KR20000044706A - Exhaust gas dispersion pouring type multi-stage corona reactor - Google Patents

Abstract

PURPOSE: An exhaust gas purifying apparatus for an automobile diesel engine using a multi-stage corona reactor and a catalyst is provided which pours the exhaust gas into the corona reactor dispersively to promote removal efficiency. CONSTITUTION: A corona reactor comprises a cylindrical housing (1) with an inlet (2) and outlet for exhaust gas; a plurality of hybrid reactors (30) installed in series in the housing for purifying exhaust gas to harmless gas by a plasma chemical reaction; a pulse power source device (4) for supplying pulse voltage to the hybrid reactors; and a bypass pipe (40) which is branched at one side of the inlet and connected to each space of the hybrid reactors by diverging exhaust gas flowing into the inlet and inducing the diverged exhaust gas into a plurality of spaces formed in the hybrid reactors installed in the housing. The corona reactor promotes removal efficiency of nitrogen oxides emissions from a diesel engine and reduces the volume of nitrogen oxides removing apparatus.

Description

Dispersion Injection Multistage Corona Reactor

The present invention relates to a purification apparatus for removing nitrogen oxides and harmful gases discharged from a diesel engine using a multi-stage corona reactor and a catalyst, and more specifically, by dispersing injection of the discharge gas flow rate into each stage of the multi-stage corona reactor. An exhaust gas dispersion injection multistage corona reactor for enhancing the removal efficiency of nitrogen oxides is provided.

The post-treatment apparatus for removing nitrogen oxides and harmful gases emitted from diesel engines is largely a plasma method, a catalyst method, and a hybrid type using both plasma and catalyst.

Corona reactors that generate low-temperature plasma by using the plasma method include wire-plate type, wire-cylinder type, packed-bed type, and silent discharge type. In the process, the wire-plate type reactor was mainly adopted because of the low pressure loss and convenient maintenance of the reactor. However, the wire-plate type reactor has a simple structure and is used for harmful gases such as nitrogen oxides and sulfurous acid gas. There was a problem that the removal efficiency is low.

Accordingly, the present applicant has proposed a multi-stage corona reactor in which a corona reactor for forming a plasma by corona discharge by a high voltage in Patent Application No. 95-49667 is assembled in multiple stages. This is a circle having a disk-shaped discharge electrode plate 5 having a plurality of holes 7 and pins 8 and a plurality of holes 9 in a cylindrical housing 1 as schematically shown in FIG. 1. It is a device that maximizes the removal efficiency of harmful components of the exhaust gas by continuously passing the exhaust gas in the state of corona discharge by alternately installing the plate-shaped counter electrode plate 6 in series.

In other words, the electrode plates 5 and the counter electrode plates 6 of the pores and needles are overlapped in the advancing direction of the exhaust gas so that the discharge between the electrodes 5 and 6 is maintained in one stage so that plasma formation can be maintained as a whole. The multi-stage space formed between each of the pole plates 5 and 6 serves as a corona discharge region, and the exhaust gas passes through the chemical reaction of the plasma due to the corona discharge.

The removal efficiency of nitrogen oxides by corona discharge changes rapidly due to the initial concentration of nitrogen oxides. Therefore, in order to increase the removal efficiency even at low power consumption, the removal efficiency must be maintained by keeping the flow rate and the initial concentration of nitrogen oxides at the reactor inlet low. You can increase it.

In the conventional plasma denitrification apparatus for removing nitrogen oxides as described above, the flow rate and initial concentration of the harmful gases are not all considered and the flow rate of the emitted harmful gases flows in the corona reactor all at once. In the high region, not only the removal rate of nitrogen oxide at the outlet of the reactor is low, but also in order to remove a large flow rate and a high initial concentration of nitrogen oxide in one reactor, there is a problem in that the apparatus becomes larger and consumes more energy.

In addition, in order to overcome the disadvantage of using a short pulsed high voltage to remove nitrogen oxide using only plasma, a hybrid plasma-catalyst denitrification apparatus incorporating a catalyst has been developed, which is also divided into a plasma region and a catalyst region. There is a problem that the volume of the device is large.

The present invention has been made to solve these problems, and an object of the present invention is to disperse and inject the flow rate of the exhaust gas in the corona reactor to reduce the flow rate and initial concentration to increase the removal rate of nitrogen oxide injection multi-stage corona reactor To provide.

Another object of the present invention is to provide an exhaust gas dispersing injection type multi-stage corona reactor which reduces the volume of a nitrogen oxide removal device by having a plasma zone and a catalyst zone together in one reactor.

1 is a cross-sectional view schematically showing a conventional multi-stage corona reactor,

Figure 2 is a cross-sectional view schematically showing the internal structure to show the configuration and operating state of the exhaust gas dispersion injection multi-stage corona reactor of one embodiment of the present invention,

Figure 3 is an exploded perspective view showing one stage of the reactor constituting the present invention.

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

1: Housing 2: Inlet

3: outlet 4: pulse power supply

5, 31: discharge electrode plate 6, 32: relative electrode plate

7,9,34,35: hole 8,33: pin

10: power connector 30: hybrid reactor

36: catalyst layer 40: bypass tube

In order to achieve the above object, the exhaust gas dispersing injection type multi-stage corona reactor of the present invention is a cylindrical housing having an inlet and an outlet of the exhaust gas, and the exhaust gas introduced into the inlet is oxidized by plasma chemical reaction by corona discharge. A plurality of hybrid reactors installed in series in the housing so as to be reduced to a harmless gas by a catalyst, a pulse power supply for supplying a pulsed high voltage to the hybrid reactor, and a branched exhaust gas by branching the exhaust gas flowing into the inlet. And a bypass pipe branched from one side of the inlet so as to enter a plurality of spaces formed between the hybrid reactors installed in the housing.

Hereinafter, with reference to the accompanying drawings, an embodiment of the present invention exhaust gas dispersion injection multi-stage corona reactor will be described in detail.

Figure 2 is a cross-sectional view schematically showing the internal structure to show the configuration and operation state of the exhaust gas dispersion injection multi-stage corona reactor of one embodiment of the present invention, Figure 3 shows one stage of the reactor constituting the present invention An exploded perspective view.

As shown in FIG. 2, the exhaust gas dispersion injection multi-stage corona reactor according to one embodiment of the present invention has a cylindrical housing 1 having an inlet 2 and an outlet 3 of the exhaust gas, and the inlet 2. And a plurality of hybrid reactors 30 installed in series in the housing 1 so as to oxidize the exhaust gas introduced into the plasma by a plasma chemical reaction by corona discharge and then reduce the gas into a harmless gas by a catalyst. The pulsed power supply device (4) for supplying a pulsed high voltage and branched exhaust gas flowing into the inlet (2) is formed between the hybrid reactors 30 installed in the housing (1) It is provided with a bypass pipe 40 branched from one side of the inlet 2 so as to be introduced into a plurality of spaces connected to each of the spaces.

In addition, as shown in FIG. 3, the hybrid reactor 30 receives power from the pulse power supply 4, and a plurality of holes 33 through which a plurality of pins 33 and exhaust gas pass through the corona discharge. And a counter electrode plate 32 in which a plurality of holes 35 through which discharge gas passes and are spaced apart at regular intervals to form a counter electrode plate 31 having a) and a counter electrode of the discharge electrode plate 31; Catalyst layer 36 provided behind the counter electrode plate 32 to reduce nitrogen oxide contained in the exhaust gas passing through the corona discharge region between the discharge electrode plate 31 and the counter electrode plate 32 to a harmless gas. Consists of

The hybrid reactor 30 is increased by the flow rate introduced by the bypass pipe 40 toward the outlet port 3 in order to maintain a constant flow rate and initial concentration of the exhaust gas flowing into each hybrid reactor 30. A proportionally larger hybrid reactor 30 is provided, and thus the housing 1 is also formed in a conical shape with a larger diameter toward the outlet port 3 of the exhaust gas.

Next, the operation of the exhaust-gas dispersion injection multistage corona reactor according to one embodiment of the present invention configured as described above will be described in detail with reference to FIG. 2.

First, when the harmful gas discharged from the diesel engine is introduced into the inlet (2) of the exhaust gas purifying apparatus according to an embodiment of the present invention, a part of the exhaust gas is introduced into the first hybrid reactor 30 and the rest is the inlet (2) Bypass is bypassed through the bypass pipe 40 installed on one side of the.

Nitrogen oxides such as nitrogen monoxide (NO) in the exhaust gas introduced into the first hybrid reactor 30 cause plasma chemical reactions by pulse corona discharge formed between the discharge electrode plate 31 and the counter electrode plate 32 to form nitrogen dioxide ( It is oxidized to NO2) and then reduced to a harmless gas while passing through the catalyst layer 36.

Next, the exhaust gas introduced between the first hybrid reactor 30 and the second hybrid reactor 30 by the bypass pipe 40 is mixed with the harmless gas and diluted, and then flows into the second hybrid reactor 30. do.

The discharged gas is purified by receiving the oxidation by the corona discharge and the reduction by the catalyst as in the first hybrid reactor 30, and then mixed with the discharged gas flowing through the bypass pipe 40 and diluted. To the first hybrid reactor 30.

Here, the flow rate bypassed in consideration of the flow rate and the initial concentration to maintain a constant time for each hybrid reactor 30 each discharge gas stays in the corona discharge region between the discharge electrode plate 31 and the counter electrode plate 32 The size of the discharge electrode plate 31 can be determined. For example, when the flow rate of the exhaust gas flowing into the inlet 2 is 100 l / min and the flow rate supplied to the first hybrid reactor 30 is 40 l / min and the flow rate bypassed is 60 l / min, the first hybrid The area of the last hybrid reactor 30 is designed to be 2.5 times larger than the area of the reactor 30, and also installed between the first hybrid reactor 30 and the last hybrid reactor 30 to obtain an optimum removal efficiency. The number of hybrid reactors 30 can be determined.

The above purification is repeated while passing through a plurality of hybrid reactors 30 installed in the housing 1, and the harmful gas passing through the final hybrid reactor 30 is discharged to the atmosphere in a completely purified state.

As described above, according to the exhaust gas dispersion injection type multi-stage corona reactor according to one embodiment of the present invention, the exhaust gas flowing into the inlet is oxidized by a plasma chemical reaction by corona discharge and then reduced into a harmless gas by a catalyst. Branched at one side of the inlet pipe so that the plurality of hybrid reactors installed in series in the branch and the discharged gas flowing into the inlet to branch into the plurality of spaces formed between the hybrid reactors installed in the housing. Since the bypass pipe is connected to one side of the housing of each space, the flow rate of the exhaust gas is dispersed and injected into the corona reactor to reduce the flow rate and the initial concentration, thereby increasing the removal rate of nitrogen oxide, and the plasma region and the With catalytic zone By the effect of reducing the volume of the nitrogen oxide removal equipment.

Claims (4)

A cylindrical housing having an inlet and an outlet of the exhaust gas, a plurality of hybrid reactors installed in series in the housing so as to purify the exhaust gas flowing into the inlet into a harmless gas by a plasma chemical reaction according to corona discharge, and the hybrid On the one side of the inlet so that the pulsed power supply for supplying a high voltage pulse to the reactor, and the branched discharge gas flowing into the inlet port flows into the plurality of spaces formed between the hybrid reactors installed in the housing An exhaust gas dispersion injection multistage corona reactor characterized in that it has a bypass pipe connected to each of the spaces branched. The exhaust gas dispersion injection multi-stage corona reactor according to claim 1, wherein the hybrid reactor further purifies harmless gas by a catalyst. 3. The hybrid reactor according to claim 1 or 2, wherein the hybrid reactor includes: a discharge electrode plate having a plurality of fins for generating corona discharge and a plurality of holes through which exhaust gas passes through power supplied from the pulsed power supply device; It is a harmless gas containing nitrogen electrode contained in the discharge electrode passing through the corona discharge region between the discharge electrode plate and the counter electrode plate and a counter electrode plate spaced apart at regular intervals to form a counter electrode. Dispersion injection-type multi-stage corona reactor exhaust gas, characterized in that consisting of a catalyst layer installed on the back of the counter electrode plate to reduce to. The hybrid reactor according to any one of claims 1 to 3, wherein the hybrid reactor has a flow rate inflowed by the bypass pipe toward the outlet in order to maintain a constant flow rate and initial concentration of the exhaust gas flowing into each hybrid reactor. Dispersion injection-type multi-stage corona reactor for exhaust gas, characterized in that the hybrid reactor is provided with a larger area in proportion to the increase.