KR100221677B1 - Iincinerator to burn up harmful gas - Google Patents

Abstract

The present invention can remove harmful substances with small energy by incineration of harmful gases including odors, bacteria, harmful dusts, etc. scattered in chemical plants, food treatment plants and waste treatment plants by heat storage and heat exchange. A harmful gas incineration apparatus, in particular, an inflow passage (12) of a gas to be incinerated: a heating body (16) is mounted on a sealed side of the gas inflow passage (12), and a combustion space (18) is formed to directly discharge gas. A combustion section 10 which burns by contact; A heat storage unit 20 adjacent to the combustion unit 10 and installed in the discharge direction of the gas and accumulating heat from the gas passing through the combustion unit; A heat transfer part (30) formed between the heat storage portion (20) and the gas inflow passage (12) and transferring heat to the gas passing through the heat passage in the heat storage portion (20); It is formed around the inflow passage 12 that absorbs heat from the heat transfer unit 30, shielding the discharge of heat, characterized in that composed of a heat insulating portion 40 formed of a heat insulating material 42 and the housing 44 Hazardous gas incinerator.

Description

A Incinerator to burn up harmful gas

The present invention relates to a noxious gas incinerator, and in particular, incineration of harmful gases including odors, bacteria, organic dusts, etc. scattered in a chemical plant, a food treatment plant, a waste treatment plant, etc. The present invention relates to an incinerator for harmful gases that can remove harmful substances.

In factories that produce chemicals, painting plants such as vehicles, or waste, food, and waste disposal plants, gas, including bad odors, dust, or substances harmful to the human body, is scattered, causing serious harm to workers and harassing nearby residents.

Therefore, the authorities are making efforts to protect the health of workers and the comfortable lives of neighbors by establishing regulations along with sanctions.

Various means have been devised to remove conventional harmful gases. In other words, a filter such as activated carbon is used to purify the toxic gas, or a method such as treatment or incineration by chemical reaction is used.

When the filter is used to purify the hazardous substances, it is possible to filter the hazardous substances to some extent, but there are limitations on the harmful gases emitted in large quantities, and they need to be replaced over a period of time.

In the case of purifying the harmful gas by reacting with a chemical substance, the kind of the hazardous substance reacting with the harmful gas is limited and should be equipped with equipment, which is expensive.

In the case of incineration and purification of the hazardous substances, there is excessive heat consumption because the conventional energy after incineration does not utilize the thermal energy contained in the discharge and is discharged to the outside as it is. Therefore, the complete combustion of the hazardous substances is determined according to the capacity of the incinerator. As a result, incineration of hazardous substances to be incinerated occurs, and NOx and other pollutants are released into the air.

As described above, the conventional noxious gas treatment means cannot handle the noxious substances in a wide range, and also requires a lot of energy to incinerate the noxious gases, is a large waste of energy discharged to the outside, and cannot completely clean the noxious substances. There is a problem.

The present invention has been invented to solve the above problems, and an object of the present invention is to provide a noxious gas incinerator for removing noxious substances by incineration of noxious gases with minimal energy.

In order to achieve the above object, the present invention, the gas inlet passage for introducing a gas to be incinerated; A combustion section combusted by direct contact mounted on the sealed side of the gas inflow passage; A heat storage unit configured to accumulate heat from the gas supplied and installed in a direction in which the gas contacting the combustion unit is discharged to the outside; A heat transfer part formed between the gas inflow passages of the heat storage unit and transferring heat to the gas passing through the gas inflow passage; It is a noxious gas incineration device, characterized in that formed in the periphery of the gas inlet to absorb heat from the heat transfer portion to the heat shield to shield the release of heat.

In addition, the present invention is a harmful gas incineration apparatus, characterized in that the direction of the harmful gas flowing into the gas inlet for the discharge direction and incineration of the gas incinerated harmful gas in the combustion unit forms an opposite direction.

According to a preferred embodiment of the present invention, the harmful substances including the foreign matter, odor, organic dust, etc. to be incinerated are discharged to the outside through the heat storage unit while being burned in direct contact with the combustion unit through the inflow passage. Here, the heat storage unit accumulates heat of itself, such as noxious gas, and combustion heat combusted in the combustion unit. Therefore, the temperature of the heat storage unit accumulates a lot of heat over time whether it is burned or transferred to the gas moving along the inflow passage through the heat transfer unit, or ignites the gas having a low flash point. Therefore, the gas discharged to the outside through the combustion unit and the heat storage unit is completely burned to completely incinerate harmful substances.

1 is a cross-sectional view of a noxious gas device according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: body 10: combustion part

12 gas inlet passage 14 medium

16: heating body 18: combustion space

20: heat storage portion 22: inlet side

24: outlet side 30: heat transfer part

40: heat insulating part 42: heat insulating material

44: housing

Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a cross-sectional view of a noxious gas incineration apparatus according to an embodiment of the present invention.

The present invention has a technical idea to suppress the generation of pollution by completely burning the harmful substances contained in the harmful gas with little energy by using the heat storage and heat exchange and heat insulation of the combustion heat.

In this embodiment, the configuration of the present embodiment is surrounded by a housing 44 on the outside, and the body 1 filled with the heat insulating material 42 therein is formed inside the heat insulating material 42 of the body, and one side is outside. Is spaced apart from the inner circumferential surface of the space by a predetermined distance through the opening of the space into which the heating body 16 inserted from the outside is inserted, and the other side is formed to form a gas inflow passage 12. The sieve 16 is inserted and the lower side is free of gas flow and is provided with a net, and the gas passing through the gas inlet passage 12 through the heat storage unit 20 and the heat inside the heat storage unit in which ceramic particles are stacked. Combustion of burning gas in the combustion space 18 provided inside the heat storage unit 20 by the heat transfer energy of the heat transfer unit 30 and heat generator 16 inserted into the heat storage unit opening to transfer heat to the heat storage unit. Part (10) It is configured.

The gas inflow passage 12 is formed while forming a wide width from the direction of introducing the harmful gas to be incinerated and tapered to a narrow width at a certain point, which is intended to induce a smooth inflow of gas. In addition, one or more gas inlet points 50 and 50 'are formed in the gas inlet passage 12 to guide the gas to be incinerated into the inlet passage.

By the way, the harmful gas flowing into the gas inflow passage 12 serves to maximize the heat exchange of the heat insulation section of the heat insulation seeker primarily by the heat accumulation of the heat storage unit 20.

The combustion unit 10 ignites and burns the gas to be incinerated by direct contact, and is installed at the closed end of the gas inflow passage 12. It receives the ignition energy from the outside through the medium means 14, forms the heating body 16 toward the gas to be incinerated to completely burn the gas in the combustion space 18 formed at regular intervals. The ignition energy of the heating body 16 may be LPG or the like, but it is preferable to use electricity in terms of continuous supply and regulation of energy and plasticization of the combustion device.

The heat storage unit 20 is to accumulate heat by passing a gas ignited and combusted in the combustion unit 10. It is formed in the direction in which the gas is discharged between the combustion space 18 of the heating body 16 of the combustion unit 10, and used ceramic particles that are easy to accumulate and discharge heat, in particular, durability against high heat Alumina oxide having a large thermal accumulation capacity was laminated.

As a result, the gas burning the harmful substances in the combustion section 10 enters the inlet side 22 and passes through the laminated alumina oxide, thereby losing high heat after combustion to the alumina oxide. Therefore, the gas exiting from the outlet side 24 of the heat storage unit 20 is discharged to the outside at a low temperature.

As a result, the heat storage unit 20 retains a large amount of heat in proportion to the number and time of the cycle in which gas is burned and passed through the combustion unit 10. In addition, the inlet side 22 of the heat storage unit 20 retains heat accumulated at a high temperature, and the outlet side 24 has a relatively low temperature. This is an important factor in spontaneously igniting the gas containing noxious gas in relation to the heat transfer part 30 which will be described later.

The heat transfer part 30 is formed between the heat storage unit 20 and the gas inflow passage 12 to transfer the internal heat of the heat storage unit 20 to the harmful gas introduced into the gas inflow passage 12.

The heat transfer part 30 may use a metal material such as a copper plate, but this is difficult to be easily damaged when exposed to a high temperature for a long time. In addition, if a ceramic material is used, there is a durability against high heat, but the thermal conductivity is significantly lower than that of the metal material. Therefore, in this embodiment, the ceramic enamel coated with a ceramic material is used, which is advantageous in that it is not only excellent in durability against high heat but also high in thermal conductivity.

Looking at the process of heat transfer to the noxious gas in the relationship between the heat storage unit 20 and the heat transfer unit 30 mentioned above, incineration of harmful gas flowing into the heat storage unit 20 is not accumulated initially. In order to generate high heat in the heating body 16 of the combustion unit 10, as the cycle of incineration and discharge of harmful gas is repeated, a lot of heat is accumulated in the heat storage unit 20. In particular, the inlet side 22 that initially enters the gas in which noxious substances are incinerated accumulates heat higher than the outlet side 24 that passes through the heat storage unit 20 and releases heat to the alumina oxide.

Accordingly, the inlet side 22 of the heat storage unit 20 accumulates high heat close to the flash point of the noxious gas when the cycle of incineration of the noxious gas and discharged to the outside is repeated for a predetermined time. It delivers the harmful gas through the gas inlet.

Therefore, when the harmful gas in the gas inflow path 12 corresponding to the inlet side 22 of the heat storage unit 20 has a low flash point, it ignites spontaneously, and even if the harmful gas has a high flash point, the heat transfer part ( Since 30 receives a relatively high heat, the combustion unit 10 may add some heat energy.

Referring to the heat transfer state of the heat transfer unit 30, the outlet side 24 of the heat storage unit 20 forms a low temperature, the gas flowing through the gas inlet passage 12 also forms a low temperature, heat storage Since the inlet side 22 of the section 20 is formed at a high temperature and the harmful gas at the corresponding position is a high temperature, the low temperature thermal energy is absorbed by the low temperature harmful gas at the outlet side 24 of the heat storage unit 20. On the inlet side 22 of the heat storage unit 20, high temperature heat energy is absorbed by the high temperature harmful gas.

As described above, the role of the moon heat unit 40 is important in transferring the heat of the heat storage unit 20 through the heat transfer unit 30 to burn the harmful gas introduced into natural ignition or less energy.

The heat insulating part 40 blocks the heat of the heat storage part 20 and the heat transmitted from the heat transfer part 30 to be discharged to the outside, and opens the gas inflow passage 12 between the heat transfer part 30. While forming, the heat insulating material 42 was mounted around the heat insulating part 40, and the housing 44 was formed outside.

As described above, the present invention accumulates heat to pass through the heat accumulator while the gas input through the inflow port passes through the inflow passage and gradually receives a lot of heat through the heat transfer unit to be transferred to the combustion unit for combustion. Therefore, the gas entering into the inlet port receives heat from the heat storage unit through the heat transfer unit and thus increases its own temperature, and thus obtains a lot of heat energy required for complete combustion.

As described above, the harmful gas incineration apparatus of the present invention has an effect of completely burning and removing harmful substances from harmful gases including gas odor, bacteria, organic dust, and the like with minimal energy.

The above description is merely a mere illustration in all respects, and therefore, the present invention should not be interpreted limitedly. Therefore, modifications and equivalent embodiments that fall within the true spirit and scope of the present invention shall fall within the claims of the present invention.

Claims (5)

The outside is surrounded by a housing 44, the inside of the body (1) filled with a heat insulating material 42, and formed inside the heat insulating material 42 of the body, one side is opened to the outside and the other side is inserted from the outside The space portion is inserted at a predetermined distance from the inner surface through an opening of the space portion into which the heating body 16 is inserted to form a gas inflow passage 12, and the upper side is opened to insert the heating body 16. The lower side is provided with a net so that the gas can flow freely, the heat storage unit 20, the ceramic particles are laminated therein, and the heat storage unit is formed, and heat inside the heat storage unit heat the gas passing through the gas inflow passage 12 Combustion unit for burning the gas in the combustion space 18 provided on the inside of the heat storage unit 20 by the heat transfer unit 12 for transmitting the heat and the heat energy of the heating body 16 inserted into the opening of the heat storage unit ( 10) consisting of Toxic gas incinerator characterized in that the. According to claim 1, The gas inlet 12 is primarily insulated the heat of the heat storage unit 20, equipped with one or more inlet port (50.50 ') in the direction in which the gas flows, inlet Initially forming a wide width of the harmful gas incinerator, characterized in that to form a narrow width at a certain point. Even the apparatus according to claim 1, wherein the fraud ceramic particles are alumina oxide. According to claim 1, wherein the heat transfer portion 30 is a noxious gas incinerator, characterized in that the coating of ceramics on a metal material. Hazardous gas incineration device, characterized in that the direction of the harmful gas flowing through the gas inlet 12 and the direction discharged through the heat accumulating portion 20 is incinerated in the combustion unit (10).

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