KR200187572Y1 - Water-cooled incinerator equipped with wet dust collector for steam - Google Patents

Abstract

The present invention relates to a water-cooled incinerator having a wet scrubber for steam.

According to the present invention, the steam generated from the primary combustion chamber is introduced into the steam chamber constituting the outer wall of the secondary combustion chamber to raise the temperature of the secondary combustion chamber, thereby recombusting the combustion gas introduced from the primary combustion chamber into the secondary combustion chamber. And wet dust of the combustion gas exiting the secondary combustion chamber as the wet steam at this time to increase dust collection efficiency without generating waste water by removing various harmful contaminants such as dust contained in the combustion gas, invisible carbon dioxide, hydrogen chloride, etc. A water-cooled incinerator with wet scrubber for steam is provided.

Description

Water-cooled incinerator equipped with wet dust collector for steam}

The present invention relates to a water-cooled incinerator having a wet scrubber for steam, and more particularly, a secondary combustion chamber installed at the top of the water-cooled incinerator is heated by steam generated in the incinerator to increase the reburn efficiency and also to wet the steam. It is aimed to reduce the cost of wastewater treatment and to prevent water pollution while at the same time being able to efficiently collect the pollutants contained in the combustion gas by spraying it with the dust collector, thereby generating no wastewater and generating an efficient wet dust.

Conventional incinerators are generally water-cooled incinerators equipped with wet scrubbers. This water-cooled incinerator forms a water cooling wall on the outer wall of the primary combustion chamber of the incinerator, and the water generated in the combustion chamber wall is absorbed by water in the water cooling wall to be vaporized and released into the atmosphere, and the metallic material of the combustion chamber inner wall is cooled. It is designed to prevent thermal expansion due to high heat, and contaminants of the combustion gas generated during incineration are collected as a large amount of water sprayed from the wet dust collector and discharged together with the wastewater.

However, such a conventional incinerator is a large amount of water vapor generated after cooling as it is discharged to the atmosphere as a cause of air pollution, and the pollutants of the gaseous components mixed with a large amount of water in the wet dust collector is discharged by treating a large amount of waste water There are many waste stages such as water pollution, enormous wastewater treatment costs, and the main component of the wastewater is strongly acidic (H₂SO 으로서), which accelerates the corrosion of dust collection facilities by acid and shortens the life of incinerators.

The present invention promotes the reburning of the combustion gas introduced from the primary combustion chamber into the secondary combustion chamber by increasing the temperature of the secondary combustion chamber by introducing steam generated in the primary combustion chamber into the steam chamber constituting the outer wall of the secondary combustion chamber. At this time, the wet steam is used to wet the combustion gas exiting the secondary combustion chamber to remove dust, invisible carbon dioxide, hydrogen chloride, and other harmful contaminants, thereby increasing the dust collection efficiency without generating waste water. The present invention is to provide a water-cooled incinerator with a wet dust collector, which will be described in detail according to an embodiment of the accompanying drawings.

1 is an overall cross-sectional view of the present invention

2 is a plan sectional view of the secondary combustion chamber;

3 is a partial cross-sectional view of the 'ga-ga' line of FIG.

Explanation of Symbols for Major Parts of Drawings>

1: water cooling chamber 2: primary combustion chamber 3: auxiliary fuel burner

4: secondary combustion chamber 5: gas duct 6: combustion gas outlet

8: wet dust collector 9: incinerator 10: steam chamber

11: steam pipe 12: steam injection nozzle

The secondary combustion chamber 4 in which the auxiliary fuel burner 3 is installed in the upper part of the primary combustion chamber 2 in which the water cooling chamber 1 was formed on the outer periphery is installed in communication with the gas duct 5, and the secondary combustion chamber 4 In the normal incinerator (9) in which the reduced combustion gas outlet (6) of the cylinder) is eccentrically communicated to the lower side of the cyclone cylindrical wet type dust collector (8), the primary combustion chamber (1) is formed on the outer periphery of the secondary combustion chamber (2). 2) and the steam chamber (10) connected through the steam pipe (11) is installed and the steam of the steam chamber (10) inside the combustion gas outlet (6) of the secondary combustion chamber (4) of the wet dust collector (8) It is a structure characterized in that by installing a steam injection nozzle 12 for injecting.

In the figure, reference numeral 13 denotes a blower for supplying air to the primary combustion chamber 2, 14 is an outlet, 15 is a waste inlet, and 16 is a stack.

In the present invention, the combustion efficiency of the combustion gas increases as the temperature of the secondary combustion chamber is higher in the process of completely burning the gas combusted in the primary combustion chamber in the secondary combustion chamber. Steam chamber 10 is installed on the outer circumference of the) and the steam generated from the water cooling chamber 1 of the primary combustion chamber 2 is pumped into the steam chamber 10 to raise the temperature of the secondary combustion chamber 4 and The wet steam generated in the steam chamber 10 is sprayed into the inside of the wet dust collector 8 as the steam injection nozzle 12 to perform wet dust collection without generating waste water, which will be described in more detail. When the waste is injected into the inside of the primary combustion chamber 2 through the waste inlet 15 and the blower 13 is operated to burn the air while supplying the air necessary for combustion, the waste undergoes primary combustion. Combustion gas The combustion (5) flows into the secondary combustion chamber (4) being heated by the auxiliary fuel burner (3) to complete combustion. At this time, when the primary combustion chamber (2) is heated to a high temperature, its outer periphery The water in the water cooling chamber 1 installed in the heating is heated to generate a large amount of steam, which is introduced into the steam chamber 10 of the secondary combustion chamber 4 through the steam pipe 11 and stays therein. Will increase the temperature.

That is, since the temperature of the water vapor generated in the water cooling chamber 1 of the primary combustion chamber 2 contains heat of about 100 ° C. or more, when it is added to the heat generated by the auxiliary fuel burner 3, the inside of the secondary combustion chamber 4 is increased. As the temperature is maintained at a temperature of about 900 ° C. or higher, the combustion gas flowing into the secondary combustion chamber 4 from the primary combustion chamber 2 through the gas duct 5 is promoted at a high temperature of 900 ° C. or higher. Complete combustion is achieved.

In this way, the combustion gas that has been completely burned in the secondary combustion chamber 4 is rapidly introduced into the lower side of the cyclone cylindrical wet type dust collector 8 connected to the eccentric position through the reduced combustion gas outlet 6, and ascends while turning the inner wall. In this case, the reduced combustion gas outlet 6 is provided with a steam injection nozzle 12 for injecting the steam in the steam chamber 10 into the wet dust collector 8, thereby being discharged to the combustion gas outlet 5. Combustion gas is mixed with the wet steam injected at a high temperature and pressure, the temperature and the flow rate are further increased to flow into the cyclone-type cylindrical wet scrubber (8) and the wet steam mixed combustion gas flows into the wet dust collector at a very high speed. As you climb on the inner wall of 8), the dust will fall in the collision state in the gravitational state. Therefore, as a high dust collection effect due to collision type dust collection, only the purge gas in which the pollutant is almost removed is released to the atmosphere through the stack 16. At this time, dust, soot, sulfur dioxide, and hydrogen chloride among the pollutants generated during combustion are hydrophilic. Since this is very strong, almost dust is collected during the above-mentioned dust collection process, so that the maximum dust collection efficiency can be obtained.

In this way, the present invention raises the temperature of the secondary combustion chamber 4 by steam generated in the primary combustion chamber 2 to promote complete combustion, and also conducts wet dust collection with the wet steam to collect dust together with the high heat contained in the combustion gas. It is possible to prevent water pollution and reduce the cost of waste water as there is no generation of waste water as in the prior art, and there is no waste stage which shortens the life of the incinerator because it is not corroded by acid as in the past. Is very large.

Claims (1)

The secondary combustion chamber 4 in which the auxiliary fuel burner 3 is installed in the upper part of the primary combustion chamber 2 in which the water cooling chamber 1 was formed on the outer periphery is installed in communication with the gas duct 5, and the secondary combustion chamber 4 In a typical incinerator (9) in which the reduced combustion gas outlet (6) of the cylinder) is eccentrically communicated to the lower part of the cyclone cylindrical wet type dust collector (8), the primary combustion chamber (1) is formed on the outer periphery of the secondary combustion chamber (2). 2) and the steam chamber (10) connected through the steam pipe (11) is installed and the steam of the steam chamber (10) inside the combustion gas outlet (6) of the secondary combustion chamber (4) of the wet dust collector (8) A water-cooled incinerator having a wet scrubber for steam, which is provided with a steam spray nozzle (12) for injecting therein.