KR102064950B1 - Fuel supply unit and combustor having thereof - Google Patents

Abstract

A fuel supply unit according to an embodiment of the present invention is a fuel feeding unit for delivering fuel upwards, at least a portion of the upper portion of the fuel feeding unit through the central portion is disposed through, the fuel support unit and the fuel feed portion is seated on the upper surface A fuel diffusion part coupled to an upper end of the part and connected to an air supply station to inject air from the central part of the fuel support part toward the outer periphery of the fuel support part to induce air to flow along the upper surface of the fuel support part; Can be.
In addition, the combustion furnace according to another embodiment of the present invention may include a combustion chamber formed therein and receiving air through the side wall portion and the fuel supply unit provided below the combustion chamber unit.

Description

Fuel supply unit and combustion furnace including same

The present invention relates to a fuel supply unit and a combustion furnace including the same.

In incineration plants and combustion facilities that use various waste resources, waste, biomass, etc. as fuels, the application of the rotary combustion furnace using the rotary combustion furnace has not been greatly increased.

Such a conventional rotary combustion furnace generally has a cross section of a circular combustion space, and the combustion air flows tangentially into the combustion furnace wall from the outside and moves along the double or triple wall passages from the inside of the combustion furnace wall to the inside of the combustion furnace. Inflow. At this time, the introduced combustion air is also tangential to the combustion furnace wall, so that swirl flow is formed inside the combustion furnace.

Such a conventional rotary combustion furnace has a limitation in increasing the size of a single rotary combustion furnace and increasing its combustion capacity due to two characteristics of a circular cross section of the combustion space and supplying fuel from the lower portion. In other words, it was difficult to apply to such large facilities, so its use was limited.

In particular, as the fuel is supplied from the lower part of the combustion furnace, the supply position of the fuel is biased, so that combustion of the entire fuel does not proceed efficiently.

In addition, the rotary combustion furnace uses waste resources, waste, and biomass as fuels, and thus, solidifies during combustion, thereby forming clinker, silica, and the like at the lower portion of the combustion furnace, thereby improving fuel supply and combustion efficiency. Further degraded.

Therefore, there is a need for a study on a fuel supply unit and a combustion furnace including the same to solve the above problems.

Korean Application No. 10-2015-0186109

It is an object of the present invention to provide a fuel supply unit and a combustion furnace including the same, which induces the supplied fuel to be dispersed to improve combustion efficiency.

In another aspect, an object of the present invention is to provide a fuel supply unit and a combustion furnace including the same to remove the clinker, silica and the like generated during combustion of the fuel to improve the combustion efficiency.

A fuel supply unit according to an embodiment of the present invention is a fuel feeding unit for delivering fuel upwards, at least a portion of the upper portion of the fuel feeding unit through the central portion is disposed through, the fuel support unit and the fuel feed portion is seated on the upper surface A fuel diffusion part coupled to an upper end of the part and connected to an air supply station to inject air from the central part of the fuel support part toward the outer periphery of the fuel support part to induce air to flow along the upper surface of the fuel support part; Can be.

Specifically, the fuel diffusion portion of the fuel supply unit according to an embodiment of the present invention is coupled to the connection member and the connection member coupled to the upper end of the fuel feeding unit, the surface facing the gap forming the upper surface of the central portion of the fuel support portion It may include a diffusion member.

Here, the diffusion member of the fuel supply unit according to an embodiment of the present invention may be characterized in that the gap with the fuel support portion becomes narrower from the inner side to the outer side coupled to the connecting member.

In addition, the diffusion member of the fuel supply unit according to an embodiment of the present invention is coupled to the connecting member, the roof plate is disposed perpendicular to the upper surface of the central portion of the fuel support portion and coupled to the lower surface of the roof plate , The guide plate may be provided with a plurality of radially.

In addition, the connection member of the fuel supply unit according to an embodiment of the present invention may be disposed inside the central portion of the fuel support, and may be inclined toward an inner wall surface of the central portion of the fuel support.

In addition, the fuel support unit of the fuel supply unit according to an embodiment of the present invention, the upper portion of the fuel feeding portion is disposed through the central portion, the upper surface is provided in the form of a cone inclined in the outer direction, the air inside It may include an inclined member is formed an air receiving chamber for receiving the air supplied from the supply station.

Here, the inclined member of the fuel supply unit according to an embodiment of the present invention may be characterized in that the air discharge hole is formed on the upper surface.

In addition, the fuel support unit of the fuel supply unit according to an embodiment of the present invention, the rotating shaft member formed to protrude from the center of the lower surface of the inclined member and the gear is coupled to the rotating shaft member, the rotation driving member for supplying a rotational force Can be.

In addition, the fuel support of the fuel supply unit according to an embodiment of the present invention, may be associated with the lower surface of the inclined member, may include a wheel member for supporting the rotation of the inclined member.

In addition, the fuel support unit of the fuel supply unit according to an embodiment of the present invention is provided in the form of a plate protruding from the outer portion of the inclined member, interlocked with the rotational drive of the inclined member by the rotational force of the rotary drive member. It may include a scraping member is rotated.

A combustion furnace according to another embodiment of the present invention may include a combustion chamber having a combustion space formed therein and receiving air through a side wall, and the fuel supply unit provided below the combustion chamber unit.

The fuel supply unit of the present invention and the combustion furnace including the same may induce the fuel supplied to be dispersed to improve the combustion efficiency, and also have the advantage of allowing the combustion furnace to be enlarged.

In another aspect, the fuel supply unit and the combustion furnace including the same of the present invention has the advantage of improving the combustion efficiency by removing the clinker, silica, etc. generated during the combustion of the fuel.

However, various and advantageous advantages and effects of the present invention are not limited to the above description, and will be more readily understood in the course of describing specific embodiments of the present invention.

1 is a block diagram showing a fuel supply unit of the present invention.
2 is a front view showing a fuel diffusion unit in the fuel supply unit of the present invention.
3 is a plan view showing a fuel diffusion unit in the fuel supply unit of the present invention.
4 is a plan view illustrating the scraping member of the fuel support unit in the fuel supply unit of the present invention.
5 is a configuration diagram showing a combustion furnace of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Shape and size of the elements in the drawings may be exaggerated for more clear description.

Also, in the present specification, the singular forms "a", "an" and "the" are intended to include the plural expressions unless the context clearly dictates otherwise. Like reference numerals refer to the same or corresponding elements throughout the specification. I shall do it.

The present invention relates to a fuel supply unit (100) and a combustion furnace including the same, which induces the supplied fuel to be dispersed to improve the combustion efficiency, and also enables the enlargement of the combustion furnace, and in other aspects the combustion of fuel It is possible to improve the combustion efficiency by removing clinker, silica, and the like generated in the case.

In other words, when the fuel is supplied from the lower part to the upper part, the fuel is accumulated and accumulated in the form of acid, thereby limiting the area to be supplied. Accordingly, the contact area with air is limited, thereby reducing the combustion efficiency and supplying the gas by increasing its size. Although the fuel is large, the area where the fuel is in contact with the air becomes smaller compared to the volume of the fuel, so that the enlargement is limited, but the present invention solves this problem.

Specifically, Figure 1 is a block diagram showing a fuel supply unit 100 of the present invention, referring to the drawing, the fuel supply unit 100 according to an embodiment of the present invention is a fuel for delivering fuel upwards At least a portion of the upper part of the fuel feeding part 110 penetrates the feeding part 110 and a central part, and the fuel support part 120 and the upper end of the fuel feeding part 110 on which fuel is seated on the upper surface 121a. Coupled and connected to an air supply station (A) to inject air from the center of the fuel support unit 120 toward the outer periphery of the fuel support unit 120 to direct air to the top surface 121a of the fuel support unit 120. It may include a fuel diffusion unit 130 to guide the flow along.

In this way, the fuel supply unit 100 of the present invention includes the fuel diffusion unit 130, it is possible to inject air along the outer portion from the central portion of the upper surface 121a of the fuel support unit 120, thereby The fuel that is biased and seated in the center of the fuel support part 120 is pushed to the outer part of the fuel support part 120 to induce efficient combustion of the fuel.

Here, the fuel feeding unit 110 serves to supply fuel. For example, the fuel feeding unit 110 may be provided at the bottom of the combustion furnace, and may be provided as a screw rod configured to transfer fuel by rotation. Accordingly, the fuel feeding unit 110 can deliver the fuel to the combustion space (C) to be burned.

In addition, a fuel support part 120 supporting the delivered fuel is disposed around the fuel feeding part 110, and the fuel seated on the fuel support part 120 is supported by the fuel diffusion part 130. It is moved from the central portion of the 120 to the outer portion to increase the contact area with air without being accumulated even if fuel is continuously supplied.

The fuel support unit 120 serves to support fuel delivered from the fuel feeding unit 110. To this end, the fuel support unit 120 is provided above the fuel feeding unit 110.

In addition, the fuel support unit 120 may be provided in an inclined form to secure an effect of increasing the area in contact with the combustion space (C) relative to the amount of fuel supplied when the fuel is stacked.

That is, the fuel support unit 120 of the fuel supply unit 100 according to an embodiment of the present invention, the upper portion of the fuel feeding unit 110 is disposed through the central portion, the upper surface 121a is in the outer direction It may be provided in the form of an inclined cone, it may include an inclined member 121 formed therein the air receiving chamber 121b for receiving the air supplied from the air supply (A).

As such, the fuel delivered by the fuel feeding unit 110 is moved to the inclined member 121 of the fuel support unit 120, and the fuel thus moved is moved downward along the inclined surface of the inclined member 121. Since it is arranged to be dispersed, it is possible to increase the effect of moving the fuel from the central portion of the inclined member 121 to the outer portion. Accordingly, the effect of increasing the contact area with the combustion space (C) relative to the amount of fuel supplied is further increased.

In addition, since the fuel support part 120 does not need to move the fuel further outward from the outer part, the outer part of the fuel support part 120 may be provided in a horizontally flat shape on the ground perpendicular to the direction of gravity. That is, the center portion of the fuel support portion 120 may be provided in an inclined form, and the outer portion of the fuel support portion 120 may be provided in a flat form.

In addition, the fuel supporter 120 may form an air discharge hole 121d of the inclined member 121 to supply air to the lower portion of the seated fuel to increase combustion efficiency.

That is, the inclined member 121 of the fuel supply unit 100 according to an embodiment of the present invention may be characterized in that the air discharge hole 121d is formed on the upper surface 121a.

The air discharge hole 121d may be formed upward, or may be provided to be injected upward in a predetermined angle.

In order to configure the air to be discharged through the air discharge hole 121d, air must be supplied to the air holding chamber 121b formed in the inclined member 121. To this end, the air accommodating chamber 121b formed in the inclined member 121 may be connected to the air supply station A.

In addition, the fuel support unit 120 of the fuel supply unit 100 according to an embodiment of the present invention, the rotary shaft member 122 and the rotary shaft member protruding from the center of the lower surface 121e of the inclined member 121 Geared with the 122, it may include a rotation drive member 123 for supplying rotational force.

That is, the fuel support unit 120 may be configured to rotate by the rotation shaft member 122 and the rotation driving member 123. According to this, the effect of moving the fuel delivered to the center of the inclined member 121 by the fuel feeding unit 110 by the centrifugal force to the outer portion of the inclined member 121 can be further enhanced.

In addition, the rotation shaft member 122 is provided in the form protruding to the central portion of the inclined member 121 in order to transmit the rotational force to the inclined member 121 by the rotary drive member 123, Since the fuel feeding unit 110 is provided, it may be provided in the form of a circular pipe.

In addition, the rotary shaft member 122 may be formed in the form of a tooth (teeth) on the outer surface in order to receive the rotational force of the rotary drive member 123.

The rotation driving member 123 may be the rotation driving member 123 of the present invention as long as it is configured to generate a rotation force. For example, the rotation driving member 123 may be provided as a rotation motor, or the like, and a gear for gear coupling with the rotation shaft member 122 may be provided.

The fuel support unit 120 may include a wheel member 124 to support the rotation operation when the inclined member 121 is rotated by the rotation shaft member 122 and the rotation driving member 123. have.

That is, the fuel support unit 120 of the fuel supply unit 100 according to an embodiment of the present invention is connected to the lower surface 121e of the inclined member 121 and supports the rotation of the inclined member 121. It may include a wheel member 124.

The wheel member 124 is coupled to the lower surface 121e of the inclined member 121, it may be provided in the form of a wheel capable of rolling operation. Accordingly, it is possible to reduce the friction force when the inclined member 121 is rotated by the rotation driving member 123.

Alternatively, the wheel member 124 may be provided in the form of a rolling bearing at the bottom of the combustion furnace, etc., the lower surface of the inclined member 121 may be seated to reduce the friction force during rotation.

The fuel diffusion unit 130 guides air from the center portion of the fuel support portion 120 to the outer portion, and guides the air to flow through the upper surface 121a of the fuel support portion 120.

Accordingly, the fuel seated on the upper surface 121a of the central portion of the fuel support part 120 by the fuel feeding part 110 is pushed to the outer portion of the fuel support part 120 by the flow of air. The combustion area is increased by increasing the contact area with the.

In addition, since the air injected by the fuel diffusion unit 130 also performs a combustion action with the fuel, it is possible to further increase the combustion efficiency. In other words, the air injected from the fuel diffusion unit 130 is supplied for combustion with the fuel, and also serves as a driving body for forming a flow for position movement of the fuel.

In addition, as the fuel diffusion unit 130 guides the flow of air from the central portion of the fuel support portion 120 to the outer portion along the upper surface 121a of the fuel support portion 120, the upper surface of the fuel support portion 120. Materials such as clinker silica adhered to 121a may also be pushed to the outside of the fuel supporter 120.

As such, in order to inject the air so that the fuel diffusion unit 130 moves the fuel from the center portion to the outer portion of the fuel support unit 120, the fuel diffusion unit 130 is connected to the connection member 131 and the diffusion member 132. And the like, which will be described later with reference to FIG. 2.

2 is a front view illustrating the fuel diffusion unit 130 in the fuel supply unit 100 of the present invention. Referring to the drawings, the fuel diffusion unit of the fuel supply unit 100 according to an embodiment of the present invention. The 130 is coupled to the connecting member 131 and the connecting member 131 coupled to the upper end of the fuel feeding part 110, and forms a gap with the upper surface 121a of the central portion of the fuel supporting part 120. It may include a diffusion member 132 facing.

As such, the connection member 131 couples the diffusion member 132 with the upper surface 121a of the central portion of the fuel support 120 to form a gap, so that the air injected through the diffusion member 132 is discharged through the fuel. It is guided to move along the upper surface 121a of the support part 120.

Here, the connection member 131 is coupled to the upper end of the fuel feeding unit 110, it is disposed on the path that the fuel supplied from the fuel feeding unit 110 is moved. The diffusion member 132 is coupled to the connection member 131. In other words, the connecting member 131 has a donut shape, the upper end of the fuel feeding part 110 is coupled to the inner circumference, and the diffusion member 132 is coupled to the outer circumference.

In addition, the connection member 131 of the fuel supply unit 100 according to an embodiment of the present invention is disposed inside the central portion of the fuel support portion 120, and the inner wall surface 121c of the central portion of the fuel support portion 120. It may be characterized in that it is formed inclined toward.

That is, the connecting member 131 is a donut shape when viewed from above, and may be provided in a funnel shape when viewed from the side.

According to this, since the fuel supplied upward by the fuel feeding unit 110 can gradually move upward on the inclined surface of the serial member, it is possible to smoothly supply the fuel.

The diffusion member 132 may be provided to form a gap with the upper surface 121a of the fuel support 120 to inject air to flow along the upper surface 121a of the fuel support 120.

That is, when air is supplied from the air supply station A through the flow path between the upper end of the fuel feeding unit 110 and the connection member 131 and the inner wall surface 121c of the fuel support unit 120, the supplied air Is injected through a flow path between the diffusion member 132 and the upper surface 121a of the central portion of the fuel support part 120.

To this end, the diffusion member 132 is provided in a donut shape when viewed from above, the connection member 131 is coupled to the inner peripheral portion, the lower surface is provided to face the upper surface 121a of the fuel support portion 120. do.

Such a diffusion member 132 may be provided so as to adjust only the flow direction of the air is disposed in parallel to the fuel support portion 120. This is illustrated as an example in Figure 2 (a).

In addition, the diffusion member 132 cooperates with the upper surface 121a of the fuel support part 120 to adjust the flow direction of the injected air and is arranged in the form of a nozzle in which the flow path gradually decreases in the flow direction of the air. It can be provided to increase the flow rate of the air to be. This is illustrated as an example in Figure 2 (b).

That is, the diffusion member 132 of the fuel supply unit 100 according to an embodiment of the present invention, the gap between the fuel support portion 120 is narrower toward the outer side from the inner side coupled to the connecting member 131 It may be characterized in that the fork formed.

In addition, the diffusion member 132 may be configured such that the air injected is uniformly injected in the circumferential direction of the fuel support unit 120. To this end, the diffusion member 132 may include a roof plate 132a, a guide plate 132b, and the like, which will be described later with reference to FIG. 3.

3 is a plan view illustrating the fuel diffusion unit 130 in the fuel supply unit 100 of the present invention. Referring to the drawings, the diffusion member of the fuel supply unit 100 according to an embodiment of the present invention ( 132 is coupled to the connection member 131 and coupled perpendicularly to the roof plate 132a and the bottom surface of the roof plate 132a which are disposed to face the upper surface 121a of the central portion of the fuel support unit 120. , May include a plurality of guide plates 132b provided in a radial shape.

That is, the diffusion member 132 may include a roof plate 132a and a guide plate 132b so that the air to be injected is uniformly injected in the circumferential direction of the fuel support unit 120.

Here, the roof plate 132a is configured to face the upper surface 121a of the fuel support part 120 to form a flow path of air injected in cooperation with the fuel support part 120.

In addition, the roof plate 132a may be provided in a donut shape when viewed from above in order to face the upper surface 121a of the fuel support part 120, and the connection member 131 may be provided at an inner circumference thereof. Can be combined.

In addition, the roof plate 132a may be horizontally coupled to the upper surface 121a of the fuel support part 120, and the flow path becomes smaller in the air flow direction in cooperation with the upper surface 121a of the fuel support part 120. The paper may be arranged in the form of a nozzle.

The guide plate 132b serves to guide the air injected through the flow path formed by the roof plate 132a and the upper surface 121a of the fuel support unit 120 in the injection direction. To this end, the guide plate 132b is formed to protrude from the bottom surface of the roof plate 132a, and may be formed to have a long shape in the radial direction of the roof plate 132a.

As a result, air injected through the roof plate 132a and the upper surface 121a of the fuel support part 120 may be radially injected in the radial direction of the roof plate 132a.

4 is a plan view showing the scraping member 125 of the fuel support unit 120 in the fuel supply unit 100 of the present invention. Referring to the drawings, the fuel supply unit 100 according to an embodiment of the present invention. The fuel support portion 120 is provided in the form of a plate protruding from the outer portion of the inclined member 121, is linked to the rotational drive of the inclined member 121 by the rotational force of the rotary drive member 123. It may include a scraping member 125 is rotated.

That is, the inclined member 121 is configured to rotate by the rotation driving member 123, and the scraping member 125 is coupled to the outer portion of the inclined member 121, so that the inclined member 121 of the inclined member 121 is rotated. The clinker, silica, etc. stuck to the outside of the outer portion can be removed.

In other words, the scraping member 125 coupled to the inclined member 121 may be scraped off by removing clinker, silica, etc. fixed to the outer side of the inclined member 121.

In addition, the scraping member 125 has a sweep hole for removing the clinker, silica not removed by scratching, or injecting air to move the clinker, silica, etc., scraped off from the bottom of the combustion furnace to a discharged position ( 125a) can be formed.

That is, the scraping member 125 may be configured to receive air through the internal hollow communicated with the air receiving chamber 121b and to spray the air provided through the sweep hole 125a.

5 is a configuration diagram illustrating a combustion furnace of the present invention. Referring to the drawings, a combustion space C is formed therein according to another embodiment of the present invention, and air is formed through the side wall portion 200a. It may include a combustion chamber unit 200 receives the supply and the fuel supply unit 100 provided in the lower portion of the combustion chamber unit 200.

As described above, the combustion furnace supplies air to the combustion space C through the side wall portion 200a of the combustion chamber unit 200 to form a combustion region. In addition, a fuel feeding unit in the fuel supply unit 100 is provided. By moving the fuel moved to the bottom center of the combustion space C by the 110 to the bottom outer portion of the combustion space C, the contact area between air and fuel is continuously increased to improve combustion efficiency.

In addition, supplying air to the side wall portion 200a of the combustion chamber unit 200 may be an air supply station A connected to the fuel supply unit 100 or an air supply connected to the fuel supply unit 100. It may be an air supply A different from the element A.

Here, when air is supplied to the side wall portion 200a of the combustion chamber unit 200, the air may be supplied to the side wall portion 200a in a tangential direction, thereby forming a flow of supply air in a swirl flow. Therefore, the side wall portion 200a may not be provided as a refractory because the cold air of the air supply A has an effect of cooling the combustion furnace wall while continuously passing the combustion furnace wall.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and various modifications and variations can be made without departing from the technical spirit of the present invention described in the claims. It will be obvious to one with ordinary knowledge.

100: fuel supply unit 110: fuel feeding unit
120: fuel support 121: inclined member
122: rotary shaft member 123: rotary drive member
124: wheel member 125: scraping member
130: fuel diffusion unit 131: connecting member
132: diffusion member 200: combustion chamber unit

Claims (11)

A fuel feeding unit configured to transfer fuel upward;
At least a portion of an upper portion of the fuel feeding portion penetrates a central portion thereof, and a fuel support portion on which fuel is seated on an upper surface thereof; And
A fuel diffusion coupled to an upper end of the fuel feeding part and connected to an air supply station to inject air from the central part of the fuel support part toward the outer periphery of the fuel support part to induce air to flow along the upper surface of the fuel support part; part;
Including;
The fuel support portion,
An inclined member having a central portion through which an upper portion of the fuel feeding portion penetrates, an upper surface of which is formed in a cone shape inclined toward an outer portion thereof, and an air accommodation chamber configured to receive air supplied from the air supply station;
Fuel supply unit comprising a. The method of claim 1,
The fuel diffusion unit,
A connection member coupled to an upper end of the fuel feeding part; And
A diffusion member coupled to the connection member and facing to form a gap with an upper surface of a central portion of the fuel support part;
Fuel supply unit comprising a. The method of claim 2,
The diffusion member is a fuel supply unit, characterized in that the gap with the fuel support portion is formed narrower toward the outer side from the inside coupled to the connecting member. The method of claim 2,
The diffusion member,
A roof plate coupled to the connection member and disposed to face an upper surface of a central portion of the fuel support unit; And
A guide plate coupled to a lower surface of the roof plate and provided with a plurality of radially;
Fuel supply unit comprising a. The method of claim 2,
The connecting member is disposed in the central portion of the fuel support portion, the fuel supply unit, characterized in that formed inclined toward the inner wall surface of the central portion of the fuel support portion. delete The method of claim 1,
The inclined member, the fuel supply unit, characterized in that the air discharge hole is formed on the upper surface. The method of claim 1,
The fuel support portion,
A rotating shaft member protruding from a central portion of the lower surface of the inclined member; And
A rotation drive member coupled to the rotation shaft member and supplying rotational force;
Fuel supply unit comprising a. The method of claim 8,
The fuel support portion,
A wheel member connected to a lower surface of the inclined member and supporting rotation of the inclined member;
Fuel supply unit comprising a. The method of claim 8,
The fuel support portion,
Scraping member is provided in the form of a plate protruding from the outer portion of the inclined member, the scraping member is rotated in conjunction with the rotational drive of the inclined member by the rotational force of the rotary drive member;
Fuel supply unit comprising a. A combustion chamber unit formed therein and receiving air through the side wall; And
The fuel supply unit of any one of claims 1 to 5 and 7 to 10 provided in the lower portion of the combustion chamber unit;
Combustion furnace comprising a.

Images