KR101063516B1 - Inclined pusher type rpf/rdf/srf combustor boiler - Google Patents

Abstract

The present invention is a primary combustion furnace that provides a primary combustion space of the solid fuel, the multi-stage composed of the multi-stages accommodated in the primary combustion furnace and combusting the solid fuel thereon, respectively installed on the upper side of the multi-stage And inclined pushers for forcibly moving solid fuel in a combustion furnace, a second combustion furnace installed at a rear end of the primary combustion furnace and recombusting unburned gas not combusted in the primary combustion furnace and the primary combustion. The present invention relates to a combustion boiler apparatus for inclined pusher type solid fuel, comprising a primary combustion air nozzle and a secondary combustion air nozzle for supplying combustion air to a furnace and a secondary combustion furnace. The device can smoothly release the clinker and the combustor, reduce the trouble of the combustion device, simplify the maintenance, and maintain the high combustion efficiency.

Description

Inclined Pusher Waste & Waste Resources Solid Fuel Fuel Combustion Boiler Device {Inclined Pusher Type RPF / RDF / SRF Combustor Boiler}

The present invention relates to a combustion boiler device for a solid fuel, and more particularly, to a structure in which a solid fuel moved by an inclined pusher and an inclined pusher forcibly moving the solid fuel in a combustion furnace. The present invention relates to a multi-stage combustion primary combustion furnace and an inclined pusher type solid fuel-only combustion boiler apparatus including a secondary combustion furnace for reburning unburned gas not combusted in the primary combustion furnace.

In general, solid fuels (RPF: Refuse Derived Fuel, SRF: Solid Recovered Fuel) are classified into combustible wastes generated at workplaces and household wastes, and then shredded, dried, compressed and molded. Refers to the solid fuel produced through.

These solid fuels are widely supplied due to their high calorific value and low cost as waste is regenerated as fuel, and has many advantages such as economic benefits from recycling waste resources and the need for additional safety facilities in storage facilities. to be.

On the other hand, various types of combustion apparatuses such as a stocker type, a rotary kiln type, a fluidized bed type, etc. are currently known to burn such solid fuel and use heat generated therefrom. However, solid fuels have low combustion efficiency because they are more difficult to burn completely than liquids or gases. Especially, since 40 to 60% of solid fuel components are made of plastics, solid fuels agglomerate with each other when combusted. There is a problem such as adhesion.

Such solid fuel agglomeration and sticking phenomenon lowers the combustion efficiency of the solid fuel and causes the failure of the combustion device. Also, in order to remove the solid fuel, the operation of the combustion device must be stopped. The more often this is done, the lower the operation rate of the solid fuel combustion apparatus and the lower the productivity is a problem.

The present invention is to solve the problems of the prior art as described above, one object of the present invention is to provide a solid fuel-only combustion boiler device is smooth and high combustion efficiency of the discharge of clinker and combustion materials.

Another object of the present invention is to provide a solid fuel only combustion boiler device having a low maintenance trouble during operation due to easy maintenance.

One aspect of the present invention for achieving the above object is a primary combustion furnace that provides a primary combustion space of solid fuel, it is composed of a multi-stage contained inside the primary combustion furnace and combusts the solid fuel thereon. Multistage phases, inclined pushers respectively installed at the upper side of the multistage phases and forcibly moving solid fuel in a combustion furnace, and unburned gas installed at the rear of the primary combustion furnace and not combusted in the primary combustion furnace And a secondary combustion furnace for reburning the combustion furnace, and an inclined pusher type solid fuel combustion boiler including a primary combustion air nozzle and a secondary combustion air nozzle for supplying combustion air to the primary combustion furnace and the secondary combustion furnace. Pertains to the device.

In the combustion boiler device for inclined pusher type solid fuel according to an embodiment of the present invention, the multi-stages of the multi-stage are sequentially installed alternately on the front wall and the corresponding rear wall of the primary combustion furnace. The lateral cross section of the primary combustion furnace is characterized in that it comprises a zigzag staircase. In addition, the multi-stage of the multi-stage is characterized in that the inclined at a predetermined angle in the downward direction with respect to the horizontal plane, respectively.

In the combustion boiler device for inclined pusher type solid fuel according to an embodiment of the present invention, the inclined pushers are inclined at the same angle as the inclined angle of the multistage and installed on the upper side of the multistage. .

In addition, the inclined pusher is provided on the pusher main body, the pusher body and the pusher head for pushing the solid fuel on the multi-stage, connected to the rear end of the pusher main body to reciprocate the pusher in the combustion furnace in the front and rear direction by hydraulic pressure. And a pusher guide rail for reciprocating the pusher on the pusher rod and on the multistage. In addition, the inclined pusher is characterized in that it is controlled by a programmable logic controller (PLC).

In the combustion boiler device for inclined pusher type solid fuel according to an embodiment of the present invention, the pusher guide rail is characterized by having an air nozzle for injecting air for combustion.

In the combustion boiler device for inclined pusher type solid fuel according to an embodiment of the present invention, the multistage of the multistage includes a water cooling unit for cooling the multistage by circulating the coolant.

In the combustion boiler device for inclined pusher type solid fuel according to an embodiment of the present invention, the primary combustion air nozzles are provided on the side walls of the upper sides of the multistage stages, respectively, and the secondary combustion air nozzles. Is provided at the inlet side of the secondary combustion furnace, characterized in that the secondary combustion air nozzle is made of a swirl flow nozzle.

The solid fuel combustion boiler according to the present invention, by the solid fuel and the combustion melt on the multi-stage in which the inclined pusher is formed in a multi-stage forced transfer and falling to the lower stage, to facilitate the mixing and stirring of the solid fuel Efficient combustion is possible.

In addition, the solid fuel only combustion boiler apparatus according to the present invention by installing the multi-stage inclined downward, there is an effect that can be burned while moving along the slope of the multi-stage when the solid fuel containing a large amount of plastics melt.

In addition, the solid fuel combustion apparatus according to the present invention controls the temperature of the primary combustion furnace by separately supplying the primary combustion air and the secondary combustion air to suppress the formation of a large amount of clinker generated during the solid fuel combustion, thereby maintaining maintenance It is easy to use. In particular, the combustion apparatus of the present invention has the effect of increasing combustion efficiency and minimizing the generation of combustion materials by reburning unburned gas not completely burned in the primary combustion furnace in the secondary combustion furnace.

1 is a side cross-sectional view of an inclined pusher type solid fuel-only combustion boiler device according to one embodiment of the present invention.
2 is a perspective view of the internal cutaway of the boiler apparatus according to FIG. 1.
3 is a plan view of an inclined pusher in the boiler apparatus according to the embodiment of the present invention.
4 is a perspective view illustrating a state in which the inclined pusher according to FIG. 3 is mounted on a multi-stage.
5 is a front sectional view of the air nozzle for the secondary combustion in the boiler apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known general functions or configurations will be omitted.

1 is a side cross-sectional view of an inclined pusher type solid fuel-only combustion boiler device according to one embodiment of the present invention, and FIG. 2 is a cutaway perspective view showing the inside thereof.

1 to 2, the solid fuel combustion device of the present invention is the primary combustion furnace 100, which provides a primary combustion space of the solid fuel, is accommodated in the primary combustion furnace 100 and the solid fuel Multi-stages (110A, 110B, 110C) consisting of a plurality of stages to be burned thereon, respectively installed on the upper side of the multi-stages (110A, 110B, 110C) inclined to forcibly move the solid fuel in the combustion furnace 100 Expression pushers 120, the secondary combustion furnace 200 and the primary combustion furnace which is installed at the rear of the primary combustion furnace 100 and reburns unburned gas not combusted in the primary combustion furnace 100. And a primary combustion air nozzle 130 and a secondary combustion air nozzle 210 for supplying combustion air to the 100 and the secondary combustion furnace 200.

The primary combustion furnace 100 is a space in which solid fuel is accommodated and is primarily combusted, and has a substantially rectangular parallelepiped shape, and an inner wall of the primary combustion furnace 140 is designed to prevent heat transfer to the outside as much as possible.

A fuel supply feeder 150 is provided at an upper portion of the first combustion furnace front wall 100A. The fuel supply feeder 150 supplies a predetermined amount of solid fuel to the multi-stage phase 110A, which is automatically positioned at the uppermost end at predetermined time intervals by known supply means.

Solid fuel only combustion boiler apparatus according to an embodiment of the present invention is provided by the multi-stage inclined multi-stage (110A, 110B, 110C) in the primary combustion furnace 100, the multi-stage (110A, 110B, The solid fuel is received and burned on the 110C). As illustrated in FIGS. 1 and 2, the plurality of stages 110A, 110B, and 110C may be provided in plural stages in the primary combustion furnace 100. The multi-stages 110A, 110B, and 110C of the multi-stage may include the top stage multi-stage 110A on the front wall 100A of the primary combustion furnace, for example, so that the solid fuel may be sequentially burned a plurality of times. The multi-stage phase 110B at the bottom thereof is spaced apart from the rear wall 100B facing the front wall 100A by a predetermined distance, and the multi-stage phase 110C at the next stage is the front wall 100A. ) Is installed spaced down a certain distance. As a result, the side cross-sectional shape of the primary combustion furnace 100 forms a zigzag staircase shape.

In the solid fuel only combustion boiler apparatus according to an embodiment of the present invention, the multi-stage multi-stage (110A, 110B, 110C) is installed inclined at a predetermined angle in a downward direction with respect to the horizontal plane. As a result, when the solid fuel containing a large amount of plastic is melted, it is possible to burn while moving along the slope. The inclination angle may be appropriately adjusted according to the type of solid fuel and the capacity of the boiler. When the inclination angle is too gentle, the inclination angle of the multi-stages 110A, 110B, and 110C cannot be achieved. If it is too urgent, it is difficult to stably receive the solid fuel on the multi-stages 110A, 110B and 110C, and the melt of the solid fuel flows easily on the multi-stages 110A, 110B and 110C, and thus cannot be stably burned. .

In addition, the multi-stages (110A, 110B, 110C) is made of a refractory brick (140), similar to the inner wall of the combustion furnace 100, the inside is provided with a circulation portion (not shown) for forcibly circulating the cooling water It is preferable to prevent the flame from hitting the lower part of the upper multistage phase during fuel combustion and deteriorating the durability of the multistage phase. In the illustrated embodiment, the multistage is composed of three stages, but is not limited thereto, and may be appropriately adjusted according to the type of solid fuel or the capacity of the boiler.

Solid fuel only combustion boiler apparatus according to an embodiment of the present invention, the front wall (100A) or the rear wall (100A) of the combustion furnace (100) on the upper side of the multi-stages (110A, 110B, 110C) of the multi-stage inclinedly installed It characterized in that it comprises a plurality of inclined pushers 120 are installed while passing through 100B to form the same inclination of the multi-stage (110A, 110B, 110C).

3 is a plan view of the inclined pusher, Figure 4 is a perspective view showing a state in which the inclined pusher is mounted on a multi-stage. 3 to 4, the inclined pusher 120 includes a pusher body 126, a pusher head 121, a pusher rod 122, and a pusher guide rail 123. The pusher body 126 is a body portion of the pusher made of a heat-resistant steel sheet is provided with a pusher head 121 at its front end. The pusher head 121 forcibly moves the solid fuel or the solid fuel melt on the multi-stage in the primary combustion furnace 100 to the rear of the multi-stage to naturally fall onto the multi-stage of the next lower stage. This makes it possible to effectively perform the mixing and stirring of the solid fuel and thus it is possible to efficiently burn the solid fuel. In addition, it is possible to smoothly discharge the clinker and the combustion material.

A pusher rod 122 is connected to a rear end of the pusher body 126, and the pusher rod 122 reciprocates by hydraulic pressure to move the inclined pusher 120 in the combustion furnace 100 in the front-rear direction. It becomes possible. In this case, the inclined pusher 120 is controlled by a PLC (not shown) to adjust the residence time of the fuel to implement complete combustion of solid fuel of various properties.

Under the inclined pusher 120, a pair of pusher guide rails 123 made of heat-resistant steel are provided on the multi-stage in the longitudinal direction. The pusher 120 is mounted on the pusher guide rail 123 by the pusher guide roller 124 to prevent the pusher 120 from being moved back and forth on the multi-stage. The pusher guide rail 123 is provided with an air nozzle 125 for injecting combustion air, thereby supplying sufficient air even when a melting phenomenon occurs during the combustion of the solid fuel to increase the combustion speed. .

Solid fuel only combustion boiler apparatus according to an embodiment of the present invention, is provided with a secondary combustion furnace 200 at the rear end of the primary combustion furnace (100). As a result, the combustion efficiency may be maximized by reburning unburned gas that has not been burned in the primary combustion furnace 100. On the other hand, the lower portion of the primary combustion furnace is provided with a hopper 170 to discharge the combustion material burned in the primary combustion furnace 100 to the outside.

In addition, each of the primary combustion furnace 100 and the secondary combustion furnace 200 is provided with a primary combustion air nozzle 130 and a secondary combustion air nozzle 210 for injecting combustion air, respectively. The primary combustion air nozzle 130 is provided on both sidewalls 100C and 100D and the front wall 100A or the rear wall 100B, respectively. Meanwhile, the secondary combustion air nozzle 210 is provided at the inlet side of the secondary combustion furnace 200. Combustion air is transferred to the primary combustion air nozzle 130 and the secondary combustion air nozzle 210 through a combustion air duct (not shown) by a forced blowing fan (FDF) or the like, respectively, the combustion furnace 100 , 200). At this time, by properly controlling the ratio of the primary combustion air and the secondary combustion air, in particular, by controlling the excess air of the primary combustion furnace 100, the solid fuel is pyrolyzed at the same time as the combustion to the unburned gas in the combustion furnace 100 It prevents the risk of explosion and keeps the temperature in the combustion furnace 100 at a relatively low temperature to suppress the formation of clinker in the primary combustion furnace (100). Meanwhile, a primary combustion furnace burner (not shown) is provided on the front side of the upper stage 110A of the primary combustion furnace 100 to ignite the solid fuel, and 2 on the inlet sidewall of the secondary combustion furnace 200. A burner (not shown) for a secondary combustion furnace is provided to ignite the unburned gas introduced into the combustion furnace 200 and to assist combustion.

5 is a front view of the secondary combustion air nozzle 210 according to an embodiment of the present invention. Referring to FIG. 5, in the secondary combustion air nozzle 210, nozzles 211 are formed in a swirl flow type so that combustion air is injected into the combustion furnace at the inlet of the secondary combustion furnace 200 to form a vortex. Because of the complete combustion of the unburned gas to suppress the generation of carbon monoxide it is possible to increase the combustion efficiency. On the other hand, the high temperature combustion gas exiting the secondary combustion furnace 200 is supplied to a waste heat recovery device (not shown) at the rear end to recover the waste heat.

As described above, the inclined pusher-type solid fuel combustion boiler device according to the present invention is to facilitate the discharge of the clinker and the combustion material to reduce the trouble of the boiler device, easy maintenance, it is possible to maintain a high combustion efficiency .

Although the present invention has been described in detail with reference to preferred embodiments of the present invention, the present invention is not limited to the above-described embodiments, and many modifications are made by those skilled in the art to which the present invention pertains within the scope of the technical idea of the present invention. This possibility will be self-evident.

100: primary combustion furnace
110 A, 110B, 110C: Multistage
120: Inclined Pusher
130: primary combustion air nozzle
140: firebrick
150: fuel feeder
160: primary burner burner
160: Hopper
200: secondary combustion furnace
210: secondary combustion air nozzle

Claims (10)

In the solid fuel dedicated combustion boiler apparatus for burning solid fuel, the combustion boiler apparatus
A primary combustion furnace providing a primary combustion space of solid fuel;
Multistage phases accommodated inside the primary combustion furnace and configured to burn solid fuel thereon;
Inclined pushers mounted on upper sides of the multi-stages and forcibly moving solid fuel in a combustion furnace;
A secondary combustion furnace installed at a rear end of the primary combustion furnace and re-burning unburned gas not combusted in the primary combustion furnace; And
It comprises a primary combustion air nozzle and a secondary combustion air nozzle for supplying combustion air to the primary combustion furnace and the secondary combustion furnace,
The multiple stages of the multiple stages are alternately installed on the front wall of the primary combustion furnace and the rear wall opposite thereto. The side section of the primary combustion furnace is made of a staggered staggered shape, the multi-stage of the multi-stage is inclined push type solid fuel only combustion boiler device, characterized in that installed inclined at an angle in a downward direction with respect to the horizontal plane, respectively. delete delete The inclined pusher type solid fuel only combustion boiler apparatus according to claim 1, wherein the inclined pushers are inclined at the same angle as the inclined angle of the multistage and installed on the upper side of the multistage. The pusher body according to claim 4, wherein the inclined pusher is provided at the pusher body, the pusher head in front of the pusher body, and pushes the solid fuel on the multi-stage, and is connected to the rear end of the pusher body, and pushes the pusher in the combustion furnace by hydraulic pressure. And a pusher rod for reciprocating forward and backward and a pusher guide rail for guiding the reciprocating motion of the pusher on a multi-stage phase. 6. The combustion boiler apparatus for inclined pusher type solid fuel according to claim 5, wherein the pusher guide rail has an air nozzle for injecting combustion air. The inclined pusher type solid fuel only combustion boiler apparatus according to claim 5, wherein the pusher is controlled by a PLC. 2. The combustion boiler apparatus for inclined pusher type solid fuel according to claim 1, wherein the multistage multistage includes a water cooling unit for cooling the multistage phases by circulating cooling water. The method of claim 1, wherein the primary combustion air nozzle is provided on the side wall of the upper side of the multi-stage of the multi-stage, respectively, the secondary combustion air nozzle is provided on the inlet side of the secondary combustion furnace. Combustion boiler device for inclined pusher type solid fuel. 10. The apparatus of claim 9, wherein the secondary combustion air nozzle comprises swirl flow nozzles.

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