In certain embodiments, a system includes at least one optical sensor configured to capture one or more optical data associated with packaging of a waste product and a processor coupled to the at least one optical sensor. The processor may be configured to determine information about the waste product based on the optical data and send a signal corresponding to the information to one of a destination device and a controller based on the determined information.

The invention discloses a device for recycling waste tires, which includes a machine body. The upper end of the machine body is provided with an inlet with an upward opening on the right side of the body. The left wall of the inlet is connected with a chute. The chute is provided with A steel wire removal device, a crushing cavity is connected to the lower wall of the inlet, and a crushing device is fixed in the crushing cavity. A twisting cavity is provided in the left wall of the crushing cavity and below the chute. A fourth motor is fixed in the wall, and an eccentric wheel is dynamically connected to the lower end of the fourth motor. The invention can quickly and accurately pull out the steel wire layer in the tire and twist the broken rubber stuck on the steel wire, so that the steel wire and the tire are cleaned. Recyclable materials such as rubber are separated. At the same time, the tires that have been torn out of the steel wire are broken into small pieces of rubber, which is convenient for the next processing, which not only saves the company a lot of material costs, but also saves a lot of time costs and labor.

Provided are a reinforcing-fiber recovery reactor and a method of producing recycled reinforcing fibers capable of maintaining the shape and orientation of reinforcing fiber bundles when the reinforcing fibers are separated from a fiber-reinforced resin material by a solvent method.

Provided is a reinforcing-fiber recovery reactor used for recovering reinforcing fibers from a fiber-reinforced resin material by a solvent method, the reactor comprising: a reaction vessel that can accommodate the fiber-reinforced resin material and a solvent; and a fixing mechanism comprising a pressing member capable of pressing the fiber-reinforced resin material, the fixing mechanism being capable of fixing the accommodated fiber-reinforced resin material by pressing the fiber-reinforced resin material with the pressing member.

Example implementations include a system and method of using plastic from bodies of water and creating a floating platform by collecting plastic from a body of water, cleaning the collected plastic, melting and compacting the plastic, molding a plurality of hexagonal blocks from the compacted plastic, stacking the plurality of hexagonal blocks, wherein a system of springs and an energy storage device is provided between each of the plurality of hexagonal blocks, and coating the stacked blocks with a non-toxic material. Through the use of various onboard functionalities, energy may be generated to regulate temperature and provide electricity, oxygen may be supplied, and water may be purified.

In certain embodiments, a system includes at least one optical sensor configured to capture one or more optical data associated with packaging of a waste product and a processor coupled to the at least one optical sensor. The processor may be configured to determine information about the waste product based on the optical data and send a signal corresponding to the information to one of a destination device and a controller based on the determined information.

An apparatus for compacting waste objects includes a seat provided with a support assembly for supporting the waste object to be compacted; a push member being moveable inside the seat for compacting in use of the apparatus the waste object against an end wall of the seat; the support assembly including two support members that rotate away from each other for discharging the compacted object through an aperture. The support members can impede discharge of a compacted object of a specific type through the aperture to collect the compacted object of the specific type in a dedicated container. Protuberances can be applied to the push member and an end wall of the seat for producing depressions in the compacted object so that the compacted object does not lose the compacted condition once pressure applied by the push member is removed.

Example implementations include a system and method of using plastic from bodies of water and creating a floating platform by collecting plastic from a body of water, cleaning the collected plastic, melting and compacting the plastic, molding a plurality of hexagonal blocks from the compacted plastic, stacking the plurality of hexagonal blocks, wherein a system of springs and an energy storage device is provided between each of the plurality of hexagonal blocks, and coating the stacked blocks with a non-toxic material. Through the use of various onboard functionalities, energy may be generated to regulate temperature and provide electricity, oxygen may be supplied, and water may be purified.

The present invention is an apparatus and method for volumetric reduction of polymeric material and in particular synthetic polymeric textile materials. Such materials are typically used in hospital operating rooms and have material memory meaning that they re-expand after compression. Consequently they are difficult to process as waste material. The present invention is a method and apparatus for thermally compacting a polymer comprising a first and second heated surface inclined downwardly towards each other and providing with a passage at their lower ends through which melted polymeric material may pass.

An apparatus for compacting waste objects includes a seat provided with a support assembly for supporting the waste object to be compacted; a push member being moveable inside the seat for compacting in use of the apparatus the waste object against an end wall of the seat; the support assembly including two support members that rotate away from each other for discharging the compacted object through an aperture. The support members can impede discharge of a compacted object of a specific type through the aperture to collect the compacted object of the specific type in a dedicated container. Protuberances can be applied to the push member and an end wall of the seat for producing depressions in the compacted object so that the compacted object does not lose the compacted condition once pressure applied by the push member is removed.

A method for making substantially parallelepiped square cross-section formwork modules for building constructions, cut-off walls, embankments, dams, anti-erosion and anti-seismic foundations and/or the like, starting from used pneumatic tires, having at least the steps of: a) providing a used pneumatic tire deriving both from a periodic replacement of worn tires or from the rubber industry wastes or from the recovering of used pneumatic tires; b) removing from the pneumatic tire the two wall iron beads; c) performing cuts at diametrically opposite positions on the edges, wherein the cuts define cut-out regions separated by a middle solid region of the tire wall; d) removably mounting the pneumatic tire on basket-drum supporting means; and e) pressing in diametrical directions towards a center of the pneumatic tire the pneumatic tire tread portions near the cuts thereby causing the tire to assume a substantially parallelepiped configuration.