Management

This section briefly describes the necessary components and operational methods for the proposed eco-friendly polymer compounds incineration technology. The use case illustrates all components, operational methods, and control methods within the scope of the appropriate technology.

Closed-End Air Injection Manifold (Vertical)

The air injection pipe installed inside the circular incinerator creates a three- to four-stage air curtain within the incinerator. The material of this air injection pipe should be an alloy resistant to the incineration heat, depending on the type of waste to be incinerated. Furthermore, the size of the air injection pipe, the number of air nozzles perforated at each stage, and the angle of the perforations should be such that the incineration heat circulates downward within the incinerator. View Image

Air Blower

The air blower placed outside the incinerator can vary depending on the size of the incinerator being installed. The air blower used here consumes so little electricity per day that it could be generated by a simple solar panel.

Fuel Injection Pump

This incineration method requires a small amount of fuel injection during ignition and at the end of the incineration process. This is necessary to completely burn any incompletely burned waste remaining inside the incinerator. Kerosene or waste oil can be used as the fuel. This incineration method does not emit any odor or smoke from the time of ignition until the end of the incineration process.

Control Panel

This incineration method can be operated manually. If necessary, the top lid opening and closing, ignition, fuel injection, and air blower can be electrically controlled via the control panel. Furthermore, the temperature inside the incinerator can be monitored and recorded throughout the incineration process, thereby verifying that no harmful gases, such as dioxins, are released. View Image

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