KR20170076879A - Combustor - Google Patents

Abstract

A combustion device according to the present invention includes: a combustion chamber having a combustion space formed therein and connected to a fuel supply unit at a lower portion thereof; An air supply unit horizontally slopingly connected to a side of the combustion chamber to supply combustion air so that combustion air is swirled in the combustion space; A guide member protruding from the inlet port of the combustion space into the combustion space and downwardly opened so that the combustion air is guided downwardly along the side wall of the combustion chamber in the combustion space; And at least one of the surfaces facing each other at the side wall of the combustion chamber and the guide member, the projecting guide line extending in a downward slope.

Description

Combustor

The present invention relates to a combustor, and more particularly, to a combustor for recovering combustion heat generated by burning a solid fuel in a combustion chamber to use as energy.

Generally, in an industrial facility requiring industrial hot water, steam or high-temperature gas, a combustor for generating heat energy by igniting and burning the fuel in the combustion chamber to obtain heat energy is utilized. As a fuel used in such a combustor, Fueled solid fuel is widely used in terms of economy and recycling of resources.

However, in the process of burning the solid fuel as described above, the ambient air having a relatively low temperature is simply supplied and burned to the ignited solid fuel, which limits the combustion efficiency.

In addition, even if the combustor is made robust in terms of durability, the inside of the combustion chamber forms a high temperature of about 1,000 degrees or more inside, so that the high temperature causes damage to the structure of the combustion chamber, especially the inner wall. As a result, the service life of the equipment is shortened, and further, the replacement of the damaged part causes a problem in continuous operation of the combustor.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a combustor for preheating combustion gas and cooling the inner wall of a combustion chamber.

According to an aspect of the present invention, there is provided a combustor including: a combustion chamber having a combustion space therein and connected to a fuel supply unit; An air supply unit connected to the side of the combustion chamber in a horizontal inclined manner to supply combustion air so that the combustion air is swirled in the combustion space; Wherein the combustion air is introduced into the combustion space at an inlet where the combustion air is introduced into the combustion space so as to guide the combustion air so that the combustion air provided by the air supply unit is pivoted downward along the side wall of the combustion chamber in the combustion space, A guide member; And at least one of the surfaces facing each other at the side wall of the combustion chamber and the guide member, the projecting guide line extending in a downward slope.

Here, the height of the protruding guide line projecting laterally along the longitudinal direction may be lowered.

The protruding guide line may be formed on a surface of the guide member facing the sidewall of the combustion chamber, and may protrude downward to the sidewall of the combustion chamber.

Further, the downward inclination angle toward the side wall of the combustion chamber may become larger as the projecting guide line decreases along the longitudinal direction.

Further, the guide member may be disposed such that a gap between the guide member and the sidewall of the combustion chamber is narrowed in the longitudinal direction at an inlet position of the combustion space, so that the flow rate of the combustion air to be guided is increased.

Specifically, the guide member includes: an upper guide plate extending from the structure above the inlet in the combustion chamber to the inside of the combustion chamber; And a side guide plate extending downward from the upper guide plate and spaced from the side wall of the combustion chamber.

At this time, the upper guide plate may extend laterally one to two times longer than the inlet diameter, and the side guide plate may extend downward longer than the inlet diameter.

The combustor according to the present invention is constituted by the guide member and the protrusion guiding line so as to guide the combustion air provided inside the combustion chamber downward along the sidewall of the combustion chamber to thereby improve the combustion efficiency as the combustion air is preheated before being burned together with the fuel Further, as the sidewall of the combustion chamber in a high temperature state is cooled, the durability and life of the combustion chamber can be improved and continuous operation of the combustor can be realized.

1 is a view illustrating a combustor according to an embodiment of the present invention.
Fig. 2 is a longitudinal sectional view showing the combustor of Fig. 1; Fig.
3 is a cross-sectional view taken along line A-A 'in Fig.
Fig. 4 is a view showing the guide member and the protruding guide line of Fig. 3;
Fig. 5 is a view showing another embodiment of the protruding guideline of Fig. 4. Fig.
Fig. 6 is a view showing another embodiment of the protruding guideline of Fig. 4. Fig.
FIG. 7 is a view showing another embodiment of the guide member of FIG. 3. FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail. In the drawings, like reference numerals are used to refer to like elements throughout the drawings, even if they are shown on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a view showing a combustor according to an embodiment of the present invention, FIG. 2 is a vertical sectional view showing the combustor of FIG. 1, and FIG. 3 is a sectional view taken along line A-A 'of FIG.

Referring to the drawings, the combustor of the present invention includes a combustion chamber 100 in which a solid fuel F is burnt, a fuel supply unit 200 that supplies fuel F to a lower portion of the combustion chamber 100, The air supply unit 300 for supplying the combustion air A to the air supply unit 300 and includes a guide member 400 for guiding the combustion air A supplied by the air supply unit 300, (430).

A combustion space 100a is formed in the combustion chamber 100. A fuel F is mounted on the lower portion of the combustion space 100a and a discharge port 100c is formed on the combustion space 100a. At this time, the fuel supply unit 200 is connected to the lower center of the combustion chamber 100 downward. The fuel supply unit 200 may supply only the solid fuel F and is not limited by the present invention. For example, the fuel supply unit 200 may be a screw system.

For reference, the combustion chamber 100 preferably has a cylindrical shape, and can be adopted as a stable structure in a downwardly swirling flow guide and durability side of the combustion air A to be described later. In addition, this structure is an efficient structure in which an unnecessary inner corner space in a rectangular cross section is removed from the viewpoint of a gas flow path.

The air supply unit 300 is connected to the side of the combustion chamber 100 so as to supply the combustion air A into the combustion chamber 100. The air supply unit 300 is horizontally inclined to the side of the combustion chamber 100 The combustion air A has a swirling force when it flows into the combustion space 100a through the inlet port 100b.

The combustion air A supplied through the air supply unit 300 descends while swirling along the side wall 110 of the combustion chamber 100 in the combustion space 100a so that the fuel The combustion efficiency can be increased as it is preheated before reaching the combustion chamber F and the sidewall 110 of the combustion chamber 100 is blocked from the high temperature distribution portion extending upward from the central portion of the combustion chamber 100 toward the discharge port 100c The temperature of the side wall 110 of the combustion chamber 100 can be lowered.

The main feature of the present invention is that the combustion air A supplied by the air supply unit 300 is supplied to the combustion chamber 100 to cool the combustion chamber 100 with the preheating of the combustion air A, A guide member 400 for guiding the combustion air A downward in the inside of the guide member 400 and a protrusion guiding line 430 for more efficiently implementing the downward turning of the combustion air A together with the guide member 400.

Here, the swirling flow structure of the combustion air (A) supplied into the combustion space (100a) through the air supply part (300) as shown in the figure will be described in detail.

Specifically, the air supply unit 300 is horizontally inclined to the side of the combustion chamber 100, so that the combustion air A has a swirling force when it flows into the combustion space 100a through the inlet port 100b. Specifically, the combustion air A flows into the combustion space 100a through the inlet port 100b. It is a matter of course that the swirling force is maintained even when the combustion air 100 flows into the combustion space 100a.

As described above, the combustion air (A) which maintains the turning force even in the combustion space (100a) is pushed by the subsequent continuous air flowing in succession. Of these, the combustion air (A) The remaining combustion air A is drawn by the high temperature combustion gas flowing upward toward the discharge port 100c and is moved toward the center or the upper side of the combustion chamber 100. [

Accordingly, the present invention can prevent the combustion air (A) holding the turning force from moving in the combustion space (100a) down the side wall (110) of the combustion chamber (100) without moving to the center side or the upper side of the combustion chamber , And a guide member (400) for guiding the combustion air (A).

At this time, the guide member 400 has a structure in which the combustion air A is projected inward from the inlet port 100b into the combustion space 100a and downwardly opened, while the combustion air A is injected into the combustion space 100a. An upper guide plate 410 extending from the structure above the inlet 100b in the combustion chamber 100 to the inside of the combustion chamber 100a and a lower guide plate 410 extending downward from the upper guide plate 410 and spaced apart from the side wall 110 of the combustion chamber 100 The side guide plate 411 may be provided. At this time, the side guide plates 411 are arranged at appropriate intervals from the side wall 110 of the combustion chamber 100, and the upper guide plate 410 is preferably disposed in the combustion space 100a at the inlet 100b to the side guide plates 411. [0064] As shown in FIG.

In addition, the protrusion guiding line 430 is configured such that the downward turning of the combustion air A together with the guide member 400 is implemented more efficiently.

Specifically, the protruding guide line 430 may be formed in a screw-line shape extending downward at an angle to at least one of the surfaces of the guide member 400 and the combustion chamber 100 facing each other.

4, the protruding guide line 430 may be formed in the side guide plate 420, which is a side surface of the guide member 400 facing the side wall 110 of the combustion chamber 100 , At least one of them may be extended in a downwardly inclined manner, and if there are a plurality of them, they may be spaced apart in the vertical direction.

The protruding guiding line 430 is formed so that the combustion air A flowing into the combustion space 100a through the inlet port 100b of the combustion space A of the combustion air A is downwardly turned by the guide member 400 In the process of being guided, the downward swirling flow structure of the combustion air A can be realized more effectively.

On the other hand, the combustion air A is guided downwardly by the protruding guide line 430 to keep the downward turning force continuously, so that the combustion air A is continuously moved downward while approaching the side wall 110 of the combustion chamber 100. However, The amount of combustion air supplied to the combustion chamber 100 is large.

In order to prevent this, the protruding guide line 430 may be formed such that the height protruding laterally along the length direction is reduced as shown in FIG. 5 as an example.

Accordingly, when the combustion air A is guided downward by the protruding guiding line 430, when the supply amount of the combustion air to be supplied subsequently is large, a certain amount of combustion air A can be smoothly lowered over the protruding guide line 430 downward. 5 (a) is a view showing that the protruding guide line 430 is formed on the side guide plate 420 of the guide member 400, and FIG. 5 (b) (430) is formed in the side wall (110) of the combustion chamber (100).

Further, the upper guide plate 410 may extend laterally one to two times longer than the diameter H of the inlet port 100b. 7 (a), when the upper guide plate 410 is laterally extended to a length smaller than the diameter H of the inlet port 100b, the side guide plate 420 is inserted into the inlet port 100b, The combustion air A flowing into the combustion chamber 100 through the inlet port 100b can be horizontally moved by the side guide plate 420 disposed too close to the side guide plate 420, As the effect of clogging becomes large, the swirling force of the combustion air A is not maintained but falls. 7 (b), when the length of the upper guide plate 410 is more than two times greater than the diameter H of the inlet port 100b, the side guide plate 420 is inserted into the inlet port 100b The combustion air A flowing into the combustion chamber 100 through the inlet port 100b is substantially prevented from being guided by the side guide plate 420 so as to be guided by the side guide plate 420. As a result, The swinging force of the swing arm A is not maintained and falls.

In addition, the side guide plate 420 may extend downwardly longer than the diameter H of the inlet port 100b. When the length of the side guide plate 420 extending downward is smaller than the diameter H of the inlet port 100b as shown in FIG. 7 (c), the inside of the combustion chamber 100 through the inlet port 100b Since a part of the incoming combustion air A can flow toward the center side inside the combustion chamber 100 through the lower side of the side guide plate 420 without being guided by the side guide plates 420, Is not maintained and falls.

When the protruding guide line 430 is formed in the side guide plate 420 facing the side wall 110 of the combustion chamber 100 in the guide member 400 as another example, And may be projected downwardly toward the side wall 110 side of the combustion chamber 100 as shown in FIG.

Accordingly, when the combustion air A is guided downward by the protruding guide 430, when the amount of the combustion air to be supplied subsequently is large, a certain amount of combustion air (for example, A can be smoothly moved downward by the protruding guide line 430 protruding downwardly toward the side wall 110 side of the combustion chamber 100. Of course, the protrusion guiding line 430 inclined downward toward the side wall 110 of the combustion chamber 100 is formed only in the guide member 400, not the side wall 110 of the combustion chamber 100, So as to flow toward the side wall 110 side of the combustion chamber 100 without flowing the combustion air A downward on the downward inclined surface of the combustion chamber 100 toward the center side of the combustion chamber 100.

6 (b), the projecting guide line 430 may have a structure in which the downward inclination angle of the combustion chamber 100 toward the side wall 110 increases as the length of the projection guide line 430 decreases along the longitudinal direction So that the downward flow by the above-described protruding guide line 430 can be implemented more smoothly.

Further, although not shown in the drawings, the protruding guide line 430 has a height that is laterally protruded downward along the longitudinal direction, and the height of the protruding guide line 430 toward the side wall 110 of the combustion chamber 100 It is of course possible to adopt a structure in which the angle of inclination downward toward the side wall 110 of the combustion chamber 100 becomes larger as it goes down along the longitudinal direction.

The guide member 400 may be formed in a curved shape so that the flow velocity of the combustion air A guided by the guide member 400 is increased with respect to the side wall 110 of the combustion chamber 100 along the longitudinal direction at an inlet position of the combustion space, So that the interval is narrowed.

The guide member 400 and the protruding guide line 430 can be rotated in the downward direction while maintaining the downward swinging force of the combustion air A, The guide function can be implemented more effectively.

As a result, as described above, the present invention provides the guide member 400 and the protrusion guide 430 (see FIG. 4) so as to guide the combustion air A provided in the combustion chamber 100 downwardly along the side wall 110 of the combustion chamber 100, It is possible to increase the combustion efficiency as the combustion air A provided for combusting the fuel F is preheated before the combustion air A is burned together with the fuel F. Further, 110 can be cooled to improve the durability and lifetime of the combustion chamber 100 and to realize continuous operation of the combustor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

F: fuel A: combustion air
100: combustion chamber 100a: combustion space
100b: Inlet port 100c: Outlet port
110: side wall 200: fuel supply part
400: guide member 410: upper guide plate
420: side guide plate 430: protrusion guideline

Claims (7)

A combustion chamber in which a combustion space is formed and a fuel supply unit is connected to a lower portion thereof;
An air supply unit connected to the side of the combustion chamber in a horizontal inclined manner to supply combustion air so that the combustion air is swirled in the combustion space;
Wherein the combustion air is introduced into the combustion space at an inlet where the combustion air is introduced into the combustion space so as to guide the combustion air so that the combustion air provided by the air supply unit is pivoted downward along the side wall of the combustion chamber in the combustion space, A guide member; And
A protruding guide line extending in a downwardly inclined manner on at least one of the surfaces facing the guide member and the side wall of the combustion chamber;
Lt; / RTI >
The method according to claim 1,
Wherein a height of the protruding guide line protruding sideways is lowered along the length direction.
The method according to claim 1,
Wherein the protruding guide line is formed on a surface of the guide member facing the sidewall of the combustion chamber and protrudes downwardly toward a sidewall of the combustion chamber.
The method of claim 3,
Wherein the projecting guide line has a downward inclination angle toward the sidewall of the combustion chamber as the distance decreases along the longitudinal direction.
The method according to claim 1,
The guide member
Wherein the gap between the combustion chamber side wall and the combustion chamber side wall is narrowed along the longitudinal direction at an inlet position of the combustion space so that the flow velocity of the combustion air to be guided is increased.
6. The method according to any one of claims 1 to 5,
The guide member
An upper guide plate extending from the structure on the upper side of the inlet in the combustion chamber to the inside of the combustion chamber; And
A side guide plate extending downward from the upper guide plate and spaced from a side wall of the combustion chamber;
And a combustor for combusting the combustion gas.
The method according to claim 6,
Wherein the upper guide plate extends laterally one to two times longer than the inlet diameter and the side guide plate extends downwardly longer than the inlet diameter.

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