JP2002138813A - Exhaust emission control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an exhaust emission control device having the long service life capable of preventing a catalyst possessed by a particulate remover from being poisoned by sulfur oxise(SOx). SOLUTION: In this exhaust emission control device 1 for purifying exhaust gas G by scavenging particulates in the exhaust gas G passing through exhaust gas passages 10 to 12 by arranging the particulate remover 30 having the catalyst in the exhaust gas passages 10 to 12, a sulfur oxide remover 20 having a sulfur oxide absorbent 22 is arranged in the upstream of the particulate remover 30.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to particulate matter (P) in exhaust gas of an internal combustion engine such as a diesel engine.
(M: particulate matter).

[0002]

2. Description of the Related Art Conventionally, a catalyst such as a CRT has been used to remove particulates contained in exhaust gas discharged from a diesel engine or the like mounted on a vehicle.
The particulates are fine particles having a size of 20 μm or less composed of soot (black smoke), unburned HC, lubricating oil mist, sulfate, and the like, and may not only deteriorate visibility but also adversely affect health. In recent years, it has become a particular problem in pollution control.

[0003] As a measure for reducing the particulates, if one filter is clogged by PM collection, the filter is switched to the other filter to collect PM, and the filter on the clogging side is heated to burn the collected PM. Diesel particulate filter (DPF) method for removal, continuous regeneration trap (CRT method) using an oxidation catalyst, and method for oxidation removal using a catalyst containing precious metals (DPX method)
Such exhaust gas purifying devices are being researched and developed.

In the case of the continuous regeneration trap method, an oxidation catalyst supporting platinum (Pt) is arranged on the upstream side, and a filter made of cordierite or the like is arranged on the downstream side.

[0005] In the upstream oxidation catalyst, hydrocarbons (HC) and carbon monoxide (CO) are converted into carbon dioxide (CO).
₂ ) and water (H ₂ O), and nitric oxide (NO) of nitrogen oxides (NOx) is converted to nitrogen dioxide (N 2).
O ₂ ) efficiently. The downstream filter captures soot components that have not completely reacted upstream and combusts the captured soot components with nitrogen dioxide (NO ₂ ) generated upstream at a relatively low temperature of about 350 ° C. And
It is emitted in the form of carbon dioxide (CO ₂ ) and nitrogen (N ₂ ).

[0006]

However, the oxidation catalyst of this continuous regenerative trap, like a general catalyst, is poisoned by SOx, so that the production of nitrogen dioxide (NO ₂ ) is hindered. There is a problem that the soot component deposited on the side filter cannot be sufficiently burned and removed, the self-regeneration function does not work, and it is difficult to apply when sulfur oxide (SOx) is contained in exhaust gas.

In particular, in the case of a diesel engine in which particulate matter is a problem, the concentration of SOx contained in exhaust gas is relatively high because sulfur is contained in light oil of the fuel. There is a problem that the catalyst is poisoned by the SOx component in the exhaust gas and the life of the catalyst is short. Therefore, there is a demand for an exhaust gas purifying apparatus having a high particulate removal rate even when SOx is present in the exhaust gas.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide an SOx comprising an alkaline earth metal oxide to which an oxidation catalyst is added.
An absorbent is disposed upstream of a particulate removal device such as a continuous regeneration trap (CRT) system so as to prevent the catalyst of the particulate removal device from being poisoned by sulfur oxides (SOx). An object of the present invention is to provide an exhaust gas purifying apparatus having a long life.

[0009]

In order to achieve the above object, an exhaust gas purifying apparatus is provided with a particulate removing device provided with a catalyst in an exhaust gas passage, and the exhaust gas purifying device is provided with a catalyst. In an exhaust gas purifying apparatus that collects particulates and purifies the exhaust gas,
On the upstream side of the particulate removing device, a sulfur oxide removing device provided with a sulfur oxide absorbent is provided.

The particulate removing apparatus provided with the catalyst is a continuous regeneration trap (CRT) type particulate removing apparatus, a DPX type particulate removing apparatus, and the like. This is effective for a particulate trap removal device of a regeneration trap (CRT) type.

In the above exhaust gas purifying apparatus,
Dispersing the sulfur oxide absorbent of the sulfur oxide removing device in the form of particles containing at least one of alkaline earth metals, oxides of alkaline earth metals, and alkaline earth metal salts, and the surfaces of the particles. It comprises metal particles containing at least one or more of platinum (Pt), palladium (Pd), gold (Au) and nickel (Ni) arranged.

According to this structure, since the sulfur oxide removing device for absorbing sulfur oxide (SOx) in the exhaust gas is provided on the upstream side of the particulate removing device, the exhaust gas entering the particulate removing device is provided. Is in a state where sulfur oxides have been removed, and the catalyst of the particulate removal device can avoid poisoning by the sulfur oxides. Therefore, the exhaust gas purifying apparatus has excellent durability and a high particulate removal rate.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An exhaust gas purifying apparatus according to an embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a view showing a configuration of an exhaust gas purifying apparatus according to an embodiment of the present invention, and FIG. 2 is an enlarged view showing a surface of a carrier of a sulfur oxide absorbent of a sulfur oxide removing apparatus. .

[Structure of Apparatus] As shown in FIG. 1, the exhaust gas purifying apparatus 1 includes a sulfur oxide removing apparatus 20 arranged upstream of an exhaust gas passage 10 of an engine E, and a sulfur oxide removing apparatus. And a particulate removal device 30 disposed downstream of the device 20. The sulfur oxide removing device 20 includes a sulfur oxide absorbent 22, and a carrier 21 made of alumina fiber, cordierite honeycomb, or the like that carries the absorbent.

The sulfur oxide absorbent 22 comprises at least one kind of sulfur oxide absorbent particles 22 among alkaline earth metal oxides, alkaline earth metals and alkaline earth metal salts.
a and metal particles 22b containing at least one or more of platinum (Pt), palladium (Pd), gold (Au) and nickel (Ni) on the surface of the sulfur oxide-absorbing particles 22a. In this embodiment, the sulfur oxide absorbent 22 is made of an alkaline earth metal oxide such as barium oxide (BaO), calcium oxide (CaO), and magnesium oxide (MgO). It is formed by adding metal particles 22b of an oxidation catalyst such as platinum (Pt) to sulfur oxide absorption particles 22a formed of particles.

Further, the particulate removing device 30 comprises:
An oxidation catalyst supporting platinum (Pt) on the upstream side and a filter formed of cordierite or the like on the downstream side;
It is composed of a well-known continuous regeneration trap type particulate removal device.

[Purification of Exhaust Gas] According to the exhaust gas purifying apparatus 1, the exhaust gas G generated by the engine and discharged through the exhaust gas passage 10 is first removed from the sulfur oxide removing device 20.
, And then pass through the particulate removal device 30.

In the sulfur oxide absorbent 22 of the sulfur oxide removing device 20, soot in the exhaust gas G is 400
Combustion is performed at a relatively low temperature of about 0 ° C., and during this combustion, the sulfur oxide (SOx) component in the exhaust gas G is reduced in the exhaust gas G or in the sulfur oxide absorbing particles 22 of the sulfur oxide absorbent 22.
It reacts with the alkaline earth metal oxide of a and is removed. That is, the sulfur oxide (SOx) component in the exhaust gas G is Pt
Is oxidized to sulfur trioxide (SO ₃ ) by the oxidation catalytic action of the metal particles 22b.
₃ is, for example, Ca
Due to a chemical reaction such as O + SO ₃ → CaSO ₄ , it is collected in the form of a sulfate such as calcium sulfate (CaSO ₄ ).

Even at a temperature lower than 400 ° C., the sulfur oxides (SOx) in the exhaust gas G preferentially adsorb and react with the sulfur oxide absorbing particles 22a of the alkaline earth metal oxide, and Since the oxide (SOx) is collected in the form of sulfate, the effect of collecting the sulfur oxide (SOx) does not decrease.

If the sulfur oxide (SOx) trapping and accumulation reduces the sulfur oxide removing effect of the sulfur oxide removing device 20, the sulfur oxide removing device 20
By replacing itself or the sulfur oxide absorbent 22,
Maintains sulfur oxide removal effect.

The exhaust gas Ga which has passed through the sulfur oxide removing device 20 and from which the sulfur oxide (SOx) has been removed enters the particulate removing device 30 and, in the oxidation catalyst on the upstream side, contains hydrocarbons (HC) and hydrocarbons (HC). As carbon monoxide (CO) changes to carbon dioxide (CO ₂ ) and water (H ₂ O), nitrogen monoxide (NO) of nitrogen oxides (NOx) changes to nitrogen dioxide (NO ₂ ). .

Then, the downstream filter captures soot components that have not completely reacted on the upstream side, and converts the captured soot components into nitrogen dioxide (NO ₂ ) generated on the upstream side.
Combustion at a relatively low temperature of about 350 ° C and carbon dioxide (C
O ₂ ) and nitrogen (N ₂ ). The exhaust gas Gc purified by removing the particulates is discharged from the exhaust gas passage 12.

When removing the particulates,
Exhaust gas Ga entering the particulate removing device 30
Since sulfur oxides (SOx) have been removed, the catalyst for removing particulates is not poisoned by sulfur oxides (SOx), so it has a long life and excellent durability. Become.

[Measurement Results] The sulfur oxide removing device 20
The exhaust gas purifying apparatus 1 (Example) equipped with the exhaust gas purifying apparatus and the exhaust gas purifying apparatus without the sulfur oxide removing apparatus (Comparative Example) are attached to the exhaust pipe of a diesel engine to reduce the particulate removal rate in the exhaust gas. It was measured.

According to the measurement results, the particulate removal rate in the example and the comparative example was 50% or more on average in the initial stage, but in the example, even after 1,000 hours had elapsed. , Only about 40%, whereas in Comparative Example, 10%
It fell below.

From the measurement results, it can be seen that, in the embodiment, the effect of the sulfur oxide removing device 20 suppresses a decrease in the particulate removal rate and significantly improves the durability.

[0027]

As described above, according to the exhaust gas purifying apparatus according to the present invention, the sulfur oxide (SO) in the exhaust gas is provided upstream of the particulate removing apparatus provided with the catalyst.
Since a sulfur oxide removing device that absorbs x) is provided to remove sulfur oxides of the exhaust gas entering the particulate removing device, it is possible to prevent the catalyst of the particulate removing device from being poisoned by the sulfur oxide. .

When the sulfur oxide removing effect of the sulfur oxide removing device is reduced due to accumulation of the collection of sulfur oxides (SOx), the sulfur oxide removing device can be replaced only by replacing the sulfur oxide removing device alone. The oxide removing effect can be maintained. Therefore, it is possible to provide an exhaust gas purifying apparatus which has excellent durability and can maintain a high particulate removal rate.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an exhaust gas purification device according to an embodiment of the present invention.

FIG. 2 is an enlarged surface view of a carrier for a sulfur oxide absorbent of the sulfur oxide removing device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Exhaust gas purifier 10, 11, 12 Exhaust gas passage 20 Sulfur oxide removing device 21 Carrier 22 Sulfur oxide absorbent 22a Sulfur oxide absorbing particle 22b Metal particle 30 Particulate removing device

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B01D 53/86 F01N 3/28 301P 53/94 B01D 53/34 124Z F01N 3/10 53/36 D 3 / 24 ZAB 103C 3/28 301 (72) Inventor Hideki Kita 8 Tsuchiya, Fujisawa-shi, Kanagawa F-term in Isuzu Ceramics Research Institute Co., Ltd. (Reference) 3G090 AA03 BA01 EA02 3G091 AA02 AA18 AB02 AB08 AB13 BA00 BA11 BA14 BA15 BA19 BA20 BA39 FB10 GA05 GA06 GA18 GB01W GB01X GB01Y GB03W GB03Y GB05W GB05Y GB06W GB06Y GB07W GB07Y GB10W GB10X GB10Y GB16X HA14 HA18 HA21 HA22 4D002 AA02 AC10 BA03 BA05 CA07 DA04 DA11 EA01 EA02 FA03 BA02 A01 BA02 A01 BA02 A01 BA02 BA03X BA10X BA15X BA30X BA31Y BA32Y BA33Y BA34Y BA38Y BA41X BB02 BB08 BC01 BC04 CC32 CC38 CC46 E A04

Claims (2)

[Claims] An exhaust gas purifying apparatus is provided with a particulate removing device provided with a catalyst in an exhaust gas passage to collect particulates in exhaust gas passing through the exhaust gas passage and purify the exhaust gas. An exhaust gas purifying apparatus, further comprising a sulfur oxide removing device provided with a sulfur oxide absorbent, provided upstream of the particulate removing device. 2. A particle comprising at least one of an alkaline earth metal, an oxide of an alkaline earth metal, and an alkaline earth metal salt, wherein the sulfur oxide absorbent is dispersed on the surface of the particle. Platinum (Pt), Palladium (P
2. The exhaust gas purifying apparatus according to claim 1, wherein the exhaust gas purifying apparatus comprises at least one of d), gold (Au), and nickel (Ni).