KR102036039B1 - Air amplifier and apparatus for supplying air into aerobic landfill site employing the same - Google Patents

Abstract

Disclosed are an air amplifying apparatus capable of amplifying injected air, and an air injecting apparatus of an aerobic waste landfill employing the same. The air amplifying apparatus comprises: a housing having an inner space and an air injection hole for injecting a first air supplied from the outside into the inner space; an air inflow pipe installed in the inner space of the housing, and including a first intake port communicating with the outside of the housing and sucking a second air from the outside of the housing, and a first exhaust port for discharging the sucked second air; and an air amplification pipe installed in the inner space of the housing, having a second intake port disposed to form an opening having the first exhaust port therebetween and a second exhaust port for discharging the first and second air introduced through the second intake port to the outside of the housing, and amplifying the first and second air. The flow of the second air is induced in a direction of the first exhaust port in accordance with the flow of the first air discharged into the air amplification pipe through the opening.

Description

AIR AMPLIFIER AND APPARATUS FOR SUPPLYING AIR INTO AEROBIC LANDFILL SITE EMPLOYING THE SAME}

The present invention relates to an air amplification device and an air injection device of a waste landfill using the same, and more particularly, to an air amplification device capable of amplifying injected air and an air injection device of an aerobic waste landfill using the same.

In general, in the method of treating waste by landfill, landfill gas such as methane and carbon dioxide is generated while organic waste in landfilled waste is decomposed naturally in a state of being blocked from the outside. The generated landfill gas is collected through post-treatment and used as fuel or incinerated.

In particular, when the recovery of landfill gas is not economical, a method of stabilizing the landfill early by decomposing organic waste using an aerobic reaction by supplying oxygen or air to the landfill is used. Waste landfills are classified into semi-aerobic landfills and aerobic landfills according to the air supply method.

Aerobic landfill is a landfill using a method of artificially forcibly injecting air through an air injection device to convert from anaerobic to aerobic.

Patent Document 1 discloses a method of supplying the above air. This disclosed method supplies air with water. In this case, in the process of injecting air, a backflow phenomenon may occur in which the injected air returns to the outside of the landfill by the internal pressure of the landfill. In addition, there is a problem such that the amount of power consumed in the operation of the blower is increased when the air is to be injected while exceeding the internal pressure of the landfill.

Japanese Patent No. 4091511 (2008.05.28.)

The present invention was devised in view of the above-described problems, and by amplifying and injecting air provided by a blower into a non-power supply, an air amplifying apparatus which can increase the amount of air injected into an object without increasing power consumption and employing the same The object is to provide an air injector for aerobic waste landfills.

In order to achieve the above object, the air amplification apparatus according to the present invention includes a housing having an internal space, the air inlet for injecting the first air supplied from the outside into the internal space; An air inlet pipe installed in an inner space of the housing and having a first intake port communicating with the outside of the housing and sucking second air from the outside of the housing, and a first exhaust port for discharging the sucked second air; and; It is installed in the interior space of the housing, the second intake port disposed to form an opening between the first exhaust port, and the first and second air introduced through the second intake vent to the outside of the housing An air amplifier having a second exhaust port and amplifying the first and second air; and a second air outlet in the direction of the first exhaust port in accordance with the flow of the first air discharged into the air amplifier through the opening. Allow air flow to be induced.

Here, the second intake port may be disposed to surround the outer circumference of the first exhaust port in a state spaced apart from the outer circumference of the first exhaust port by a predetermined interval to form the opening.

In addition, in forming the inner side of the air amplifier, the inner wall of the air amplifier tube may be formed to be inclined so that the inner diameter of the air amplifier tube is extended along the flow direction of the first and second air. Accordingly, the amount of displacement per unit time of the first and second air exhausted through the second exhaust port can be increased by the Coanda effect.

In addition, in forming the inside of the air inlet pipe, the inner wall of the air inlet pipe may be formed to be inclined so as to reduce the inner diameter of the air inlet pipe along the flow direction of the second air.

In addition, in forming the inner side of the first exhaust port, the inner diameter of the first exhaust port is extended along the flow direction of the second air, so that the second air injected into the air amplifier tube is directed toward the inner wall of the air amplifier tube. Can be extended.

In addition, the air amplification apparatus according to the present invention further amplifies the air injected into the object, and may further include an auxiliary amplifier installed in at least one of the air inlet and the second exhaust port.

In addition, the present invention is an air injecting apparatus of aerobic waste landfills for injecting air into the waste landfill having a leachate drainage pipe for collecting and draining the leachate generated from the waste, it is installed in the lower portion of the landfill, one end outside A main air inlet pipe which is connected to and supplies external air into the landfill, and is formed inside the leachate drain pipe; A blower for blowing first air into the main air inlet pipe; It is provided between the blower and the main air inlet pipe, including the air amplification device as described above, it is possible to supply the air amplified by the air amplification device through the main air inlet pipe.

The air amplification apparatus according to the present invention amplifies and injects air supplied from a blower, and thus can exhibit the same air injection performance even when employing a relatively low power blower. This reduces the power consumption required for blower operation. The air amplification device can be applied to various industrial fields that apply blowers, such as aerobic waste landfills, incinerators, sewage treatment plants, and biodrying technologies for composting.

In addition, the air amplifying apparatus according to the present invention increases the amount of air injected per unit time, so that even if the internal pressure is present in the object to be injected, air can be injected without backflow. In addition, the air amplifier according to the present invention further includes an auxiliary amplifier, thereby further improving the air amplification efficiency.

In addition, the air injection device of the aerobic waste landfill according to the present invention by providing the air amplification device in the main air inlet pipe or gas discharge pipe, it is possible to reduce the power consumption required for the blower operation. In addition, it is possible to prevent the backflow of the air injected by the pressure inside the waste landfill.

1 is a partial cross-sectional perspective view showing an air amplifying apparatus according to a first embodiment of the present invention.
2 is a cross-sectional view showing an air amplifying apparatus according to a first embodiment of the present invention.
3 is a cross-sectional view showing an air amplifying apparatus according to a second embodiment of the present invention.
Figure 4 is a schematic view showing a waste landfill to which the air injection device of the landfill according to an embodiment of the present invention.
5 is a schematic cross-sectional view of FIG. 4.
Figure 6 is a schematic view showing an air injection device of a landfill land employing an air amplification device according to an embodiment of the present invention.
7 is a schematic view showing an air injection device of a landfill site employing an air amplification device according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like elements throughout the specification.

1 is a partial cross-sectional perspective view showing an air amplifier according to a first embodiment of the present invention, Figure 2 is a cross-sectional view of FIG.

1 and 2, the air amplifying apparatus according to the first embodiment of the present invention is a device for amplifying and injecting external air into an object, and includes a housing 10 having an internal space 10a and an air inlet pipe. 20 and the air amplifier 30.

The housing 10 includes an air inlet 11 for injecting the first air A1 supplied from the outside into the internal space 10a. Here, a blower 50 for forcibly blowing the first air A1 into the internal space 10a may be installed at the air inlet 11. Therefore, the first air A1 blown through the blower 50 is injected into the internal space 10a through the air inlet 11, and moves into the air amplifier tube 30 through the opening 40 described later. .

The air inlet pipe 20 is installed in the inner space of the housing 10 and is guided by the flow of the first air A1 to suck the second air A2 from the outside. To this end, the air inlet pipe 20 may be formed in a cylindrical shape, the first intake port 21 for sucking the second air A2 from the outside, and the first exhaust port 25 for discharging the sucked second air. It includes. Here, the first intake port 21 is formed in communication with the outside of the housing 10. Therefore, the second air A2 is introduced into the air inlet pipe 20 through the first intake port 21 and then exhausted toward the air amplifier tube 30 through the first exhaust port 25.

The air inlet pipe 20 is formed so that the inner diameter of the air inlet pipe 20 is reduced along the flow direction of the second air A2 in its inner shape. That is, the inner wall 20a of the air inlet pipe 20 may be formed to be inclined as shown in FIG. 2.

The air amplifier 30 is installed in the interior space 10a of the housing 10, amplifies the first and second air (A1) (A2), the amplified first and second air (A1) The third air A3 synthesized with A2 is discharged to the outside of the housing 10. To this end, the air amplification pipe 30 may be formed in a cylindrical shape, and includes a second intake port 31 and a second exhaust port 35. The second intake port 31 is arranged to form an opening 40 between the first intake port 25. That is, the second intake port 31 is disposed to surround the outer circumference of the first exhaust port 25 in a state spaced apart from the outer circumference of the first exhaust port 25 by a predetermined interval. Accordingly, the opening 40 is formed in the space between the first exhaust port 25 and the second intake port 31.

The opening 40 is opened between the first exhaust port 25 and the second intake port 31. The opening 40 discharges the first air A1 injected through the air inlet 11 into the air amplification pipe 30. The opening 40 has a shape corresponding to the shape of the first exhaust port 25 and the second intake port 31. For example, as shown in FIG. 1, when the first exhaust port 25 and the second intake port 31 are formed in a circular shape, the opening 40 may be formed in a circular shape. In this case, the opening 40 has a slit shape in which a predetermined width is opened in a circular shape between the outer periphery of the first exhaust port 25 and the second intake port 31. When the opening 40 is formed in this way, the air injected into the internal space 10a of the housing 10 through the air inlet 11 is through the opening 40, the air amplifier tube 30. Is fed into the interior. At this time, the air pressure of the inner central portion of the first exhaust port 25 is lower than the atmospheric pressure. Due to the pressure difference, the second air A2 enters the air inlet pipe 20 through the first intake port 21 and is exhausted through the first exhaust port 25. That is, as the first air A1 discharged through the opening 40 flows in the direction of the second air A2 from the first intake port 21 toward the first exhaust port 25, the air is primarily flowed. Can be amplified by

In addition, in the shape of the inner side 25a, the first exhaust port 25 is formed to be inclined to extend the inner diameter of the first exhaust port 25 along the flow direction of the second air A2. Can be. As such, when the inner side 25a of the first exhaust port is formed, the exhaust amount per unit time of the second air exhausted through the first exhaust port 25 may be increased by the Coanda effect. Accordingly, the first exhaust port 25 extends along the flow direction of the second air A2 (the direction from the first intake port 21 to the first exhaust port 25). In this case, the second air A2 flowing through the air inlet pipe 20 adheres to the inner wall of the first exhaust port 25 with strong centripetal force. At this time, a stronger lift, which is a reaction of this powerful centripetal force, can be obtained. This principle is referred to as a 'coanda effect', and the flow of the second air A2 is primarily faster by the coanda effect, thereby amplifying the second air A2.

The air amplification pipe 30 is a combination of the first air (A1) introduced into the interior through the opening 40 and the second air (A2) introduced into the interior through the second intake port (31). It is a losing part. The combined third air A3 is secondary amplified by the Coanda effect in the air amplifier tube 30 and is discharged to the outside of the housing 10 through the second exhaust hole 35.

To this end, the air amplification pipe 30 has a shape in which the first and second air A1 and A2 flow in a direction (direction from the second intake port 31 to the first exhaust port 35). Accordingly, the inner diameter of the air amplifier 30 may be extended. That is, as shown in Figure 2, the inner wall (30a) of the air amplifier tube 30 may be formed to be inclined. Therefore, the amount of exhaust gas per unit time of the third air A3 exhausted through the second exhaust port can be increased by the Coanda effect. That is, the first air A1 and the second air A2 flowing through the air amplifier tube 30 are combined to flow together with a strong centripetal force on the inner wall of the air amplifier tube 30. At this time, the flow of the first and second air (A1) (A2) is secondarily faster by the Coanda effect, it is possible to exhaust the amplified third air (A3).

3 is a cross-sectional view showing an air amplifier according to each of the second exemplary embodiments of the present invention.

 Referring to FIG. 3, the air amplification apparatus according to the second embodiment of the present invention includes a housing 10, an air inlet pipe 20, an air amplifier 30, an opening 40, and an auxiliary amplifier 60. Include. Other components other than the auxiliary amplifier 60 in the air amplifier according to the present embodiment perform substantially the same configuration and function as the components using the same reference numerals of the air amplifier according to the first embodiment. Therefore, detailed description of these configurations will be omitted.

The auxiliary amplifier 60 additionally amplifies the air injected into the object, and may be installed in the air inlet 11. Therefore, the air injected through the air inlet 11 is primarily amplified. To this end, the auxiliary amplifier 60 includes a funnel-shaped amplification tube 61 in which a wide portion is blocked, and an auxiliary air injection portion 67 provided in the amplification tube 61. The amplification tube 61 includes an auxiliary exhaust port 63 coupled to the air inlet 11 and an auxiliary air intake port 65 for sucking outside air. In this case, the auxiliary exhaust port 63 is formed at the peak of the funnel shape, that is, the narrow portion. The auxiliary intake port 65 is formed in a wide and clogged portion of the funnel shape, and sucks outside air into the amplification pipe 61. The auxiliary air injection portion 67 is installed in the amplification pipe 61 adjacent to the auxiliary intake port 65, and is an inlet through which air is forcibly supplied from the outside by a blower (50 in FIG. 2). .

Therefore, when air is injected into the amplification pipe 61 through the auxiliary air injection unit 67 and is exhausted through the auxiliary exhaust port 63, external air is induced to the flow of the exhausted air to the auxiliary intake port ( Inhalation through 65 may amplify the amount of air injected per unit time.

In the present embodiment, the auxiliary amplifier 60 is shown as an example installed in the air inlet 11, but is not limited thereto. That is, the auxiliary amplifier 60 may be installed in at least one of the first intake port 21 of the air inlet pipe 20 and the second exhaust port 35 of the air amplifier pipe 30. In addition, the auxiliary amplifier 60 may be connected in series, or may include a plurality of auxiliary amplifiers installed at different positions.

By configuring the air amplifying apparatus according to the present invention as described above, by amplifying the air injected into a predetermined object, even if the object has internal pressure, it is possible to inject air without backflow. In addition, even if the performance of the blower 50 for supplying air to the air amplification device can be obtained the same or improved effect, it is possible to lower the power consumption required for driving the blower (50).

FIG. 4 is a schematic view showing a waste landfill using an air injection device of a landfill according to an embodiment of the present invention, and FIG. 5 is a schematic cross-sectional view of FIG.

4 and 5, an air supply apparatus of a waste landfill according to an embodiment of the present invention injects air into a waste landfill 110 having a leachate drainage pipe for collecting and draining leachate generated from waste. To this end, the air supply of the landfill land according to an embodiment of the present invention includes a main air inlet pipe 120, a plurality of branch air inlet pipe 130 and a plurality of air diffusion pipe 140, the landfill outside Air is injected into the landfill 110 dispersed supply. One end of the main air inlet pipe 120 is connected to the outside of the landfill to supply external air into the landfill. The main air inlet pipe 120 may be formed in the interior of the leachate immersion pipe 111.

The branch air inlet pipe 130 is branched at at least two or more positions of the main air inlet pipe 120 and is formed in the buried layer of the landfill. The branch air inlet pipe 130 may include a plurality of first and second branch air inlet pipes 131 and 135. The first branch air inlet pipe 131 is branched from the main air inlet pipe 120 and distributes air to the lower part of the landfill. That is, the first branch air inlet pipe 131 is installed inside and / or outside of the sub leachate drain pipe connected to the main leachate drain pipe and herringbone shape, and is disposed in a horizontal direction under the waste landfill. .

 The second branch air inlet pipe 135 branches at least two or more positions of each of the plurality of first branch air inlet pipes 131 in the stacking direction of the waste, that is, in the height direction of the landfill. Here, the second branch air inlet pipe 135 may be formed in a multi-stage structure that can be extended in length according to the height of the landfill.

The air diffusion pipe 140 is formed inside the buried layer of the landfill, and is branched at at least two or more positions of each of the plurality of branch air inlet pipes 130. For example, the air diffusion pipe 140 may be formed to extend at each end of the second branch air inlet pipe 135. One end of the air diffusion pipe 140 communicates with the branch air inlet pipe 130 and the other end is open. Therefore, through the air diffusion pipe 140, it is possible to diffuse the air to the region where the air is not well through the landfill.

FIG. 6 is a schematic view showing an example of an air injection device of a waste landfill employing an air amplification device according to an embodiment of the present invention.

Referring to FIG. 6, an air supply apparatus of a waste landfill according to an embodiment of the present invention injects air into a waste landfill having a leachate drainage pipe 111 for collecting and draining leachate generated from waste. It includes an air inlet pipe 120, a blower 150 and the air amplification device (170).

The leachate drain pipe 111 may be divided into a first space 111a through which the leachate moves by the separator plate 112 and a second space 111b through which air moves. The first space 111a may be used as a path through which only the leachate W moves when the leachate is in full bloom, and when there is some open communication space, the leachate W may be discharged and air may be used as a path for injecting the leachate. have. Here, the main air inlet pipe 120 may be formed inside the leachate drain pipe 111. 6 illustrates that the main air inlet pipe 120 is installed inside the leachate drain pipe 111.

The main air inlet pipe 120 may include first and second main air supply paths 121 and 125. The first main air supply path 121 is integrally formed with the first space 111a of the leachate drainage pipe 111, and when the first space 111a is not fully filled, the air flows into the branch air inlet pipe 130. Supply. That is, when at least part of the first space 111a is empty because the leachate drainage amount is small, air may be injected through the empty space. The second main air supply path 125 is integrally formed with the second space 111b and supplies air to the branch air inflow pipe 130 regardless of whether the first space 111a is fully opened.

The blower 150 blows outside air into the main air inlet pipe 120. That is, one end is connected to the outside of the landfill to supply external air into the landfill, and blows first air into the main air inlet pipe 120.

In addition, the air amplification device 170 is provided between the blower 150 and the main air inlet pipe 120, and amplifies the air by sucking the outside air based on the first air provided by the blower 150. As the air amplifying device 170, an air amplifying device according to the first to second embodiments of the present invention described with reference to FIGS. 1 to 3 may be applied. By constituting the air injecting device of the waste landfill as described above, it is possible to prevent the backflow of air due to the pressure inside the waste landfill. In addition, even when a low power consumption blower is applied, since the same or superior effect can be obtained, the power consumption required for the blower operation can be reduced.

FIG. 7 is a schematic view showing another example of an air injection device of a waste landfill using an injection air amplification device according to an embodiment of the present invention.

Referring to FIG. 7, an apparatus for supplying air to a landfill in accordance with an embodiment of the present invention is an apparatus for supplying air using a gas exhaust pipe 230 for collecting and excluding landfill gas generated from waste in a landfill 200. to be. To this end, at least one of the gas exhaust pipe 230 is used as the air injection pipe 240.

According to another embodiment of the present invention, an air supply device of a landfill includes an injection air amplification device 270 and an air blower blower 250 and an air blower 250 that blows outside air into the air injection pipe 240. It includes an air supply path (275) for supplying to the air injection pipe 240 through the air amplification device (270).

The injection air amplification device 270 is provided between the blower 250 and the air injection pipe 240, and amplifies the air by sucking the outside air based on the first air provided by the blower 250. As the injected air amplifying device 270, an air amplifying device according to the first to second embodiments of the present invention described with reference to FIGS. 1 to 3 may be applied. By constituting the air injecting device of the waste landfill as described above, it is possible to prevent the backflow of air due to the pressure inside the waste landfill. In addition, even when a low power consumption blower is applied, since the same or superior effect can be obtained, the power consumption required for the blower operation can be reduced.

The above embodiments are merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art to which the present invention pertains. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the invention described in the claims.

10: housing 10a: interior space
11: air inlet 20: air inlet pipe
21: first intake vent 25: first exhaust vent
30: air amplifier 31: second intake
35: second vent 40: opening
50: blower 60: auxiliary amplifier
61: amplification tube 63: auxiliary exhaust
65: auxiliary intake vent 67: auxiliary air inlet
110: landfill 111: leachate sewage pipe
112: separation plate 120: main air inlet pipe
130: branch air inlet pipe 150: blower
170: air amplifier

Claims (9)

In the air injecting apparatus of aerobic waste landfill land injecting air into the waste landfill 110 having a leachate drainage pipe 111 for collecting and draining the leachate generated from the waste,
It is installed below the waste landfill 110, one end is connected to the outside of the waste landfill 110 to supply the outside air into the waste landfill 110, the inside of the leachate drainage pipe 111 A main air inlet pipe 120 formed;
A blower 150 for blowing first air into the main air inlet pipe 120;
It includes an air amplification device 170 provided between the blower 150 and the main air inlet pipe 120,
The leachate drainage pipe 111 is divided into a first space in which the leachate moves by a separator plate and a second space in which air moves,
The main air inlet pipe 120 is formed integrally with the first space, and the first main air supply path for supplying air to the branch air inlet pipe when the first space is not fully filled; It is formed integrally with the second space, and includes a second main air supply path for supplying air to the branch air inlet pipe irrespective of whether the first space of the first space,
The air amplification device,
A housing (10) having an internal space (10a) and an air inlet (11) for injecting first air supplied from the outside into the internal space (10a);
It is installed in the interior space of the housing 10, the first intake port 21 for communicating with the outside of the housing 10, the second air from the outside of the housing 10 and the suctioned second An air inlet pipe 20 having a first exhaust port 25 for discharging air;
It is installed in the interior space of the housing 10, the inlet through the second inlet port 31 and the second inlet port 31 arranged to form an opening 40 between the first exhaust port 25, And a second air outlet 35 for discharging the first and second air to the outside of the housing 10, and an air amplifier tube 30 for amplifying the first and second air.
According to the flow of the first air introduced into the air amplifier tube 30 through the opening 40 to induce the flow of the second air toward the first exhaust port 25,
The inner wall 20a of the air inlet pipe 20 is formed to be inclined to reduce the inner diameter of the air inlet pipe along the flow direction of the second air,
The inner diameter of the first exhaust port 25 is formed to extend along the flow direction of the second air, so that the second air injected into the air amplifier tube 30 is an inner wall 30a of the air amplifier tube 30. To expand in direction,
The air injector of the aerobic waste landfill, characterized in that the first and second air amplified by the air amplification device 170 can be supplied into the waste landfill 110 through the main air inlet pipe 120. . The method of claim 1,
The second intake port 31,
The air of the aerobic waste landfill is disposed to surround the outer circumference of the first exhaust port 25 in a state spaced apart from the outer circumference of the first exhaust port 25 so as to form the opening 40. Infusion device. delete delete The method of claim 1,
The inner wall 30a of the air amplification pipe 30 is formed to be inclined so that the inner diameter of the air amplifying pipe 30 extends along the flow direction of the first and second air, and through the second exhaust hole 35. Apparatus for injecting aerobic waste landfill, characterized in that to increase the exhaust amount per unit time of the first and second air to be exhausted. The method of claim 1,
The air amplification device is installed in at least one of the air inlet 11 and the second exhaust port 35, the air injection of the aerobic waste landfill further comprises an auxiliary amplifier for additionally amplifying the air Device. delete The method according to any one of claims 1, 2, 5 and 6,
The blower 150 is connected to the air inlet 11 of the air amplification device 170, the first air blown from the blower 150 through the inner space of the housing 10, the air amplifier tube ( 30) an air injector for aerobic waste landfill, characterized in that it can be injected into. delete

Images