The system for processing waste includes both a fixed bed reactor and a fluidized bed reactor. The fixed bed reactor receives a first waste material and produces a first set of reaction products. The fluidized bed reactor is adapted for receiving a second waste material and producing a second set of reaction products. The first and second sets of reaction products may be selectively and adjustably mixed to produce a mixed set of reaction products. At least one cyclone separator receives the reaction products and separates and collects solids (waxes) from the product stream. At least one condenser receives the product stream and removes a condensable liquids from the product stream. The condensable liquids are collected, and a gas-liquid separator removes any remaining liquid from the gas stream. The remaining gas is then output as gaseous product.

A high-temperature pyrolysis incineration apparatus that forces external air to a combustion chamber while burning an incineration processing material injected therein at a high temperature within a combustion chamber is provided. The apparatus includes an air-supply tube disposed at the center of the combustion chamber, a fuel supply pipe installed at an upper edge of the inside of the combustion chamber, a punching plate disposed at the bottom of the combustion chamber, a stirring rod rotatably installed at an upper surface of the punching plate using the air-supply tube as a fixing shaft, a heat recovery device disposed outside of the combustion chamber, and a circulation pipe extending from a lid of the combustion chamber to the outside that returns to a location corresponding to an upper portion of the stirring rod at a wall of the combustion chamber via the inside of the heat recovery device.

A high-temperature pyrolysis incineration apparatus that forces external air to a combustion chamber while burning an incineration processing material injected therein at a high temperature within a combustion chamber is provided. The apparatus includes an air-supply tube disposed at the center of the combustion chamber, a fuel supply pipe installed at an upper edge of the inside of the combustion chamber, a punching plate disposed at the bottom of the combustion chamber, a stirring rod rotatably installed at an upper surface of the punching plate using the air-supply tube as a fixing shaft, a heat recovery device disposed outside of the combustion chamber, and a circulation pipe extending from a lid of the combustion chamber to the outside that returns to a location corresponding to an upper portion of the stirring rod at a wall of the combustion chamber via the inside of the heat recovery device.

A method for operating a flare includes obtaining sensor data associated with emissions of the flare from sensors of a sensing unit associated with the flare. The method also includes determining, based on the sensor data, one or more control decisions for at least one controllable element associated with the flare to achieve a control objective for the flare. The control objective is associated with the emissions of the flare. The method also includes generating display data corresponding to the one or more control decisions. The method also includes operating a display device to provide the display data to a user.

A gas skid is disclosed for mine gas flaring operations to safely move mine gas from existing bore holes or vents to a flare for combustion. The gas skid comprises and/or is supported (attended) by electric power systems, manual control systems, automatic electronic control systems, telecommunication devices, process and flow connections and systems and more.

A method for operating a flare includes obtaining sensor data associated with emissions of the flare from sensors of a sensing unit associated with the flare. The method also includes determining, based on the sensor data, one or more control decisions for at least one controllable element associated with the flare to achieve a control objective for the flare. The control objective is associated with the emissions of the flare. The method also includes generating display data corresponding to the one or more control decisions. The method also includes operating a display device to provide the display data to a user.