KR200493883Y1 - Silencer with SCR handling - Google Patents

Abstract

An inlet passage through which exhaust gas passes through the center is formed in the lower part so that the silencer body can act as a reactor while allowing the silencer body to act as a reactor and also have an SCR processing function. a storage tank to be stored; a housing body provided with a first insulating material on an inner surface of an upper portion of the storage tank; an inner noise reduction unit provided with a second insulator inside the mesh housing so that a passage between the first insulator and the exhaust gas is formed in the center of the housing body; and a catalyst injection member provided to the inner noise reduction unit to inject the SCR catalyst of the storage tank toward the passage.
Accordingly, it has the effect of having multiple functions by maximizing noise processing efficiency and removing NOx, a harmful substance.

Description

Silencer with SCR handling

The present invention relates to a silencer having an SCR processing function, and more specifically, an SCR processing that allows the silencer body to act as a reactor while also being able to remove the noise double from the inside of the silencer to have the SCR processing function. It relates to a silencer having a function.

In general, the exhaust gas generated during the operation of a ship contains various harmful substances, which causes environmental pollution and is harmful to the human body. Therefore, the amount emitted by various environmental regulations must be reduced to an appropriate level. .

The emission of nitrogen oxide-based substances (NOx) among harmful substances in exhaust gas is regulated by the regulations announced by the International Marine Organization (IMO).

As one method for reducing NOx among harmful substances, a selective catalytic reduction (SCR) system has been used. The SCR system brings the exhaust gas and the reducing agent into contact with the catalyst member at a temperature of 200 to 400° C. so that NOx contained in the exhaust gas is _{reduced to nitrogen (N 2} ) and water by a selective reaction with the reducing agent, and the reducing agent is ammonia water. or elements are used.

In the conventional SCR system, a catalyst member for SCR reaction is installed inside a reactor, and the catalyst member is made of a structural material having a plurality of cells for the passage of exhaust gas.

In this way, in order to apply the SCR system to a ship, there were problems in that the weight of the ship and the difficulty of the system configuration increased due to changes in the structure, piping, and arrangement of the ship.

That is, as the structure of the engine casing becomes enlarged, interference with other equipment occurs, and when a large heavy object such as the corresponding device is installed, the hull structure reinforcement is required, and in terms of weight, the weight of the equipment and the hull reinforcement increase There was a problem of weight increase.

As described above, in the prior art to which the SCR system is applied, Korean Patent Application Laid-Open No. 10-2013-0078125, Korean Patent Application Laid-Open No. 10-2014-0048719, Korean Patent Application Laid-Open No. 10-2014-0029715, Republic of Korea It has been published in Korean Patent Application Laid-Open No. 10-2014-0066468 and Korean Patent Application Laid-Open No. 10-2015-0077802 (hereinafter referred to as 'prior art document 1').

On the other hand, the main factor of external noise in ships is diesel generator exhaust noise, and a silencer is installed to reduce this noise.

In addition, an insulation material with strong resistance to high temperature and moisture is used inside the silencer.

However, the insulation material also suffered damage such as abrasion due to the high-temperature exhaust gas, and the function of the silencer damaged in the insulation material was reduced, so that the sound damping performance before damage could not be expected.

In the prior art related to the insulating material applied to the ship, it has been published in the Republic of Korea Utility Model Publication No. 20-2010-0010724 and the Republic of Korea Patent Publication No. 10-2016-0000333 (hereinafter referred to as 'prior art document 2'). ).

Republic of Korea Patent Publication No. 10-2013-0078125 Republic of Korea Patent Publication No. 10-2014-0048719 Republic of Korea Patent Publication No. 10-2014-0029715 Republic of Korea Patent Publication No. 10-2014-0066468 Republic of Korea Patent Publication No. 10-2015-0077802 Republic of Korea Public Utility Model Publication No. 20-2010-0010724 Republic of Korea Patent Publication No. 10-2016-0000333

However, prior art document 1 has a problem for constructing the SCR system described in the background technology of the design as it is.

In addition, prior art document 2 also did not solve the problem that the function is deteriorated due to damage such as wrinkle due to the high-temperature exhaust gas described in the technology that is the background of the design.

Moreover, prior art documents 1 and 2 also have a disadvantage in that they cannot implement a mutually complex technical configuration.

The main solution of the present invention to solve the problems of the related art as described above is the SCR, which allows the silencer body to act as a reactor while also being able to remove the noise double from the inside of the silencer to have the SCR processing function. An object of the present invention is to provide a silencer having a processing function.

Another solution of the present invention is to make it easy to grasp the replacement time of the insulation material.

Another problem of the present invention is to make it possible to easily replace the heat insulating material provided therein while also allowing the fastening between the pipe and the pipe to be easily made.

Another problem of the present invention is to make it easy to handle the catalyst according to the SCR treatment.

A solution of the present invention for solving the above technical problems is a silencer provided between a pipe through which exhaust gas is exhausted and a pipe to reduce noise while removing NOx contained in the exhaust gas, the silencer being a storage tank having an inlet passage through which the exhaust gas passes to the center at the lower portion and storing the SCR catalyst therein; a housing body provided with a first insulating material on an inner surface of an upper portion of the storage tank; an inner noise reduction unit provided with a second insulator inside the mesh housing so that a passage between the first insulator and the exhaust gas is formed in the center of the housing body; and a catalyst spraying member provided to the inner noise reduction unit to spray the SCR catalyst of the storage tank toward the passage.

The catalyst injection member includes a supply pump for supplying the SCR catalyst material in the storage tank, and an injection nozzle for injecting the SCR catalyst supplied by the supply pump into a passage through a supply pipe.

A plurality of the injection nozzles are provided in multiple stages on the inner noise reduction unit.

A temperature sensor is interposed between the housing body and the first insulator to determine when to replace the first insulator.

A plurality of the temperature sensor is provided in multiple stages.

The upper end of the housing body and the lower surface of the storage tank further include respective fastening members for fastening between the pipe and the pipe while the exhaust gas passes.

The fastening member includes a through hole through which the exhaust gas passes in the center, and a plurality of fastening protrusions are formed on the outer surface.

The SCR catalyst provided in the storage tank is a solid catalyst, and a heating means is further provided in the storage tank.

This design maximizes noise processing efficiency and removes NOx, a harmful substance, while maximizing noise processing efficiency by allowing the silencer body to act as a reactor and to have an SCR processing function while allowing double noise removal inside the silencer. It has the effect that it can have multiple functions depending on it.

In addition, as noise and harmful substances are removed at the same time in one silencer, all problems caused by separately providing the silencer and the SCR system can be solved.

In addition, by making it easy to grasp the replacement time of the insulator, it is possible to prevent deterioration of the performance of the silencer due to the replacement of the insulator.

In addition, by allowing the connection between the pipe and the pipe to be easily made and the heat insulating material provided therein can also be easily replaced, it has the effect that not only the installation or construction is made simple, but also the maintenance can be made conveniently.

In addition, it has the effect of maximizing the removal efficiency of harmful substances by making it easy to handle the catalyst according to the SCR treatment.

1 is a cross-sectional view for explaining the present invention;
2 is a cross-sectional view for explaining the use state of the present invention;
3 is a cross-sectional view for explaining another embodiment of the present invention;
4 is a cross-sectional view for explaining another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, and the present invention is not limited or limited by the embodiments.

Figure 1 is a cross-sectional view for explaining the present invention, Figure 2 is a cross-sectional view for explaining the use state of the present invention.

As shown, the silencer 1 is provided between the pipe and the pipe through which the exhaust gas containing various harmful substances generated during the operation of the ship is exhausted to reduce noise and to remove NOx, which is a harmful substance included in the exhaust gas. will be prepared

The purpose of the present invention is to enable the silencer body to act as a reactor while allowing double noise removal from the inside of the silencer to have the SCR processing function.

The silencer 1 according to the present invention includes a storage tank 10 having an inlet passage 12 through which the exhaust gas passes to the center at the lower portion and storing the SCR catalyst in a conventional liquid form therein; a housing body 20 provided with a first heat insulating material 22 on the upper portion of the storage tank 10 to reduce the noise of exhaust gas passing through the inner surface; A second insulator for reducing the noise of exhaust gas passing through the inside of the mesh housing 34 so that a passage 32 through which the exhaust gas passes and between the first insulator 22 is formed in the center of the housing body 20 . (36) is provided with an inner noise reduction unit (30); and a catalyst spraying member 40 provided in the inner noise reduction unit 30 to spray the SCR catalyst stored in the liquid state of the storage tank 10 toward the passage 32 .

The catalyst spraying member 40 includes a supply pump 42 for supplying the SCR catalyst in a liquid state in the storage tank 10, and a supply pipe 44 for supplying the SCR catalyst in a liquid state supplied by the supply pump 42. and a jet nozzle 46 for jetting through the passage 32 . At this time, the supply pump may not only be provided inside the storage tank, but may be connected to the storage tank and the supply pipe through a connection line provided outside the storage tank to supply the SCR catalyst.

According to the present invention having the above technical configuration, the noise contained in the exhaust gas is double reduced by the first heat insulating material and the second heat insulating material in the process of passing the passage in the housing body in the process of exhaust gas being exhausted. conditions that can be minimized.

In addition, while reducing noise by the first and second heat insulating materials, the liquid SCR catalyst is injected into the exhaust gas passing through the passage through the injection nozzle of the catalyst injection member provided on the mesh housing of the inner noise reduction unit. Separates harmful substances contained in the exhaust gas passing through.

That is, as NOx contained in the exhaust gas is _{reduced to nitrogen (N 2} ) and water by a selective reaction with the reducing agent, the harmful substances are separated from the harmful substances from being exhausted to the atmosphere.

Accordingly, the silencer of the present invention doubles the noise generated in the process of exhausting the exhaust gas, and at the same time the SCR processing function is also performed, so it has a complex processing capability in one article, thereby maximizing the processing efficiency. have the conditions

Moreover, it is possible to solve various problems caused by separately providing the conventional SCR system, as well as to solve the problem of having to separately install the silencer.

Accordingly, the present invention can not only maximize the noise reduction efficiency in one silencer, but also implement the SCR processing function at the same time, so it will be a groundbreaking technology that cannot be found in the past.

As a result, it solves the problems of increasing the weight of the ship and increasing the difficulty of system configuration due to changes in the structure, piping, and arrangement of the ship, which are conventional problems, as well as interference with other equipment as the structure of the engine casing becomes enlarged. And, when a large heavy object such as the device is installed, it is possible to solve the problem that the hull structure reinforcement is required and the weight increase due to the increase in the weight of the equipment and the hull reinforcement in terms of weight.

In addition, a plurality of the injection nozzles 46 are provided in multiple stages on the inner noise reduction unit 30 . That is, it is desirable to maximize the purification efficiency by allowing the SCR catalyst in a liquid state to be evenly injected into the exhaust gas passing through the passage when the SCR catalyst is injected. At this time, the injection nozzles are arranged at regular intervals on the mesh housing of the inner noise reduction unit, and at the same time, the supply pipe is provided to be built-in inside the second heat insulating material.

Meanwhile, a temperature sensor 25 is interposed between the housing body 20 and the first insulator 22 to determine the replacement timing of the first insulator 22 . In this case, a plurality of temperature sensors are provided in multiple stages for accurate diagnosis of each part of the first insulating material. The temperature sensor is provided in a form embedded in the first insulating material.

Accordingly, in the process of exhaust gas being continuously exhausted, the first insulation material is worn, and the temperature sensed by the temperature sensor due to the wear rises higher than the temperature before the first insulation material is worn. By periodically checking this, it is possible to properly grasp the replacement time of the first heat insulating material.

In this way, when the wear time of the first insulator is checked, the silencer of the present invention is separated between the pipes and then passes through the upper surface of the housing body or the storage tank is separated from the housing body and then the first insulator is replaced.

In addition, when the replacement time of the first heat insulator is checked, the second heat insulator is also replaced, and it is preferable to separate and replace the second heat insulator from the mesh housing depending on the situation.

In particular, the present invention has a condition that can minimize the generation of pollutants in the process of operating a ship as well as minimize noise as it has a condition that can be individually installed in each exhaust pipe required.

3 is a cross-sectional view for explaining another embodiment of the present invention.

As shown, in the above configuration, the silencer of the present invention is provided between the pipe and the pipe, and presents a technical configuration that can be more easily fastened.

The upper end of the housing body 20 and the lower surface of the storage tank 10 further include each fastening member 50 for fastening between the pipe and the pipe while the exhaust gas passes, wherein the fastening member 50 is exhaust gas in the center. A through hole 52 through which the gas passes is formed, and a plurality of fastening protrusions 54 are formed on the outer surface. A fastening groove (not shown) corresponding to the fastening protrusion is provided in the pipe to which the silencer of the present invention is connected.

The fastening member is provided detachably by applying a screw coupling method, a clamp method, a bracket method, a bolt fastening method, etc. which are known connection methods (not shown) to the upper end of the housing body and the bottom surface of the storage tank. This is to facilitate replacement of the first and second heat insulators in the housing body, and to ensure that the assembling of the housing body and the storage tank is excellent.

Accordingly, the silencer of the present invention provides the convenience of simple and convenient fastening by matching the fastening protrusions of the fastening members provided on the top of the housing body and the bottom of the storage tank with the fastening grooves provided on each pipe and then rotating them. do. At this time, the part to be fastened is also sealed by a known method.

Therefore, it provides the convenience that can be done quickly within a short time without the inconvenience or inconvenience when fastening the silencer of the present invention between the pipe and the pipe. It also has the same conditions for separation.

4 is a cross-sectional view for explaining another embodiment of the present invention.

As shown, in the above configuration, the SCR catalyst stored in the storage tank may be provided as a catalyst in a solid state rather than a liquid state.

In other words, the SCR catalyst provided in the storage tank 10 is a solid catalyst, and the storage tank 10 includes a heating means 60 further provided. At this time, the storage tank is provided with a door (not shown) in a conventional manner through which the solid catalyst can be introduced.

The heating means may include a known separate heating jacket or the like, and preferably, by providing a known structure in which waste heat of the engine is circulated, it is preferable to eliminate the need to provide a separate heat source.

Therefore, as the solid catalyst in the storage tank is heated by the heating means, it is liquefied and filled into the storage tank, so that it can be supplied to the injection nozzle through the supply pipe by the supply pump.

Such solid catalysts are convenient to handle and provide convenience of use.

1: silencer
10: storage tank 12: inlet passage
20: housing body 22: first insulating material
25: temperature sensor 30: inner noise reduction unit
32: passage 34: mesh housing
36: second heat insulating material 40: catalyst injection member
42: supply pump 44: supply pipe
46: injection nozzle 50: fastening member
52: through hole 54: fastening protrusion
60: heating means

Claims (8)

As a silencer provided between the pipe through which the exhaust gas is exhausted and the pipe, the noise is reduced and NOx contained in the exhaust gas can be removed,
The silencer has an inlet passage through which the exhaust gas passes to the center at a lower portion thereof, and a storage tank in which the SCR catalyst is stored;
a housing body provided with a first insulating material on an inner surface of an upper portion of the storage tank;
an inner noise reduction unit provided with a second insulator inside the mesh housing so that a passage between the first insulator and the exhaust gas is formed in the center of the housing body; and
The inner noise reduction unit further includes a catalyst spraying member provided to spray the SCR catalyst of the storage tank toward the passage;
The catalyst injection member includes a supply pump for supplying the SCR catalyst material in the storage tank, and an injection nozzle for injecting the SCR catalyst supplied by the supply pump into a passage through a supply pipe,
A plurality of the injection nozzles are provided in multiple stages on the inner noise reduction unit,
The SCR catalyst provided in the storage tank is a solid catalyst, and the storage tank is a silencer having an SCR processing function, wherein a heating means is further provided. delete delete According to claim 1,
A silencer having an SCR processing function in which a temperature sensor is interposed between the housing body and the first insulator to determine when to replace the first insulator. 5. The method of claim 4,
The temperature sensor is a silencer having a SCR processing function provided in a plurality in multiple stages. According to claim 1,
The silencer having an SCR processing function further comprising respective fastening members for fastening between the pipe and the pipe while the exhaust gas passes through the upper end of the housing body and the bottom of the storage tank. 7. The method of claim 6,
The coupling member has a through hole through which exhaust gas passes in the center, and a plurality of fastening protrusions are formed on the outer surface of the coupling member. delete

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