KR102157080B1 - Nox reduction apparatus for ship with noise reduction - Google Patents

Abstract

The present invention relates to an apparatus for reducing nitrogen oxides for ships, and more particularly, to an apparatus for reducing nitrogen oxides for ships capable of reducing a specific frequency noise of exhaust gas for ships.
The ship's nitrogen oxide reduction device includes a housing, an SCR module, a sound absorption module, and an inlet control. The housing has an inlet through which exhaust gas is introduced and an outlet through which exhaust gas introduced through the inlet is discharged, and in order to reduce the noise of the exhaust gas, the exhaust gas flowing through the exhaust port is introduced into the inlet and can stay. It has a resonance room in which a resonance room is formed. The SCR module is mounted on the housing to remove rust contained in the exhaust gas flowing through the inlet. The sound-absorbing module is mounted inside the housing by having a splitter filled with a sound-absorbing material and arranged at regular intervals so as to reduce the noise of the exhaust gas flowing through the outlet of the housing. The inlet control unit may adjust the amount of the exhaust gas flowing into the inlet of the resonance room.
According to the present invention, since the sound-absorbing module and the resonance chamber are mounted inside the housing of nitrogen oxide, noise can be reduced even if a separate silencer is not installed. Therefore, it is possible to increase the space utilization of the ship.

Description

NOx reduction apparatus for ships with noise reduction function

The present invention relates to an apparatus for reducing nitrogen oxides for ships, and more particularly, to an apparatus for reducing nitrogen oxides for ships capable of reducing a specific frequency noise of exhaust gas for ships.

The most common air pollutant as the exhaust gas of ships or land plants is NOx. Nox is a compound of nitrogen and oxygen. It is generated by oxidation of nitrogen in the air at high temperature during combustion. NO, NO ₂ , NO ₃ , N ₂ O, N ₂ O ₃ , N ₂ O ₄ , N ₂ O ₅ have.

In order to purify Knox, a Selective Catalytic Reduction (SCR) system is generally used.

So, as shown in FIG. 3, the nitrogen oxide reduction apparatus 1 mounted on a conventional ship includes a housing 2 and an SCR module 4 for removing rust from the inside of the housing 2. Exhaust gas is introduced into the inlet 2a of the housing 2, and after the rust component is removed from the SCR module 4, the exhaust gas is discharged through the outlet 2b of the housing 2. At this time, since the noise of the exhaust gas discharged through the discharge port 2b is high, a silencer 5 in which the sound-absorbing module 6 is mounted is mounted at the discharge port 2b of the housing 2.

Registered Patent No. 10-1850045 (Registration date April 12, 2018) Publication Patent No. 10-2014-0121465 (published date October 15, 2014)

The conventional nitrogen oxide reduction apparatus 1 shown in FIG. 3 requires a separate silencer in order to reduce the noise because the noise of the exhaust gas is high. Therefore, there is a problem that the volume is increased because a separate silencer is mounted outside the nitrogen oxide reduction device.

In addition, in the case of the conventional nitrogen oxide reduction apparatus 1, even if a silencer is separately mounted, there is a problem in that it is difficult to significantly reduce noise because only a silencer made of a sound absorbing module having a split absorbs sound.

In addition, the silencer must be designed to suit the frequency of the noise generated. When the silencer is installed at the site, there is a problem that the silencer cannot be adjusted if the main frequency of the noise generated at the site is out of the silencer.

The present invention is to solve the above problems. An object of the present invention is to provide an apparatus for reducing nitrogen oxides for ships that does not require a separate silencer by providing a sound absorption module.

In addition, an object of the present invention is to provide a nitrogen oxide reduction device for ships capable of reducing noise by providing a resonance chamber in the housing of the nitrogen oxide reduction device in addition to the sound absorption module.

In addition, an object of the present invention is to provide an apparatus for reducing nitrogen oxides for ships capable of optimizing the noise function by reducing the noise of a specific frequency by adjusting the sound absorption frequency.

The ship's nitrogen oxide reduction device includes a housing, an SCR module, a sound absorption module, and an inlet control. The housing has an inlet through which exhaust gas is introduced, and an outlet through which exhaust gas introduced through the inlet is discharged, and in order to reduce noise of the exhaust gas, exhaust gas flowing out of the exhaust port is introduced to the inlet and can stay It has a resonance room in which a resonance room is formed. The SCR module is mounted on the housing to remove rust contained in the exhaust gas flowing through the inlet. The sound-absorbing module is mounted inside the housing with a splitter filled with a sound-absorbing material and arranged at regular intervals so as to reduce the noise of the exhaust gas flowing through the outlet of the housing. The inlet control unit may adjust the amount of the exhaust gas flowing into the inlet of the resonance room.

In addition, in the above vessel nitrogen oxide reduction apparatus, it is preferable that the resonance chamber is provided with a partition so that the resonance chamber is divided into a plurality of pieces. In this case, the apparatus for reducing nitrogen oxides for ships further includes a partition control unit capable of adjusting the position of the partition so as to adjust the size of the resonance room.

In addition, in the above vessel nitrogen oxide reduction apparatus, it is preferable that the inlet control unit includes an inlet control plate and a sliding member. The entrance control plate may block the entrance of the Gongmyeongbang. One end of the sliding member is coupled to the inlet control plate, and the other end is exposed to the outside of the resonance chamber, so that the inlet control plate can be slid to adjust the size of the inlet control plate blocking the inlet.

In addition, in the above vessel nitrogen oxide reduction device, it is preferable that the partition is slidably mounted in the resonance chamber. In this case, the partition control unit may have one end coupled to the partition and the other end exposed to the outside of the resonance chamber to slide the partition.

According to the present invention, since the sound-absorbing module is mounted inside the housing of the nitrogen oxide reduction device, noise can be reduced even if a separate silencer is not installed. Therefore, it is possible to increase the space utilization of the ship.

In addition, according to the present invention, since the resonance chamber is provided inside the housing as well as the sound absorbing module, noise of exhaust gas discharged from the housing can be reduced. Therefore, it is possible to efficiently reduce the noise of exhaust gas.

In addition, according to the present invention, it is possible to adjust the size of the entrance flowing into the resonance room and the size of the resonance room. Therefore, it is possible to reduce the noise according to the frequency of the specific noise generated.

1 is a conceptual diagram of an embodiment of an apparatus for reducing nitrogen oxides for ships according to the present invention,
Figure 2 is a partially enlarged view of the embodiment shown in Figure 1,
3 is a conceptual diagram of a conventional vessel nitrogen oxide reduction device.

An embodiment of an apparatus for reducing nitrogen oxides for ships according to the present invention will be described with reference to FIGS. 1 and 2.

The nitrogen oxide reduction apparatus for ships according to the present invention includes a housing 10, an SCR module 20, a sound absorption module 30, an inlet control part 40, and a partition control part 50.

The housing 10 includes an inlet 11 through which exhaust gas is introduced, an outlet 13 through which exhaust gas introduced through the inlet 11 is discharged, and includes a resonance chamber 15. The resonance chamber 15 serves to reduce the noise of the exhaust gas discharged through the outlet 13. To this end, the resonance chamber 15 is formed with a resonance chamber 16 in which the exhaust gas discharged through the outlet 13 is introduced and can stay. An inlet 17 is formed in the resonance room 16 so that exhaust gas can be introduced. At this time, the resonance chamber 15 is provided with a partition 18 so that the resonance chamber 16 is divided into a plurality of pieces. Accordingly, a plurality of resonance rooms 16 are formed in the resonance chamber 15. Here, the partition 18 may be slid so that the size of the resonance room 16 can be adjusted. So, when the partition 18 slides, the resonance room 16 on one side becomes wider, but the resonance room 16 on the other side becomes narrower.

The SCR module 20 is mounted inside the housing 10 to remove NOx contained in the exhaust gas introduced through the inlet 11.

The sound-absorbing module 30 is mounted inside the housing 10 with splitters arranged at regular intervals filled with a sound-absorbing material so as to reduce the noise of the exhaust gas flowing out of the outlet 13 of the housing 10. Since the sound-absorbing module 30 includes a splitter, it is possible to reduce mid-frequency and high-frequency noise.

The inlet control unit 40 serves to adjust the amount of exhaust gas flowing into the inlet 17 of the resonance room 16. The frequency of noise that can be reduced by the resonance room 16 varies depending on the diameter of the inlet 17 flowing into the resonance room 16 and the volume of the resonance room 16. Therefore, it is possible to change the frequency of noise that can be reduced by adjusting the diameter of the inlet 17 or adjusting the size of the volume of the resonance room 16. That is, noise of a specific frequency can be reduced.

The frequency of the noise of the exhaust gas emitted from the ship is generally constant. Therefore, it is possible to design the size of the inlet 17 of the resonance room 16 and the volume of the resonance room 16 according to the noise frequency by grasping the noise frequency of the exhaust gas emitted during the design of the ship nitrogen oxide reduction device. . Then, it is possible to design a resonance room 16 capable of reducing noise for each vessel. However, in reality, there is a case where the frequency of the noise of the exhaust gas predicted during design does not match the frequency of the noise of the actually generated exhaust gas. In this case, there is a problem in that there is a limitation in reducing noise since it is not possible to adjust the volume of the resonance room 16 and the size of the inlet 17 in the past.

The inlet control unit 40 of this embodiment serves to adjust the amount of exhaust gas flowing into the inlet 17 of the resonance room 16 in order to prevent this.

To this end, the inlet control unit 40 includes an inlet control plate 41 and a sliding member 43. The entrance control plate 41 can block the entrance of the Gongmyeongbang (16). One end of the sliding member 43 is coupled to the entrance control plate 41 and the other end is exposed to the outside of the resonance chamber 15, so that the size of the entrance control plate 41 blocking the entrance 17 of the resonance room 16 can be adjusted. . So, if the sliding member 43 is adjusted from the outside, the inlet control plate 41 blocks the inlet 17 of the resonance room 16 and thus the flow rate of the exhaust gas flowing into the resonance room 16 can be adjusted.

The partition control unit 50 is coupled to the partition 18 at one end and the other end is exposed to the outside of the resonance chamber 15 to slide the partition 18. That is, the partition adjustment unit 50 may adjust the width of the resonance room 16 by sliding the partition 18.

In this embodiment, exhaust gas flows into the inlet 11. Then, the Knox component is first passed through the SCR module 20 and removed. The exhaust gas from which the rust component has been removed first passes through the sound-absorbing module 30 before being discharged to the outlet 13. While passing through the sound-absorbing module 30, the noise is primarily reduced. The exhaust gas passing through the sound absorption module 30 passes through the resonance chamber 15 while being discharged from the housing 10. Then, the noise is secondaryly reduced by the resonance room (16).

Therefore, the nitrogen oxide reduction device for ships of this embodiment reduces mid-frequency and high-frequency noise in the sound-absorbing module 30, and adjusts the size of blocking the inlet 17 with the inlet control plate 41 using the sliding member 43, and It is possible to reduce the noise of a specific frequency to be reduced by adjusting the size of the resonance room 16 by sliding the partition 18 with the partition adjustment unit 50.

Therefore, according to the present embodiment, since there is no need to mount a separate silencer, the space utilization of the ship can be increased, and the resonance chamber 15 can be adjusted in the field, thereby maximizing the noise reduction effect.

10: housing 11: inlet
13: outlet 15: resonance chamber
16: Gongmyeongbang 17: Gongmyeongbang entrance
18: partition 20: SCR module
30: sound absorption module 40: inlet control unit
41: entrance control plate 43: sliding member
50: partition control unit

Claims (4)

An inlet through which exhaust gas is introduced and an outlet through which exhaust gas introduced through the inlet is discharged is formed, and a resonance room is formed in which the exhaust gas flowing out of the exhaust port flows into the inlet and stays in order to reduce the noise of the exhaust gas. A housing having a resonance chamber,
An SCR module mounted on the housing to remove rust contained in the exhaust gas flowing through the inlet,
A sound-absorbing module mounted inside the housing having splitters arranged at regular intervals filled with a sound-absorbing material so as to reduce the noise of the exhaust gas flowing through the outlet of the housing;
Ship nitrogen oxide reduction device, characterized in that it comprises an inlet control unit capable of adjusting the amount of the exhaust gas flowing into the inlet of the Gongmyeongbang. The method of claim 1,
The resonance chamber is provided with a partition so that the resonance room is divided into a plurality of partitions,
Ship nitrogen oxide reduction device, characterized in that it further comprises a partition control unit capable of adjusting the position of the partition to adjust the size of the resonance room. The method of claim 2,
The entrance control unit and an entrance control plate capable of blocking the entrance of the resonance room,
Nitrogen oxide for ships, characterized in that it has a sliding member that has one end coupled to the inlet control plate and the other end exposed to the outside of the resonance chamber to slide the inlet control plate so that the size of the inlet control plate blocks the inlet. Abatement device. The method of claim 3,
The partition is mounted to be slidable in the resonance chamber,
The partition control unit is a ship nitrogen oxide reduction device, characterized in that one end is coupled to the partition and the other end is exposed to the outside of the resonance chamber to slide the partition.

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