KR101016791B1 - Catalytic coverter plugging solution device for selective catalytic reduction - Google Patents

Abstract

PURPOSE: A catalytic group plugging releasing apparatus for a selective catalytic reduction and de-nitrification facility is provided to facilitate processes of assembling and repairing components for the apparatus. CONSTITUTION: A catalytic group plugging releasing apparatus(10) includes an upper steel plate, a lower steel plate, a rope wire, and a handle. The upper steel plate(20) and the lower steel plate are formed with a metal plate, metal plate insertion holes, rope wire penetration holes, and handle mounting holes. The metal plate(40) is inserted to metal plate insertion holes of the upper steel plate and the lower steel plate. The rope wire limits the operational space of the upper steel plate and the lower steel plate.

Description

Catalytic coverter plugging solution device for Selective Catalytic Reduction

The present invention relates to a catalytic plugging device for selective catalytic reduction denitrification, and more particularly, to clean the inside while eliminating plugging of the catalyst constituting the selective catalytic reduction (SCR). The present invention relates to a catalyst plugging solution for selective catalytic reduction denitrification.

As is well known, as a technique for removing nitrogen oxide (NOx) from the exhaust gas, a dry method such as a reduction method using a catalyst, an adsorption method, a plasma method, and the like, and a wet method in which absorption and absorption are combined with oxidation and reduction are applied.

Among them, selective catalytic reduction using a catalyst of V205 / Ti02 is most widely applied.

However, in the case of the selective catalytic reduction, ammonia (NH 3), which is a reducing agent, should be supplied while maintaining a constant equivalent ratio with nitrogen oxides (NO x) in order to exhibit stable reaction efficiency. There was a problem that it is difficult to inject an appropriate amount of ammonia (NH 3).

In addition, as the phenomenon that the internal passages of the catalyst constituting the selective catalytic reduction are blocked by the generated ammonia sulfate, there is a problem in that the amount of ammonia injection is increased due to the reduction of nitrogen oxide removal efficiency.

In addition, the ammonia sulfate by the unreacted ammonia is increased to block the air preheater heating element of the catalyst and boiler, there is a problem that the exhaust gas differential pressure increases and output limiting operation occurs.

In order to solve the above problems, conventionally, wires having a predetermined length were manually inserted and drilled into the inner passages of the catalyst by hand, which is irrelevant when the number of the inner passages of the catalyst is small. Inner passages for catalytic reduction denitrification equipment are usually between 10 million and 2,000,000, so when they are inserted and drilled daily, there is a problem that not only consumes a lot of manpower and time, but also increases the cost.

The present invention has been made to solve the above problems, the object of the present invention is to be able to clean the interior while eliminating the plugging phenomenon of the catalyst constituting the selective catalytic reduction denitrification equipment.

In addition, the objective is to easily configure the components of the plugging releasing device for the catalytic catalytic denitrification equipment catalytic selective denitrification equipment to facilitate replacement and replacement of the components.

In order to achieve the above object, iron pin insertion holes are formed at intervals inside the metal plate, rope wire through holes are formed around the edges of the metal plate, and upper ends of the handle mounting holes are formed at both ends at intervals. An iron plate, a lower plate installed at a lower portion with a gap between the upper plate and a lower plate formed with iron pin insertion holes and rope wire through holes formed on the same line of the metal plate corresponding to the iron pin insertion hole and the rope wire through hole of the upper iron plate; Iron pins inserted into the iron pin insertion hole of the upper steel plate and inserted into the inner passage of the catalytic catalytic denitrification facility catalytic reactor through the iron pin insertion hole of the lower steel plate; Rope wires mounted at both ends thereof so as to be fixed at both ends thereof, and on both sides of the upper plate It is accomplished in that a pair of handles that are mounted to a handle insertion hole characterized.

According to the present invention, by applying a dissolution device to the catalyst constituting the selective catalytic reduction denitrification equipment can not only clean the inside while removing foreign substances blocking the internal passage of the catalyst, but also increase the life of the selective catalytic reduction denitrification equipment. It can be effective.

In addition, by simply configuring the components of the plugging releasing device for the catalytic catalytic denitrification equipment catalytic reduction device is easy to replace and combine the components, there is an effect that can reduce the manpower reduction and costs due to the cleaning of the catalyst.

1 is an exploded perspective view showing a catalyst plugging solution for the selective catalytic reduction denitrification equipment according to the present invention.
Figure 2 is a partial cross-sectional view showing a catalyst plugging solution for the selective catalytic reduction denitrification equipment according to the present invention.
Figure 3 is a partial cross-sectional view showing a selective catalytic reduction denitrification equipment according to the present invention.
4 and 5 is a view showing the operating state of the catalyst plugging solution for the selective catalytic reduction denitrification equipment according to the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention, Figure 1 is an exploded perspective view showing a catalytic plugging device for selective catalytic reduction denitrification equipment according to the present invention, Figure 2 is a selective catalytic reduction according to the present invention Partial sectional view showing a catalytic plugging device for denitrification equipment.

The catalyst plugging device 10 for selective catalytic reduction denitrification system according to the present invention includes an upper iron plate 20, a lower iron plate 30 disposed below the upper iron plate 20, and the upper iron plate 20. ) And the iron pins 40 passing through the inner passage 120 of the catalytic converter 110 for the selective catalytic reduction denitrification facility through the lower iron plate 30 and the upper iron plate 20 and the lower iron plate 30. Rope wires 50 are fixed at both ends, and the handles 60 are mounted at both ends of the upper iron plate 20 to operate the upper iron plate 20 upward or downward.

The upper steel plate 20 is formed of a metal plate 21 having a predetermined thickness, iron pin insertion holes 22 formed at intervals inside the metal plate 21, and an edge circumference of the metal plate 21. Rope wire through-holes 23 are formed at intervals and the handle mounting holes 24 are formed integrally at both ends of the metal plate 21 at intervals.

Here, at both sides of the metal plate 21 in which the handle mounting hole 24 is formed, a bent portion 25 having a rectangular shape is formed to smoothly operate and secure a space of the handle 60 inserted into the handle mounting hole 24. It is formed on each side.

The lower iron plate 30 disposed below the upper iron plate 20 at intervals is formed of a metal plate 31 having a predetermined thickness and an iron pin insertion hole formed at intervals in the metal plate 31. 32 and rope wire through-holes 33 formed at intervals around the edge of the metal plate 31 are integrally formed.

That is, the lower iron plate 30 is rope pin insertion hole 32 and the rope on the same line of the iron pin insertion hole 22 and the rope wire through hole 23 and the metal plate 31 corresponding to the upper iron plate 20 Wire through holes 33 are to be formed.

In addition, at both sides of the metal plate 31, the bent portions 34 are formed at both sides to support and secure the space when the upper steel plate 20 is seated.

Iron pins 40 inserted into the iron pin insertion hole 22 of the upper iron plate 20 and the iron pin insertion hole 32 of the lower iron plate 30 are vertical portions 41 formed to have a predetermined length, and A stop 42 formed on the upper portion of the vertical portion 41 and supported by the iron pin insertion hole 22 of the upper steel plate 20, and an inclined portion formed at the lower end of the vertical portion 41 and sharply formed; The part 43 is integrally formed.

That is, the iron pins 40 are inserted into the iron pin insertion hole 22 of the upper iron plate 20 and pass through the iron pin insertion hole 32 of the lower iron plate 30 to selectively catalytic reduction denitrification equipment catalyst 110. It will be cleaning the inner passage while removing the foreign matter blocking the inner passage (120) of.

Rope wires 50 having both ends fixedly mounted to the rope wire through hole 23 of the upper steel plate 20 and the rope wire through hole 33 of the lower iron plate 30 are formed to have a predetermined length and both ends thereof. Ends are knotted to prevent them from escaping from the rope wire through holes 23 and 33.

That is, the rope wire 50 is inserted into the rope wire through hole 23 of the upper iron plate 20 and the lower iron plate 30, and then fix the end of the rope wire 50 to the rope wire through hole 22 , 23) to prevent the deviation from the same time and serves to limit and guide the operating space of the upper plate 20 and the lower plate 30.

At this time, the end of the rope wire 50 reveals that the fastener larger than the rope wire through hole (22, 23) can be coupled.

The pair of handles 60 mounted on the handle insertion hole 24 of the upper griddle 20 serves to operate the upper griddle 20 upward or downward.

At this time, the iron pins 40 inserted into the upper iron plate 20 are moved in conjunction with the inner passage 120 of the catalytic converter 110 for the selective catalytic reduction denitrification facility while interlocking.

Referring to the accompanying drawings, an embodiment of a catalytic catalytic plugging device for selective catalytic reduction denitrification system configured as described above with reference to the accompanying drawings, Figs. It is a figure which shows the state.

First, the vertical portion 41 formed to have a predetermined length, the stop portion 42 formed on the upper portion of the vertical portion 41 and supported by the iron pin insertion hole 22 of the upper steel plate 20, Iron pins 40 are formed integrally with the inclined portion 43 formed at the lower end of the vertical portion 41 and sharply formed.

Iron pin insertion holes 22 are formed at intervals inside the metal plate 21, and rope wire through holes 23 are formed around the edges of the metal plate 21, and at both ends, rectangular bent portions ( 25 is formed, and both ends of the bent portion 25 forms the upper steel plate 20, the handle mounting holes 24 are formed.

In addition, iron pin insertion holes 32 are formed at intervals inside the metal plate 31 at intervals from the upper steel plate 20, and rope wire through holes 33 are formed around the edge of the metal plate 31. It is formed, and the lower side iron plate 30 is formed at both ends of the bent portion 25 is formed in a rectangular shape.

In this case, the iron pin insertion holes 32 and the rope wire through holes 33 are formed in the same line as the iron pin insertion hole 32 and the rope wire through hole 33 of the upper steel plate 20.

Next, after inserting the rope wires 50 into the rope wire through hole 23 of the upper iron plate 20 and the rope wire through hole 33 of the lower iron plate 30, the ends of the rope wire 50, respectively. After forming and fixing a knot in the handle, the handle 60 is mounted on the handle insertion hole 24 of the upper iron plate 20, and the assembly of the catalytic plugging device 10 for selective catalytic reduction denitrification equipment is completed. .

Here, the assembling order of the catalyst plugging solution for the selective catalytic reduction denitrification equipment reveals that it can be configured differently from the above.

When the plugging of the catalyst passage for the selective catalytic reduction denitrification facility using the selective catalytic reduction denitrification apparatus for plugging the catalyst in the above state is as follows.

First, the iron pins 40 are inserted through the iron pin insertion holes 22 of the upper iron plate 20, respectively, into the iron pin insertion holes 32 of the lower iron plate 30, and then the plugging elimination device for the catalytic reduction denitrification facility catalyst. (10) is positioned on the upper portion of the inner passage 120 of the catalytic reactor for denitrification facility (110).

Next, the lower iron plate 30 is seated on the catalytic converter inner passage 120 for the selective catalytic reduction denitrification facility, and then the handle 60 mounted on the upper iron plate 20 is moved upward in the direction of the lower iron plate 30. The iron plate 20 is to be seated on the upper portion of the lower iron plate (30).

At this time, the iron pins 40 supported on the upper iron plate 20 are moved downward along with the upper iron plate 20 and the selective catalytic reduction denitrification apparatus 100 is formed through the inclined portion 43 formed at the lower end and the weight thereof. ) To the lower while removing the foreign matter blocking the inner passage 120 of the catalyst for 110.

Here, when the iron pins 40 are not inserted by foreign matter blocking the internal passage 120 of the catalytic reactor 110 for the selective catalytic reduction denitrification apparatus 100, the hand pushes the iron pins or strikes such as a hammer. Lightly hitting the stop portion 42 of the iron pin 40 by using tools.

Next, after the plugging phenomenon of the catalytic converter internal passage 120 for the selective catalytic reduction denitrification equipment to clean the inside and the plugging of the peripheral internal passage 120, the upper plate 20 is moved upwards The iron pins 40 to remove the catalytic converter inner passage 120 for the selective catalytic reduction denitrification facility, and then move the catalytic plugging releasing device 10 for the selective catalytic reduction denitrification facility to the adjacent inner passage 120 as described above. It works.

In the above description with reference to the accompanying drawings, the catalyst catalytic plugging device for selective catalytic reduction denitrification equipment of the present invention mainly described in a specific shape and direction, the present invention can be variously modified and changed by those skilled in the art, such modifications And changes should be construed as being included in the scope of the present invention.

10: catalyst plugging solution for selective catalytic reduction denitrification equipment,
20: upper iron plate, 21: metal plate,
22: iron pin insertion hole, 23: rope wire through hole,
24: handle mounting hole, 25: bent portion,
30: lower iron plate, 31: metal plate,
32: iron pin insertion hole, 33: rope wire through hole,
34: bend, 40: iron pin,
41: vertical part, 42: stop part,
43: inclined portion, 50: rope wire,
60: handle, 100: selective catalytic reduction denitrification equipment,
110: catalyst, 120: internal passage.

Claims (3)

Iron pin insertion holes 22 are formed at intervals inside the metal plate 21, and rope wire through holes 23 are formed around the edge of the metal plate 21, and handle mounting holes are spaced at both ends. The upper steel plate 20 is formed 24,
The iron pin insertion hole is installed at a lower portion with a gap between the upper iron plate 20 and on the same line of the iron pin insertion hole 22 and the rope wire through hole 23 of the upper iron plate 20 and the metal plate 31 corresponding to the upper plate 20. 32 and the lower steel plate 30, the rope wire through-holes 33 are formed,
Inserted into the iron pin insertion hole 22 of the upper iron plate 20 while passing through the iron pin insertion hole 32 of the lower iron plate 30, the internal passage 120 of the catalytic catalytic denitrification facility 100, the catalyst 110 (110) Iron pins 40 are inserted into the,
Rope wires 50 mounted at both ends of the rope wire through hole 23 of the upper iron plate 20 and the rope wire through hole 33 of the lower iron plate 30, respectively;
Catalytic plugging device for selective catalytic reduction denitrification equipment characterized in that it comprises a pair of handles (60) mounted to the handle insertion hole 24 located on both sides of the upper iron plate (20).
The method according to claim 1,
Selective catalytic reduction denitrification equipment catalyst plugging device for the catalytic reduction, characterized in that the bent portion (25, 34) formed on both sides of the upper iron plate 20 and the lower iron plate (30) at right angles.
The method according to claim 1,
The iron pin 40 has a vertical portion 41 formed to have a predetermined length, and a stop portion 42 formed on the upper portion of the vertical portion 41 and supported by the iron pin insertion hole 22 of the upper steel plate 20. ) And a catalyst plugging device for selective catalytic reduction denitrification, characterized in that the inclined portion (43) formed at the lower end of the vertical portion (41) is formed integrally.

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