Gas separation – Specific media material – Ceramic or sintered
Reexamination Certificate
2001-02-09
2002-10-08
Simmons, David A. (Department: 1724)
Gas separation
Specific media material
Ceramic or sintered
C055S385300, C055SDIG001, C055SDIG002, C055SDIG003, C422S174000, C422S177000, C422S178000, C422S180000, C060S303000, C060S311000
Reexamination Certificate
active
06461398
ABSTRACT:
TECHNICAL FIELD
This invention concerns a regenerable particle filter for removing soot particles from exhaust gases.
BACKGROUND OF THE INVENTION
Such a device for purifying the exhaust gases from diesel engines is described in DE 38 24 578 C2. In this device, inside the filter housing and in the direction of flow in front of the filter body, an electric heating device is present for heating the inflowing exhaust gas to a temperature which is sufficient to ignite the soot particles deposited in the channels of the filter body. Since the entire quantity of exhaust gas must be heated to the ignition point, a considerable quantity of energy is necessary for this which is generally unavailable in a motor vehicle.
In order to reduce the energy costs for reaching the ignition point for soot deposited on ceramic filters in a conventional soot filter for diesel engines, it is proposed in DE 35 29 684 A1 that partial segments of the filter be provided with electric heaters and that the quantity of exhaust gas flowing through the partial segments be electrically heated successively segment by segment to the ignition point of the soot.
Since a stream of gas is also used in this soot filter as the medium for heat transfer from the electric heaters to the soot deposits, here also very high heating capacities are required which are also necessary during the entire regeneration process.
DE 36 22 623 A1 describes an apparatus for removing the soot retained in the exhaust gas filter of an internal combustion engine in which the soot deposited on the filter is ignited by the electric current flowing through the soot deposit itself, because the deposited soot acts as a heat conductor.
Such a device, however, does not operate reliably since the consistency of the soot deposit is not always constant and therefore currents of different intensity are required for heating.
De 39 02 812 C1 describes an electrostatic separator for separating soot particles from the stream of exhaust gas from incineration devices or combustion engines and their catalytically initiated combustion triggered by an electric heating device. As a heating device here a heat conductor wrapped around the outer circumference of an insulator for a high voltage electrode is used which is additionally coordinated with a thermostatically regulated electric heating device whose surface is designed as a catalyst.
Such a device is very costly to construct and scarcely applicable in a motor vehicle because of the costs involved.
EP 0 383 187 B1 describes a system for regenerating a particle filter in which electrically heated air is transported by an air pump to the front side of the filter. The cost here is also considerable and too high for a conventional motor vehicle.
DE 41 03 653 C1 describes a soot burn-off filter of porous ceramic material with alternately closed exhaust gas channels for filtration of the exhaust gases from diesel engines and with a high voltage ignition system arranged on the exhaust gas outlet side of the filter. One of the high voltage electrodes in this case runs along the exhaust gas channels in the filter. The other electrode lies on the exhaust gas outlet side. The closing plug of the exhaust gas channel is used as the electrode support. The soot deposits are ignited by a spark jump between the electrodes. The disadvantage is that for this filter a high voltage must be generated, and precautions must be taken in order to prevent people from coming into contact with the high voltage parts.
DE 198 24 285 A1 describes a soot filter in which, in order to reduce the ignition point of the soot particles, the ceramic filter body is made up of knit fabric of very fine ceramic threads which have a heat-proof wire drawn through them and are provided with a catalytic coating. Such a soot filter does indeed lower the ignition point of the soot. Selective regeneration, however, can be achieved only by modulating the exhaust gas temperature, which in turn necessitates intervention in the engine combustion process. Such a soot filter is also relatively costly.
SUMMARY OF THE INVENTION
The invention has the objective of devising a regenerable particle filter for removing soot particles from exhaust gases, especially exhaust gases from diesel engines installed in motor vehicles, which filter can be produced and operated at relatively low cost, and can be regenerated with an energy expenditure acceptable onboard a motor vehicle and whose regeneration process takes places without supplying additional energy after starting.
In a generic particle filter the exhaust gas stream on one side of the filter body enters into the open channels on said side, flows through the pores of the walls and in this way passes into the open channels of the filter body on the downstream side. The soot particles present in the exhaust gas stream are retained on the surface of the porous walls inside the channels open on the intake side. Since the flow velocity of the exhaust gas inside these channels decreases steadily up to their closed ends the particles reduce their velocity as a result of their mass, but to a lesser degree than the gas, so that the particles accumulate at the closed end of the channel more strongly than on the parts of the walls lying further toward the inlet opening. By arranging heating elements on the closed rear end of this channel, the quantity of deposited soot particles can be ignited there to an intensified degree. This is also superior to the case of known soot filters with heating devices in the exhaust gas inlet to the extent that the exhaust gas with a temperature lower than the ignition point flowing into the filter body moves forward only with low intensity up to the closed end of the channel and therefore cannot cool the surroundings of the heating element. After ignition of the significant quantity of soot particles lying against the heating element the adjacent temperature is further increased by the combustion of the soot particles and the combustion process propagates in the soot particles deposited along the channel wall in the direction of the gas inlet opening. The CO
2
and CO forming during this combustion can pass through the porous wall of the filter body and are decontaminated in a catalyst connected after the particle filter.
The ignition and burning behavior of the soot particle deposit can be further improved by catalytic coating of the walls of the channels of the filter body receiving the exhaust gas with a catalyst which lowers the ignition point of the diesel soot.
It is also possible to provide a surface facing the channels of the heating elements with catalytic coating which reduces the ignition point of the soot.
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Friedel Karl Heinz
Peters Bruce
Zima Peter
General Motors Corporation
Hodges Leslie C.
Pham Minh-Chan T.
Simmons David A.
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