KR102141586B1 - Ash removing type burner for solid fuel - Google Patents

Abstract

It is installed on the inner lower surface of the combustion device, the combustion material discharge hole is formed in the center and a guide inclined portion having a lower wall formed to have a downward inclined surface toward the center from the circumference; A central rotation shaft formed through the combustion material discharge hole from the outside of the lower side of the solid fuel combustion device; A grate-type rotating disk formed of a grid-shaped disk having a predetermined distance from the guide inclined portion and being connected to the central rotating axis and rotating along the central rotating axis; A cooling wing plate formed of a plurality of cooling blades horizontally connected at regular intervals vertically to the central rotational axis in the outer space on the lower side of the solid fuel combustion device and formed to have a downward slope to the horizontal side; A rotation transmission device for rotationally driving the central rotation shaft; It is connected to the air supply pipe installed in the inner space of the central rotation shaft, is installed in the upper space of the central portion of the grate-type rotating disk, the air scattering unit blowing the combustion material falling to the top of the rotating disk by the dispersion of compressed air to the edge; And a control unit controlling each part of the solid fuel combustion device.

Description

Solid fuel combustion device with the function of discharging combustion materials {Ash removing type burner for solid fuel}

The present invention relates to a solid fuel combustion apparatus having a combustion material discharge function.

Recently, wood solid pellet fuel solidified in the form of small cylindrical granules or compressed solid wood by using bio-renewable energy at high temperature and high pressure, or pellet solid fuel solidifying by-products in the process of livestock manure is used as an eco-friendly solid fuel.

Due to the causes of the kind of the mixed material, such solid fuel, thick combustion material is generated on the plate during combustion. When heavy combustibles are accumulated on the fire plate, the amount of air supplied to the fire plate is gradually reduced, and the function may be lost. In some cases, the fuel may proceed to incomplete combustion.

Accordingly, when the combustion material accumulates in the combustion device, a cleaning operation process for discharging the combustion material is additionally required.

Accordingly, there is a need for a combustion device that automatically discharges combustion material during combustion with a simple structure.

The prior art for the technology of the present invention is Republic of Korea Patent Publication No. 10-2011-0098981 (pellet boiler's pellet combustion material discharge device).

Republic of Korea Patent Publication No. 10-2011-0098981 (pellet boiler's pellet combustion material discharge device)

The present invention is to provide a solid fuel combustion device that can effectively remove combustion material due to combustion of solid combustion to prevent accumulation of combustion material in the combustion device to increase combustion efficiency without interruption of operation.

According to an aspect of the present invention, a guide projection unit is installed on an inner lower surface of the combustion device, a combustion material discharge hole is formed in the center, and a lower wall is formed to have a downwardly inclined surface from the circumference toward the center; A central rotation shaft formed through the combustion material discharge hole from the outside of the lower side of the solid fuel combustion device; A grate-type rotating disk formed of a grid-shaped disk having a predetermined distance from the guide inclined portion and being connected to the central rotating axis and rotating along the central rotating axis; A cooling wing plate formed of a plurality of cooling blades horizontally connected at regular intervals vertically to the central rotational axis in the outer space on the lower side of the solid fuel combustion device and formed to have a downward slope to the horizontal side; A rotation transmission device for rotationally driving the central rotation shaft; It is connected to the air supply pipe installed in the inner space of the central rotation shaft, is installed in the upper space of the central portion of the grate-type rotating disk, the air scattering unit blowing the combustion material falling to the top of the rotating disk by the dispersion of compressed air to the edge; And it provides a solid fuel combustion apparatus including a control unit for controlling each portion of the solid fuel combustion apparatus.

In addition, the air supply pipe is formed along the inner space of the central rotation shaft, one side is connected to the air scattering portion formed on the upper portion of the central rotation shaft, the other side is connected to the air supply installed below the central rotation shaft do.

In addition, a plurality of combustion material discharge blades for guiding the combustion material from the rotating disk to the center side are formed on the rear surface of the grate-type rotation disk, and the combustion material discharge blade is rotated by the combustion material dropped on the guide slope. It is characterized by having a twist angle along the rotational direction to be guided to the combustion material discharge hole.

In addition, in the outer space of the cooling blade plate is characterized in that the cooling plate nozzle device for cooling the cooling blade plate by cooling water sprinkling is formed vertically at regular intervals.

In addition, a temperature sensor is further installed in the lower inner space of the central rotating shaft, and the control unit receives the temperature measurement signal of the temperature sensing sensor, and when the internal temperature of the central rotating shaft reaches a certain temperature, the cooling plate nozzle device Characterized in that the control to operate.

In addition, the solid pellet fuel supply device for supplying solid fuel to the solid fuel combustion device, a pellet storage unit for receiving and temporarily storing a pellet that is a solid fuel for supply; A downward transfer pipe formed to have a downward slope from the lower part of the pellet storage to the combustion device, and downwardly transferring the lower slope by vibration; It is formed to have an inclined upward from the lower side of the downward transfer pipe, the upward transfer pipe for conveying the solid pellet fuel upward by screw rotation therein; And a burner projection opening, wherein one side is connected to the upper side of the upward transfer pipe, and the other side is connected to the inside of the combustion device; And a control unit for controlling the operation of the heating solid pellet fuel supply device, is mounted on one side of the burner throwing hole is equipped with a preheating air supply pipe for supplying preheating air to the burner throwing hole, the upward transfer of the pipe The outer periphery is characterized by being equipped with an external electric heating device that heats the solid pellet fuel transferred to the inside of the upward transfer tube from outside the tube.

In addition, the upper and lower parts of the downward transfer pipe is characterized in that it further comprises a flexible joint pipe.

In addition, the lower center of the downward transfer pipe is characterized in that a vibration striking device for vibrating the downward transfer pipe up and down is mounted.

In addition, the screw transfer device further includes a screw heating device that warms the screw to a predetermined temperature, and the solid pellet fuel transferred by the screw is heated,

The control unit is characterized in that for controlling the external heating device and the screw heating device so that the solid pellet fuel maintains a constant temperature range.

In addition, a metering sensor for measuring the amount of transport of the solid pellet fuel to be transported to the lower inner portion of the lower end of the downward transfer pipe; And a first shutoff valve capable of blocking the inside on the lower side of the downlink transfer pipe, wherein the control unit controls the first shutoff valve according to the weighing signal transmitted from the weighing sensor to determine a predetermined amount of the downflow pipe. It is characterized by controlling to be supplied.

In addition, a temperature detection sensor that is mounted inside the upper end of the upward transfer pipe and measures the temperature of the solid pellet fuel to be transferred to the control unit; Further comprising, the control unit is characterized in that for controlling the external heating device to maintain the solid pellet fuel 200 ℃ ~ 250 ℃ temperature range.

In addition, further comprising a second shut-off valve for closing the inside of the upward transfer pipe under the control of the control unit on the upper side of the upward transfer pipe, the control unit, the temperature of the solid pellet fuel from the temperature sensor, the predetermined When it is determined that the ignition warning temperature is exceeded, it is characterized in that it is controlled to stop the transfer of the screw transfer device and the second shutoff valve is controlled to close the inside of the upward transfer pipe.

In addition, the preheated air supply pipe is connected to an air pressure tank combined with an air compressor, and compressed air supplied is mounted in the flue of the combustion device and heated in an air preheater heated by exhaust gas, so that one side 200 of the burner projection is heated. It is characterized by supplying preheated air of ℃ to 250 ℃.

The solid fuel combustion apparatus having a combustion material discharge function according to an embodiment of the present invention has an effect of minimizing the phenomenon that operation is stopped for discharge of the combustion material.

In addition, continuous operation improves combustion efficiency and prevents heat loss.

According to an embodiment of the present invention, according to an embodiment of the present invention, the combustion efficiency can be improved by heating and supplying solid pellet fuel and supply air supplied to the combustion device to near the ignition point.

1 shows an example of a solid fuel combustion apparatus having a combustion material discharge function according to an embodiment of the present invention.
Figure 2 shows the shape of the grate-type rotating disk 710 according to an embodiment of the present invention as viewed from the rear.
Figure 3 shows an example of a solid pellet fuel supply device for supplying a pellet as a solid fuel to the solid fuel combustion apparatus having a combustion material discharge function according to an embodiment of the present invention.

Terms used in the description of the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the description of the present invention, when a part "includes" a certain component, it means that the component may further include other components, not to exclude other components, unless otherwise stated.

Hereinafter, a solid fuel combustion device having a combustion material discharge function according to an embodiment of the present invention will be described in detail.

1 shows an example of a solid fuel combustion apparatus having a combustion material discharge function according to an embodiment of the present invention.

Referring to FIG. 1, a solid fuel combustion device having a combustion material discharge function according to an embodiment of the present invention is installed on an inner lower surface of a combustion device, and a combustion material discharge hole 560 is formed in the center and is around A guide inclined portion 850 having a lower wall formed to have a downward inclined surface toward the center; A central rotating shaft 593 formed through the combustion material discharge hole 560 from the outside of the lower side of the solid fuel combustion device; A grate-type rotating disk 710 which is connected to the central rotating shaft 593 and rotates along the central rotating shaft 593, and is formed of a grid-shaped disc having a concave upper portion with a predetermined distance from the guide inclined portion 850; Cooling blade plates 861 to 864 formed of a plurality of cooling blades horizontally connected at regular intervals vertically to the central rotation shaft 593 extending from the outer space on the lower side of the solid fuel combustion apparatus; Rotating transmission device 790 for rotationally driving the central rotating shaft 593, connected to the air supply pipe 811 installed in the inner space of the central rotating shaft 593, the upper space in the center of the grate-type rotating disk 710 It includes a control unit (not shown) for controlling each part of the air scattering unit 810 and the solid fuel combustion device installed in.

The central rotation shaft 593 according to an embodiment of the present invention is formed in the form of a tube having a space therein, the air supply pipe 811 is formed along the inner space of the central rotation shaft 593, one side is the center It is connected to the air scattering portion 810 formed on the upper portion of the rotating shaft 593, and the other side is connected to the air supply portion 850 installed below the central rotating shaft 593. The air supply unit is connected to the air compression tank 302 to supply compressed air.

The air scattering unit 810 blows the combusted material falling into the grate-type rotating disk 710 to the edge of the rotating disk 710 by scattering the compressed air, and along the guide slope 850, the combustion material discharge hole 560 ) To facilitate the action.

In another embodiment of the present invention, the grate-type rotating disk 710 is formed with a grid-shaped space along the center of the disk, and the combustion material falling to the top of the grate-type rotating disk 710 is the space of the grating-type. Can be discharged.

Figure 2 shows the shape of the grate-type rotating disk 710 according to an embodiment of the present invention as viewed from the rear.

Referring to FIG. 2, a plurality of combustible material discharge blades 720 for guiding combustible material from the grate-type rotating disk to the center side are formed on the rear surface of the grate-type rotating disk 710 according to an embodiment of the present invention. .

The combustion material discharge blade 720 is formed to have a twist angle along the rotational direction so that the combustion material dropped on the guide inclined portion 850 is guided to the combustion material discharge hole 560 by rotation.

In addition, a combustion material collection chamber 900 for collecting combustion material falling to the bottom is installed at a lower portion of the combustion material discharge hole 560.

According to an embodiment of the present invention, the central rotation shaft 593 receives power through the rotation transmission device 790 without receiving power directly from the rotation driving unit 590. By doing this, the central rotation shaft 593 connected to the grate-type rotating disk 710 is exposed to high heat during combustion, so that the rotation driving unit 590 can be prevented from being damaged by high heat.

In addition, a cooling plate nozzle device for cooling the cooling blade plates 861 to 864 by cooling water spray is formed at regular intervals in an outer space of the cooling blade plates 861 to 864.

In addition, a temperature sensor is installed in the inner space under the central rotation shaft 593, and the temperature sensor measures the internal temperature of the central rotation shaft 593 and transmits a temperature measurement signal to the control unit.

The controller receives the temperature measurement signal to prevent the cooling plate nozzle device from operating when the internal temperature of the central rotation shaft 593 reaches a certain temperature, thereby preventing the temperature of the central rotation shaft 593 from rising.

Referring to Figs. 1 and 2, an operation example of the solid fuel combustion apparatus having the above-described combustion function of the combustion material will be described.

Solid fuel is supplied to the burner throwing opening 400 to be combusted to generate combustible materials in the combustion process, and the generated combustible materials fall to the grate-type rotating disk 710 and its surroundings.

As such, when the combustion material falls around the grate type rotating disk 710, the combustion material is blown to the edge of the rotating disk 710 by the dispersion of compressed air blown from the air scattering unit 810, and the grate type rotates. Combustion material is discharged to the central combustion material discharge hole 560 while the combustion material is pushed down from the edge to the center along the guide inclined portion 850 by rotation of the original plate 710.

The combustion material discharged to the combustion material discharge hole 560 may be dropped and collected into the combustion material collection chamber 900 to be processed.

Figure 3 shows an example of a solid pellet fuel supply device for supplying a pellet as a solid fuel to the solid fuel combustion apparatus having a combustion material discharge function according to an embodiment of the present invention.

Referring to FIG. 3, the solid pellet fuel supply apparatus according to an embodiment of the present invention includes a pellet storage unit 100, a pellet transport unit 200, a heated air supply unit 300, a burner projection 400, and a heated solid It includes a control unit (not shown) for controlling the driving of each part of the pellet fuel supply device.

The pellet storage unit 100 is a device that temporarily receives and supplies pellets, which are solid fuels for supply.

The pellet transport unit 200 is a device that transports solid pellets from the pellet storage unit 100 to the burner projection opening 400 installed in the combustion device.

The pellet transfer unit 200 is formed to have a downward slope from the pellet storage unit 100 to the combustion device side, and to the screw transfer device at the lower side of the downward transfer pipe and the downward transfer pipe for downwardly transferring the lower ramp by vibration. It is characterized by having an upward conveying pipe for conveying solid pellet fuel to the burner projection opening 400 of the combustion device by screw rotation.

Both ends of the downward transfer pipe include upper and lower flexible joint pipes 211 and 215 for facilitating vibration of the downward transfer pipe and facilitating connection mounting.

In addition, a vibration striker 210 that vibrates the down-conveying pipe up and down is mounted at the center of the down-conveying pipe to facilitate movement of the solid pellet fuel discharged from the pellet storage unit 100.

Vibration striking machine 210 is connected to the vibration generating device to generate vibration as a whole in the downward transfer pipe under the control of the control unit to transfer the solid pellet fuel to the downward slope.

Referring to FIG. 3, an upward transfer pipe formed to have an upward slope from a lower side of the downward transfer pipe is connected.

The upper side of the upward transfer pipe is connected to one side of the burner projection 400, the other side of which is connected to the inside of the combustion device.

In addition, a metering sensor 229 for measuring the conveyed amount of the solid pellet fuel to be transported is mounted on the lower inner side of the lower conveying pipe. A first shut-off valve 221 capable of blocking the inside is further provided.

The metering sensor 229 may include one of a weight sensor for measuring the weight of the conveyed solid pellet fuel in a fine time unit, or an optical sensor and an image sensor for measuring a transfer cycle by the projection light.

The shut-off valve 221 may be an electric valve or a solenoid valve.

The control unit may control the first shut-off valve 221 by calculating the transfer amount of the solid pellet fuel by the metering signal transmitted from the metering sensor 229 so as to supply a predetermined amount to the downward transfer pipe.

Rotation is controlled by the control of the control unit inside the upward transfer pipe, and a screw transfer apparatus 230 for transferring the solid pellet fuel transferred to the lowermost portion of the downward transfer pipe to the burner projection port 400 side of the combustion apparatus is installed.

The control unit controls the first shut-off valve 221 and the screw transfer device 230 to control the amount of solid pellet fuel supplied to the burner projection 400.

On the outer circumference of the upstream transfer pipe, an external heating heater 250 for heating the solid pellet fuel transferred into the upstream transfer pipe from outside the pipe is mounted.

In another embodiment of the present invention, the screw transfer device 230 mounted inside the upward transfer pipe further includes a screw heating device that warms the screw to a predetermined temperature, and the solid pellet fuel transferred to the inside by the screw is used. You can make it warm.

As an example, the screw heating device may include an internal heating device for heating inside the screw.

In an embodiment of the present invention, a temperature sensing sensor 240 that measures the temperature of the solid pellet fuel and transmits it to the control unit is mounted inside the upper end of the upward transfer pipe, and the control unit controls the solid pellet fuel to maintain a constant temperature range. The heating device is controlled.

For example, the control unit controls the external heating device 250 and/or the internal heating device to maintain a temperature range of 200°C to 250°C when the solid pellet fuel is right.

The control unit controls the supply of solid pellet fuel by stopping the transfer of the screw transfer device 230 when the temperature of the solid pellet fuel exceeds the ignition warning temperature before the temperature of the solid pellet fuel reaches the ignition temperature from the temperature sensor 240. It can be controlled to stop.

In another embodiment of the present invention, a second shut-off valve for closing the inside of the upward transfer pipe in the upper side of the upward transfer pipe may be further included in order to prevent backflow of flame.

The control unit controls the second shut-off valve to shut off and stop the transfer of the screw transfer device 230 before the temperature of the solid pellet fuel reaches the ignition temperature from the temperature sensor 240, thereby controlling the inside of the upward transfer pipe. It can be controlled to block and stop the supply of solid pellet fuel.

For example, if the temperature exceeds 250°C before reaching the ignition temperature of the solid pellet fuel manufactured from the minute powder from the temperature sensor 240, 280°C, the control unit shuts off the second shutoff valve of the upstream transfer pipe and transfers the screw It may be controlled to stop the transfer of the device 230.

In addition, an exhaust gas solenoid valve 260 for discharging gas at a constant pressure is installed at an upper end of the upward transfer pipe to discharge gas generated during the heating process of the upward transfer pipe.

A preheated air supply pipe 330 is connected to one side of the burner projection opening 400 for supplying fuel to the combustion device.

The preheated air supply pipe 330 is connected to the air compression tank 302 combined with the air compressor, and the supplied compressed air is mounted inside the year of the combustion device and heated by the exhaust gas to be heated by the exhaust gas to project the burner. Supply preheated air at 200℃~250℃ on one side of the sphere.

According to an embodiment of the present invention, the air heated in the air preheater 310 is supplied to the burner throwing hole 400 and is burned in the combustion chamber of the combustion apparatus together with the heated solid pellet fuel to improve combustion efficiency.

According to an embodiment of the present invention, the combustion efficiency can be improved by heating and supplying solid pellet fuel and supply air supplied to the combustion device to near the ignition point.

In addition, the pellet storage unit 100 is formed to have a downward slope from the bottom to the combustion device side, and the solid pellet fuel is rotated by a screw conveying device by a screw conveying device in a downward conveying tube and a downward conveying route for downward conveying the lower slope by vibration. A solid pellet fuel can be supplied without being stagnant in the transfer process to the combustion device by a structure having an upward conveying pipe to be transported to the burner projection opening 400 of the combustion device, and the solid pellet fuel is burned from the combustion portion of the burner throwing hole. It is possible to provide a supply device capable of safely blocking the reverse flow of the flame by a shut-off valve so as to prevent the combustion heat or combustion flame generated during combustion from being reversed and transferred to the pellet transport unit through which the pellet is supplied.

100: pellet storage
200: pellet transfer unit
210: vibrating bomber
221: first shut-off valve
230: screw transfer device
250: external heating heater
300: heated air supply unit
310: air preheater
400: burner throw
560: combustor exhaust hole
593: Center axis of rotation
710: rotating disk
720: Vulture Blade
790: rotation transmission device
810: air scattering unit
811: air supply pipe
850: guide slope
861~864: cooling vane

Claims (13)

In the solid fuel combustion apparatus having a combustion material discharge function,
The solid fuel combustion device,
It is installed on the inner lower surface of the combustion device, a guide inclined portion formed with a lower wall to form a combustion material discharge hole in the center and has a downwardly inclined surface toward the center from the circumference;
A central rotation shaft formed through the combustion material discharge hole from the outside of the lower side of the solid fuel combustion device;
A grate-type rotating disk formed of a grid-shaped disk having a predetermined distance from the guide inclined portion and being connected to the central rotating axis and rotating along the central rotating axis;
A cooling wing plate formed of a plurality of cooling blades horizontally connected at regular intervals vertically to the central rotational axis in the outer space on the lower side of the solid fuel combustion device and formed to have a downward slope to the horizontal side;
A rotation transmission device for rotationally driving the central rotation shaft;
It is connected to the air supply pipe installed in the inner space of the central rotation shaft, is installed in the upper space of the central portion of the grate-type rotating disk, the air scattering unit blowing the combustion material falling to the top of the rotating disk by the dispersion of compressed air to the edge; And
It includes a control unit for controlling each part of the solid fuel combustion device,
A plurality of combustion material discharge blades for guiding the combustion material from the rotating disk to the center side are formed on the rear surface of the grate type rotating disk,
The combustion fuel discharge blade is a solid fuel combustion apparatus characterized in that it has a twist angle along the rotational direction so that the combustion material dropped on the guide inclined portion is guided to the combustion material discharge hole by rotation.
According to claim 1,
The air supply pipe is formed along the inner space of the central rotation shaft, one side is connected to the air scattering portion formed on the upper portion of the central rotation shaft, the other side is a solid characterized in that connected to the air supply installed below the central rotation shaft Fuel combustion device.
delete According to claim 1,
In the outer space of the cooling blade plate, a solid fuel combustion device characterized in that the cooling plate nozzle device for cooling the cooling blade plate by cooling water sprinkling is formed at regular intervals. According to claim 4,
A temperature sensor is further installed in the lower inner space of the central rotation shaft,
The control unit receives the temperature measurement signal of the temperature sensor, the solid fuel combustion device, characterized in that for controlling the cooling plate nozzle device to operate when the internal temperature of the central rotating shaft reaches a certain temperature. According to claim 1,
A solid pellet fuel supply device for supplying solid fuel to the solid fuel combustion device,
A pellet storage unit for receiving and temporarily storing pellets that are solid fuels for supply;
A downward transfer pipe formed to have a downward slope from the lower part of the pellet storage to the combustion device, and downwardly transferring the lower slope by vibration;
It is formed to have an inclined upward from the lower side of the downward transfer pipe, the upward transfer pipe including a screw transfer device for conveying the solid pellet fuel transferred to the bottom of the downward transfer pipe upward therein;
One side is connected to the upper side of the upward transfer pipe, the other side is a burner projection opening connected to the inside of the combustion device; And
It includes a control unit for controlling the drive of the solid pellet fuel supply,
A preheated air supply pipe mounted on one side of the burner projection opening and supplying preheated air to the burner throwing hole is mounted, and the outer circumference of the upstream transfer pipe is heated from the outside of the pipe through solid pellet fuel transferred into the upstream transfer pipe. Solid fuel combustion device, characterized in that equipped with an external electric heating device.
The method of claim 6,
A solid fuel combustion device, characterized in that the upper and lower parts of the downward transfer pipe further includes a flexible joint pipe.
The method of claim 6,
A solid fuel combustion apparatus, characterized in that a vibration striking device for vibrating the downward transport pipe up and down is mounted at the lower center of the downward transfer pipe.
The method of claim 6,
A metering sensor for measuring the conveyed amount of the solid pellet fuel being conveyed to the inner lower part of the lower end of the downward conveying tube; And
The lower side of the downward transfer pipe further includes a first shutoff valve capable of blocking the inside, and the control unit controls the first shutoff valve according to the weighing signal transmitted from the metering sensor to supply a predetermined amount to the downward transfer pipe. Solid fuel combustion device characterized in that it is controlled. The method of claim 6,
The screw transfer device further includes a screw heating device that warms the screw to a predetermined temperature, and the solid pellet fuel transported by the screw is heated,
The control unit is a solid fuel combustion apparatus, characterized in that for controlling the external heating heater and the screw heating apparatus so that the solid pellet fuel maintains a constant temperature range. The method of claim 6,
A temperature sensor that is mounted inside the upper end of the upward transfer pipe and measures the temperature of the solid pellet fuel to be transferred to the control unit; Further comprising,
The control unit is a solid fuel combustion apparatus, characterized in that for controlling the external heating device to maintain the temperature range of 200 ℃ to 250 ℃ solid pellet fuel.
The method of claim 6,
The upward transfer pipe includes a second shut-off valve that closes the inside of the upward transfer pipe under the control of the control unit at an upper portion; and a temperature sensor that measures the temperature of the solid pellet fuel inside the upper portion and transmits it to the control unit. Includes,
The control unit controls to stop the transfer of the screw transfer device when it is determined that the temperature of the solid pellet fuel exceeds the predetermined ignition warning temperature from the temperature sensor and the second shutoff valve is configured to Solid fuel combustion apparatus characterized in that the control to close the interior.
The method of claim 6,
The preheated air supply pipe is connected to an air pressure tank combined with an air compressor, and the compressed air supplied is mounted in the flue of the combustion device and heated in an air preheater heated by exhaust gas, so that one side of the burner projection is 200°C~ A solid fuel combustion apparatus characterized by supplying preheated air at 250°C.

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