KR102020402B1 - Fuel supply unit and combustor having thereof - Google Patents

Abstract

The fuel supply unit according to an embodiment of the present invention includes a fuel feeding part for delivering fuel upward and a fuel support part in communication with an upper portion of the fuel feeding part, and having a fuel seated therein, and an insulating material formed on at least a portion of an inner surface of the upper end portion. Can be.
In addition, an incinerator according to another embodiment of the present invention may include a combustion chamber formed therein and receiving air through a side wall, and the fuel supply unit provided below the combustion chamber unit.

Description

Fuel supply unit and incinerator including same {Fuel supply unit and combustor having young}

The present invention relates to a fuel supply unit and an incinerator including the same.

The annular incinerator has a structure in which air is injected in a tangential direction above the side wall portion or below the side wall portion in the incinerator, and the air injected above the side wall portion turns inside the incinerator and descends and exits through the outlet of the upper part after combustion.

The air injected into the lower side of the side wall turns to the lower part and moves, and then some enter the lower part of the chamber, cool the part of the chamber, and some directly enter the bottom of the incinerator, join the combustion, and exit the exit.

Because of this feature, the fuel injected into the incinerator must be supplied to the center of the bottom of the incinerator so that the incinerator can operate normally without disturbing linear rotation.

However, as the fuel is supplied to the bottom of the incinerator as described above, there is a limit in that combustion does not proceed efficiently.

In other words, the fuel input portion to the incinerator is exposed to a high temperature environment, there is a problem that the incinerator stop time for maintenance and repair according to the durability degradation increases.

Therefore, there is a need for a study on a fuel supply unit and an incinerator including the same for solving the above problems.

Korean Application No. 10-2011-0073555

It is an object of the present invention to provide a fuel supply unit and an incinerator including the same to prevent a problem that the combustion efficiency is lowered as fuel is supplied to the bottom of the incinerator.

In another aspect, it is an object of the present invention to provide a fuel supply unit and an incinerator including the same, which prevents a problem in which the fuel is injected into the incinerator is exposed to a high temperature environment and deteriorates durability, and facilitates maintenance and repair.

The fuel supply unit according to an embodiment of the present invention includes a fuel feeding part for delivering fuel upward and a fuel support part in communication with an upper portion of the fuel feeding part, and having a fuel seated therein, and an insulating material formed on at least a portion of an inner surface of the upper end portion. Can be.

Here, the fuel supply unit according to an embodiment of the present invention, the fuel support portion, the receiving member is provided around the upper end of the fuel feeding portion, an edge surface member is provided to extend around the outer side of the receiving member and at least the receiving member It is provided in the interior, may include a heat-resistant tube member formed of a heat insulating material.

And, the receiving member of the fuel supply unit according to an embodiment of the present invention, the lower connection is provided to connect between the upper connection pipe and the upper end of the fuel feeding portion and the lower end of the upper connection pipe on which the heat-resistant tube member is seated It may include a tube.

Here, the lower connection pipe of the fuel supply unit according to an embodiment of the present invention may be characterized in that the coupling flange detachable from the fuel feeding part and the upper connection pipe is formed.

In addition, the heat-resistant tube member of the fuel supply unit according to an embodiment of the present invention, it may be characterized in that it is provided seated on the receiving member formed in a narrow shape toward the downward.

And, the heat-resistant tube member of the fuel supply unit according to an embodiment of the present invention may be characterized in that it is provided with a plurality of heat resistant pieces divided in the circumferential direction.

Here, the heat-resistant piece of the fuel supply unit according to an embodiment of the present invention, it may be characterized in that the stepped portion is in contact with the end portion connected to the neighboring heat-resistant piece.

In addition, the heat-resistant tube member of the fuel supply unit according to an embodiment of the present invention may be characterized in that the concave-convex shape to be engaged with the concave-convex shape formed on the inner surface of the receiving member is formed on the outer surface.

An incinerator 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 portion, and the fuel supply unit provided below the combustion chamber unit.

The fuel supply unit of the present invention and the incinerator including the same have an advantage of preventing the problem of lowering combustion efficiency by supplying fuel to the bottom of the incinerator.

In another aspect, the fuel supply unit of the present invention and an incinerator including the same have an advantage of preventing a problem in that a portion of fuel input to the incinerator is exposed to a high temperature environment and deteriorates durability.

In addition, the fuel supply unit of the present invention and the incinerator including the same have an advantage of facilitating the maintenance and repair of the fuel input to the incinerator.

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.
Figure 2 is a plan view showing a heat-resistant tube member of the fuel support unit in the fuel supply unit of the present invention.
3 is a side view illustrating a heat resistant piece of the heat resistant tube member having the stepped portion in the fuel supply unit of the present invention.
Figure 4 is a side view showing the heat-resistant tube member and the receiving member formed in the concave-convex shape in the fuel supply unit of the present invention.
5 is a cross-sectional view showing an incinerator 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 an incinerator including the same, it is possible to prevent the problem that the combustion efficiency is reduced by supplying the fuel (F) to the bottom of the incinerator.

That is, the part injecting the fuel F into the incinerator is exposed to a high temperature environment to prevent the problem of deterioration in durability, and to facilitate maintenance and repair, to reduce the incinerator downtime for the maintenance and repair of the incinerator, Accordingly, it is possible to increase the combustion efficiency by increasing the operating time of the incinerator.

Specifically, with reference to the drawings, Figure 1 is a block diagram showing a fuel supply unit 100 of the present invention, the fuel supply unit 100 according to an embodiment of the present invention to the fuel (F) upwards The fuel feeding unit 110 and the fuel feeding unit 110 to communicate with the upper portion of the fuel (F) is seated, it may include a fuel support unit 120 is formed with a heat insulating material on at least a portion of the inner surface of the upper end.

As such, as a part of the fuel support part 120 is formed of a heat insulating material, heat resistance to heat transferred from the combustion space C is secured, and thus the thermal damage of the fuel support part 120 is prevented. The time for the replacement and repair of the support 120 will be reduced.

Here, the fuel feeding unit 110 serves to supply the fuel (F). For example, the fuel feeding unit 110 may be provided at the bottom of the combustor, and may have a configuration of a screw rod that transmits fuel F by rotation. Accordingly, the fuel feeding unit 110 may deliver the fuel F to the combustion space C combusted.

In addition, a fuel support part 120 supporting the fuel F delivered the fuel F is disposed around the fuel feeding part 110.

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

In addition, since the fuel support part 120 is provided to support the fuel F, the fuel support part 120 is provided to be exposed to the combustion space C of a high temperature environment. Accordingly, a portion of the inner surface of the fuel support part 120 facing the combustion space C may be formed of a heat insulating material to ensure heat resistance.

Accordingly, the fuel support unit 120 can prevent the thermal damage from occurring, thereby reducing the time for maintenance and repair due to the thermal damage.

Furthermore, since it is not necessary to form the fuel support part 120 relatively thick in order to ensure heat resistance, the material requirement for forming the fuel support part 120 can be reduced.

As such, in order for the fuel support part 120 to form an inner surface of the insulating material, the fuel support part 120 may include a receiving member 122, an edge member, a heat resistant tube member 127, and the like.

In other words, the fuel supply unit 100 according to an embodiment of the present invention, the fuel support unit 120, the receiving member 122, the receiving member 122 which is provided around the upper end of the fuel feeding unit 110 It may include an edge member and extending at the outer periphery of the) and at least inside the receiving member 122, the heat-resistant tube member 127 formed of a heat insulating material.

The receiving member 122 is provided at an upper end of the fuel feeding unit 110 to support the fuel F transferred from the feeding unit. In addition, the heat resistant tube member 127 is provided on an inner surface of the receiving member 122, thereby preventing the receiving member 122 from being directly exposed to the combustion space C of a high temperature environment.

In addition, the receiving member 122 may have a concave-convex shape on the inner surface in order to be stably coupled with the heat resistant tube member 127 provided on the inner surface, which will be described later with reference to FIG. 4.

In addition, the receiving member 122 may be provided in the shape of an open trumpet having a lower width than the width of the upper end in order for the heat-resistant tube member 127 to be stably coupled to the inner surface. Can be.

In addition, when replacing the heat-resistant tube member 127, the receiving member 122 is separated from the upper connection pipe (122a) so as to transfer the heat-resistant tube member 127 from the outside to the interior of the receiving member 122. It may be composed of a lower connection pipe (122b).

That is, the receiving member 122 of the fuel supply unit 100 according to an embodiment of the present invention, the upper connection pipe 122a and the fuel feeding unit 110 on which the heat-resistant tube member 127 is seated. It may include a lower connecting pipe 122b provided to connect between the upper end and the lower end of the upper connecting pipe 122a.

The upper connection pipe 122a is an upper portion of the receiving member 122 that is provided closest to the combustion space C of a high temperature environment, and the heat resistant tube member 127 is formed on an inner surface of the upper connection pipe 122a. It is provided.

The lower connecting pipe 122b is configured to be detachably provided to the upper connecting pipe 122a to provide the heat resistant pipe member 127 to the upper connecting pipe 122a.

That is, the lower connection pipe (122b) is the upper end is coupled to the lower end of the upper connection pipe (122a), the lower end is configured to be coupled to the upper end of the fuel feeding unit 110, of the lower connection pipe (122b) The combination of the upper end and the lower end may be combined to release it.

To this end, the lower connection pipe (122b) of the fuel supply unit 100 according to an embodiment of the present invention, the coupling flange 122c detachable from the fuel feeding unit 110 and the upper connection pipe (122a). It may be characterized in that formed.

The portion to be coupled for detachment from the coupling flange 122c may be configured to be bolted, or may be configured to be coupled by other coupling means.

The edge member is a portion configured to extend around the outer side of the receiving member 122, and serves to support the fuel F delivered from the fuel feeding part 110 when it is separated from the receiving member 122. Will be

That is, the edge surface member is provided to extend around the outer side of the receiving member 122, thereby supporting the stack of the fuel (F).

To this end, for example, the edge surface member may be provided in a form extending to the outer periphery of the receiving member 122 in a direction horizontal to the ground.

The heat resistant tube member 127 is provided on the inner surface of the receiving member 122 to prevent the receiving member 122 from being directly exposed to a high temperature environment. To this end, the heat-resistant tube member 127 is provided formed of a heat insulating material.

For example, the heat resistant tube member 127 may be formed of a ceramic material and coupled to an inner surface of the accommodation member 122.

In addition, the heat resistant tube member 127 may be provided in a form corresponding to the shape of the receiving member 122 in order to be stably seated on the receiving member 122. That is, when the receiving member 122 has a trumpet shape that becomes narrower in width from the upper end to the lower end, the heat resistant tube member 127 may also be provided in the form of a trumpet to be seated on the inner surface of the receiving member 122. It may be.

That is, the heat-resistant tube member 127 of the fuel supply unit 100 according to an embodiment of the present invention is characterized in that it is provided is seated on the receiving member 122 formed in a narrow shape toward the downward direction can do.

In addition, when the concave-convex shape is formed on the inner surface of the receiving member 122, the concave-convex shape is formed on the outer surface of the heat-resistant tube member 127 to engage with the concave-convex shape formed on the receiving member 122, the receiving member 122 Can be seated on the inner surface of the Detailed description thereof will be described later with reference to FIG. 4.

The heat resistant tube member 127 may be provided with a plurality of heat resistant pieces 127a so that the heat resistant tube member 127 may be easily provided to the receiving member 122. The heat-resistant tube member 127 can be separated and detached from the receiving member 122, and can be seated on the receiving member 122 in a divided form, thereby facilitating the maintenance and repair of the heat-resistant tube member 127. It can be done. Detailed description thereof will be described later with reference to FIGS. 2 and 3.

2 is a plan view showing the heat-resistant tube member 127 of the fuel support unit 120 in the fuel supply unit 100 of the present invention, Figure 3 is a stepped portion (127b) in the fuel supply unit 100 of the present invention It is a side view which shows the heat-resistant piece 127a of the formed heat-resistant pipe member 127. FIG.

Referring to the drawings, the heat-resistant tube member 127 of the fuel supply unit 100 according to an embodiment of the present invention, it may be characterized in that it is provided with a plurality of heat-resistant pieces 127a divided in the circumferential direction. have.

Accordingly, when the heat resistant tube member 127 is damaged, the heat resistant tube member 127 may be detached and separated from the receiving member 122, and may be seated on the receiving member 122 in a divided form. Therefore, maintenance and repair of the heat resistant tube member 127 can be facilitated.

In addition, when only a part of the heat-resistant tube member 127 is damaged, only a part of the heat exchanger member 127 may be replaced, and thus, a cost for maintenance may be reduced.

Here, the heat-resistant piece (127a) is separated form may be divided at uniform intervals in the circumferential direction of the heat-resistant tube member 127, or only a small portion to be divided when separated from the receiving member 122 It may be configured to minimize the piece.

In addition, a stepped portion 127b may be formed in the heat resistant piece 127a such that a gap is formed between the heat resistant pieces 127a so that a gap in which high temperature heat is directly transmitted to the receiving member 122 does not occur. There is also.

That is, the heat resistant piece 127a of the fuel supply unit 100 according to the embodiment of the present invention may be characterized in that the stepped portion 127b is formed in contact with an end connected to the neighboring heat resistant piece 127a. Can be.

The stepped portion 127b of the heat resistant piece 127a is formed to be engaged with another adjacent stepped portion 127b to facilitate the coupling, and may also prevent a problem in which a gap is generated between the heat resistant pieces 127a. Will be.

To this end, the stepped portion 127b is provided to form a stepped shape in the thickness direction of the heat resistant tube member 127. This can be confirmed in the thickness direction side view of the heat-resistant tube member 127 of FIG.

Figure 4 is a side view showing the heat-resistant tube member 127 and the receiving member 122 formed in the concave-convex shape in the fuel supply unit 100 of the present invention, referring to the drawings, the fuel according to an embodiment of the present invention The heat-resistant tube member 127 of the supply unit 100 may be characterized in that the concave-convex shape engaging with the concave-convex shape formed on the inner surface of the receiving member 122 is formed on the outer surface.

As such, when an uneven shape is formed on the inner surface of the receiving member 122, an uneven shape is formed on the outer surface of the heat resistant tube member 127 to engage with the uneven shape formed on the receiving member 122. 122) can be stably seated on the inner surface of the coupling.

Furthermore, when the receiving member 122 has a trumpet shape that becomes narrower in width from the upper end to the lower end, the heat resistant tube member 127 is supported downward departure by the trumpet shape of the receiving member 122, and the unevenness The shape makes it possible to prevent the problem of lateral movement.

5 is a cross-sectional view showing an incinerator of the present invention. Referring to the drawings, an incinerator according to another embodiment of the present invention has a combustion space C formed therein and is supplied with air through the side wall portion 210. It may include a combustion chamber unit 200 and the fuel supply unit 100 provided in the lower portion of the combustion chamber unit 200.

As such, the incinerator forms air by supplying air to the combustion space C through the side wall portion 210 of the combustion chamber unit 200.

In order to prevent thermal damage in the fuel support part 120 supporting the fuel F with respect to the high temperature environment of the combustion space C formed by the incinerator, the inner surface of the fuel support part 120 is a heat insulating material. It is formed as described above.

In addition, the combustion chamber unit 200 of the incinerator according to another embodiment of the present invention may include a side wall indentation unit 220 for supplying air to the side wall portion 210. That is, the side wall portion 220 is provided to supply air to the side wall portion 210.

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 122: receiving member
127: heat-resistant tube member 200: combustion chamber unit
210: side wall portion 220: side wall portion

Claims (9)

delete A fuel feeding unit configured to transfer fuel upward; And
A fuel support part communicating with an upper portion of the fuel feeding part to receive fuel and having a heat insulating material formed on at least part of an inner surface of the upper end part;
Including;
The fuel support portion,
An accommodation member provided around an upper end of the fuel feeding part;
An edge surface member extending around an outer periphery of the receiving member; And
A heat resistant tube member provided inside at least the housing member and formed of a heat insulating material;
Fuel supply unit comprising a. The method of claim 2,
The receiving member,
An upper connection pipe on which the heat resistant tube member is seated; And
A lower connecting pipe provided to connect between an upper end of the fuel feeding part and a lower end of the upper connecting pipe;
Fuel supply unit comprising a. The method of claim 3,
The lower connection pipe, the fuel supply unit characterized in that the coupling flange which is detachable from the fuel feeding portion and the upper connection pipe is formed. The method of claim 2,
The heat-resistant tube member is a fuel supply unit, characterized in that provided on the receiving member formed in a shape that narrows toward the lower side. The method of claim 2,
The heat-resistant tube member is a fuel supply unit, characterized in that provided with a plurality of heat-resistant pieces divided in the circumferential direction. The method of claim 6,
The heat-resistant piece is a fuel supply unit, characterized in that the stepped portion is formed in contact with the end portion connected to the neighboring heat-resistant piece. The method of claim 2,
The heat supply tube member, the fuel supply unit, characterized in that the concave-convex shape to be engaged with the concave-convex shape formed on the inner surface of the receiving member is formed on the outer surface. A combustion chamber unit formed therein and receiving air through the side wall; And
The fuel supply unit of any one of claims 2 to 8 provided in the lower portion of the combustion chamber unit;
Incinerator comprising a.

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