The Earthginuity Composting System is an organic waste composting system. It consists of three steps/components. The first step is using a free-standing cylindrical tube that goes in the kitchen. Organic waste goes into the tube. The second step is the Phase 1 Bin. It is a square-shaped plastic bin that sits on raw earth, and it's about thirty three gallons in volume. It has drainage holes at the bottom and two pegs protruding from the front to serve as anchors for dumping. The final component is the two Earth Grids. They are three by three feet, sandbox-like squares with NO bottoms and liquid-tight lids. The lack of a bottom to the Earthgrids allows for sitting on raw earth to attract ground bugs/bacteria. The lids have rain holes. You can open, close, and empty the Earth Grids with a Shepherd's Staff (hooked pole).

The Earthginuity Composting System is an organic waste composting system. It consists of three steps/components. The first step is using a free-standing cylindrical tube that goes in the kitchen. Organic waste goes into the tube. The second step is the Phase 1 Bin. It is a square-shaped plastic bin that sits on raw earth, and it's about thirty three gallons in volume. It has drainage holes at the bottom and two pegs protruding from the front to serve as anchors for dumping. The final component is the two Earth Grids. They are three by three feet, sandbox-like squares with NO bottoms and liquid-tight lids. The lack of a bottom to the Earthgrids allows for sitting on raw earth to attract ground bugs/bacteria. The lids have rain holes. You can open, close, and empty the Earth Grids with a Shepherd's Staff (hooked pole).

The disclosure relates to a composting device including a housing defining an interior with an access opening providing access to the interior, a composter bin located within the interior and in communication with the access opening, and a cover slidably mounted to the housing and slidable along a sliding path between opened and closed conditions to selectively open and close the access opening. An angled seal assembly is provided on the cover and housing. Both a sealing surface and a seal are angled relative to a sliding path such that the space between the seal and the sealing surface decreases as the cover is slid from the opened to the closed condition.

The disclosure relates to a composting device including a housing defining an interior with an access opening providing access to the interior, a composter bin located within the interior and in communication with the access opening, and a cover slidably mounted to the housing and slidable along a sliding path between opened and closed conditions to selectively open and close the access opening. An angled seal assembly is provided on the cover and housing. Both a sealing surface and a seal are angled relative to a sliding path such that the space between the seal and the sealing surface decreases as the cover is slid from the opened to the closed condition.

A continuous heating reactor for composting includes a rotary reactor including a cylindrical reactor housing and push plates arranged inside the cylindrical reactor housing and spaced along the length and inner diameter thereof, a transmission mechanism adapted for rotating the cylindrical reactor housing at a predetermined speed to cause the push plates to push and stir the feeding waste organic material, and a heater for heating the feeding waste organic material in the cylindrical reactor housing by means of the circulation of a hot oil.

A continuous heating reactor for composting includes a rotary reactor including a cylindrical reactor housing and push plates arranged inside the cylindrical reactor housing and spaced along the length and inner diameter thereof, a transmission mechanism adapted for rotating the cylindrical reactor housing at a predetermined speed to cause the push plates to push and stir the feeding waste organic material, and a heater for heating the feeding waste organic material in the cylindrical reactor housing by means of the circulation of a hot oil.

Decomposing waste material may use a no-turn, aerobic composting apparatus that includes an enclosure for containing waste material and a fluid distribution system including a fluid injection member removably disposable in waste material disposed in the enclosure. The fluid injection member includes a plurality of spaced apertures for injecting fluid into the waste material.

Decomposing waste material may use a no-turn, aerobic composting apparatus that includes an enclosure for containing waste material and a fluid distribution system including a fluid injection member removably disposable in waste material disposed in the enclosure. The fluid injection member includes a plurality of spaced apertures for injecting fluid into the waste material.

A device for treating organic materials having a nozzle base, a roof, a rear wall, and two side walls, delimiting the interior of the device. Extending in the nozzle base are tubes connected to nozzles in the nozzle base, directed toward the interior of the device. The tubes are connected to a process gas apparatus for supplying the tubes with process gas. The process gas apparatus includes a ventilator connected to a pressure chamber for feeding the pressure chamber with process gas. The pressure chamber has at least one outlet connected to at least one of the tubes in the nozzle base to conduct process gas from the pressure chamber into the tubes. The ventilator and the pressure chamber are situated on the roof of the device, in particular in an enclosure. The pressure chamber is connected to the tubes via at least one connecting line in the rear wall.

A device for treating organic materials having a nozzle base, a roof, a rear wall, and two side walls, delimiting the interior of the device. Extending in the nozzle base are tubes connected to nozzles in the nozzle base, directed toward the interior of the device. The tubes are connected to a process gas apparatus for supplying the tubes with process gas. The process gas apparatus includes a ventilator connected to a pressure chamber for feeding the pressure chamber with process gas. The pressure chamber has at least one outlet connected to at least one of the tubes in the nozzle base to conduct process gas from the pressure chamber into the tubes. The ventilator and the pressure chamber are situated on the roof of the device, in particular in an enclosure. The pressure chamber is connected to the tubes via at least one connecting line in the rear wall.