KR200179409Y1 - Burning room structure of circular cyclone incinerator - Google Patents

Abstract

The present invention relates to the combustion chamber structure of a circular cyclone incinerator which achieves complete combustion of toxic organic matter contained in the sediment and at the same time the ash particle transfer method of the impregnated gas or the simplification of chemical equipment for the combustion of semi-solid sediment. And a plurality of burners 12 which are pivotally mounted to draw fuel and air into the vortex flow into the combustion chamber 10 for vortexing, and vortex being drawn into the burner 12 into the combustion chamber 10. Supply-injector 13 for injecting the first combustion sediment into the combustion chamber 10 to be mixed with the combustion material forming the flow of the combustion chamber 10, and inserted into the combustion chamber 10, the supply-injector 13 Cylindrical to ensure the recycling of the gas at the same time to facilitate the dust collection of the impregnated gas generated as the injected precipitate is burned by the combustion material introduced into the burner 12 A pipe 14 and an outlet 15 provided at the lower end of the combustion chamber 10 to collect ash generated as the precipitate is burned to the outside of the combustion chamber 10, and ash not collected through the discharge port 15. Semi-solid sediment is composed of a grate 16 formed with a plurality of through-holes 17 to be introduced into the vortex flow by the air introduced into the air inlet 18 installed in the lower end of the combustion chamber 10 to achieve a reburn In order to achieve the complete combustion of toxic organic matter contained in the fuel cell, the structure of chemical equipment is simplified, and the weight of the combustion chamber is reduced, and a cylindrical tube is inserted into the combustion chamber to improve the ignition of the precipitate and the combustion conditions. In addition, by maximizing the heat discharge to increase the combustion efficiency of the sediment.

Description

Combustion chamber structure of circular cyclone incinerator

The present invention relates to the combustion chamber structure of a circular cyclone incinerator which achieves complete combustion of toxic organic matter contained in the sediment and at the same time simplifies the ash particle transport method of the impregnated gas or the chemical equipment therefor.

In general, in order to completely burn out toxic organic matter contained in the sediment, the combustion apparatus and the sediment are mixed with a supply-injector for forming primary combustion, and the supply-injector injects a mixture of primary combustion into the combustion chamber. Secondary combustion resulted in complete combustion of toxic organics.

At this time, the mixed material formed by primary combustion in the feed-injector mixes with the mixed fuel injected by the supply-injector while the fuel and air introduced from the burner mounted in the combustion chamber are rotated along the vortex flow to form secondary combustion. do.

However, in the conventional art, the combustion of toxic organics is possible, but the chemicals caused by the ash particle transfer method of the impregnated gas generated during the combustion of the sediment or the two-cylinder feed-injection apparatus for the primary combustion of the sediment are produced. There were problems such as complexity of equipment, enlargement and weight of equipment.

The present invention has been devised to solve the problems of the prior art as described above, and the object of the present invention is to enable the complete combustion of toxic organic matters in the treatment of semi-solid deposits, and at the same time, the ash particle transfer method or supply of the impregnated gas. The present invention provides a combustion chamber structure of a circular cyclone incinerator that simplifies the injector so as to capture minerals contained in the sediment directly in the combustion chamber while maintaining the larval index associated with high temperature heat treatment of the semi-solid sediment.

1 is a cross-sectional view schematically showing the structure of a combustion chamber according to the present invention

Explanation of symbols on the main parts of the drawing

10: combustion chamber 11: inner wall

12: burner 13: supply-injector

14: Corolla 15: Outlet

16: grate 17: through

18: Air inlet

Hereinafter, the combustion chamber structure of the circular cyclone incinerator according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view schematically showing the structure of a combustion chamber according to the present invention.

As shown in FIG. 1, a combustion chamber structure for burning semi-solid deposits is pivotally mounted so as to draw fuel and air into the vortex flow into the combustion chamber 10 for burning semi-solid deposits. Burners (12) and the primary combustion combustion deposits are injected into the combustion chamber (10) to be mixed with the combustion material which is introduced into the burner (12) into the combustion chamber (10) and forms a vortex flow. -The injector 13 is provided.

In addition, the sediment injected from the supply-injector 13 inserted into the combustion chamber 10 enables easy dust collection of the impregnated gas generated while burning by the combustion material introduced into the burner 12. A cylindrical corolla 14 to ensure the recycling of the gas is provided, the discharge port 15 is provided at the lower end of the combustion chamber 10 to collect the dry ash generated as the precipitate is burned to the outside of the combustion chamber 10 It is provided.

In addition, the lower end of the combustion chamber 10 to collect the ash not collected through the discharge port 15, an air inlet 18 for introducing external air, and to the air introduced into the air inlet 18 The grate 16 is formed with a plurality of through-holes 17 to draw the ash into the vortex flow to achieve reburn.

On the other hand, the cylindrical corolla 14 is installed so that the height can be adjusted according to the size of the combustion chamber (10).

As described above, the effect of the combustion chamber structure of the circular cyclone incinerator of the present invention will be described.

When air and fuel are introduced into the combustion chamber 10 through the burner 12 mounted in the combustion chamber 10 in a swirling manner, the introduced combustion material is vortexed to pivot inside the combustion chamber 10. do.

In addition, when the sediment is injected from the primary injection-injector 13, the sediment is mixed with the combustible material forming the vortex flow and combusted.

At this time, the combustion material and the precipitate forming the vortex flow is mixed with the exhaust gas and toxic organic matter is oxidized, the ash of the precipitate is moved along the inner wall 11 of the combustion chamber 10 downward.

In addition, the dry ash of the ash particles that are moved downward along the inner wall 11 of the combustion chamber 10 is a dry ash collecting device (not shown) through the discharge port 15 provided in the lower portion of the combustion chamber 10 Discharged to the installed ash combustion chamber (not shown), and the dust-containing gas generated by the combustion of the sediment is collected through the cylindrical corolla 14.

In addition, the ash particles which are not discharged to the ash combustion chamber (not shown) in which the dry ash collecting device (not shown) is installed through the discharge port 15 are transferred to the air inlet 18 provided at the lower end of the combustion chamber 10. The introduced air is introduced into the combustion chamber 10 through the through hole 17 of the grate 16 to blow the ash particles into the vortex flow region.

That is, the ash particles introduced into the vortex flow as described above are re-burned in the combustion chamber to become ash in a dry state and settled in the separation region of the combustion chamber 10 to discharge the outlet 15 provided at the lower end of the combustion chamber 10. The dry ash collecting device (not shown) is discharged through the installed ash combustion chamber (not shown).

As such, the present invention improves the ignition and combustion conditions of semi-solid deposits, maximizes heat release, and not only completely burns the toxic organics contained in the sediments, but also improves the combustion efficiency, thereby simplifying and reducing chemical equipment. It is to achieve.

The present invention made as described above achieves the complete combustion of the toxic organic matter contained in the semi-solid sediment, and at the same time simplifies the structure of the chemical engineering equipment for this, thereby reducing the weight of the combustion chamber and inserting a cylindrical tube into the combustion chamber. It is a very useful design to increase the combustion efficiency of sediment by improving the ignition and combustion conditions of sediment and maximizing heat emission.

Claims (2)

A plurality of burners 12 which are pivotally mounted to draw fuel and air into the vortex flow into the combustion chamber 10 for burning semi-solid deposits, and the burner 12 into the combustion chamber 10. ) Is injected into the combustion chamber (10) and the supply-injector (13), which is injected into the combustion chamber (10) to be mixed with the combustion material that forms a vortex flow and combusts into the combustion chamber (10) Cylindrical corolla 14 for ensuring the recycling of the gas and at the same time to facilitate the dust collection of the dust generated by the deposit injected from the injector 13 by the combustion material introduced into the burner 12 and In the combustion chamber 10, the discharge port 15 is provided at the lower end of the combustion chamber 10 to collect ash generated while the sediment is burned to the outside of the combustion chamber 10, and the ash not collected through the discharge port 15. At the bottom of the A combustion chamber structure of the circular cyclone furnace to the inlet to the vortex flow by the incoming air to the air inlet (18) consisting of a plurality of grate holes 16 and 17 is formed to achieve the reburn characterized. The combustion chamber structure of claim 1, wherein the cylindrical corolla (14) is installed to be height-adjustable according to the size of the combustion chamber (10).