A reaction apparatus is provided. The reaction apparatus includes a first tank, a second tank, a cover, a stirring assembly, a heater, a controller and a gas delivery system. The first tank has an accommodating space. The second tank is in the accommodating space of the first tank and includes holes. The cover is on an opening of the first tank. The stirring assembly is on the cover. The stirring assembly includes a driving motor and a stirrer connected to the driving motor. The stirrer is in the accommodating space of the first tank. The heater is in the accommodating space of the first tank. The controller is coupled to the heater to control the heater. The gas delivery system is on the first tank and in communication with the accommodating space of the first tank.

A reaction apparatus is provided. The reaction apparatus includes a first tank, a second tank, a cover, a stirring assembly, a heater, a controller and a gas delivery system. The first tank has an accommodating space. The second tank is in the accommodating space of the first tank and includes holes. The cover is on an opening of the first tank. The stirring assembly is on the cover. The stirring assembly includes a driving motor and a stirrer connected to the driving motor. The stirrer is in the accommodating space of the first tank. The heater is in the accommodating space of the first tank. The controller is coupled to the heater to control the heater. The gas delivery system is on the first tank and in communication with the accommodating space of the first tank.

A solid high-temperature aerobic fermentation reaction system includes a solid high-temperature aerobic fermentation system, a boiler system, an odor and flue gas treatment system, and a test and control system. The solid high-temperature aerobic fermentation system includes 1 to X solid high-temperature aerobic fermentation reactors. Each solid high-temperature aerobic fermentation reactor includes an inclined horizontal drum, a feed side sealing cover labyrinth sealing device, discharge side sealing cover labyrinth sealing device, a power supporting wheel set, a stirring and anti-sticking device and an integrated base. A water jacket is arranged outside the horizontal drum. The stirring and anti-sticking device is positioned in the horizontal drum which is disposed on the power supporting wheel set. The boiler system includes a shot water boiler, a circulating water pump, a three-way electric regulation valve and an electromagnetic valve.

Various implementations of the present disclosure are directed systems and methods of preparing a fertilizer product from cactus. The method includes grinding cladodes of one or more cactus plants into ground cactus and selecting prickly pear fruits from the one or more cactus plants. The method further includes combining the ground cactus, the selected prickly pear fruits, water, and a ruminal fluid in a first container to form a mixture. The method further includes storing the mixture in the first container for a first time period such that the mixture reacts to form a digestate. The method further includes storing the digestate in the first container or a second container for a second time period such that the digestate forms the fertilizer product.

Various implementations of the present disclosure are directed systems and methods of preparing a fertilizer product from cactus. The method includes grinding cladodes of one or more cactus plants into ground cactus and selecting prickly pear fruits from the one or more cactus plants. The method further includes combining the ground cactus, the selected prickly pear fruits, water, and a ruminal fluid in a first container to form a mixture. The method further includes storing the mixture in the first container for a first time period such that the mixture reacts to form a digestate. The method further includes storing the digestate in the first container or a second container for a second time period such that the digestate forms the fertilizer product.

The present invention relates to an organic waste treatment apparatus consisting of a garbage receiving unit, a probing door, a garbage compactor unit, a crushing unit fixed to the upper part of the structure frame, a mixing unit positioned underneath the crushing unit, a motor that drives all movements of the apparatus using belt drive and gear drive, and a control panel controlling the functions of this device.

The present invention relates to an organic waste treatment apparatus consisting of a garbage receiving unit, a probing door, a garbage compactor unit, a crushing unit fixed to the upper part of the structure frame, a mixing unit positioned underneath the crushing unit, a motor that drives all movements of the apparatus using belt drive and gear drive, and a control panel controlling the functions of this device.

An automated food waste processing system including an enclosure secured to prevent unauthorized access to contents contained therein, the enclosure including a plurality of exterior walls and a food waste processing system housed within the enclosure. The food waste processing system including an imaging system configured to capture a plurality of images of the food waste and the non-biodegradable material received by the sorting receptacle, a processing system configured to process the plurality of images using a trained neural network to identify at least plastic waste and metal waste as the non-biodegradable material when included in the food waste input stream as received by the sorting receptacle, and a sorting system configured to, in response to instructions received from the processing system, automatically locate and remove the non-biodegradable material from the sorting receptacle to create a bio-degradable input stream to the anaerobic digester.

An automated food waste processing system including an enclosure secured to prevent unauthorized access to contents contained therein, the enclosure including a plurality of exterior walls and a food waste processing system housed within the enclosure. The food waste processing system including an imaging system configured to capture a plurality of images of the food waste and the non-biodegradable material received by the sorting receptacle, a processing system configured to process the plurality of images using a trained neural network to identify at least plastic waste and metal waste as the non-biodegradable material when included in the food waste input stream as received by the sorting receptacle, and a sorting system configured to, in response to instructions received from the processing system, automatically locate and remove the non-biodegradable material from the sorting receptacle to create a bio-degradable input stream to the anaerobic digester.

A method and an apparatus for waste processing of mixed waste comprising an organic compostable waste portion and an organic non-compostable waste portion are disclosed. The apparatus comprises a shredder unit for shredding a load of mixed waste, a composting unit providing a microbial environment for composting the food waste portion of the mixed waste load, a heating unit providing a heating environment for heating the inorganic waste portion to a temperature higher than in the composting unit, and a control unit for controlling a moisture level of the mixed waste load in the heating unit. When the target moisture level is reached the shredded, composted and dried mixed waste load is transported to an exit unit for optional further processing as refuse derived fuel.