KR20120130614A - Apparatus for mixing reducing agent of scr system - Google Patents

Abstract

PURPOSE: A reductant mixing device for an SCR(selective catalytic reduction) system is provided to improve mixture uniformity in exhaust gas and a reductant by having inner and outer blades which are twisted and inclined at first and second torsion angles. CONSTITUTION: A reductant mixing device(10) of an SCR system comprises first, second, and third ring-shaped rim portions(11,12,13), a plurality of inner blades(21), and a plurality of outer blades(22). An opening is formed in the first ring-shaped rim portion. The second ring-shaped rim portion is placed outside the first ring-shaped rim portion. The third ring-shaped rim portion is placed outside the second ring-shaped rim portion. The inner blades are placed in between the first and second ring-shaped rim portions and twisted by a first torsion angle. The outer blades are placed in between the second and third ring-shaped rim portions and twisted by a second torsion angle. The first, second, and third ring-shaped rim portions are concentrically placed.

Description

Reducing agent mixing apparatus of SCC system {APPARATUS FOR MIXING REDUCING AGENT OF SCR SYSTEM}

The present invention relates to an SCR system for reducing nitrogen oxides in the exhaust gas, and more particularly, to reducing spray mixing of the reducing agent sprayed upstream of the SCR catalyst to mix the reducing agent in the exhaust gas. Relates to a device.

In diesel engines, fuel injected into the engine burns due to self-ignition due to a rise in temperature due to compression of the piston. In this process, incomplete combustion occurs due to inhomogeneity of fuel and air, and at this time, particulate matter (PM) such as unburned carbon is generated. Such fumes can cause serious diseases in humans through breathing, and especially with the increase of diesel vehicles, they are becoming a social problem. These diesel vehicles include hydrocarbons (HC), carbon monoxide (CO), Various exhaust gas aftertreatment apparatuses for purifying exhaust gas by treating particulate matter (PM), nitrogen oxides (NOx) and the like have been developed.

The exhaust gas aftertreatment device includes a DOC (Diesel Oxidation Catalyst) which converts hydrocarbon and carbon monoxide components in the exhaust gas into water and carbon dioxide by an oxidation reaction by a catalyst, and soot contained in the exhaust gas. Diesel Particulate Filter (DPF), which collects the same particulate matter and regenerates and burns it by heat of exhaust gas, and SCR (Selective Catalytic Reduction) which reduces nitrogen oxide contained in exhaust gas to water and nitrogen using a catalyst. : Selective catalytic reduction device) and the like are being developed.

In particular, diesel engines have higher thermal efficiency and less carbon dioxide emissions than gasoline engines, but particulate matter (PM) and nitrogen oxides (NOx) emissions have more disadvantages than gasoline engines. Recently, exhaust gas aftertreatment systems such as LNT (Lean NOx Traps) or SCR systems have been actively researched and developed to reduce nitrogen oxides in diesel exhaust gas.

In the SCR system, an injector for spraying a reducing agent, such as urea solution, is installed at the front end of the SCR, that is, upstream. The reducing agent sprayed by the injector is decomposed into ammonia, and the nitrogen oxide in the exhaust gas is reduced through a reduction reaction. Decomposed and purified by water and nitrogen.

Meanwhile, since the reducing agent injected through the injector is decomposed into ammonia required for the reaction in the SCR and selectively reacts with nitrogen oxides in the exhaust gas, securing a distance for the decomposition of the reducing agent and uniform mixing with the exhaust gas are very important factors. . However, the conventional SCR system has a disadvantage in that the limit of improving the spray uniformity of the reducing agent sprayed within the limited layout is large.

The present invention has been devised in view of the above, and by improving the spray uniformity of the reducing agent sprayed on the exhaust gas side of the exhaust pipe, the reducing agent can be more efficiently mixed on the exhaust gas side, and through this, It is an object of the present invention to provide a reducing agent mixing device of the SCR system that can greatly increase the purification efficiency.

The present invention for achieving the above object is a reducing agent mixing apparatus of the SCR system installed on the upstream side of the SCR,

A first annular edge portion having an opening formed therein;

A second annular edge portion disposed outside the first annular border portion;

A third annular edge portion disposed outside the second annular edge portion;

A plurality of inner blades disposed between the first annular edge portion and the second annular edge portion; And

And a plurality of outer blades disposed between the second annular edge portion and the third annular edge portion.

The plurality of inner blades are formed to be inclined at a first twist angle between the first annular rim and the second annular rim,

The plurality of outer blades are formed to be inclined at a second twist angle between the second annular rim and the third annular rim,

The first annular rim, the second annular rim and the third annular rim are characterized in that they are arranged concentrically.

The inner blade and the outer blade is characterized in that the inclined in a direction opposite to each other.

The inner diameter end of each inner blade is integrally formed with an arc-shaped first split edge, the outer diameter end of each inner blade is integrally formed with an arc-shaped second split edge,

The first annular edges of the respective inner blades are joined in the circumferential direction by welding to form a first annular edge,

The second annular edges of the respective inner blades are circumferentially coupled by welding to form a second annular edge portion.

The outer diameter end of each outer blade is integrally formed with an arc-shaped third dividing edge, and the third dividing edge of each outer blade is joined in the circumferential direction by welding to form a third annular edge.

The first and second twist angles are characterized in that 30 ~ 60 °.

Each of the plurality of inner blades and the plurality of outer blades is characterized in that 4 to 12.

The side length of the third annular rim is characterized in that 10 ~ 50mm.

According to the present invention as described above, by improving the spray uniformity of the reducing agent sprayed to the exhaust gas side of the exhaust pipe can be more efficiently mixed with the reducing agent on the exhaust gas side, through which the purification efficiency of nitrogen oxides by SCR can be significantly increased. There is an advantage.

In particular, according to the present invention, as the inner blade and the outer blade are twisted and inclined at the first and second torsion angles, the turbulent flow of the exhaust gas in which the reducing agent is sprayed is more smoothly and efficiently generated, and thus the spray uniformity of the reducing agent. There is a merit that the improvement and the mixing uniformity of the reducing agent and the exhaust gas are greatly improved.

In addition, as the inner blade and the outer blade are inclined in directions opposite to each other, the mixing uniformity of the reducing agent and the exhaust gas is further improved.

1 is a block diagram showing an SCR system to which a reducing agent mixing device according to the present invention is applied.
2 is a perspective view showing a reducing agent mixing apparatus of the SCR system according to an embodiment of the present invention.
3 is a plan view showing a reducing agent mixing apparatus of the SCR system according to an embodiment of the present invention.
4 is a cross-sectional view taken along line AA of FIG. 3.
FIG. 5 is a cross-sectional view taken along line BB of FIG. 3.
6 is a side view showing a reducing agent mixing apparatus of the SCR system according to an embodiment of the present invention.
7 is an exploded perspective view showing a reducing agent mixing apparatus of the SCR system according to an embodiment of the present invention.

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

1 to 6 is a view showing a reducing agent mixing apparatus of the SCR system according to an embodiment of the present invention.

1 is a view showing a state in which a reducing agent mixing apparatus according to the present invention is applied to an SCR system, the SCR system is provided with an SCR (2) on one side of the exhaust pipe (1), the front side of the SCR (that is, SCR) On the upstream side of (2), an injector 3 for spraying a reducing agent such as urea aqueous solution or the like is provided.

The reducing agent sprayed from the injector 3 improves the spray uniformity by the reducing agent mixing apparatus 10 of the present invention so that the reducing agent can be very uniformly mixed with the exhaust gas passing through the exhaust pipe 1.

The reducing agent mixing apparatus 10 of the present invention is installed upstream of the SCR 2 to improve the spray uniformity of the reducing agent sprayed by the injector 3.

The reducing agent mixing apparatus 10 includes a first annular edge portion 11, a second annular edge portion 12 disposed outside the first annular edge portion, and a third annular edge portion disposed outside the second annular edge portion 12. It includes the edge portion (13).

An opening 14 is formed in the first annular edge portion 11, and the first annular edge portion 11, the second annular edge portion 12, and the third annular edge portion 13 are arranged concentrically. do.

A plurality of inner blades 21 are disposed to be spaced apart in the circumferential direction between the first annular edge portion 11 and the second annular edge portion 12, and the plurality of inner blades 21 are arranged in the first annular edge portion 11. ) And the second annular edge portion 12 is twisted and inclined at a first twist angle θ, and a plurality of passage spaces 23 through which exhaust gas passes are formed between the plurality of inner blades 21.

A plurality of outer blades 22 are disposed circumferentially spaced apart between the second annular edge 12 and the second annular edge portion 13, and the plurality of outer blades 22 are second annular edge portions 12. ) And the third annular edge portion 13 is twisted and inclined at a second torsion angle θ, and a plurality of passage spaces 24 through which exhaust gas passes is formed between the plurality of outer blades 22.

When the first twist angle θ of the inner blade 21 and the second twist angle θ of the outer blade 22 are 30 ° or less, dispersion of the reducing agent may not be properly performed, and the first twist angle of the inner blade 21 may be reduced. When the torsion angle θ and the second torsion angle θ of the outer blade 22 are 60 ° or more, the reducing agent may be distributed to the inner wall surface side of the exhaust pipe 1 so as to be distributed, so that the inclination angle of each blade 15 ( (theta) is preferably 30 to 60 degrees.

In particular, the inner blade 21 and the outer blade 22 is characterized in that the inclined in a direction opposite to each other, as shown in FIGS.

An arc-shaped first dividing edge 21a is integrally formed at the inner diameter end of each inner blade 21, and an arc-shaped second dividing edge 21b is integrally formed at the outer diameter end of each inner blade 21. Accordingly, the first annular edge portion 11 is formed by joining the first divided edges 21a of the respective inner blades 21 in the circumferential direction, and the second divided edges 21b of the inner blades 21 are formed. Are joined in the circumferential direction by welding to form the second annular rim 12.

A circular arc-shaped third dividing edge 22b is integrally formed at the outer diameter end of each outer blade 22, and the third dividing edge 22b of each outer blade 22 is joined in the circumferential direction by welding to form a third. An annular edge portion 13 is formed.

With the above configuration, the reducing agent is sprayed on the exhaust gas side passing through the exhaust pipe 1 through the injector 3, and the exhaust gas in the state in which the reducing agent is sprayed is plural inner blades 21 and plural outer sides. Turbulence is generated as it passes through the blade 22.

In particular, as the inner blade 21 and the outer blade 22 are each twisted and inclined at the first and second torsion angles θ, a turbulent flow of the exhaust gas sprayed with the reducing agent is more smoothly and efficiently generated. The spray uniformity of the reducing agent is improved and the mixing uniformity of the reducing agent and the exhaust gas is greatly improved.

In addition, as the inner blade 21 and the outer blade 22 are inclined in directions opposite to each other, the uniformity of mixing of the reducing agent and the exhaust gas is further improved.

In addition, in order to improve spray uniformity of the reducing agent, each of the plurality of inner blades 21 and the plurality of outer blades 22 is preferably 4-12.

Side length L1 of the mixing apparatus according to the present invention as shown in Figure 6 is preferably made of 10 ~ 50mm.

11: first annular rim 12: second annular rim
13: third annular rim 21: inner blade
22: outer blade

Claims (6)

Reducing agent mixing apparatus of the SCR system installed on the upstream side of the SCR,
A first annular edge portion having an opening formed therein;
A second annular edge portion disposed outside the first annular border portion;
A third annular edge portion disposed outside the second annular edge portion;
A plurality of inner blades disposed between the first annular edge portion and the second annular edge portion; And
And a plurality of outer blades disposed between the second annular edge portion and the third annular edge portion.
The plurality of inner blades are formed to be inclined at a first twist angle between the first annular rim and the second annular rim,
The plurality of outer blades are formed to be inclined at a second twist angle between the second annular rim and the third annular rim,
And the first annular edge portion, the second annular edge portion, and the third annular edge portion are arranged concentrically. The method of claim 1,
Reducing agent mixing apparatus of the SCR system, characterized in that the inner blade and the outer blade is formed to be inclined in opposite directions to each other. The method of claim 1,
The inner diameter end of each inner blade is integrally formed with an arc-shaped first split edge, the outer diameter end of each inner blade is integrally formed with an arc-shaped second split edge,
The first annular edges of the respective inner blades are joined in the circumferential direction by welding to form a first annular edge,
The second annular edges of the respective inner blades are circumferentially coupled by welding to form a second annular edge portion.
SCR characterized in that the outer diameter end portion of each outer blade is formed integrally with a circular arc third dividing edge, and the third dividing edge of each outer blade is circumferentially joined by welding to form a third annular edge. Reducing agent mixing device of the system. The method of claim 1,
Reducing agent mixing apparatus of the SCR system, characterized in that the first and second torsion angle is 30 ~ 60 °. The method of claim 1,
Reducing agent mixing apparatus of the SCR system, characterized in that each of the plurality of inner blades and the plurality of outer blades 4 to 12. The method of claim 1,
Reducing agent mixing apparatus of the SCR system, characterized in that the side length of the third annular edge portion is 10 ~ 50mm.

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