JP2020030045A - Combustion object supply system - Google Patents

Abstract

To provide a combustion object supply system capable of combusting a combustion object at a desired combustion position.SOLUTION: A combustion object supply system 10 includes a combustion object supply unit 2 configured to supply a combustion object into a furnace 1, and a supply position adjustment mechanism 3 configured to adjust a supply position of the combustion object in the furnace 1. With this structure, since the supply position adjustment mechanism 3 adjusts the supply position of the combustion object in the furnace 1, a combustion position of the combustion object in the furnace 1 can be adjusted. Consequently, since the supply position adjustment mechanism 3 performs adjustment, the combustion object can be combusted at a desired combustion position.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a combustion object supply system.

  BACKGROUND ART Conventionally, a furnace described in Patent Literature 1 is known as a furnace for burning fuel. In this furnace, a fuel such as biomass fuel, which is an organic resource derived from animals and plants excluding fossil resources, is burned in a combustion furnace. A combustion object supply system that supplies fuel to such a furnace as a combustion object is provided.

JP-A-2004-36490

  Here, when supplying an object to be burned to the furnace, the object to be burned may be burned at a position different from a desired position in the furnace. Therefore, there has been a demand for a combustion object supply system that can burn a combustion object at a desired combustion position.

  The present invention has been made to solve the above-described problem, and has as its object to provide a combustion object supply system that can burn a combustion object at a desired combustion position.

  In order to solve the above problems, a combustion object supply system according to the present invention is a combustion object supply system for supplying a combustion object to a furnace that burns the combustion object, and the combustion object supply system supplies the combustion object to a furnace. The apparatus includes a supply unit for supplying a combustion object to be supplied, and a supply position adjusting mechanism for adjusting a supply position of the combustion object in the furnace.

  This combustion object supply system is provided with a supply position adjustment mechanism for adjusting a supply position of the combustion object in the furnace, in addition to a combustion object supply unit for supplying the combustion object into the furnace. As described above, by adjusting the supply position of the object to be burned in the furnace by the supply position adjusting mechanism, it is possible to adjust the combustion position of the object to be burned in the furnace. Therefore, by performing adjustment by the supply position adjusting mechanism, the combustion target can be burned at a desired combustion position.

  In the combustion object supply system according to the present invention, the supply position adjusting mechanism includes a gas supply unit, and adjusts a supply position by applying a force of gas supplied from the gas supply unit to the combustion object. Good. With such a configuration, the supply position of the combustion object can be adjusted with a simple configuration that only supplies gas. Since the supplied material is a gas, it does not hinder combustion. When air is used as the gas, it can be effectively used as combustion air.

  In the combustion object supply system according to the present invention, when the supply angle to the furnace by the combustion object supply unit and the gas supply angle by the gas supply unit are compared, the gas supply angle may be an upward angle. . With such a configuration, by setting the gas supply angle of the gas supply unit to be higher than the supply angle of the combustion object supply unit, a force for moving the combustion object supplied into the furnace in the horizontal direction is provided. Can be.

  In the combustion object supply system according to the present invention, the combustion object supply section includes a combustion object supply path through which the combustion object passes, and the gas supply section includes a gas supply path through which the gas passes. An intersection where the supply path and the gas supply path intersect is set, and the intersection may be set at a position closer to the furnace than the base end of the combustion object supply path. With such a configuration, the combustion object to which the power is applied from the gas in the gas supply path can be immediately supplied into the furnace. Therefore, it is easy to adjust the supply position of the combustion target.

  In the combustion object supply system according to the present invention, the intersection may be set in a wall of the furnace or inside the furnace. With such a configuration, the combustion object to which the power is applied from the gas in the gas supply path can be immediately supplied into the furnace. Therefore, it becomes easier to adjust the supply position of the combustion object.

  ADVANTAGE OF THE INVENTION According to this invention, a combustion target object can be burned in a desired combustion position.

FIG. 1 is a schematic configuration diagram illustrating a combustion system including a combustion object supply system according to the present embodiment. FIG. 2 is a sectional view showing a detailed configuration of the combustion object supply system.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, the same or corresponding elements will be denoted by the same reference characters, without redundant description.

  FIG. 1 is a schematic configuration diagram illustrating a combustion system including a combustion object supply system according to the present embodiment. As shown in FIG. 1, the combustion system 100 includes a furnace 1 for burning a combustion target, and a combustion target supply system 10 for supplying the combustion target into the furnace 1. The type of the furnace 1 is not particularly limited, and any type of furnace may be applied. The type of the combustion target is not particularly limited, and any type of fuel may be used. Examples of the combustion target include fuels such as biomass fuel, coal, wood, RPF, and TDF. FIG. 2 is an enlarged view of the combustion object supply system 10. As shown in FIGS. 1 and 2, the combustion object supply system 10 includes a combustion object supply unit 2 and a supply position adjusting mechanism 3.

  The combustion target supply unit 2 is a part that supplies the combustion target to the furnace 1. In the present embodiment, the target combustion object supply unit 2 includes a target combustion object supply passage 6 through which the target combustion object passes. The combustion object supply passage 6 is configured by a pipe extending from a base end 6 a outside the furnace 1 and connected to the furnace 1. In FIG. 1, a configuration is shown in which the combustion object supply passage 6 extends downward from the base end portion 6a and extends obliquely downward toward the furnace 1 at an intermediate position. The configuration of the supply path 6 is not particularly limited, and may be set to any shape and length. Further, a base end portion 6a of the combustion object supply passage 6 is connected to a supply source of the combustion object (not shown). The details of the positional relationship between the combustion object supply unit 2 and the supply position adjusting mechanism 3 will be described later.

  The supply position adjusting mechanism 3 is a mechanism for adjusting a supply position of the combustion target in the furnace 1. The supply position adjusting mechanism 3 applies a force to the object to be burned at a timing upstream of the furnace 1, at the time of entering the furnace 1, and at least any timing after entering the furnace 1, thereby providing the object to be burned. The supply position in the furnace 1 can be adjusted. For example, when no force is applied, if the combustion target supplied from the target supply unit 2 is directly supplied into the furnace 1, the target immediately falls near the side wall 5 of the furnace 1 as shown in a supply position PG <b> 2. On the other hand, the supply position adjusting mechanism 3 applies a predetermined force to the combustion object from the combustion object supply unit 2 so that the combustion object in the internal space of the furnace 1 as shown at the supply position PG1. The combustion target can be supplied to a position separated from the side wall 5.

  Here, a preferred position of the attachment position of the combustion object supply system 10 to the furnace 1 and a supply position of the combustion object adjusted by the supply position adjustment mechanism 3 will be described. The burning position of the burning object may be set as appropriate. The positions of the combustion object supply unit 2 and the supply position adjusting mechanism 3 in the height direction of the furnace 1 may be set as appropriate. It is preferable that the supply position adjusting mechanism 3 supplies the fuel toward a position near the center of the internal space of the furnace 1. In addition, one such combustion target supply system 10 may be provided for the furnace 1, or a plurality of such combustion target supply systems may be provided. When a plurality of the combustion object supply systems 10 are provided, a plurality of the combustion object supply systems 10 may be provided at the same position in the height direction and at different positions in the horizontal direction, or at the same position in the horizontal direction and at different positions in the height direction. It may be provided, and a plurality may be provided at different positions in the height direction and the horizontal direction. FIG. 2 illustrates a structure in which the combustion target supply system 10 is provided in a portion of the side wall 5 extending in the vertical direction, but the side wall 5 is inclined with respect to the vertical direction. A combustion object supply system 10 may be provided in a part.

  In the present embodiment, the supply position adjusting mechanism 3 includes the gas supply unit 7. The supply position adjusting mechanism 3 adjusts the supply position of the combustion target in the furnace 1 by applying the force of the gas supplied from the gas supply unit 7 to the target. The gas supply unit 7 includes a gas supply source 8 composed of a gas such as a pump and a blower, and a gas supply passage 9 through which the gas passes. The gas supply path 9 is connected to the gas supply source 8 on the base end side, and is connected to the side wall 5 of the furnace 1 on the tip end side. The gas supply unit 7 may supply air, oxygen, combustion exhaust gas, or the like as a gas. In addition, the supply amount of gas by the gas supply path 9 may be appropriately set depending on the supply amount and weight of the combustion object from the combustion object supply path 6.

  Next, a detailed configuration of the combustion object supply system 10 will be described with reference to FIG. As shown in FIG. 2, the combustion object supply passage 6 and the gas supply passage 9 cross each other at a position on the furnace 1 side. In the present embodiment, the combustion object supply passage 6 is connected to the vicinity of the tip of the gas supply passage 9. That is, the combustion object supply path 6 extends obliquely upward from the gas supply source 8 toward the furnace 1 and extends obliquely upward from the vicinity of the tip of the gas supply path 9 connected to the side wall 5. 9 are connected to the pipe wall. At the connection, the gas supply path 9 and the combustion object supply path 6 communicate with each other.

  Here, the central axis of the gas supply path 9 is set to “CL1”, the central axis of the combustion target supply path 6 is set to “CL2”, the horizontal line set in the horizontal direction is set to “HL”, and the target substance supply path 6 is set to “HL”. A description will be given of a positional relationship between the components when an intersection at which the gas supply path 9 intersects with “MP”. The intersection MP is set at the intersection of the central axis CL1 of the gas supply path 9 and the central axis CL2 of the combustion object supply path 6.

  The intersection angle between the gas supply path 9 and the combustion object supply path 6 is defined as “θ1”. Here, the intersection angle θ1 is an angle formed by the center axis CL1 and the center axis CL2 at the intersection MP when viewed from the horizontal direction. At this time, the intersection angle θ1 may be set to 0 ° to 90 °. Note that there is no particular optimum value for the intersection angle θ1, and the optimum design is performed so that the intersection MP is located at the center of the furnace 1. Therefore, the intersection angle θ1 may be appropriately set according to the size of the furnace 1, the layout in front of the furnace, the space, and the like. When the intersection angle θ1 is 0 ° (or a value near 0 °), the gas supply passage 9 and the combustion object supply passage 6 form a predetermined angle when viewed from above and below. The supply path 6 is connected to the side of the gas supply path 9.

  The angle of the combustion object supply passage 6 with respect to the horizontal direction is “θ2”. Here, the angle θ2 is an angle between the central axis CL2 of the combustion object supply passage 6 and the horizontal line HL at the intersection MP. Further, this angle θ2 may be regarded as the angle at which the combustion target supply unit 2 supplies the combustion target to the furnace 1. In the present embodiment, on the downstream side of the intersection MP, the combustion target is supplied into the furnace 1 from the distal end portion 9a of the gas supply passage 9. However, in the present embodiment, "the supply angle of the combustion target to the furnace 1" Corresponds to the angle θ2 of the combustion object supply passage 6 on the upstream side of the intersection MP and near the intersection MP. The angle θ2 may be appropriately set according to the size of the furnace 1, the layout in front of the furnace, the space, and the like.

  The angle of the gas supply path 9 with respect to the horizontal direction is “θ3”. Here, the angle θ3 is an angle between the central axis CL1 of the gas supply passage 9 at the intersection MP and the horizontal line HL. The angle θ3 may be appropriately determined depending on the size of the furnace 1, the layout before the furnace, the space, and the like. Further, this angle θ3 may be regarded as the gas supply angle to the furnace 1 by the gas supply unit 7. Further, the gas supply path 9 may be directed obliquely upward with respect to the horizontal direction.

  When the supply angle (angle θ2) of the combustion object supply unit 2 to the furnace 1 and the gas supply angle (angle θ3) of the gas supply unit 7 are compared, the gas supply angle may be an upward angle. . Here, “the gas supply angle is an upward angle” means that when the gas supply path 9 is facing downward, the angle with respect to the horizontal direction is shallower than the combustion object supply path 6 (than angle θ2). It refers to a state in which the angle θ3 is small) or a state in which the gas supply path 9 faces upward (when the angle θ3 is negative).

  Next, the position of the intersection MP where the combustion object supply passage 6 and the gas supply passage 9 intersect will be described. The intersection MP is set at a position closer to the furnace 1 than the base end 6a (see FIG. 1) of the combustion object supply passage 6. In the present embodiment, when the position in the horizontal direction is compared between the base end 6a and the side wall 5 of the furnace 1 (the part of the side wall 5 where the combustion object supply system 10 is provided), the intersection MP is It is arranged on the side wall 5 side of the furnace 1. The intersection MP may be arranged at the position of the side wall 5 of the furnace 1 or may be arranged inside the furnace 1 (a space inside the side wall 5). In the embodiment shown in FIG. 2, the intersection MP is located inside the thickness dimension of the side wall 5, and thus is located at the position of the side wall 5 of the furnace 1. When the intersection MP is disposed in the furnace 1, a part of the combustion object supply path 6 and a part of the gas supply path 9 penetrate the side wall 5 and protrude into the internal space of the furnace 1. Further, the intersection MP may be arranged outside the furnace 1 by being connected to the gas supply path 9 at a position where the combustion object supply path 6 is located outside of the side wall portion of the furnace 1 at a distance from the furnace 1.

  For example, at a position far away from the furnace 1 for a purpose different from that of the present invention (for example, when the main purpose is to mix the gas with the object to be burned), the supply path of the gas to be burned is The supply path is connected, and when the object to be burned is supplied into the furnace 1, the configuration in which the pushing force by the gas has almost disappeared is referred to as “supply position adjusting mechanism” in this specification. Shall not apply. The “supply position adjusting mechanism” according to the present embodiment, when the combustion target is supplied into the furnace 1, applies a force to the combustion target to such an extent as to contribute to the velocity component of the combustion target in the horizontal direction. Things.

  Next, the operation and effect of the combustion object supply system 10 according to the present embodiment will be described.

  The combustion object supply system 10 includes a supply position adjusting mechanism 3 that adjusts a supply position of the combustion object in the furnace 1 in addition to the combustion object supply unit 2 that supplies the combustion object into the furnace 1. . By adjusting the supply position of the object to be burned in the furnace 1 by the supply position adjusting mechanism 3 in this manner, the combustion position of the object to be burned in the furnace 1 can be adjusted. Therefore, by performing the adjustment by the supply position adjusting mechanism 3, the combustion target can be burned at a desired combustion position.

  In the combustion object supply system 10, the supply position adjusting mechanism 3 includes a gas supply unit 7. The supply position is adjusted by applying the force of the gas supplied from the gas supply unit 7 to the combustion target. With such a configuration, the supply position of the combustion object can be adjusted with a simple configuration that only supplies gas. For example, when the supply position of the combustion target is adjusted by applying a mechanical force, the structure may be complicated, adjustment of the force may be difficult, or clogging in the pipe may occur. However, these problems do not occur when a gas is used. Further, since the supplied material is a gas, it does not hinder combustion. When air is used as the gas, it is possible to use both air for combustion in the furnace 1 and air for adjusting the supply position.

  In the combustion target supply system 10, when the supply angle of the combustion target supply unit 2 to the furnace 1 is compared with the gas supply angle of the gas supply unit 7, the gas supply angle is an upward angle. With such a configuration, by setting the gas supply angle of the gas supply unit 7 to be higher than the supply angle of the combustion object supply unit 2, the horizontal force applied to the combustion object supplied into the furnace is reduced. Can be bigger.

  In the target combustion object supply system 10, the target combustion object supply unit 2 includes a target combustion object supply passage 6 through which the target combustion object passes. Further, the gas supply section 7 includes a gas supply path 9 through which gas passes. An intersection MP where the combustion object supply path 6 and the gas supply path 9 intersect is set, and the intersection MP is set at a position closer to the furnace 1 than the base end 6a of the combustion object supply path 6. With such a configuration, the combustion object to which the power is applied from the gas in the gas supply path 9 can be immediately supplied into the furnace 1. Therefore, it is easy to adjust the supply position of the combustion target.

  In the combustion object supply system 10, the intersection MP is set in the side wall 5 of the furnace 1 or inside the furnace 1. With such a configuration, the combustion object to which the power is applied from the gas in the gas supply path 9 can be immediately supplied into the furnace 1. Therefore, it becomes easier to adjust the supply position of the combustion object.

  The present invention is not limited to the above embodiment. For example, the positional relationship between the combustion object supply path 6 and the gas supply path 9 is not limited to the above embodiment, and the gas supply path 9 is connected to the combustion object supply path 6 from above. It may be a configuration.

  Further, the supply position adjusting mechanism is not limited to the configuration using the gas supply unit, and may be a device that applies a mechanical force to the combustion target, such as a conveyor device, a rotating device, and a pusher. Alternatively, the object to be burned is accelerated by passing through a passage that forms a steep angle with respect to the horizontal direction, and then is passed through a passage that forms a shallow angle with respect to the horizontal direction. A mechanism for causing the scattering may be adopted as the supply position adjusting mechanism.

  DESCRIPTION OF SYMBOLS 1 ... Furnace, 2 ... Combustion object supply part, 3 ... Supply position adjustment mechanism, 5 ... Side wall part, 6 ... Combustion object supply path, 7 ... Gas supply section, 9 ... Gas supply path, 10 ... Combustion object supply system.

Claims (5)

A combustion object supply system for supplying the combustion object to a furnace for burning the combustion object,
A combustion object supply unit that supplies the combustion object toward the furnace;
A supply position adjusting mechanism for adjusting a supply position of the combustion object in the furnace;   2. The combustion target according to claim 1, wherein the supply position adjusting mechanism includes a gas supply unit, and adjusts the supply position by applying a force of gas supplied from the gas supply unit to the combustion target. 3. Goods supply system.   The combustion object according to claim 2, wherein the gas supply angle is an upward angle when comparing a supply angle of the combustion object supply unit to the furnace with a gas supply angle of the gas supply unit. Goods supply system. The combustion object supply unit includes a combustion object supply passage for passing the combustion object,
The gas supply unit includes a gas supply path through which the gas passes,
An intersection at which the combustion object supply passage and the gas supply passage intersect is set,
The combustion object supply system according to claim 2 or 3, wherein the intersection is set at a position closer to the furnace than a base end of the combustion object supply passage.   The combustion object supply system according to claim 4, wherein the intersection is set in a wall of the furnace or inside the furnace.

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