KR100488691B1 - Plasma reactor - Google Patents

Abstract

A plasma reactor is disclosed. The disclosed plasma reactor, in the plasma reactor having a plasma region formed to reduce the harmful substances contained in the gas by the plasma reaction as the gas passes, at least two or more are provided, a plurality of inlet port to pass the gas Is formed, the first cell member of the flat plate made of a circular shape; It is provided between each of the first cell member, and in communication with the introduction port so that the gas passes through the center, at least one larger opening than the introduction port is formed, the outer shape as the first cell member is circular A second cell member of the flat plate; And an electrode member extending in a vertical direction to the first cell member and in an up and down horizontal direction of edges of the first and second cell members, the at least one pair being installed to apply a high voltage into the plasma reactor. do.

According to the present invention, there is an advantage that the effect of reducing harmful substances is increased, the canning is made easy, and the durability is improved.

Description

Plasma Reactor {PLASMA REACTOR}

TECHNICAL FIELD The present invention relates to a plasma reactor, and more particularly, to an improved plasma reactor for easy canning application, improved durability, and long-term retention of harmful substances to increase chemical reactivity.

Diesel engines are strongly recommended as alternatives to gasoline engines, which can reduce thermal efficiency and fuel economy, and demands are rapidly increasing in line with user preferences.

However, as the use of diesel engines continues to increase, many developed countries are tightening their emission standards and are forced to reduce their emissions.

As these regulations are increasingly tightened around Europe and the United States, there is an urgent need for a new concept of exhaust purifiers that is a departure from conventional aftertreatment.

Accordingly, there is an exhaust purification system using plasma that is currently being actively researched. This exhaust gas purification system using plasma is recognized as an important technique because it can simultaneously reduce NOx and diesel particulate matter (PM).

The system is provided with a plasma reactor installed on one side of the exhaust system of the vehicle engine. As described above, the plasma reactor shows an excellent effect in reducing both exhaust gas and particulate matter contained in exhaust gas discharged to the outside of the engine.

1 schematically shows the structure of such a plasma reactor.

As shown, the plasma reactor is formed with a plasma region 11 through which the exhaust gas discharged from the vehicle to the exhaust port of the engine flows, and the overall structure is a combination of parallel plates or an integral rectangular structure or cell. It is formed by (10).

The plasma reactor 20 is formed by stacking and assembling a plurality of such cells 10. When a high voltage is applied to the plasma region 11 of the plasma reactor 20 thus formed, the corona discharge in the plasma region 11 reduces the harmful substances contained in the exhaust gas of the vehicle by the high voltage.

As described above, the plasma reactor 20 according to the related art has a rectangular parallelepiped shape in which the exhaust gas of the vehicle passes through a plasma state through the plasma region 11 of each cell 10 and the plasma generation and the exhaust gas flow are vertical. Is done.

Therefore, unlike the catalyst, it is difficult to apply and fabricate a canning (not shown) formed to machine and wrap the outside with a predetermined metal material, for example, stainless steel, to protect the plasma reactor 20. And since it forms a rectangular parallelepiped, its durability is also low.

In addition, since the plasma region 11 through which the exhaust gas passes is formed in a cross section of a constant size, the residence time of the exhaust gas is short, and thus, the efficiency of reducing harmful substances in the exhaust gas is reduced.

The present invention was created to solve the above problems, to provide a plasma reactor to improve the structure of the plasma reactor can be easily applied and fabricated, improved durability, reducing the efficiency of exhaust harmful substances to improve the The purpose is.

Plasma reactor of the present invention for achieving the above object, in the plasma reactor having a plasma region formed so that the harmful substances contained in the gas by the plasma reaction as the gas passes, at least two or more are provided A first cell member of a flat plate having a plurality of introduction holes formed therein and having a circular shape; It is provided between each of the first cell member, and in communication with the introduction port so that the gas passes through the center, at least one larger opening than the introduction port is formed, the outer shape as the first cell member is circular A second cell member of the flat plate; And an electrode member extending in a vertical direction to the first cell member and in an up and down horizontal direction of edges of the first and second cell members, the at least one pair being installed to apply a high voltage into the plasma reactor. do.

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

2 is a partial cross-sectional view schematically showing the configuration of the plasma reactor according to the present invention. Here, the description of the configuration of the general plasma reactor will be omitted, and only the configuration according to the features of the present invention will be described.

First, in the present invention, the plasma reactor 100 according to the present invention, as described above in the plasma reaction while passing through the exhaust gas discharged from the engine of the vehicle, passes the harmful gas contained in the exhaust gas. The plasma region is formed to reduce the material is installed on one side of the exhaust port of the engine.

As shown in Figure 1, the plasma reactor 100 according to the present invention, at least two or more, a plurality of inlet port 111 is formed so that the gas passes through, the shape of the plate made of a cylindrical It is provided between the one cell member 110 and each of the first cell member 110, and communicates with the introduction port 111 of the first cell member 110 so that gas passes through the center thereof. At least one larger opening 121 than the sphere 111 is formed, and the second cell member 120 having a cylindrical shape as in the first cell member 110, and the first cell member 110. ) Includes electrode members 130a and 130b extending in the vertical direction and in the vertical direction of the edges of the first and second cell members 110 and 120, respectively, and having at least one pair installed therein so that a high voltage is applied into the plasma reactor 100. It is configured by.

The first and second cell members 110 and 120 may be made of a ceramic substrate or a dielectric.

In addition, as shown in the cross-sectional view of FIGS. 3 and 4 shown along AA and BB in FIG. 2, the large opening 121 of the inlet 111 of the first cell member 110 and the second cell member 120 is shown. ) Has a circular cross-sectional shape, and in particular, the introduction port 111 of the first cell member 110 is radially formed in the cross section of the first cell member 110, as shown in FIG. do.

In addition, as shown in Figure 4, the opening 121 is made of one circular hole formed as large as possible except the minimum required flesh in the cross-section of the second cell member 120.

3 and 4, when the coupling holes formed by the small holes formed at the left and right edges are formed at the same position, the center line of the introduction port 111 of the first cell member 110 is the same as shown in FIG. While the introduction port 111 is in the same communication in a straight line, while the first cell member 110 is installed alternately with the second cell member 120 therebetween, the first cell member 110 The center line of each introduction port 111 of) may be staggered so as not to be on the same line. That is, when the coupling holes are formed in the upper and lower vertical center lines of the first and second cell members 110 and 120, respectively, and the first cell member 110 is alternately assembled, the introduction holes 111 are alternately coupled to the plasma region. It is possible to increase the residence time of the gas at 140.

In addition, the electrode members 130a and 130b are formed by coating silver (Ag), copper (Cu), or palladium (Pd) on a surface of a predetermined conductive metal member. The electrode members 130a and 130b are illustrated in FIG. As shown in FIG. 2, for example, a positive electrode member 130a which is installed and extends above the assembly of the first and second cell members 110 and 120 and extends below the assembly of the first and second cell members 110 and 120. And a pair of electrode poles 130b of the installed poles are installed. A pair of electrode members 130a and 130b installed as described above are connected to each of the lead line members made of a conductive member, although not shown in the drawing. The lead line member is connected to the power supply unit so that a high voltage is applied to the plasma reactor. However, the method of connecting the electrode members 130a and 130b and the lead line member and the power supply unit thus installed is one embodiment. Just an example The assembly of the first and second cell members 110 and 120 may be installed in various ways.

Referring to the operation of the plasma reactor according to the present invention having the configuration as described above are as follows. Here, the description of the operation of the general plasma reactor will be omitted, and only the operation according to the features of the present invention will be described.

Referring back to the drawings, the first and second cell members 110 and 120 formed of cylindrical plates are alternately stacked, and the introduction port 111 and the second cell member 120 of the first cell member 110 are sequentially stacked. In general, the opening 121 communicates with the exhaust gas to form a plasma region 140 in which a plasma reaction occurs.

When the plasma region 140 is formed in this way, the exhaust gas sequentially passes through the plurality of inlet openings 111 and one large opening 121 so that the exhaust gas can stay in the plasma region 140 for a long time. Will increase.

As the exhaust gas passes repeatedly through the introduction port 111 and the exhaust port in this way, the back pressure of the exhaust gas increases. This increases the effect of reducing harmful substances in the exhaust gas.

In addition, since the cross-sectional shape of the plasma reactor 100 and the introduction port 111 and the large opening 121 is circular, it is easy to manufacture. In particular, it is easy to manufacture canning to wrap the first and second cell members 110 and 120, thereby reducing the manufacturing cost or manufacturing time according to the manufacturing. And overall durability is also improved.

As described above, the plasma reactor according to the present invention has an effect of increasing the harmful substance reduction effect, making canning easy, and improving durability.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a perspective view schematically showing the configuration of a plasma reactor according to the prior art.

2 is a partial cross-sectional view schematically showing the configuration of a plasma reactor according to the present invention.

FIG. 3 is a schematic cross-sectional view taken along line A-A in FIG. 2. FIG.

FIG. 4 is a schematic cross-sectional view taken along line B-B in FIG. 2. FIG.

<Description of the symbols for the main parts of the drawings>

100. Plasma Reactor

110. First cell member

111. Introduction

120. Second cell member

121.Large opening

130. Electrode member

140. Plasma region

Claims (8)

In the plasma reactor having a plasma region formed to reduce the harmful substances contained in the gas by the plasma reaction as the gas passes, At least two or more, a plurality of introduction port is formed so that the gas is passed, the first cell member of the flat plate made of a cylindrical shape; It is provided between each of the first cell member, and in communication with the introduction port so that the gas passes in the center, at least one larger opening than the introduction port is formed, the outer shape is cylindrical like the first cell member A second cell member of the flat plate; And an electrode member extending in a vertical direction to the first cell member and in an up and down horizontal direction of edges of the first and second cell members, and provided with at least one pair so that a high voltage is applied into the plasma reactor. Plasma reactor. The method of claim 1, The introduction port and the cross-section of the large opening is a plasma reactor, characterized in that formed in a circular shape. The method of claim 1, The introduction port is a plasma reactor, characterized in that formed radially in the cross section of the first cell member. The method of claim 1, The large opening is a plasma reactor, characterized in that consisting of one circular hole formed as large as possible in the cross section of the second cell member. The method of claim 1, And when the first cell member is alternately installed with the second cell member interposed therebetween, the center line of each introduction port of the first cell member is staggered so as not to be in the same line. The method of claim 1, The electrode member is a plasma reactor, characterized in that the coating is made of silver on the surface of a predetermined conductive metal member. The method of claim 1, The electrode member is a plasma reactor, characterized in that the coating is made of copper on the surface of a predetermined conductive metal member. The method of claim 1, The electrode member is a plasma reactor, characterized in that the coating is made of palladium on the surface of a predetermined conductive metal member.