JP5575221B2 - Combustion burner and pressurized gasifier - Google Patents

Description

  The present invention relates to a combustion burner used in a furnace such as a pressurized gasification furnace, and a pressurized gasification furnace having the combustion burner.

  For example, in a gasification furnace such as a coal gasification furnace, the starting burner is provided with an ignition torch for igniting the starting burner in the vicinity.

  As a conventional ignition torch, for example, there is one described in Patent Document 1 below. The ignition torch of Patent Document 1 extends from the outside to the inside of the gasification furnace so that fuel and combustion air are sent from one end of the gasification furnace and a flame is sent to the other end of the gasification furnace. And an ignition part is provided on one end side located outside the gasification furnace.

JP 2011-117713 A

  In the conventional ignition torch described above, an ignition part is provided on the base end side located outside the gasification furnace. For this reason, when the ignition burner is ignited using the ignition torch, the flame formed by the ignition part propagates through the pipe to the tip side, and against the fuel gas discharged from the tip part of the startup burner. Ignite. At this time, since the piping of the ignition torch has a predetermined length, thermal expansion occurs during the propagation of the flame. Then, the front end portion of the ignition torch protrudes forward from the front end portion of the activation burner and is easily subjected to a heat load during ignition. Since the flame holding part is formed at the tip of the ignition torch, there is a possibility that the flame holding part may be burned out due to a thermal load at the time of ignition.

  This invention solves the subject mentioned above, and aims at providing the combustion burner and pressurization type gasification furnace which can improve durability by reducing the thermal load in the front-end | tip part of an ignition torch.

  In order to achieve the above object, a combustion burner according to the present invention includes a burner main body capable of injecting a fuel gas mixed with fuel and air, a flame burner from a proximal end portion disposed inside the burner main body, and a front end. An ignition torch that is sent out from a portion, and the distal end portion of the ignition torch is disposed on the proximal end side with respect to the distal end portion of the burner body.

  Therefore, when the fuel gas blown from the burner body is ignited to form a flame, the tip of the ignition torch is located on the base end side with respect to the tip of the burner body. The heat load at the tip of the ignition torch against the flame can be reduced, and the durability can be improved and the life can be extended.

  The combustion burner according to the present invention is characterized in that, when the ignition torch is not in operation, the distal end portion of the ignition torch is disposed closer to the proximal end portion than the distal end portion of the burner body.

  Therefore, since the tip of the ignition torch is located in the retracted position when not operating, the thermal load at the tip of the ignition torch can be reduced against the flame of the burner body.

  In the combustion burner according to the present invention, when the ignition torch is not operated, the flame is transmitted from the base end portion to the tip end portion of the ignition torch, or after the ignition of the fuel gas from the burner body. It is characterized by having after stopping the propagation of flame.

  Therefore, before propagating the flame from the base end of the ignition torch to the tip, or after stopping the flame propagation by the ignition torch after igniting the fuel gas from the burner body, the tip of the ignition torch is positioned in the retracted position. Therefore, it is possible to reduce the thermal load at the tip of the ignition torch against the flame of the burner body.

  The combustion burner according to the present invention is characterized in that the tip of the ignition torch is disposed at substantially the same position as the tip of the burner body when the ignition torch is operated.

  Accordingly, the ignition torch is blown from the burner body by the flame that propagates from the base end part and is sent out from the front end part because the front end part is located at substantially the same position as the front end part of the burner body during operation. It is possible to properly ignite the fuel gas.

  The combustion burner according to the present invention is characterized in that the operation of the ignition torch includes a time when a flame is propagated from a proximal end portion to a distal end portion of the ignition torch.

  Therefore, when the flame propagates from the base end portion of the ignition torch to the tip portion, the fuel gas blown from the burner body by the ignition torch because the tip portion of the ignition torch is located at substantially the same position as the tip portion of the burner body. Can be properly ignited.

  The combustion burner of the present invention is characterized in that the position of the tip when the ignition torch is not operated is set in consideration of the length of the pipe through which the flame propagates.

  Accordingly, the non-operating position and non-operating position of the ignition torch can be set appropriately.

  The combustion burner according to the present invention is characterized in that an ignition part is provided at a base end part of the ignition torch, and an on-off valve is provided downstream of the ignition part in the fuel flow direction.

  Therefore, by providing the ignition portion at the base end portion of the ignition torch, the ignition portion can be easily inspected without depending on the state on the tip end side. Further, by providing an on-off valve on the downstream side of the ignition portion in the fuel flow direction, the base end side and the tip end side can be separated by closing the on-off valve, and inspection is required. However, by closing the on-off valve, the ignition part side can be separated from the flame and can be easily inspected.

  The pressurized gasifier according to the present invention includes a burner body fixed to a furnace wall and capable of blowing a fuel gas mixed with fuel and air into the furnace, and the furnace disposed so as to be disposed inside the burner body. An ignition torch that is fixed to the wall and propagates a flame from the base end portion and sends out from the tip end portion, and the tip end portion of the ignition torch is disposed on the base end side with respect to the tip end portion of the burner body It is characterized by that.

  Therefore, when the fuel gas blown from the burner body is ignited to form a flame, the tip of the ignition torch is located on the base end side with respect to the tip of the burner body. The heat load at the tip of the ignition torch against the flame can be reduced, and the durability can be improved and the life can be extended.

  According to the combustion burner and the pressurized gasification furnace of the present invention, since the distal end portion of the ignition torch is arranged on the base end side with respect to the distal end portion of the burner body, the distal end portion of the ignition torch against the flame of the burner body It is possible to reduce the heat load in the battery, improve the durability and extend the life.

FIG. 1 is a schematic view showing a combustion burner according to an embodiment of the present invention. FIG. 2 is a schematic diagram showing the operation of the combustion burner of the present embodiment. FIG. 3 is a longitudinal sectional view of the coal gasifier furnace of the present embodiment. FIG. 4 is a cross-sectional view taken along line AA of FIG. 3 showing a cross-sectional view of the coal gasification furnace vessel of the present embodiment.

  Exemplary embodiments of a combustion burner according to the present invention will be described below in detail with reference to the accompanying drawings. In addition, this invention is not limited by this Example, Moreover, when there exists multiple Example, what comprises combining each Example is also included.

  FIG. 1 is a schematic diagram showing a combustion burner according to one embodiment of the present invention, FIG. 2 is a schematic diagram showing the operation of the combustion burner of this embodiment, and FIG. 3 is a diagram of a coal gasifier vessel of this embodiment. FIG. 4 is a longitudinal sectional view, and FIG. 4 is a sectional view taken along line AA of FIG.

  In this embodiment, as shown in FIGS. 3 and 4, the gasification furnace (pressurization type gasification furnace) 1 includes a light fuel chamber 3, a combustor unit 5, and a reductor unit 7 in order from the bottom. The light combustion chamber 3 is provided with a starting burner (combustion burner) 12. As will be described later, the activation burner 12 is configured by arranging an ignition torch 42 inside the burner body 41.

  The combustor unit 5 is provided with a pulverized coal burner 14 and a char burner 16. The reductor unit 7 is provided with a gasification burner 18. In the light combustion chamber 3, light oil injected and sprayed by the starter burner 12 burns, and the generated combustion gas heats the upper combustor unit 5. And the combustor part 5 which became more than coal ignition temperature becomes the high temperature by burning the air and coal which become a gasifying agent thrown into only this combustor part 5, and the ash in coal melts and flows down, and the combustor part 5 The high-temperature gas generated by burning in the rises. The reductor unit 7 can efficiently convert the coal into gas by reacting the high temperature gas rising from the combustor unit 5 with the newly introduced coal.

  In this embodiment, a plurality of activation burners 12 are arranged to face each other so that a swirl flow can be formed in the gasification furnace 1. As shown in FIG. 1, the activation burner 12 includes a burner body 41 and an ignition torch 42. The burner body 41 can blow a fuel gas in which fuel and air are mixed. The ignition torch 42 is disposed inside the burner body 41 and can transmit a flame from the base end portion and send it out from the tip end portion. The burner body 41 can be ignited by the flame of the ignition torch 42 to form a flame as the activation burner 12.

  The burner body 41 is provided with a fuel gas passage 53 formed between the outer cylinder 51 and the inner cylinder 52, and a nozzle 54 capable of blowing fuel gas into the gasification furnace 1 is formed at the tip. Yes. The outer cylinder 51 and the inner cylinder 52 have a cylindrical shape, are fixed to the furnace wall 1a, and are provided with a gas fuel supply section and a combustion air supply section (not shown) at the base end.

  The ignition torch 42 is disposed inside the burner body 41 and is fixed to the furnace wall 1a in a cylindrical shape. The ignition torch 42 includes, in order from the base end outside the gasification furnace 1, a mixing chamber 20 in which fuel and combustion air are mixed, an ignition unit 22, an on-off valve 24, a combustion tube 26, and a flame holding unit. 28 is provided as a main part.

  The mixing chamber 20 is provided with a fuel supply port 30 and a combustion air supply port 31. Therefore, the fuel and the combustion air are sufficiently mixed in the mixing chamber 20 and ignited by the ignition unit 22 provided on the downstream side of the fuel flow. As the ignition part 22, ignition by a glow plug or an igniter is preferably used.

  The mixing chamber 20 and the ignition unit 22 are disposed outside the gasification furnace 1. An on-off valve 24 is provided between the mixing chamber 20 and the combustion pipe 26 extending over the gasification furnace 1. The on-off valve 24 is provided outside the gasification furnace 1. The on-off valve 24 can open or close the passage to flow or block the fluid between the ignition unit 22 side and the gasification furnace 1 side. The combustion tube 26 is provided with a flame holding portion 28 having an inner diameter larger than that of the combustion tube 26 at the tip, and a flame holding plate 28 a is fixed inside the flame holding portion 28.

  The assist fuel pipe 32 through which the assist fuel flows is inserted from the outside of the furnace into the furnace, passes through the side of the combustion pipe 26, and extends to the flame holding portion 28. The assist fuel pipe 32 can supply assist fuel to the flame holding section 28.

  The activation burner 12 of the present embodiment described above operates as follows.

  Prior to ignition, the ignition torch 42 first supplies only combustion air from the combustion air supply port 31 and causes the ignition unit 22 to red heat. After the temperature of the ignition unit 22 rises to the ignition temperature, fuel is supplied from the fuel supply port 30 into the mixing chamber 20, and the fuel and combustion air are mixed. The air ratio at this time (actual input air amount / theoretical required air amount) is about 0.4 to 0.7.

  The mixed fuel gas is ignited by the ignition unit 22 to form a flame. The flame passes through the opened on-off valve 24 and propagates through the combustion pipe 26. The flame that reaches the flame holding portion 28 from the combustion tube 26 becomes a main flame in the flame holding portion 28 and burns. At this time, the assist fuel is supplied from the assist fuel pipe 32 to the flame holder 28. As a result, the main fire that has grown in the flame holding section 28 is stably burned.

  On the other hand, in the burner main body 41, a fuel gas in which air and fuel are mixed is blown into the gasification furnace 1 from the nozzle 54. Since the ignition torch 42 flows out from the flame holding portion 28 when the main flame of the flame holding portion 28 is stabilized, the fuel gas blown into the gasification furnace 1 from the burner body 41 is discharged from the ignition torch 42. The starting burner 12 is ignited by the flame.

  Next, how to use the on-off valve 24 will be described.

  Since the gasification furnace 1 mainly promotes the combustion gasification reaction of char, the inside of the furnace is constantly maintained as a high pressure state in addition to a high temperature condition. Therefore, when inspecting the ignition torch 42, it takes time to depressurize all facilities of the gasifier during the pressurization operation to normal pressure. Will bear.

  As described above, when the ignition torch 42 needs to be checked, the on-off valve 24 provided on the downstream side of the fuel flow of the ignition unit 22 provided outside the gasifier 1 is used. That is, when trouble occurs in the ignition torch 42 during torch ignition or during start-up burner operation and inspection is required, the on-off valve 24 is closed in that state. Thereby, since the inside of the gasification furnace 1 and the ignition part 22 side are interrupted | blocked, the ignition part 22 side is open | released to air | atmosphere and inspection work is implemented.

  In the starter burner 12 of this embodiment configured as described above, the tip end portion 42a of the ignition torch 42 is arranged on the base end side (outer side of the furnace) with respect to the tip end portion 41a of the burner body 41.

  Specifically, the distal end portion 42 a of the ignition torch 42 is disposed closer to the proximal end portion than the distal end portion 41 a of the burner body 41 when the ignition torch 42 is not operated. When the ignition torch 42 is not in operation, before the flame is propagated from the base end portion to the tip end portion of the ignition torch 42 or after the ignition of the fuel gas from the burner body 41 is stopped, the flame propagation by the ignition torch 42 is stopped. It is.

  Further, when the ignition torch 42 is operated, the tip end portion 42 a of the ignition torch 42 is disposed at substantially the same position as the tip end portion 41 a of the burner body 41. When the ignition torch 42 is in operation, the flame is propagated from the base end portion to the tip end portion of the ignition torch 42.

In this case, the position of the tip end portion 42a when the ignition torch 42 is not operated is set in consideration of the length of the pipe (such as the combustion pipe 26) through which the flame propagates. That is, since the ignition torch 42 has a predetermined length, when the flame propagates from the base end portion toward the tip end portion, the base end portion is thermally extended as the base point of the furnace wall 1a, and heat is applied to the tip end portion. It grows. For this reason, the ignition torch 42 is moved backwardly when the ignition torch 42 is not operated so that the tip 42a of the ignition torch 42 is located at substantially the same position as the tip 41a of the burner main body 41 when the flame propagates. Is set.

  Hereinafter, the operation and effect of the activation burner 12 of this embodiment will be described.

  Prior to activation of the activation burner 12, the distal end portion 42 a of the ignition torch 42 is positioned on the proximal end side by a receding distance L with respect to the distal end portion 41 a of the burner body 41. Here, when the ignition torch 42 is actuated, the flame propagates from the base end side toward the tip end side, so that the combustion tube 26 is heated to a high temperature, and the thermal elongation increases in the longitudinal direction toward the tip end side. Occur. Then, as shown in FIG. 2, the ignition torch 42 has the tip end portion 42 a positioned substantially at the same position as the tip end portion 41 a of the burner body 41. Therefore, the burner main body 41 can ignite the fuel gas blown into the gasification furnace 1 upon receiving the flame from the ignition torch 42 and form a flame as the starter burner 12.

  Thereafter, when the flame of the starting burner 12 (burner body 41) is stabilized, the propagation of the flame by the ignition torch 42 is stopped and only the combustion air is supplied. Therefore, the temperature of the ignition torch 42 decreases as the combustion pipe 26 is cooled. Then, the ignition torch 42 contracts toward the base end side in the longitudinal direction, and the tip end portion 42a is located at a position retracted from the tip end portion 41a of the burner body 41 as shown in FIG. Therefore, the ignition torch 42 is held at a position where the tip end portion 42a is retracted from the tip end portion 41a of the burner main body 41, so that the heat load due to the burner main body 41k flame is reduced and burnout is prevented. .

  As described above, in the combustion burner of this embodiment, the burner main body 41 capable of injecting fuel gas mixed with fuel and air, the flame burner from the base end portion disposed inside the burner main body 41, and the tip An ignition torch 42 that is fed out from the portion is provided, and the distal end portion 42 a of the ignition torch 42 is disposed on the proximal end side with respect to the distal end portion 41 a of the burner body 41.

  Therefore, when the fuel gas blown from the burner body 41 is ignited to form a flame, the distal end portion 42a of the ignition torch 42 is located on the proximal end side with respect to the distal end portion 41a of the burner body 41. Therefore, it is possible to reduce the thermal load at the tip end portion 42a of the ignition torch 42 against the flame of the burner body 41, thereby improving the durability and extending the life.

  In the combustion burner of the present embodiment, the distal end portion 42a of the ignition torch 42 is arranged on the proximal end side with respect to the distal end portion 41a of the burner body 41 when the ignition torch 42 is not operated. Therefore, since the tip of the ignition torch 42 is located in the retracted position when not operating, the thermal load on the tip 42a of the ignition torch 42 can be reduced against the flame of the burner body 41.

  Specifically, before the flame is propagated from the proximal end portion to the distal end portion of the ignition torch 41 or after the flame propagation by the ignition torch 42 is stopped after the fuel gas from the burner body 41 is ignited, the distal end of the ignition torch 42 Since the part 42a is located at the retracted position, it is possible to reduce the thermal load at the tip 42a of the ignition torch 42 against the flame of the burner body 41.

  In the combustion burner of the present embodiment, the tip end portion 42 a of the ignition torch 42 is disposed at substantially the same position as the tip end portion 41 a of the burner body 41 when the ignition torch 42 is operated. Accordingly, the ignition torch 42 has the distal end portion 42a positioned substantially at the same position as the distal end portion 41a of the burner main body 41 during operation, and at this time, the flame propagated from the proximal end portion and sent out from the distal end portion, The fuel gas blown from 41 can be appropriately ignited.

  Specifically, when the flame is propagated from the base end portion of the ignition torch 42 to the tip end portion, the tip end portion 42a of the ignition torch 42 is located at substantially the same position as the tip end portion 41a of the burner body 41. The fuel gas blown from the burner body 41 can be appropriately ignited.

  In the combustion burner of the present embodiment, the position when the ignition torch 42 is not operated is set in consideration of the length of the combustion tube 26 through which the flame propagates. Therefore, the non-operating position and non-operating position of the ignition torch 42 can be set appropriately.

  Further, in the combustion burner of the present embodiment, the ignition part 22 is provided at the base end part 42 a of the ignition torch 42, and the opening / closing valve 24 is provided downstream of the ignition part 22 in the fuel flow direction. Therefore, the ignition part 22 can be easily inspected without depending on the state in the gasification furnace 1. Further, by closing the on-off valve 24, the inside of the gasification furnace 1 and the ignition part 22 side can be separated, and as a result, the on-off valve 24 is closed even when inspection is required due to various problems. Thus, the ignition part 22 side can be separated from the gasification furnace 1 and can be easily inspected without depending on the state in the gasification furnace 1.

  Moreover, in the gasification furnace 1 of the present embodiment, the burner body 41 fixed to the furnace wall 1a and capable of blowing fuel gas mixed with fuel and air into the furnace, and the burner body 41 are disposed inside. An ignition torch 42 that is fixed to the furnace wall 1a and propagates a flame from the base end portion and sends out from the tip end portion is provided, and the tip end portion 42a of the ignition torch 42 is the base end with respect to the tip end portion 41a of the burner body 41. It is arranged on the part side.

  Therefore, it is possible to reduce the thermal load at the tip end portion 42a of the ignition torch 42 against the flame of the burner body 41, thereby improving the durability and extending the life.

  In addition, in the Example mentioned above, although the combustion burner of this invention was applied to the gasification furnace 1, it is not limited to the gasification furnace 1. FIG. Further, although the ignition torch 42 is composed of the ignition part 22, the on-off valve 24, the combustion pipe 26, and the flame holding part 28, it is not limited to this configuration and arrangement.

1 Gasification furnace 1a Furnace wall 12 Startup burner (combustion burner)
DESCRIPTION OF SYMBOLS 20 Mixing chamber 22 Ignition part 24 On-off valve 26 Combustion pipe 28 Flame holding part 41 Burner main body 41a Tip part 42 Ignition torch 42a Tip part

Claims (7)

A burner body capable of injecting fuel gas mixed with fuel and air;
An ignition torch that is arranged inside the burner body and propagates a flame from the base end part and sends it out from the front end part,
Have
The tip of the ignition torch is arranged on the base end side with respect to the tip of the burner body ,
When the ignition torch is activated, the tip of the ignition torch is disposed at substantially the same position as the tip of the burner body.
Combustion burner characterized by that. A burner body capable of injecting fuel gas mixed with fuel and air;
An ignition torch that is arranged inside the burner body and propagates a flame from the base end part and sends it out from the front end part,
Have
The tip of the ignition torch is arranged on the base end side with respect to the tip of the burner body,
The position of the tip when the ignition torch is not operated is set in consideration of the length of the pipe through which the flame propagates.
Combustion burner characterized by that. 3. The combustion burner according to claim 1 , wherein a tip end portion of the ignition torch is arranged closer to a base end portion side than a tip end portion of the burner body when the ignition torch is not operated. When the ignition torch is not in operation, before the flame is propagated from the base end portion to the tip end portion of the ignition torch, or after the flame propagation by the ignition torch is stopped after the fuel gas from the burner body is ignited The combustion burner according to claim 3 , wherein The combustion burner according to claim 1 , wherein the time when the ignition torch is activated includes a time when a flame is propagated from a base end portion to a tip end portion of the ignition torch. The combustion burner according to any one of claims 1 to 5 , wherein an ignition portion is provided at a base end portion of the ignition torch, and an on-off valve is provided downstream of the ignition portion in a fuel flow direction. . A burner body fixed to the furnace wall and capable of blowing fuel gas mixed with fuel and air into the furnace;
An ignition torch which is fixed to the furnace wall so as to be arranged inside the burner body and propagates a flame from a base end portion and sends out the tip portion;
A combustion burner according to any one of claims 1 to 6 having
A pressurized gasification furnace characterized by that.

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