KR102571966B1 - Noise suppression system for working fluid heating installations - Google Patents

Abstract

The present invention relates to a plurality of pipes in which a working fluid discharged from or introduced into the heating device flows, a plurality of drums in which the working fluid is heated and evaporated by the heating device, and the pipes or the drums. A plurality of safety valves installed, respectively, to discharge the working fluid to the outside so that the working fluid pressure inside the pipes or the drums is lowered to the set pressure or less when the pressure of the working fluid inside the pipes or the drums exceeds the corresponding set pressure. In the noise prevention system for a working fluid heating facility comprising: a plurality of silencers communicating with the safety valves and reducing noise generated by the working fluid discharged to the outside through the safety valves, and the plurality of silencers Including a plurality of ducts that communicate the silencers with each other so that when one of the safety valves is opened and the working fluid is discharged, some flow rate of the discharged working fluid flows into the remaining silencers and is discharged to the outside. , to provide an anti-noise system for a working fluid heating installation.
Therefore, when the safety valve is operated by connecting the individually installed silencers with a duct, noise is reduced using the entire silencer connected to the duct, thereby reducing noise greater than the capacity that each silencer can reduce.

Description

Noise suppression system for working fluid heating installations}

The present invention relates to a noise prevention system for a working fluid heating facility, and more particularly, to a working fluid heating facility for reducing noise by connecting individually installed silencers with a duct and using the entire silencer connected to the duct when a safety valve operates. It's about the noise suppression system.

In general, a boiler is a device for generating steam by burning fuel such as petroleum or coal and transferring the combustion heat to water, and is used for a wide variety of purposes. The main part of the boiler consists of a boiler body containing water and steam, a combustion device for fuel, and a furnace. Attachments such as economizers and air preheaters to use residual heat as much as possible, safety valves for safety operation, pressure gauges, water gauges and their Outside valves and instruments are required, and in relation to the combustion chamber, a grate, a stocker, a burner, and a ventilation system are required.

Generally, a silencer is a device for reducing noise emitted from an internal combustion engine or a ventilation system, and has a cylindrical or rectangular box shape made of metal. According to the operating principle, there are an inflatable type that diffuses into a wide space from a thin tube to make the sound low, a resonance type that diffuses into a wide resonance room through many holes in a thin tube to cancel each other out, and an absorption type that absorbs sound into steel wool.

In addition, it is attached to a home or industrial boiler to reduce noise generated by turbulent flow when high-speed steam is released into the atmosphere. More specifically, turbulence and The noise is reduced by dispersing the impact noise to reduce the turbulence intensity and releasing it into the atmosphere via the sound absorbing material.

However, in the prior art, individual silencers are installed per safety valve, and when there are many safety valves for each area, there are cases in which a plurality of silencers must be installed. In addition, when the steam flow is rather large, the size of the silencer must be increased, so a lot of space is occupied and the amount of steel frame is increased.

Republic of Korea Patent No. 10-1984654

An object of the present invention is to provide a noise prevention system for a working fluid heating facility that reduces noise by using the entire silencer connected to the duct when a safety valve is operated by connecting individually installed silencers with a duct.

According to one aspect of the present invention, the present invention provides a plurality of pipes through which the working fluid discharged from or introduced into the heating device flows, a plurality of drums in which the working fluid is heated and evaporated by the heating device, It is installed in the pipes or the drums, respectively, so that when the pressure of the working fluid inside the pipes or the drums exceeds the corresponding set pressure, the working fluid is supplied to the outside to lower the pressure of the working fluid inside to the set pressure or less. An anti-noise system for a working fluid heating facility comprising a plurality of safety valves discharged to the safety valves, each communicating with the safety valves, and reducing noise generated by the working fluid discharged to the outside through the safety valves. A plurality of silencers and the plurality of silencers communicate with each other, so that when one of the safety valves is opened and the working fluid is discharged, a part of the flow rate of the discharged working fluid flows into the remaining silencers and is discharged to the outside An anti-noise system for a working fluid heating installation, comprising a plurality of ducts for

The anti-noise system for a working fluid heating facility according to the present invention has the following effects.

First, when the safety valve operates by connecting the individually installed silencers with a duct, noise is reduced using the entire silencer connected to the duct, thereby reducing noise greater than the capacity that each silencer can reduce.

Second, since each silencer needs to be connected with a duct, the construction is simple.

Third, by communicating and using each silencer for common use, the size of each silencer can be reduced, thereby reducing the space occupied and reducing the amount of steel frame.

1 is a schematic diagram showing a noise prevention system for a working fluid heating facility according to an embodiment of the present invention.
2 is a perspective view showing a state in which the silencer of the noise prevention system for a working fluid heating facility according to FIG. 1 is connected to another silencer by a duct.
FIG. 3 is a top plan view of the anti-noise system for heating the working fluid according to FIG. 2 .
Figure 4 is a schematic diagram showing the working fluid flow of the noise prevention system for the working fluid heating equipment according to Figure 1;
5 is a schematic diagram showing a state in which the noise prevention system for heating the working fluid according to FIG. 1 is installed in an actual field.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings.

1 to 5, the noise prevention system 100 for a working fluid heating facility according to an embodiment of the present invention includes a fluid flow pipe 110, a silencer 120, a duct 130 and a safety valve 140 includes The noise prevention system 100 for a working fluid heating facility according to the present embodiment may be installed in a facility using a heating device such as coal-fired power generation or combined cycle power generation to reduce noise. In this embodiment, the fluid flow pipe 110 is a plurality of pipes through which the working fluid discharged from or introduced into the heating device flows or a plurality of drums in which the working fluid is heated by the heating device and evaporated. give an example In this embodiment, the fluid flow pipe 110 is described as an example of the pipes 110. In this embodiment, the pipes 110 include a first pipe 111, a second pipe 112, a third pipe 113, and a fourth pipe 114, but the pipes 110 ) can be changed at any time. In this embodiment, the pipes 110 are different in size, but the size of the pipes 110 can be changed as much as possible.

For convenience of description, the safety valve 140 will be described first.

In this embodiment, the safety valve 140 is installed in the flow pipe 110. That is, the safety valve 140 is installed in each of the pipes. The safety valve 140 serves to discharge the working fluid to the outside of the pipes to lower the pressure of the working fluid inside the pipes to the set pressure or less when the pressure of the working fluid inside the pipes exceeds the corresponding set pressure. do. In this embodiment, a plurality of safety valves 140 are installed. Specifically, the safety valve 140 is installed in each part where the silencer 120 is installed. That is, although only the first safety valve 140 among the safety valves 140 is shown in the drawings for convenience, the safety valves 140 may be installed in each part where the silencer 120 is installed.

The silencer 120 communicates with the safety valves 140 respectively. And the silencer 120 is installed to reduce noise generated by the working fluid discharged to the outside through the safety valve 140 . A plurality of silencers 120 are installed to be spaced apart from each other along the longitudinal direction of the pipes. However, the present invention is not limited thereto, and only one silencer 120 may be installed in each of the pipes.

Specifically, the silencer 120 includes a first silencer 121, a second silencer 122, a third silencer 123, a fourth silencer 124, and a fifth silencer 125. The first silencer 121 is in communication with the first safety valve 140 installed in the first pipe 111, and the second silencer 122 is a second pipe (different from the first pipe 111) 112) communicates with the second safety valve installed. And the third silencer 123 communicates with a third safety valve installed in a third pipe 113 different from the first pipe 111 to the second pipe 112, and the fourth silencer 124 Is installed in the fourth pipe 114 different from the first pipe 111 to the third pipe 113 as an example.

In this embodiment, the first silencer 121 installed in the first pipe 111 is installed to be spaced apart along the length direction of the second pipe 112 in the longitudinal direction of a plurality of second silencers 122 installed. Therefore, it communicates with each of the plurality of second silencers 122 installed to be spaced apart. And the first silencer 121 is a plurality of third silencers 123 installed to be spaced apart along the length direction of the plurality of third silencers 123 installed to be spaced apart along the length direction of the third pipe 113 ) communicate with each of them. In addition, the first silencer 121 installed on the first pipe 111 is spaced apart along the longitudinal direction of a plurality of fourth silencers 124 installed to be spaced apart along the longitudinal direction of the fourth pipe 114. It communicates with each of the plurality of fourth silencers 124 installed so as to be. However, the present invention is not limited thereto, and the first silencer 120 includes a plurality of second silencers 122 installed to be spaced apart along the longitudinal direction of the second pipe 112 to the fourth pipe 114, It may communicate with some of the silencer 123 and the fourth silencer 123 .

And, the second silencer 122 installed in the second pipe 112 communicates with each of the plurality of fourth silencers 124 installed to be spaced apart along the longitudinal direction of the fourth pipe 114. The third silencer 123 installed in the third pipe 113 communicates with each of the plurality of fourth silencers 124 installed to be spaced apart along the longitudinal direction of the fourth pipe 114 . However, the present invention is not limited thereto, and the second silencer 122 and the third silencer 123 may also be formed in a communication structure.

In addition, the plurality of first silencers 121 installed to be spaced apart from the first pipes 111 are also in communication with each other, and the second silencers installed in plurality to be spaced apart from the second pipes 112. (122) are also in communication with each other. In addition, the third silencers 123 installed in plurality to be spaced apart from the third pipes 113 are also in communication with each other, and the fourth silencer installed in plurality to be spaced apart from the fourth pipes 114. (124) are also in communication with each other. That is, in the noise prevention system 100 for a working fluid heating facility according to the present embodiment, the first silencers 120 respectively installed in one of the first pipes 111 are located between the first silencers 120 adjacent to each other. In addition to being in communication, it is formed in a structure in which the first silencer 121 to the fourth silencer 124 installed in different pipes are also in communication with each other.

In this embodiment, the first silencer 121, the second silencer 122, the third silencer 123, and the fourth silencer 124 have different diameters. In detail, as an example, the diameter decreases from the first silencer 121 to the fourth silencer 124.

The duct 130 communicates the plurality of silencers 120 with each other, so that when one of the safety valves 140 is opened and the working fluid is discharged, a portion of the discharged working fluid is transferred to the other silencers. It plays a role in inflowing into and expelling out. For example, the duct 130 includes a first duct 131 , a second duct 132 , a third duct 133 , a fourth duct 134 , and a fifth duct 135 . Arrows in FIG. 4 indicate the flow of the working fluid.

One side of the first duct 131 communicates with the side of the first silencer 121 and the other side communicates with the side of the second silencer 122 . In addition, the second duct 132 communicates with the side of the first silencer 121 at one side and communicates with the side of the third silencer 123 at the other side. In addition, one side of the third duct 133 communicates with the side of the first silencer 121 and the other side communicates with the side of the fourth silencer 124 . Also, the fourth duct 134 has one side communicating with the side of the second silencer 122 and the other side communicating with the side of the fourth silencer 124 . In addition, one side of the fifth duct 135 communicates with the side of the third silencer 123 and the other side communicates with the side of the fourth silencer 124 .

And the first duct 131, the second duct 132, and the third duct 133, one side of which communicates with the first silencer 121, when the first silencer 121 is arranged in the vertical direction, In order for the working fluid flowing from the bottom to the top along the first silencer 121 to be branched at the same location, the same length is communicated upward from the lower surface of the first silencer 121 at a spaced position. At this time, the first duct 131, the second duct 132, and the third duct 133 are installed to be spaced apart from each other along the outer circumferential surface of the first silencer 121. In addition, the third duct 133, the fourth duct 134, and the fifth duct 135, which communicate with the fourth silencer 124 on the other side, when the fourth silencer 124 is arranged in the vertical direction, In order for the working fluid flowing from the bottom to the top along the fourth silencer 124 to be branched at the same location, the same length is communicated upward from the lower surface of the fourth silencer 124 at a spaced position. At this time, the third duct 133, the fourth duct 134, and the fifth duct 135 are installed to be spaced apart from each other along the outer circumferential surface of the fourth silencer 124.

In this embodiment, among the safety valves 140, the first safety valve 140 installed in the first pipe 111 is a safety valve having the largest capacity. In addition, the first silencer 121 communicated with the first safety valve 140 is communicated with all other silencers 120 installed in each of the other pipes, so that the first safety valve 140 When operating, all of the silencers 120 are used to reduce noise generated from the working fluid discharged from the first safety valve 140 .

And, in this embodiment, the diameter of the duct decreases as it goes from the first duct 131 to the third duct 133 . This is because the diameters of the second silencer 122 to fourth silencer 124 communicating with the other side of the first duct 131 to third duct 133 are reduced, so that the This is to make the amount of the working fluid different. Also, the third duct 133 to the fifth duct 135 have the same diameter as an example. This is because the silencer communicating with the other side of the third duct 133 to the fifth duct 135 is the same as the fourth silencer 124, and thus the transmission from the first silencer 121 to the third silencer 123 This is to make the amount of the working fluid to be the same. That is, in the noise prevention system 100 for a working fluid heating facility according to the present embodiment, among the silencers communicating with each other, the capacity is based on the silencer having a small capacity so that the working fluid that can be treated can flow. The diameter of the duct 130 is set according to the capacity of the small silencer. However, the present invention is not limited thereto and the diameters of the first duct 131 to the fifth duct 135 can be changed as much as possible.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: anti-noise system for operating fluid heating installations
110: fluid flow pipe
111: first pipe
112: second pipe
113: 3rd pipe
114: 4th pipe
120: silencer
121: first silencer
122: second silencer
123: third silencer
124: 4th silencer
130: duct
131: first duct
132: second duct
133: third duct
134: fourth duct
135: fifth duct
140: safety valve

Claims (7)

A plurality of pipes through which the working fluid discharged from or introduced into the heating device flows, a plurality of drums in which the working fluid is heated and evaporated by the heating device, each installed in the pipes or the drums , Operation including a plurality of safety valves for discharging the working fluid to the outside to lower the internal working fluid pressure to less than the set pressure when the pressure of the working fluid inside the pipes or the drums exceeds the corresponding set pressure In the anti-noise system for fluid heating equipment,
a plurality of silencers communicating with each of the safety valves and reducing noise generated by the working fluid discharged to the outside through the safety valves; and
A plurality of ducts that communicate the plurality of silencers with each other so that when one of the safety valves is opened and the working fluid is discharged, a portion of the discharged working fluid flows into the remaining silencers and is discharged to the outside. include,
Among the silencers, the first silencer,
Among the pipes or drums, one is installed in the first pipe or the first drum, or a plurality of pipes are installed to be spaced apart along the longitudinal direction of the first pipe or the first drum,
The plurality of first silencers,
In communication with at least one of a plurality of second silencers installed to be spaced apart from among the pipes or drums along the longitudinal direction of the second pipe or second drum,
Noise suppression system for working fluid heating installations. A plurality of pipes through which the working fluid discharged from or introduced into the heating device flows, a plurality of drums in which the working fluid is heated and evaporated by the heating device, each installed in the pipes or the drums , Operation including a plurality of safety valves for discharging the working fluid to the outside to lower the internal working fluid pressure to less than the set pressure when the pressure of the working fluid inside the pipes or the drums exceeds the corresponding set pressure In the anti-noise system for fluid heating equipment,
a plurality of silencers communicating with each of the safety valves and reducing noise generated by the working fluid discharged to the outside through the safety valves; and
A plurality of ducts that communicate the plurality of silencers with each other so that when one of the safety valves is opened and the working fluid is discharged, a portion of the discharged working fluid flows into the remaining silencers and is discharged to the outside. include,
Among the silencers, the first silencer,
Among the pipes or drums, one is installed in the first pipe or the first drum, or a plurality of pipes are installed to be spaced apart along the longitudinal direction of the first pipe or the first drum,
The first silencers,
It is installed in the first pipe or the first drum and communicates with other adjacent first silencers,
Noise suppression system for working fluid heating installations. A plurality of pipes through which the working fluid discharged from or introduced into the heating device flows, a plurality of drums in which the working fluid is heated and evaporated by the heating device, each installed in the pipes or the drums , Operation including a plurality of safety valves for discharging the working fluid to the outside to lower the internal working fluid pressure to less than the set pressure when the pressure of the working fluid inside the pipes or the drums exceeds the corresponding set pressure In the anti-noise system for fluid heating equipment,
a plurality of silencers communicating with each of the safety valves and reducing noise generated by the working fluid discharged to the outside through the safety valves; and
A plurality of ducts that communicate the plurality of silencers with each other so that when one of the safety valves is opened and the working fluid is discharged, a portion of the discharged working fluid flows into the remaining silencers and is discharged to the outside. include,
Among the silencers, the first silencer,
Among the pipes or drums, one is installed in the first pipe or the first drum, or a plurality of pipes are installed to be spaced apart along the longitudinal direction of the first pipe or the first drum,
The first safety valve installed in the first pipe or the first drum is a safety valve with the largest capacity among the safety valves installed in the pipes or drums,
Since the first silencer installed to communicate with the first safety valve communicates with all other silencers installed in each of the pipes or drums, when the first safety valve operates, it is installed in the pipes or drums. To reduce the noise generated from the working fluid discharged from the first safety valve using all of the silencers that are provided,
Noise suppression system for working fluid heating installations. According to claim 1 or 3,
The first silencers,
It is installed in the first pipe or the first drum and communicates with other adjacent first silencers,
Noise suppression system for working fluid heating installations. The method of claim 1,
The first safety valve installed in the first pipe or the first drum is a safety valve with the largest capacity among the safety valves installed in the pipes or drums,
Since the first silencer installed to communicate with the first safety valve communicates with all other silencers installed in each of the pipes or drums, when the first safety valve operates, it is installed in the pipes or drums. To reduce the noise generated from the working fluid discharged from the first safety valve using all of the silencers that are provided,
Noise suppression system for working fluid heating installations. According to any one of claims 1 to 3,
The ducts are
One side communicates with the side surface of the first silencer among the silencers, and the other side is installed to communicate with the side surface of the second silencer among the silencers.
Noise suppression system for working fluid heating installations. According to any one of claims 1 to 3,
The silencers have different diameters,
The diameter of the duct is
Setting the size of the diameter based on the silencer having a smaller diameter among the silencers communicating with each other,
Noise suppression system for working fluid heating installations.

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