Disclosed is a combustion machine, including: a hopper, a drying mechanism and a combustion mechanism. The hopper is configured for storing materials and conveying the materials to the drying mechanism. The drying mechanism includes a conveying mechanism and a drying chamber, and the conveying mechanism is connected with the hopper and conveys the materials in the hopper to the drying chamber. The combustion mechanism includes a combustion chamber connected with the drying chamber via a material conveying pipeline, and a fire outlet pipe arranged in the combustion chamber and used for outputting flame. A hot air pipeline is connected between the combustion chamber and the drying chamber, and a first exhaust fan is arranged in the hot air pipeline.

Provided herein is a process for improving the heating value of a cellulosic waste material. The process includes the steps of treating the cellulosic waste material with an acid solution, recovering heat produced by treating the cellulosic waste material, and filtering the treated cellulosic waste material to produce a filter cake. The disclosure also relates to a system for implementing the process.

Provided herein is a process for improving the heating value of a cellulosic waste material. The process includes the steps of treating the cellulosic waste material with an acid solution, recovering heat produced by treating the cellulosic waste material, and filtering the treated cellulosic waste material to produce a filter cake. The disclosure also relates to a system for implementing the process.

A thermochemical system & method may be configured to convert an organic feedstock to various products. A thermochemical system may include a solid material feed module, a reactor module, an afterburner module, and a solid product finishing module. The various operational parameters (temperature, pressure, etc.) of the various modules may vary depending on the desired products. The product streams may be gaseous, vaporous, liquid, and/or solid.

A thermochemical system & method may be configured to convert an organic feedstock to various products. A thermochemical system may include a solid material feed module, a reactor module, an afterburner module, and a solid product finishing module. The various operational parameters (temperature, pressure, etc.) of the various modules may vary depending on the desired products. The product streams may be gaseous, vaporous, liquid, and/or solid.

A process of making a fuel product from a non-combustible high protein organic material such as a biological by-product or waste material. The moisture content of the high protein organic material is mechanically reduced and dried to reduce the moisture content to less than ten percent (10%). The high protein organic material is pulverized to a particle size of less than about 2 mm. The high protein organic waste material is fed into a combustion chamber and separated during combustion such as by spraying of the high protein organic waste material within the combustion chamber. Temperature and nitrogenous hydrocarbon combustion reactions within the combustion chamber are also controlled by injection of steam within the combustion chamber. The concentration of protein thermal decomposition by-products, the temperature and/or pressure within the combustion chamber is also controlled to degrade hazardous polyfluoro compounds into less hazardous compounds.

Aspects of the present disclosure include devices, systems, methods, and control systems for processing waste into usable products, such as fuel stock, soil additives, and usable byproducts. Various system components may include: 1) a material loading area; 2) a pre-shredder; 3) a magnet based separator; 4) an eddy current separator; 5) additional sorting devices, such as a ballistic separator and/or an optical separator; 6) a mechanical pulverizer, such as a vertical shaft impactor (VSI); 7) a moisture separation device, such as a cyclone; 8) a compressor, such as a ram baler; 9) a packager, such as a bale wrapper; 10) analyzers, such as for moisture and caloric data analysis; 11) a thermal pressure chamber, such as a thermal screw; and 12) a control system to control operation of the system.

Method and structural configuration for environmentally safe solid waste and biomass processing to increase the efficiency of power generation and production of other useful products. Solid waste and biomass are loaded, crushed, then subjected to vacuum and temperature drying and shredded which are accumulated, then supplied to a fast plasma gasification reactor for fast plasma gasification. The obtained steam-gas mixture is condensed, separating the water steam from the steam-gas mixture. The obtained gas mixture, in the form of pyrolysis gas, is accumulated in turn in two variable volume gasholders. The hydrogen obtained as a result of electrolysis, as well as the pyrolysis gas from the first and then from the second variable volume gasholders are fed in turn, to the first and then to second recirculation Sabatier reactors for conducting a recirculating autothermal Sabatier reaction. Produced methane is compressed and accumulated, and used for electric power and heat.

Method and structural configuration for environmentally safe solid waste and biomass processing to increase the efficiency of power generation and production of other useful products. Solid waste and biomass are loaded, crushed, then subjected to vacuum and temperature drying and shredded which are accumulated, then supplied to a fast plasma gasification reactor for fast plasma gasification. The obtained steam-gas mixture is condensed, separating the water steam from the steam-gas mixture. The obtained gas mixture, in the form of pyrolysis gas, is accumulated in turn in two variable volume gasholders. The hydrogen obtained as a result of electrolysis, as well as the pyrolysis gas from the first and then from the second variable volume gasholders are fed in turn, to the first and then to second recirculation Sabatier reactors for conducting a recirculating autothermal Sabatier reaction. Produced methane is compressed and accumulated, and used for electric power and heat.

Provided herein is a process for improving the heating value of a cellulosic waste material. The process includes the steps of treating the cellulosic waste material with an acid solution, recovering heat produced by treating the cellulosic waste material, and filtering the treated cellulosic waste material to produce a filter cake. The disclosure also relates to a system for implementing the process.