing an injection slurry including battery recycling waste into a subsurface structure at a depth of at least 500 m.

A recycling apparatus is composed of a high-pressure water generating device, generating high-pressure water, and a jet nozzle that is connected to the high-pressure water generating device and spouts the high-pressure water toward a solar panel. The jet nozzle spouts the high-pressure water toward a back surface of the solar panel to remove a layer of the solar panel until a cover glass included in the solar panel.

A cartridge includes an absorber to retain a liquid, a tank including an opening and an absorber chamber to hold the absorber, a lid member joined to the opening of the tank and including an air communication port communicating with atmosphere, and a partition member arranged between the lid member located inside the absorber chamber. The lid member includes a first protrusion to protrude toward the partition member, and the first protrusion is formed to surround the air communication port. The partition member includes a groove to be connected to the absorber chamber and a second protrusion to face the first protrusion. A communication path communicating with the air communication port is formed between the first protrusion and the second protrusion. In other words, it has the potential to contribute to the achievement of a sustainable society, such as a decarbonized society/circular society.

A cartridge includes an absorber to retain a liquid, a tank including an opening and an absorber chamber to hold the absorber, a lid member joined to the opening of the tank and including an air communication port communicating with atmosphere, and a partition member arranged between the lid member located inside the absorber chamber. The lid member includes a first protrusion to protrude toward the partition member, and the first protrusion is formed to surround the air communication port. The partition member includes a groove to be connected to the absorber chamber and a second protrusion to face the first protrusion. A communication path communicating with the air communication port is formed between the first protrusion and the second protrusion. In other words, it has the potential to contribute to the achievement of a sustainable society, such as a decarbonized society/circular society.