KR20010009375A - A Furnace and method for burning a un-burned gas - Google Patents

Abstract

PURPOSE: An incinerator is provided to fully re-burn incineration gas such as freon, dioxin, nitrogen and so on in a screw type rotating method and a multistage combustion method without exhausting noxious gas. CONSTITUTION: An incinerator comprises a local combustion accelerating body, a honeycomb combustion accelerating body(3) and a furnace body(6). The furnace body holds two accelerating bodies inside a space and forms a torch installation device in the lower end to guide flame into the space through a flame passage. Further, the furnace body forms a combustion gas inlet hole(4) and a combustion gas outlet hole(5). When contacted with the accelerating bodies, the combustion gas is discharged outside through the outlet hole. The accelerating bodies are combined with bioceramic, elvan, refractory brick or their powder to produce an article. The article is heated and passes through the combustion gas to re-burn the combustion gas. Then, noxious gas in the combustion gas is removed.

Description

A Furnace and method for burning a un-burned gas

The present invention is to solve the pollution by completely burning the harmful gas (dioxine, sulfurous acid, nitrogen oxides, freon, carbon dioxide gas, etc.) for incineration of waste incinerator with the superheat of oxygen hydrogen gas combustion heat.

Conventional incinerators use petroleum or petroleum gas (LPG, LNG) and incinerate waste using its combustion heat, so the theoretical temperature is 1300 ° C. However, these fuels are completely burned when 24 times the amount of gas is injected. Since it is supplied with cooling, it is difficult to generate a high temperature of more than 1000 ° C., and nitrogen, freon, and dioxin are discharged into the atmosphere in an incineration state, which is a serious pollution problem. In addition to the emission of harmful gases, the existing incinerators also have low thermal efficiency, causing significant economic losses.

The present invention consumes when burning petroleum gas using oxygen hydrogen gas having an innovative structure and characteristics as a fuel to completely eliminate the disadvantages of the incinerator using petroleum or petroleum gas to solve the above pollution problem. It is completely burned to less than 10% of the amount of air that is generated, and thus prevents the generation of nitrogen gas, and hydrogen gas reacts with aluminum oxide, mica, bio, and rare elements contained in bioceramic and elvan, and resonates with infinite space energy, resulting in high thermal efficiency. Therefore, by accumulating high heat, hydrogen gas is secondary and tertiary combustion to generate super high temperature, so the furnace's internal temperature can be arbitrarily adjusted to more than 2000 ℃. It is possible to provide pollution-free incinerators.

Oxygen hydrogen gas is theoretically known as the highest temperature of 4,300 ℃, but the temperature difference according to the object that the flame touches. Oxygen hydrogen gas When burning oxygen gas by heating the inner elvan rock with the heating of the terrestrial and screw type refractory at the center of the incinerator so as to generate super-efficient ultra high temperature by promoting the secondary and tertiary combustion. It is a method to burn harmful gas by combining high temperature heat and far infrared rays by generating high temperature with high thermal efficiency as the secondary and tertiary combustion is generated and high contact area inside incinerator of incineration gas.

The present invention is a green energy that uses a mixed gas passed through C6H14 (nucleic acid) as a fuel as the main raw material by the electrolysis of water instead of petroleum gas, and has no pollution characteristics. In order to achieve ultra-high temperature, the internal materials of the furnace use refractory, bioceramic and elvan, to maximize the reaction with hydrogen and simultaneously spread and decay the incineration gas and oxygen hydrogen flame to maximize the high-temperature contact surface. It is a multi-stage combustion device and method that passes through the screw-type rotating method and honeycomb aeration in consideration of the shortening of combustion time. To provide an incinerator.

The present invention provides a global combustion accelerator having a support portion formed with a flame passage through which a combustion flame passes, a honeycomb combustion accelerator having a plurality of flame passage holes provided at regular intervals from the global combustion accelerator, and the earth type. It has an internal space for accommodating a combustion accelerator and the honeycomb type combustion accelerator, and a torch mounting hole is formed at the lower portion so that the flame can enter the space through the flame passage and an inlet gas inlet is formed at one side. The furnace body includes a furnace body in which a combustion gas outlet is formed at a position where the gas for incineration passes through the combustion promoters while contacting the combustion promoters.

The furnace body, the terrestrial combustion accelerator and the honeycomb combustion accelerator are made of a molded article formed of bioceramic, biotite, alum, refractory bricks or powders thereof.

In another embodiment, a plurality of radial flame paths are formed radially from the center, a central flame path connecting the radial flame paths in the center is formed, and a spiral flame path connecting the radial flame paths in a circumferential outer corner is formed. The central combustion accelerator having a screw shape as a whole, the central combustion accelerator is accommodated, the torch mounting hole is formed to install a torch for supplying the flame to the central flame passage, the incineration gas is formed at the lower side The inlet for incineration is formed to be drawn in, and the furnace body is formed to include a gas outlet so that combustion gas can be discharged thereon.

In addition, the method of the present invention is used to burn a combustion promoter combining bioceramic, biotite, alum, refractory bricks, or molded articles thereof by burning oxygen hydrogen gas for incineration to the heated combustion promoter. Passing the gas and burning it back to a high temperature to re-burn the incineration gas containing harmful substances.

1 to 3 are cross-sectional views of the cylindrical incinerator of the present invention.

4 and 5 are cross-sectional views of the screw type incinerator which is another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

DESCRIPTION OF SYMBOLS 1: Oxygen hydrogen gas torch 2: Flame 3: Honeycomb combustion promoter

4 gas inlet 5 combustion gas outlet 6 furnace body

DESCRIPTION OF SYMBOLS 10 Earth-type combustion promoter 11 Flame path 12 Support part

13: flame passing holes 14: torch installation

21: radial flame passage 22: spiral flame passage 23: central flame passage

25: torch installation hole 26: incineration door

27 gas outlet 30 central combustion accelerator 32 furnace body

1 and 3, the incinerator of the present invention will be described.

The cylindrical incinerator of the present invention is provided with a global combustion accelerator 10 and a honeycomb combustion accelerator 3 in the furnace body 6.

The spherical combustion accelerator is provided with a spherical combustion accelerator on the support 12 having the flame passage 11 through which the combustion flame passes.

The honeycomb type combustion accelerator is installed at regular intervals from the earth type combustion accelerator 10 and a plurality of flame passing holes 13 are formed.

The furnace body 6 has an inner space for accommodating the terrestrial combustion accelerator 10 and the honeycomb combustion accelerator 3, and has a lower portion to allow the flame to enter the space through the flame passage 11. A torch mounting hole 14 is formed at one side, and an incineration gas inlet 4 is formed at one side, and the incineration gas is introduced into the inlet while being discharged after contacting the combustion accelerators 3 and 10. The combustion gas discharge port 5 is formed in the chamber.

Here, the furnace body, the terrestrial combustion accelerator and the honeycomb combustion accelerator are made of molded products formed of bioceramic, biotite, alum, refractory bricks, or powders thereof.

In the case of use as an actual incinerator, a torch (1) for burning oxygen hydrogen gas is installed in the torch mounting hole (14) formed in the furnace body, and the oxygen combustion gas and the honeycomb combustion accelerator are combusted by burning the oxygen hydrogen gas. Is heated, and the incineration gas entering from the inlet 4 is reburned while passing through the combustion accelerator, and the harmful gas is completely decomposed or burned.

Next, an incinerator of another embodiment of the present invention will be described with reference to FIGS. 4 and 5.

The incinerator has a plurality of radial flame passages (21) are formed radially from the center, a central flame passage (23) for connecting the radial flame passages in the center is formed, the spiral connecting the radial flame passages in order from the outer circumference A flame passage 22 is formed to accommodate the central combustion accelerator 30 having a screw shape as a whole, the central combustion accelerator 30, and a torch for supplying flame to the central flame passage 23. The torch mounting hole 25 is formed so that the incineration inlet 26 is formed so that the incineration gas can be drawn in the lower side of the side, and the gas outlet 27 is formed so that the combustion gas can be discharged in the upper portion. It comprises a body (32).

Here, the furnace body and the central combustion promoter are made of bioceramic, biotite, albite, refractory brick, or molded products thereof, and burn the oxygen hydrogen gas in the torch mounting device 25 formed in the furnace body. The torch 1 is provided, and the torch 1 is used to burn oxygen hydrogen gas so as to reburn the incineration gas entering the incineration gas inlet 26.

Appropriate valves or dampers are attached to the inlet of the incineration gas and the outlet of the combustion gas so that the flow of these gases can be regulated, and thus the temperature in the furnace can be controlled by controlling the flow of these gases.

The method for reburning the gas for incineration using the incinerator of the present invention configured as described above is as follows.

First, oxygen oxygen gas is supplied to the torch and ignited to heat the combustion accelerator incorporating a bio-ceramic, biotite, alum, refractory brick, or a molded article made of powder thereof, and then the incineration gas inlet is opened. Passing the incineration gas through the combustion promoter causes the incineration gas to be burned again at high temperatures and harmful substances are also decomposed or chemically reacted in the process of recombustion in the incineration gas containing harmful substances, resulting in other harmless substances. .

As described above, the present invention is an incinerator structure which improves the characteristics of oxygen hydrogen gas 100%, while the oxygen hydrogen gas flame is rotated or contacted evenly between combustion accelerators processed with a composite material, and the gas for incineration gas and oxygen hydrogen gas flame It rotates and mixes evenly and is completely burned. It has a characteristic and structure that can freely control the furnace internal temperature from 1500 ℃ to 7000 ℃ according to the oxygen hydrogen gas input and the incineration gas input and characteristics. Therefore, it is economical and risk-free, using infinite water as a fuel for green energy, environmentally friendly energy, and can operate only by adjusting the gas supply valve without requiring any special technology to operate.

Claims (7)

A terrestrial combustion promoter 10 having a support 12 having a flame passage 11 through which a combustion flame passes; A honeycomb combustion promoter 3 having a plurality of flame passing holes 13 installed at regular intervals from the terrestrial combustion accelerator; It has an internal space for accommodating the terrestrial combustion accelerator 10 and the honeycomb combustion accelerator (3), the torch installation in the lower portion so that the flame can enter the space through the flame passage (11) (14) a combustion gas inlet (4) is formed, and the incineration gas inlet (4) is formed at one side, and the incineration gas inlet is discharged after the gas for incineration passes through the combustion promoters (3, 10). An incinerator, characterized in that it comprises a furnace body (6) formed (5). The method according to claim 1, Incinerator, characterized in that the furnace body, terrestrial combustion accelerator and honeycomb combustion accelerator are molded products made of bioceramic, biotite, alum, refractory bricks or powders thereof. The method according to claim 1, Installing a torch 1 for burning oxygen hydrogen gas in the torch mounting hole 14 formed in the furnace body, and burning the oxygen hydrogen gas from the torch to reburn the incineration gas entering the incineration gas inlet. Characteristic incinerator. A plurality of radial flame passages 21 are formed radially from the center, a central flame passage 23 is formed to connect the radial flame passages in the center, and a spiral flame passage connecting the radial flame passages in order from the outer circumference. 22) is formed and the central combustion accelerator (30) having a screw shape as a whole, A torch mounting device 25 is formed to accommodate the central combustion accelerator 30 and to install a torch for supplying a flame to the central flame passage 23, and an incineration gas may be introduced into a lower side of the side. Incinerator for incineration is formed so that 26, the incinerator characterized in that it comprises a furnace body 32 is formed with a gas outlet 27 so that the combustion gas is discharged in the upper, The method according to claim 4, The furnace body and the central combustion promoter is incinerator, characterized in that the molded product molded from bioceramic, biotite, alum, refractory bricks, or powder thereof. The method according to claim 4, A torch 1 for burning oxygen hydrogen gas is installed in the torch mounting hole 25 formed in the furnace body, and the incineration gas entering the incineration gas inlet 26 by burning oxygen hydrogen gas is regenerated from the torch. Incinerator characterized by burning. Combustion accelerators combined with bio-ceramic, biotite, alumite, refractory bricks, or molded articles of these powders are heated by burning oxygen hydrogen gas, And burning the gas for incineration through the heated combustion promoter and burning it again at a high temperature to re-burn the gas for incineration containing harmful substances.