KR20190072953A - Suction pipe assembly with concentration gradient preventing function of urea storage tank - Google Patents

Abstract

The present invention relates to a suction pipe assembly with a concentration gradient prevention function of a urea storage tank, wherein a plurality of suction ports are disposed in a vertical direction on side surface of the storage tank to correspond to a liquid surface of urea stored in the storage tank and stratified in accordance with a concentration gradient. Moreover, at least one of the suction ports are opened to adjust concentration of the urea which has to be supplied to a NOx reduction apparatus to supply the urea to the NOx reduction apparatus. Therefore, generation of concentration difference for every height of the storage tank can be actively treated when the urea is stored at predetermined temperature or more.

Description

TECHNICAL FIELD [0001] The present invention relates to a suction pipe assembly having a concentration gradient preventing function of an element storage tank,

The present invention relates to a suction pipe assembly provided with a concentration gradient preventing function of an urea storage tank, and more particularly to a suction pipe assembly for preventing the concentration gradient of an element storage tank from being stored and supplied to elements used in a selective catalytic reduction apparatus of a marine engine satisfying the IMO Tier Ⅲ NOx emission regulation The present invention relates to a suction pipe assembly having a concentration gradient prevention function of an element storage tank so as to positively cope with a phenomenon in which concentration differences are generated for respective heights of storage tanks when elements are stored at a predetermined temperature or higher.

Selective Catalyst Reduction (SCR) is a device and means for reducing the NOx of exhaust gas to a level that meets the NOx Tier III requirements.

The reduction of NOx is achieved through the catalytic treatment in the SCR reactor installed in the exhaust pipe through which the exhaust gas having undergone the combustion process passes.

In view of the above-mentioned viewpoints, there are disclosed a "Urea tank integrated with a fuel tank and a manufacturing method thereof" of Japanese Patent Laid-open No. 10-2017-0070407, and a selective catalyst having a heat transfer member disclosed in Japanese Patent Application Laid-Open No. 10-2015-0111191 An element storage tank of a reduction system and an agricultural work vehicle having the element storage tank ", and the like.

Although the prior art may be applied to a land vehicle having a smaller emission volume of exhaust gas than a ship, all of which relate to element storage tanks in conjunction with fuel tanks applied in vehicles, land vehicles or heavy equipment (hereinafter referred to as land vehicles) There is a limitation that the amount of exhaust gas generated when the fuel is consumed can not be applied to a ship which is so large that it can not be compared with the above-mentioned land vehicles.

In addition, although the vessel element storage tank has a large storage space, when the specific temperature (34 degrees Celsius) or more is reached, a concentration gradient of elements contained in the element storage tank is generated.

The concentration of the element supplied to the SCR system is determined in the SCR design stage, and the following problems may occur when elements having different concentrations are input.

When injecting urea solution having a concentration higher than the set value, NH ₄ HSO ₄ (ammonium bisulphate) is easily generated at the temperature drop, and the problem of accumulating in the exhaust gas system, particularly in the exhaust gas boiler, may be encountered.

On the contrary, when injecting urea solution having a concentration lower than the set value, the problem is that the NOx in the design value can not be reduced to N ₂ and H ₂ O.

In addition, since the cooling water of the ship is maintained at about 36 degrees Celsius, it can be used for heating in a low temperature winter season, but its amount needs to be adjusted, and cooling is required in summer, .

Therefore, it is necessary to develop a device that can always supply the urea solution having a constant concentration in a desired range in response to the concentration gradient of the elements contained in the urea storage tank.

Korean Patent Publication No. 10-2017-0070407 Korean Patent Publication No. 10-2015-0111191

DISCLOSURE Technical Problem The present invention has been made in order to solve the above problems, and it relates to the storage and supply of elements used in a selective catalytic reduction device of a marine engine satisfying the IMO Tier III NOx emission regulation, And to provide a suction pipe assembly equipped with a concentration gradient preventing function of an element storage tank that can positively cope with a phenomenon in which a density difference is generated for each height of a storage tank.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, A plurality of suction ports provided on a side surface of the storage tank in a vertical direction to generate negative pressure; And at least one of the plurality of suction ports connected to each of the plurality of suction ports to supply a constant concentration element to the NOx abatement device, And a regulating and supplying unit that regulates the concentration of the NOx reducing agent to a predetermined concentration and supplies the regulated supply to the NOx reducing apparatus.

The adjustment supply unit may include: a suction pipe connected to each of the plurality of suction ports; An electromagnetic valve provided on the suction pipe for opening and closing the flow path of the suction pipe; And a supply pipe which is formed by joining a plurality of the suction pipes and forms a flow path for supplying the predetermined concentration of the element from the storage tank to the NOx reducing apparatus side.

The suction pipe assembly according to the present invention is characterized in that a plurality of control logic for storing the concentration of the element in accordance with the liquid level of the element in the predetermined concentration is stored, And a controller for controlling the operation of the regulated supply unit according to one control logic.

The suction pipe assembly according to the present invention may further include a liquid level transmitter provided at one side of the storage tank to detect the liquid level of the element in real time.

The controller may adjust the degree of opening and closing of a part or all of the plurality of solenoid valves so that the elements supplied from the plurality of suction ports are mixed at the predetermined concentration.

Wherein the plurality of suction ports comprise a liquid level suction port disposed on a side of the storage tank, a liquid level suction port disposed below the liquid level suction port, a low liquid level Wherein the solid-liquid suction port is installed at a point where the distance from the bottom surface of the storage tank to the liquid surface is about 0.5 of a distance from a bottom surface of the storage tank to a ceiling surface of the storage tank Wherein the middle liquid suction port is installed at a point at a distance of about 0.3 from the bottom surface of the storage tank to the liquid surface from a bottom surface of the storage tank to a ceiling surface of the storage tank, Wherein the upper suction port has a distance from the bottom surface of the storage tank to the liquid surface is smaller than a distance from a bottom surface of the storage tank to a ceiling surface of the storage tank 0.05, and the concentration value of the stratified element in the storage tank may be gradually increased from the solid-liquid suction port to the low-liquid suction port through the heavy liquid suction port.

The adjustment supply unit may be operated when the distance from the bottom surface of the storage tank to the liquid level is 0.05 to 0.8 of the distance from the bottom surface of the storage tank to the ceiling surface of the storage tank.

Meanwhile, the suction pipe assembly provided with the function of preventing the concentration gradient of the element storage tank according to the present invention is provided with a suction pipe accommodated in the storage tank, which is provided on the side of the storage tank so as to correspond to the liquid level of the stratified urea according to the concentration gradient. Wherein at least one of the plurality of suction ports is opened to adjust the concentration of an element to be supplied to the NOx reduction apparatus and supply the adjusted concentration to the NOx reduction apparatus side.

Further comprising a solenoid valve provided on a suction pipe connected to each of the plurality of suction ports, wherein the degree of opening / closing of a part or the whole of the plurality of solenoid valves is adjusted so that an element supplied from the plurality of suction ports And is supplied to the NOx reducing apparatus side.

According to the present invention having the above-described configuration, the following effects can be achieved.

First, the present invention relates to a storage tank in which an urea is accommodated; A plurality of suction ports provided on a side surface of the storage tank in a vertical direction to generate negative pressure; And at least one of the plurality of suction ports is opened to adjust concentration of the stratified elements in the storage tank to a predetermined concentration so as to supply a constant concentration element to the NOx abatement device side And a regulated supply unit for supplying the NOx reduction device to the NOx reduction device side. Thus, it becomes possible to supply the uniform concentration component to the NOx reduction device.

In particular, the present invention avoids unnecessary power and energy consumption because it is not necessary to additionally provide a pump or agitating means and circulation system, a separate heating and cooling system to prevent stratification of the elements.

Therefore, the present invention will be able to supply the concentration of the element to the NOx abatement apparatus while keeping the concentration constant regardless of the temperature and the position of the liquid level.

The storage tank according to the present invention further includes a ventilation port provided on the upper surface of the storage tank and a supply port provided on the upper surface of the storage tank so that safety can be secured by the ventilation port provided to prevent explosion. It is possible to compensate for the shortage of elements from the supply port at any time, so that it becomes possible to secure a shortage of elements to be supplied immediately to the NOx abatement apparatus side.

According to the present invention, there is further provided a liquid level transmitter provided at one side of the storage tank for detecting the liquid level of the element in real time, so that the control logic of the adjustment supply unit is provided in accordance with the liquid level information captured in real time, Lt; RTI ID = 0.0 > a < / RTI >

According to the present invention, a plurality of control logic elements, which are electrically connected to the adjustment supply unit and adapted to adjust the concentration of the element along the liquid level of the element to a predetermined concentration, are stored and controlled according to the control logic of one of the plurality of control logic elements. By further controlling the operation of the supply unit, it is possible to operate the adjustment supply unit in accordance with the concentration of the elements required in various customers according to the liquid level information acquired in real time together with the liquid level transmitter, It is possible to generate an element of concentration, so that it will have a very excellent feature in terms of versatility.

The adjustment supply unit according to the present invention allows the storage tank to move when the distance from the bottom surface of the storage tank to the liquid surface is 0.05 to 0.8 times the distance from the bottom surface of the storage tank to the ceiling surface of the storage tank Proper level maintenance and proper concentration of the elements will be possible so as not to face extreme situations when they are loaded or empty.

The adjustment supply unit according to the present invention may further comprise a suction pipe connected to each of the plurality of suction ports, an electromagnetic valve provided on the suction pipe for opening and closing the flow pipe of the suction pipe, and a plurality of suction pipes joined together And a supply pipe for forming a flow path for supplying a constant concentration element from the storage tank to the NOx reduction apparatus side, it is possible to provide a uniform concentration element, that is, a concentration element required in various customers, It will be able to supply smoothly.

In addition, a plurality of suction ports according to the present invention includes a solid-liquid suction port disposed on a side of a side of a storage tank, a liquid-liquid suction port disposed under the solid-liquid suction port, Liquid suction port is installed at a point at a distance of 0.5 or less of the distance from the bottom surface of the storage tank to the top surface of the storage tank and the distance from the bottom surface of the storage tank to the liquid surface, The upper suction port is installed at a point at a distance of about 0.3 from the bottom surface of the storage tank to the liquid surface from the bottom surface of the storage tank to the ceiling surface of the storage tank and the low- The distance from the surface to the liquid surface is set at about 0.05 of the distance from the bottom surface of the storage tank to the ceiling surface of the storage tank and the concentration value of the stratified element in the storage tank is By gradually increasing the level from the liquid level suction port to the low liquid level suction port through the medium liquid suction port, it is possible to finely and automatically control the regulating and supplying unit in accordance with the concentration of the elements required in various consumers according to the liquid level information obtained in real time, It becomes possible to generate a constant concentration element to be supplied to the abatement device side, and therefore, it will have a very excellent characteristic in terms of versatility.

1 and 2 are conceptual views illustrating the overall structure and operation state of a suction pipe assembly provided with a concentration gradient preventing function of an element storage tank according to an embodiment of the present invention. And FIG. 2 is a view showing a case where the amount of the elements accommodated in the storage tank is reduced as compared with FIG. 1, respectively.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings.

However, the present invention is not limited to the embodiments described below, but may be embodied in various forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention.

And the present invention is only defined by the scope of the claims.

Thus, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

In addition, throughout the specification, like reference numerals refer to like elements, and the terms (mentioned) used herein are intended to illustrate the embodiments and not to limit the invention.

In this specification, the singular forms include plural forms unless the context clearly dictates otherwise, and the constituents and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other constituents and actions .

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs.

Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

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

1 and 2 are conceptual views illustrating the overall structure and operating state of a suction pipe assembly having a concentration gradient preventing function of an element storage tank according to an embodiment of the present invention. FIG. 2 is a view showing a case where the amount of the elements 40 accommodated in the tank 10 is large, and FIG. 2 is a view showing a case where the amount of the elements 40 accommodated in the storage tank 10 is reduced compared to FIG.

As shown in the drawing, a plurality of vertically arranged storage tanks 10 are provided on the side surface of the storage tank 10 in correspondence with the liquid level 41 of the element 40 (urea) stratified according to a concentration gradient, At least one of the suction ports 21, 22 and 23 of the suction port 21 and the plurality of suction ports 21, 22 and 23 is opened to adjust the concentration of the element 40 to be supplied to the NOx reduction device, .

First, the storage tank 10 provides a space for accommodating the elements 40, and a plurality of suction ports 21, 22, 23 are provided on the side surface of the storage tank 10 in the vertical direction, .

The adjustment supply unit 30 is connected to each of the plurality of suction ports 21, 22 and 23 and includes a plurality of suction ports 21 (not shown) for supplying a constant concentration element 40 to the NOx reduction apparatus , 22, and 23 are opened to regulate the concentration of the element 40 in a concentration gradient in the storage tank to a predetermined concentration and supply the element 40 to the NOx reduction apparatus.

It is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention.

The storage tank 10 may further include a vent port 12 provided on the upper surface of the storage tank 10 and a supply port 13 provided on the upper surface of the storage tank 10.

The ventilation port 12 communicates with the atmosphere when there is a risk of explosion due to abnormal overheating in the storage tank 10 or foreign matter such as fine dust in the process of supplying the element 40 through the supply port 13 It is intended to calm the risk of explosion by injecting inert gas.

In addition, the present invention may further include a liquid level transmitter 50 provided at one side of the storage tank 10 to detect the liquid level 41 of the element 40 in real time.

The position of the liquid level transmitter 50 is not particularly specified. However, in the case of a pressure type liquid level transmitter, a position nearest to the bottom surface of the storage tank 10, more specifically, As shown in Fig.

The liquid level transmitter 50 will be able to sense the full and empty states of the storage tank 10 by the load and the pressure of the element 40 received in real time, (60).

The present invention is also characterized in that a plurality of control logic for storing a concentration of the element 40 in accordance with the liquid level 41 of the element 40 is stored and electrically connected to the regulated supply unit 30, It is also possible to further comprise a controller 60 for controlling the operation of the regulating supply unit 30 according to one of the control logic.

On the other hand, the adjustment supply unit 30 is configured such that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is smaller than the distance d from the bottom surface of the storage tank 10 to the ceiling surface of the storage tank 10. [ And is preferably operated when the distance h is 0.05 to 0.8.

The aforementioned ratio of the distance, that is, d / h is 0.05 to 0.8 in order to prevent the remaining amount of the element 40 in the storage tank 10 from being faced with an extreme situation such as a full load or an empty state.

On the other hand, the adjustment supply unit 30 is provided with solenoid valves 31v, 32v and 33v in suction pipes 31, 32 and 33 connected to the suction ports 21, 22 and 23, respectively, (31, 32, 33) are connected to the supply pipe (35).

The solenoid valves 31v, 32v and 33v are respectively provided on the suction pipes 31, 32 and 33 to open and close the flow paths of the suction pipes 31, 32 and 33, respectively.

The supply pipe 35 is formed by joining a plurality of suction pipes 31, 32 and 33 and forms a flow path for supplying the element 40 of a certain concentration from the storage tank 10 to the NOx reducing apparatus side.

The plurality of suction ports 21, 22, and 23 include a large liquid suction port 21 disposed on the upper side of the storage tank 10 and a middle liquid suction port 21 disposed on the lower side of the liquid suction port 21, Port 22 and a low-liquid suction port 23 disposed at a lower portion of the heavy liquid suction port 22. As shown in FIG.

At this time, the solid-liquid suction port 21 is positioned such that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is smaller than the distance d from the bottom surface of the storage tank 10 to the top surface of the storage tank 10 Of the distance h from the center of the vehicle.

At this time, the middle liquid suction port 22 is positioned such that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is smaller than the distance d from the bottom surface of the storage tank 10 to the top surface of the storage tank 10 The distance h may be 0.3 or more.

The low liquid level suction port 23 is arranged in such a manner that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is smaller than the distance d from the bottom surface of the storage tank 10 to the top surface of the storage tank 10 It is also possible to provide a distance h of 0.05 or more.

The concentration value of the stratified element 40 in the storage tank 10 is gradually increased from the solid-liquid suction port 21 through the medium liquid suction port 22 to the low-liquid suction port 23 in accordance with the concentration gradient .

For example, if the amount of the element 40 filled in the storage tank 10 is at a normal level as shown in Fig. 1, the controller 60 controls some or all of the plurality of solenoid valves 31v, 32v, It is possible to supply the NOx reducing agent to the side of the NOx reducing apparatus through the supply pipe 35 in a mixed state so as to generate the element 40 having the concentration required by the NOx reducing apparatus .

2, when the amount of the element 40 in the storage tank 10 is reduced and the liquid level 41 is lowered to a position close to the liquid level suction port 21, The solenoid valve 31v on the suction pipe 31 connected to the solid-liquid suction port 21 of the solenoid valves 31v, 32v and 33v is shut off and a part or the whole of the remaining solenoid valves 32v and 33v is controlled Opening is performed by varying the degree of opening and closing appropriately according to logic.

Thereafter, the controller 60 may be supplied through the supply pipe 35 to the aforementioned NOx reduction apparatus side in a mixed state so that the element 40 of the concentration required by the NOx reduction apparatus is generated.

Hereinafter, the operation and effect of the suction pipe assembly having the concentration gradient preventing function of the urea storage tank according to the preferred embodiment of the present invention will be described as follows.

First, the present invention comprises a storage tank (10) in which an element (40, urea) is accommodated; A plurality of suction ports (21, 22, 23) provided on the side surface of the storage tank (10) in a vertical direction to generate negative pressure; And at least one of the plurality of suction ports (21, 22, 23) is connected to each of the plurality of suction ports (21, 22, 23) for supplying a constant concentration element (40) And a regulating and feeding unit (30) regulating the concentration of the elements (40) in a concentration gradient in the storage tank to a predetermined concentration and supplying the regenerated element (40) to the NOx reducing apparatus side. The uniform concentration element (40) It will be possible to supply it to the abatement apparatus.

In particular, the present invention avoids unnecessary power and energy consumption because it is not necessary to additionally include a pump, a pump, agitation means and circulation system, and a separate heating and cooling system to prevent stratification of the element 40.

Therefore, the present invention can supply the concentration of the element 40 to the NOx abatement apparatus while keeping the concentration constant regardless of the temperature and the position of the liquid level 41. [

The storage tank 10 according to the present invention further includes the ventilation port 12 provided on the upper surface of the storage tank 10 and the supply port 13 provided on the upper surface of the storage tank 10, Safety can be secured by the ventilation port 12 provided to prevent explosion, and the shortage of the element 40 can be supplemented at any time from the supply port 13, It becomes possible to secure a shortage of the element 40 to be supplied.

According to the present invention, since the liquid level transmitter 50 provided at one side of the storage tank 10 and detecting the liquid level 41 of the element 40 in real time is further provided, the liquid level 41 information The control logic of the regulated supply unit 30 may be provided to assist in generating a constant concentration of the element 40 to be supplied to the NOx reduction apparatus side.

According to the present invention, a plurality of control logic, which is electrically connected to the adjustment supply unit 30, for storing the concentration of the element 40 along the liquid level 41 of the element 40 at a constant concentration, The controller 60 controls the operation of the adjustment supply unit 30 in accordance with the control logic of one of the plurality of control logic, It is possible to generate the element 40 having a constant concentration to be supplied to the NOx reduction apparatus side by operating the adjustment supply unit 30 in accordance with the concentration of the element 40 required by the customer, .

The adjustment supply unit 30 according to the present invention is designed such that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is smaller than the distance d from the bottom surface of the storage tank 10 It is possible to prevent the storage tank 10 from being subjected to an extreme situation in which the storage tank 10 is loaded or empty by making it operate at 0.05 to 0.8 times the distance h to the ceiling surface, Lt; / RTI >

The adjustment supply unit 30 according to the present invention includes suction pipes 31, 32 and 33 connected to the suction ports 21, 22 and 23, suction pipes 31, 32v and 33v for opening and closing the flow paths of the suction pipes 31, 32 and 33 and a plurality of suction pipes 31, 32 and 33 are provided in the storage tank 10 The element 40 having a uniform concentration, that is, the element 40 having the concentration required by various customers, can be obtained by including the supply pipe 35 for forming the flow path for supplying the element 40 of a constant concentration from the upstream- Can be appropriately and smoothly supplied to the NOx abatement apparatuses which are different for each customer.

The plurality of suction ports 21, 22, and 23 according to the present invention include a large liquid suction port 21 disposed on the upper side of the storage tank 10 and a lower liquid suction port 21 disposed below the large liquid suction port 21 And a low liquid level suction port 23 disposed under the liquid level suction port 22. The high liquid level suction port 21 is connected to the bottom surface of the storage tank 10 The distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is set at about 0.5 of the distance h from the bottom surface of the storage tank 10 to the ceiling surface of the storage tank 10, 22 is set such that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is 0.3 of the distance h from the bottom surface of the storage tank 10 to the ceiling surface of the storage tank 10 And the low liquid level suction port 23 is disposed at a point inside or outside the storage tank 10 so that the distance d from the bottom surface of the storage tank 10 to the liquid surface 41 is smaller than the distance d from the bottom surface of the storage tank 10 ) To the ceiling scene The concentration value of the stratified element 40 in the storage tank 10 is set at a point of about 0.05 of the distance h and the concentration value of the stratified element 40 in the storage tank 10 flows from the high liquid suction port 21 to the medium liquid suction port 22, The adjustment supply unit 30 can be finely and automatically adjusted in accordance with the concentration of the element 40 required by various customers according to the information of the liquid level 41 grasped in real time, It becomes possible to create a constant concentration of the element 40 to be supplied to the apparatus side, so that it will have a very excellent characteristic in terms of versatility.

As described above, the present invention relates to the storage and supply of elements used in a selective catalytic reduction apparatus of a marine engine that meets the IMO Tier III NOx emission regulations. When the elements are stored at a certain temperature or higher, It is a basic technical idea to provide a suction pipe assembly provided with a concentration gradient preventing function of an element storage tank capable of positively responding to the development.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

10 ... storage tank
12 ... ventilation port
13 ... supply port
21 ... High-level suction port
22 ... Medium liquid suction port
23 ... low-level suction port
30 ... Adjustable feed unit
31, 32, 33 ... suction piping
31v, 32v, 33v ... Solenoid valve
35 ... Supply piping
40 ... element
41 ... liquid face
50 ... liquid level transmitter
60 ... controller
d ... distance from the bottom surface of the storage tank 10 to the liquid surface 41
h ... distance from the bottom surface of the storage tank 10 to the ceiling surface of the storage tank 10

Claims (9)

A storage tank in which the urea is received;
A plurality of suction ports provided on a side surface of the storage tank in a vertical direction to generate negative pressure; And
At least one of the plurality of suction ports is opened to supply the element having a concentration gradient in the storage tank to the constant flow rate in the storage tank in order to supply the constant concentration element to the NOx abatement device side, And supplying the NOx reducing agent to the NOx reducing apparatus;
Wherein the suction pipe assembly has a concentration gradient preventing function of the element storage tank. The method according to claim 1,
The adjustment supply unit includes:
A suction pipe connected to each of the plurality of suction ports;
An electromagnetic valve provided on the suction pipe for opening and closing the flow path of the suction pipe;
A plurality of suction pipelines joined together to form a flow path for supplying the predetermined concentration of the element from the storage tank to the NOx reduction apparatus side;
Wherein the suction pipe assembly has a concentration gradient preventing function of the element storage tank. The method of claim 2,
Wherein a plurality of control logic is electrically connected to the control supply unit and adapted to adjust the concentration of the element along the liquid level of the element to the predetermined concentration, A controller for controlling the operation of the unit;
Wherein the suction pipe assembly is provided with a concentration gradient preventing function of the element storage tank. The method of claim 3,
A liquid level sensor provided at one side of the storage tank for detecting a liquid level of the element in real time;
Wherein the suction pipe assembly is provided with a concentration gradient preventing function of the element storage tank. The method of claim 3,
Wherein the controller controls the degree of opening and closing of a part or all of the plurality of solenoid valves so that the elements supplied from the plurality of suction ports are mixed at the predetermined concentration. Suction pipe assembly. The method according to claim 1,
Wherein the plurality of suction ports comprise:
A high-liquid suction port disposed above the side surface of the storage tank,
A middle liquid suction port disposed at a lower portion of the solid-liquid suction port,
And a low-liquid suction port disposed at a lower portion of the heavy-liquid suction port,
Wherein the solid-liquid suction port is installed at a point where the distance from the bottom surface of the storage tank to the liquid surface is about 0.5 of a distance from a bottom surface of the storage tank to a ceiling surface of the storage tank,
Wherein the middle liquid suction port is installed at a point where the distance from the bottom surface of the storage tank to the liquid surface is about 0.3 of a distance from a bottom surface of the storage tank to a ceiling surface of the storage tank,
Wherein the low-liquid suction port is installed at a point where the distance from the bottom surface of the storage tank to the liquid surface is about 0.05 of the distance from the bottom surface of the storage tank to the ceiling surface of the storage tank,
Wherein the concentration value of the stratified element in the storage tank gradually increases from the high-level suction port to the low-liquid suction port via the middle-liquid suction port. Pipe assembly. The method of claim 6,
The adjustment supply unit includes:
Characterized in that the distance from the bottom surface of the storage tank to the liquid level is shifted from 0.05 to 0.8 of the distance from the bottom surface of the storage tank to the ceiling surface of the storage tank, The suction pipe assembly comprising: And a plurality of suction ports housed in the storage tank and vertically provided on a side surface of the storage tank so as to correspond to a liquid level of the stratified urea according to a concentration gradient, wherein at least one of the plurality of suction ports And the concentration of the element to be supplied to the NOx abatement device is adjusted and supplied to the NOx abatement device side. The method of claim 8,
Further comprising a solenoid valve provided on a suction pipe connected to each of the plurality of suction ports, wherein the degree of opening / closing of a part or the whole of the plurality of solenoid valves is adjusted so that an element supplied from the plurality of suction ports Is supplied to the NOx abatement device side. The suction pipe assembly of claim 1,

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