EP1472003A1

EP1472003A1 - Method and device for avoiding the deposition of soot on the insulating components of an electrostatic filter

Info

Publication number: EP1472003A1
Application number: EP03718819A
Authority: EP
Inventors: Christian Charles Garabedian; Régis VONARB; Daniel Teboul
Original assignee: Recycl'Air; Faurecia Systemes dEchappement SAS
Current assignee: Recycl'Air; Faurecia Systemes dEchappement SAS
Priority date: 2002-01-24
Filing date: 2003-01-24
Publication date: 2004-11-03
Also published as: US20050115410A1; WO2003061837A1; FR2834919B1; FR2834919A1; CN1622859A

Abstract

The invention relates to a method and device for avoiding the deposition of particles of soot (3) on the insulating components (2) in an electrostatic filter (1), which comprises the insulating components (2). The method comprises the method step of creating a repulsive electrostatic field (4) around said insulating components (2), by placing at least one repulsive electrode (8) in or on at least one of the insulating components (2) and applying an adequate voltage to the repulsive electrode (8). The voltage difference between the repulsive electrode (8) and the central electrode (6) and the voltage difference between the repulsive electrode (8) and the peripheral electrode (7) creates an electrical repulsive field (4), which repulses the particles of soot having an electrical charge. The formation of a conducting channel (5) on the surface of said insulating components (2) between the central electrode (6) and the peripheral electrode (7) can thus be avoided.

Description

METHOD AND DEVICE FOR PREVENTING THE DEPOSITION OF SOOT ON THE INSULATING PARTS OF AN ELECTROSTATIC FILTER

Field concerned, problem posed

The invention relates to a method and a system for preventing, in an electrostatic filter comprising insulating parts, the deposition of soot particles on the insulating parts.

In electrostatic filtration systems comprising a central electrode and a peripheral electrode, the formation of a soot film is observed on the surface of the insulators which hold the central and peripheral electrodes. Under the effect of the high voltage applied between these electrodes, a conductive channel is formed in the soot deposited on the walls. The applied voltage collapses: the electrostatic filtration efficiency is reduced or even canceled. The object of the invention is to prevent the deposition of soot on the insulating parts of the electrostatic filtration system by an efficient and energy-efficient means. PRIOR ART Various companies interested in the problems of electrostatic filtration applied to the automobile have tried to propose a solution to the problem posed. Among the various solutions already described, there will be mentioned:

- The solution taught by US patent 5,263,317. It consists in projecting an air flow to remove the soot from the insulating parts.

- The solution taught by US patent 5,006,134. It consists of using resistors placed in contact with the insulating parts to burn off the soot.

The solutions proposed have the major drawbacks of being difficult to implement, ineffective and / or highly energy consuming.

Solution Method The invention relates to a method for preventing, in an electrostatic filter comprising insulating parts, the deposition of soot particles on the insulating parts. The method according to the invention comprises the step of creating an electric repulsion field in the vicinity of the insulating parts. This prevents the formation of a conductive channel on the surface of the insulating parts. Preferably, according to the invention the electrostatic filter comprises at least one central electrode and one peripheral electrode held by the insulating parts. In the case of this alternative embodiment, to create the electric repulsion field: - at least one of the insulating parts is placed in or on at least one repulsion electrode,

- an adequate voltage is applied to the repulsion electrode.

It results from the combination of technical features that the potential difference between the repulsion electrode and the central electrode, as well as the potential difference between the repulsion electrode and the peripheral electrode, creates an electric field repelling the soot particles. This prevents the formation of a soot film on the surface of the insulating parts. This prevents the formation of a conductive channel on the surface of the insulating parts, in and / or on the soot film, between the central electrode and the peripheral electrode.

Preferably, according to the invention the voltage applied to the repulsion electrode is between -10 KV and -25 KV. Preferably, according to the invention the potential difference between the repulsion electrode and the central electrode is between -35 KV and 0 KV.

Preferably, according to the invention the method is such that the potential difference between the repulsion electrode and the peripheral electrode is between -10 KV and -25 KV.

System

The invention also relates to a system for preventing, in an electrostatic filter comprising insulating parts, the deposition of soot particles on the insulating parts. The system includes means for creating an electric repulsion field in the vicinity of the insulating parts. This prevents the formation of a conductive channel on the surface of the insulating parts. Preferably, according to the invention the electrostatic filter comprises at least one central electrode and one peripheral electrode held by the insulating parts. In the case of this alternative embodiment, the repulsion means for creating an electric repulsion field in the vicinity of the insulating parts include:

- a repulsion electrode located in or on the insulating part, an adequate voltage generator connected to the repulsion electrode. The potential difference between the repulsion electrode and the central electrode, as well as the potential difference between the repulsion electrode and the peripheral electrode, creates an electric field repelling the soot particles. This prevents the formation of a soot film and, correspondingly, the formation of a conductive channel on the surface of the insulating parts between the central electrode and the peripheral electrode.

Preferably, the repulsion electrode is mounted on the central electrode and has the shape of a bell covering the insulating parts.

Preferably, according to the invention the voltage supplied by the voltage generator and applied to the repulsion electrode is between - 10 KV and - 25 KV. Preferably, according to the invention the voltage supplied by the voltage generator is such that the potential difference between the repulsion electrode and the central electrode is between -35 KV and 0 KV.

Preferably, according to the invention the voltage supplied by the voltage generator is such that the potential difference between the repulsion electrode and the peripheral electrode is between -10 KV and -25 KV.

Detailed description Other characteristics and advantages of the invention will appear on reading the description of alternative embodiments of the invention given by way of non-limiting example, and from: FIG. 1 which represents a schematic view, in cutaway perspective, of an alternative embodiment of the invention, FIG. 2a and FIG. 2b which respectively represent a view from the left and a view in partial section of the variant of FIG. 1, Figure 3 which shows a schematic sectional view of another alternative embodiment of the invention.

We will now describe Figures 1, 2a and 2b. The electrostatic filter 1 comprises at least one central electrode 6 and a peripheral electrode 7 (forming the outer wall of the electrostatic filter 1). The central electrode 6 and the peripheral electrode 7 are held by insulating parts 2. The exhaust gases from the engine from which it is necessary to remove the soot enter via inlet pipes 10 and exit through outlet pipes 11 The electrostatic filter 1 also includes repulsion means for creating an electric repulsion field 4 in the vicinity of the insulating parts 2. These repulsion means comprise a repulsion electrode 8, 12 located in the insulating part and a voltage generator 9 connected to the repulsion electrode 8, 12. In an alternative embodiment, the metal repulsion electrode 8, 12 is covered with an insulating material, in particular an enamel layer.

The potential difference between the repulsion electrode 8 and the central electrode 6, as well as the potential difference between the repulsion electrode 8 and the peripheral electrode 7, creates an electric repulsion field repelling the soot particles. This prevents the deposition of soot particles 3 on the insulating parts 2 and the formation of a soot film on the surface of the insulating parts 2. This prevents the formation of a conductive channel 5 on the surface of the insulating parts 2 , in and / or on the deposit of soot particles 3, between the central electrode 6 and the peripheral electrode 7.

The voltages supplied by the voltage generator 9 and applied to the repulsion electrode 8 are suitable for this purpose. The repulsion electrode 8 can be:

- at the same potential as the central electrode 6,

- at a potential different from that of the central electrode 6, in this case the potential of the repulsion electrode 8 is of the same sign as the potential of the central electrode 6, - at a potential lower than the potential of the central electrode 6.

Preferably, the voltage supplied by the voltage generator 9 and applied to the repulsion electrode 8 is between - 10 KV and - 25 KV.

Preferably, the voltage supplied by the voltage generator 9 is such that the potential difference between the repulsion electrode 8 and the central electrode 6 is between -35 KV and 0 KV. Preferably, the voltage supplied by the voltage generator 9 is such that the potential difference between the repulsion electrode 8 and the peripheral electrode 7 is between -10 KV and -25 KV.

We will now describe Figure 3 which shows a schematic sectional view of another alternative embodiment of the invention. We recognize in this figure most of the elements described with reference to Figures 1, 2a and 2b. They have the same reference numbers.

In the case of this other alternative embodiment, the repulsion electrode 8 is mounted on the central electrode 6, near the insulating cylindrical part 2 carrying the central electrode 6. The repulsion electrode 8 has the form d 'a bell extending above the insulating parts 2. More specifically, the bell-shaped repulsion electrode 8 is closed by a disc 8a fixed to the central electrode 6. The plane of the disc 8a is perpendicular to the 'central electrode 6. The disc 8a is extended by a cylindrical tube 8b surrounding the insulating part 2a carrying the central electrode 6 and extending to the vicinity of the annular part 2b of the insulating part carrying the peripheral electrode 7. An annular disc 8c is fixed to the tube 8b, parallel to the annular part 2b of the insulating part, near the latter. A cylindrical skirt 8d is fixed to the annular disc 8c. The cylindrical skirt 8d is concentric with the peripheral electrode 7 and st located near it. The elements 8a, 8b, 8c and d form the bell 8.

Claims

1. Method for preventing, in an electrostatic filter (1) comprising insulating parts (2), the deposition of soot particles (3) on said insulating parts (2); said method comprising: - the step of creating an electric repulsion field

(4) in the vicinity of said insulating parts (2); so that the formation of a conductive channel (5) is thus prevented on the surface of said insulating parts (2).

2. Method according to claim 1; said electrostatic filter (1) comprising at least one central electrode

(6) and a peripheral electrode (7) held by said insulating parts (2); said method being such that to create said electric repulsion field (4): - at least one of the insulating parts (2) is placed in or on at least one repulsion electrode (8),

- An adequate voltage is applied to said repulsion electrode (8); so that the potential difference between said repulsion electrode (8) and said central electrode (6), as well as the potential difference between said repulsion electrode (8) and said peripheral electrode (7), creates an electric field of repulsion (4) repelling electrically charged soot particles; so that the formation of a conductive channel (5) is thus prevented on the surface of said insulating parts (2) between said central electrode (6) and said peripheral electrode (7).

3. Method according to any one of claims 1 or 2; said method being such that the voltage applied to the repulsion electrode (8) is between -10 KV and -25 KV.

4. Method according to claim 3; said method being such that the potential difference between the electrode repulsion (8) and the central electrode (6) is between -35 KV and 0 KV.

5. Method according to claim 3; said method being such that the potential difference between the repulsion electrode (8) and the peripheral electrode (7) is between -10 KV and -25 KV.

6. System for preventing, in an electrostatic filter (1) comprising insulating parts (2), the deposition of soot particles (3) on said insulating parts (2); said system comprising:

- Means for creating an electric repulsion field (4) in the vicinity of said insulating parts (2); so that the formation of a conductive channel (5) is thus prevented on the surface of said insulating parts (2).

7. The system of claim 6; said electrostatic filter (1) comprising at least one central electrode (6) and a peripheral electrode (7) held by said insulating parts (2); said repulsion means for creating an electric repulsion field (4) in the vicinity of said insulating parts (2) comprising:

- a repulsion electrode (8) located in or on the insulating part,

- an adequate voltage generator (9) connected to said repulsion electrode (8); so that the potential difference between said repulsion electrode (8) and said central electrode (6), as well as the potential difference between said repulsion electrode (8) and said peripheral electrode (7), creates an electric field repelling electrically charged soot particles; so that the formation of a conductive channel (5) is thus prevented on the surface of said insulating parts (2) between said central electrode. (6) and said peripheral electrode (7).

8. System according to claim 7; said repulsion electrode (8) being mounted on said central electrode (6) and having the shape of a bell covering the insulating parts (2).

9. System according to any one of claims 6 to 8; the voltage supplied by said voltage generator (9) and applied to the repulsion electrode (8) being between - 10 KV and - 25 KV.

10. The system of claim 9; the voltage supplied by said voltage generator (9) being such that the potential difference between the repulsion electrode (8) and the central electrode (6) is between -35 KV and 0 KV.

11. System according to claim 9; the voltage supplied by said voltage generator (9) being such that the potential difference between the repulsion electrode (8) and the peripheral electrode (7) is between -10 KV and -25 KV.