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 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.

An item of equipment for separating bagged waste has a hopper, separation means for separating the waste, a scanner for classifying the waste, elements for opening the bagged waste, chutes with gates, classification means, an artificial vision camera, and a plurality of shredders. Thus, the shredders are able to shred the waste subsequent to the classification thereof by type of polymer and color, thanks to the artificial vision camera. The equipment enables the individual separation of the bagged waste for the subsequent treatment thereof, as frequently some bags of waste are adhered to others.

The present invention provides a solar panel recycling system includes: a frame dismantling machine for disassembling the outer frame of a solar panel; a crushing machine for placing the solar panel without the outer frame on the conveyor belt of the crushing machine, wherein the crushing machine includes a sensing unit for sensing the thickness of the glass on the solar panel; and a control unit for controlling the speed of the conveyor belt based on the thickness of the glass and simultaneously controlling the crushing unit to crush the glass on the solar panel, so as to achieve the effect of the separation between the glass and the solar cell module.

An automated battery disassembly system according to one embodiment includes: a workstation including a first worktable, a second worktable, a third worktable, and a discharging worktable; a discharging device; a robot device; a transfer device; and a controller electrically connected to the robot device and the transfer device. The controller is configured to control the robot device to: when a battery pack is disposed on the first worktable, separate an upper cover from the battery pack; when the battery pack is disposed on the discharging worktable, discharge the battery pack by connecting the battery pack to the discharging device; when the discharged battery pack is disposed on the second worktable, separate a battery module from the discharged battery pack; and when the battery module is disposed on the third worktable, separate battery cells from the battery module.

The present invention relates to an ultrasonic apparatus for decontaminating solid radioactive waste contaminated by radiation. The ultrasound apparatus for decontaminating solid radioactive waste includes: a container having a cylindrical shape; and a plurality of ultrasonic generators attached to an outer surface of a lower portion of the container and apart from each other at predetermined intervals, wherein in a state in which the container is filled with water, and the ultrasound apparatus decontaminates the solid radioactive waste by using ultrasonic waves generated from the plurality of ultrasonic generators, wherein the lower portion of the container has a downwardly-convex hemispherical shape, and the plurality of ultrasonic generators are attached to the hemispherical lower portion of the container such that ultrasonic waves generated from the plurality of ultrasonic generators may be focused on one point in the container.

The present invention relates to an ultrasonic apparatus for decontaminating solid radioactive waste contaminated by radiation. The ultrasound apparatus for decontaminating solid radioactive waste includes: a container having a cylindrical shape; and a plurality of ultrasonic generators attached to an outer surface of a lower portion of the container and apart from each other at predetermined intervals, wherein in a state in which the container is filled with water, and the ultrasound apparatus decontaminates the solid radioactive waste by using ultrasonic waves generated from the plurality of ultrasonic generators, wherein the lower portion of the container has a downwardly-convex hemispherical shape, and the plurality of ultrasonic generators are attached to the hemispherical lower portion of the container such that ultrasonic waves generated from the plurality of ultrasonic generators may be focused on one point in the container.

A method for regenerating asphalt and/or bitumen containing debris, which allows to recycle more bulk material and optionally binding agents.

A method for a reclamation of waste sand comprising bentonite binder, in which method it is subjected a thermal treatment to the waste sand for removing carbon and absorbed moisture from the bentonite binder in the waste sand, it is subjected a mechanical treatment to the thermally treated waste sand for mechanically separating the sand from the bentonite binder, and it is subjected a cooling effect to the sand separated from the bentonite binder. Additionally, it is introduced an apparatus for a reclamation of waste sand comprising bentonite binder, sand for a building industry product. a foundry sand, or a power plant boiler sand, and a use of reclaimed sand in a building industry product, in a foundry sand, or in a power plant boiler sand.

A removing device for removing a junction box from a solar cell module includes a carriage mechanism and a removing mechanism mounted on a frame mechanism. The removing mechanism includes a seat regulating module, an aligning and holding seat module and a removing seat which is moved by the seat regulating module toward a back plate of a solar panel unit, and a removing driving module which drives movement of the removing seat toward the junction box along the back plate of the solar panel unit so as to move a cutting edge of the removing sear into a juncture between the junction box and the back plate and remove the junction box. An automatic removing process is performed, and damage to the solar panel unit is prevented.