A non-organic contamination removal automated process is provided. The process includes: shredding a feedstock having an organic material with a shredder; screening the feedstock with a screener downstream of the shredder; sorting the feedstock using a robot sorter downstream of the screener to remove objects from the feedstock meeting one or more criteria, the robot sorted utilizing one or more machine-learned models; and grinding the feedstock to a desired composting size.

A non-organic contamination removal automated process is provided. The process includes: shredding a feedstock having an organic material with a shredder; screening the feedstock with a screener downstream of the shredder; sorting the feedstock using a robot sorter downstream of the screener to remove objects from the feedstock meeting one or more criteria, the robot sorted utilizing one or more machine-learned models; and grinding the feedstock to a desired composting size.

There is disclosed a method and apparatus for separating stones, fibers and plastics from biodegradable material. In an embodiment, the apparatus comprises: an inclined trough having a feed entry at a top end for receiving the feed material, the inclined trough including a plurality of riffles angled to at least partially hinder and unsettle a flow of the feed material flowing down the inclined trough; one or more vibratory motors configured to induce a vibration in the inclined trough; one or more blowers configured to generate an air flow through overhead air vent nozzles positioned over the inclined trough and directing the air flow to one side of the inclined trough; and a material resilience separator for separating the contaminants from the biodegradable materials in the remaining material.

There is disclosed a method and apparatus for separating stones, fibers and plastics from biodegradable material. In an embodiment, the apparatus comprises: an inclined trough having a feed entry at a top end for receiving the feed material, the inclined trough including a plurality of riffles angled to at least partially hinder and unsettle a flow of the feed material flowing down the inclined trough; one or more vibratory motors configured to induce a vibration in the inclined trough; one or more blowers configured to generate an air flow through overhead air vent nozzles positioned over the inclined trough and directing the air flow to one side of the inclined trough; and a material resilience separator for separating the contaminants from the biodegradable materials in the remaining material.

A system and process for sorting and recovery of recyclable materials, and in particular, sorting and recovery of recyclable materials from mixed waste comprising municipal solid waste in a materials recovery facility or “MRF” are provided. Advanced technology and machinery are integrated into a multi-step system and process that are designed to treat contaminated MSW streams to meet or exceed minimum material quality specifications while also reducing and minimizing headcount of sorter personnel. Because the mix of materials in MSW can be so varied and unpredictable, the system and process are designed to effectively sort and recover desired materials from MSW streams having a variety of material compositions.

A system and process for sorting and recovery of recyclable materials, and in particular, sorting and recovery of recyclable materials from mixed waste comprising municipal solid waste in a materials recovery facility or “MRF” are provided. Advanced technology and machinery are integrated into a multi-step system and process that are designed to treat contaminated MSW streams to meet or exceed minimum material quality specifications while also reducing and minimizing headcount of sorter personnel. Because the mix of materials in MSW can be so varied and unpredictable, the system and process are designed to effectively sort and recover desired materials from MSW streams having a variety of material compositions.

The present invention discloses a method for power battery automatic fine-quantity sorting and an apparatus thereof, the method including the following steps of Si. The material is crushed, and leveled, and is then subjected to magnetic sorting processing to sort out iron powder; S2. The material after magnetic sorting is subjected to electrostatic processing to sort out positive electrode material powder; S3. The material after electrostatic processing is subjected to bounce processing to sort out the collector and graphite powder. A magnetic sorting device, an electrostatic sorting device, and a bouncing sorting device are accordingly provided.

The present invention discloses a method for power battery automatic fine-quantity sorting and an apparatus thereof, the method including the following steps of Si. The material is crushed, and leveled, and is then subjected to magnetic sorting processing to sort out iron powder; S2. The material after magnetic sorting is subjected to electrostatic processing to sort out positive electrode material powder; S3. The material after electrostatic processing is subjected to bounce processing to sort out the collector and graphite powder. A magnetic sorting device, an electrostatic sorting device, and a bouncing sorting device are accordingly provided.

A food waste processor including a food waste inlet; a grinding station located downstream of the inlet, wherein the grinding station includes a grinding apparatus which grinds the food waste and increases pressure on the food waste; a liquid exit path from the grinding station, wherein the liquid exit path includes a filter; and a solid exit path from the grinding station, wherein a liquid component of the ground food waste is forced through the filter and exits the grinding station via the liquid exit path and a solid organic component of the ground food waste exits the grinding station via the solid exit path; the liquid exit path is in communication with a separator; the solid exit path is in communication with a compressed food waste collector; the separator separates the liquid component into water and an organic component which includes entrained food particles; the separator including a water exit path in communication with a water treatment station, and an organic component exit path in communication with an organic processing station; the organic processing station includes a storage chamber, a heater, a pump having an inlet and an outlet and an organic conduit, wherein the heater heats the storage chamber, the inlet of the pump is in communication with the storage chamber, the outlet of the pump is in communication with an inlet end of the conduit, and an outlet end of the conduit defines an organic component outlet port disposed downstream of the food waste inlet and upstream of the grinding station.

The present application provides a system and method for discharging and processing of lithium ion batteries to extract one or more metals. The extracted metals are in a powder form that can be reused at second stage processing facilities. The extracted metal powder can include lithium and at least one of cobalt, nickel, manganese, and carbon.