Power plants – Internal combustion engine with treatment or handling of... – By means producing a chemical reaction of a component of the...
Reexamination Certificate
2002-03-13
2003-02-04
Denion, Thomas (Department: 3748)
Power plants
Internal combustion engine with treatment or handling of...
By means producing a chemical reaction of a component of the...
C060S299000, C060S303000, C422S174000, C422S177000
Reexamination Certificate
active
06513324
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The present invention relates to a device for emission control or cleaning of exhaust gas from an internal combustion engine, in particular a diesel engine. At least one catalyst carrier body, through which the exhaust gas can flow, has a honeycomb structure and is disposed in a casing tube. An electrical heating element has a power connection at each of its ends and a twisting current path is established in the heating element over an electrically isolating gap.
Such a device is known, for example, from European Patent EP 0 783 621 B1, corresponding to U.S. Pat. No. 5,768,889. Applicant's brochure entitled “Elektrisch Heizbarer Katalysator Emicat” [Emicat Electrically Heatable Catalytic Converter], which deals at length with the history of the development of heatable honeycomb bodies and their structure, also contains extensive information.
The known configurations are based essentially on the concept that the heatable honeycomb body is disposed upstream of a catalyst carrier body in flow direction, in order to ensure that it can rapidly heat up the latter when required. In that respect, the known configurations are based on the concept that the cross-sectional area should be heated as homogeneously as possible, so that the electrically isolating gap is kept small and by far the greatest part of the cross-sectional area is heated.
Although it is already known from European Patent EP 0 557 309 B1, corresponding to U.S. Pat. No. 5,417,062, to place a heatable honeycomb body downstream of a catalyst carrier body, that concept is based on the realization that the first slice of a catalytic converter configuration ages during its lifetime as result of high temperatures and other processes. In other words, it is impaired in its catalytic activity, for which reason it is only a region further downstream that is heated. It is also intended in that manner to compensate for what is known as poisoning of the first slice of the catalytic converter configuration by certain components in the fuel.
Concepts are also known in which a cross section that in principle is uniformly filled with electrically heatable sheet-metal layers or metallic structures is heated unevenly by special measures, in particular by producing certain hot regions (hot spots). Such concepts require a relatively complicated production technique to create structures which have a higher electrical resistance at certain locations and a lower electrical resistance at other locations.
In the case of electrically heatable honeycomb bodies in exhaust systems of internal combustion engines, which are intended to heat up other components, it is not only a matter of homogeneously or inhomogeneously heating up a honeycomb body to certain temperatures. In particular, it is also a matter of giving off the heating output to a downstream component and/or the exhaust gas flowing through.
A simple heating wire, for example, could not give off sufficient heat due to its small surface area. In order to heat up a downstream honeycomb body to a certain minimum temperature, for example for burning off accumulated particulates or for triggering a catalytic reaction, a heatable honeycomb body must therefore not only reach the necessary temperature itself but also be able to give off that heat to the exhaust gas or to a downstream honeycomb body.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a device with a heating element for cleaning exhaust gas from an internal combustion engine, which overcomes the hereinafore-mentioned disadvantages of the heretofore-known devices of this general type, which permits rapid and effective heating of a downstream element, especially a particulate filter and which at the same time is mechanically stable and able to be operated with a current intensity suitable for motor vehicles.
With the foregoing and other objects in view there is provided, in accordance with the invention, a device for cleaning exhaust gas from an internal combustion engine, in particular a diesel engine, comprising a casing tube. At least one catalyst carrier body through which exhaust gas can flow in a flow direction, is disposed in the casing tube and has a honeycomb structure. An electrically heating honeycomb body is disposed downstream of the at least one catalyst carrier body in the exhaust gas flow direction. The honeycomb body has ends and power connections each disposed at a respective one of the ends. The honeycomb body defines a twisting current path over an electrically isolating gap. The honeycomb body has a first cross-sectional area, the gap has a second cross-sectional area, and the first and second cross-sectional areas are in a ratio of less than 2. Electrically insulating supporting elements fasten the honeycomb body to the at least one catalyst carrier body.
The honeycomb body has a large surface area, so that good heat transfer to the exhaust gas flowing through is ensured. The heat being generated can be transferred rapidly to the exhaust gas or a downstream component as a result and by radiation. A heating output possibly given off by radiation to the catalyst carrier body disposed upstream in the direction of the exhaust gas is in turn given off from this body to the exhaust gas, so that the full heating output is available for the downstream component.
In accordance with another feature of the invention, the honeycomb body is shaped in such a way that the current path has an approximately meandering or spiraling form.
In a particularly preferred embodiment, the gap is very much larger than in the known configurations, as described in particular in the “Elektrisch Heizbarer Katalysator Emicat” [Emicat Electrically Heatable Catalytic Converter] brochure cited above. In the device according to the invention, the structure in principle corresponds to the “Heating Catalyst Series 6” shown therein. However, firstly the configuration is the other way around with respect to the direction of flow and secondly the electrically isolating gap is very much larger than in the case of known devices.
In accordance with a further feature of the invention, the ratio of the cross-sectional area of the heatable honeycomb body to the cross-sectional area of the gap is less than 1. That means that the width of the gap is larger than the width of the heatable honeycomb body which forms the twisting current path.
Nevertheless, the electrical properties of the heating element can still be set as desired. If a constant typical extent of the heating element of 5 to 20 mm in the flow direction is assumed, in particular 10 mm, an enlargement of the gap width means that the length of the current path in the heating element must be shortened and/or that the number of parallel sheet-metal layers in the current path must be reduced and/or that the size of the cells in the current path must be reduced. It is especially the last of the possibilities mentioned which allows more heating output to be introduced into partial streams of the exhaust gas which pass through the heating element (and not through the gap), given the same heating output (the electrical resistance does not change significantly as a result of a reduction of the cells but with all of the other parameters staying the same). Hot streaks that are produced in this way can partially heat up a downstream component, which is particularly favorable for the setting off of a catalytic reaction or in particular for the ignition of particulates accumulated in a particulate filter.
In accordance with an added feature of the invention, the gap in the heatable honeycomb body may have either a width which is approximately the same over its extent, whereby hot partial streams are produced in all of the cross-sectional regions, or the gap may have a width which increases in the direction of the casing tube. The latter is adapted to the typical flow distribution in an exhaust system, so that more heating output can be created in the interior of the system than in the outer regions.
In acco
Brück Rolf
Kaiser Friedrich-Wilhelm
Kotthoff Hubertus
Denion Thomas
Emitec Gesellschaft fuer Emissions-technologie mbH
Greenberg Laurence A.
Mayback Gregory L.
Stemer Werner H.
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