Power plants – Internal combustion engine with treatment or handling of... – Methods
Reexamination Certificate
1998-09-16
2001-01-16
Chapman, Jeanette (Department: 3748)
Power plants
Internal combustion engine with treatment or handling of...
Methods
C060S286000, C060S301000, C123S429000
Reexamination Certificate
active
06173568
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention belongs in the automotive field. More specifically, the invention pertains to a method and a device for operating an internal combustion engine which runs with an excess of air. The exhaust gas flow is thereby guided, by means of a main exhaust pipe over an NO
x
catalytic converter unit with an SCR catalytic converter and a device for injecting a reducing agent. The load state of the internal combustion engine is thereby constantly determined in the process.
The emissions of nitrogen oxides from an internal combustion engine which is operated with an excess of air, in particular a diesel internal combustion engine, can be reduced with an ammonia-containing reducing agent on a selectively operating catalytic converter (SCR catalyst) to form N
2
and H
2
O (SCR=Selective Catalytic Reduction). The reducing agent is either gaseous ammonia (NH
3
), ammonia in aqueous solution, or urea in aqueous solution. If urea is used as the reducing agent, the urea is injected into the exhaust system upstream of a hydraulysis catalytic converter, where it is converted by means of hydrolysis into ammonia, which then for its part reduces the nitrogen oxides in the actual SCR catalytic converter. With such a method, when the internal combustion engine load is increased rapidly, the result is a particularly high NO
x
emission. The main reason for this is that when the load is increased the emission of crude NO
x
from the internal combustion engine increases suddenly. At the same time, the adsorption capacity of the SCR catalyst falls with the rise in temperature of the exhaust gas and catalyst.
An additional problem arises in warmup operation, when the catalyst has not yet reached its operating temperature or light-off temperature. In this case, the nitrogen oxides are not converted. By reducing the NO
x
emissions further in both the above-mentioned operating states, the average conversion in the exhaust gas test could be increased considerably.
U.S. Pat. No. 5,362,463 to Stiles (published international application WO 94/04258) describes a method for the catalytic conversion of the nitrogen oxides contained in the exhaust gas from an internal combustion engine. There, a conventional DeNox method with the addition of reducing agents is combined with a NO
x
adsorber. In this case, the NO
x
adsorber plays the main role in reducing the NO
x
emissions, in that in each case the adsorber is loaded up and the exhaust gas produced by desorption of the adsorber is fed to a DeNox catalyst. Such a method has the drawback that the SCR catalyst is adjusted to the particular amount of exhaust gas with a high NO
x
concentration only to an unsatisfactory extent. In addition, previous adsorber systems had a service life which was unsatisfactory. This applies particularly in the context of sulfur-containing fuels.
Further methods comprising the simultaneous use of NO
x
adsorbers and DeNox systems are described in German published applications DE 196 26 835, DE 196 26 836, DE 196 26 837 and in European patent application EP 0 702 134.
The exhaust gas system described in DE 196 26 835 has two exhaust gas paths which can alternately be opened by a valve, an NO
x
storage catalyst being provided in one path and an oxidation catalyst being provided in the other path. A fuel injection, which is controlled via a lambda probe arranged downstream of the NO
x
storage catalyst, is connected upstream of the NO
x
storage catalyst. After the two exhaust gas paths have been combined, an oxidation catalyst is provided. In overrun conditions and idling conditions of the diesel internal combustion engine, the valve closes the exhaust gas path containing the NO
x
storage catalyst from the exhaust gas flow, so that there is only a minimum flow through the NO
x
storage catalyst. At the same time, by injecting fuel into the minimum through-flow a lambda value &lgr;<1 is produced, so that the NO
x
storage catalyst is regenerated.
2. Summary of the Invention
It is accordingly an object of the invention to provide a method and device for operating an internal combustion engine operating with an excess of air title, which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and which further reduces the NO
x
emissions during transient conditions, in particular when the load is increased on the internal combustion engine and in warmup mode, by comparison with what can be achieved using conventional SCR systems. In addition, it is intended to match the service life of the entire system to the service life of the vehicle, i.e. the period for which exhaust gas can be applied to the adsorber is to be limited to a minimal time period.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method of operating an internal combustion engine running with an excess of air, which comprises:
conducting an exhaust gas flow through a main exhaust pipe and through a NO
x
catalytic converter unit having at least an SCR catalytic converter and a device for injecting reducing agent into the exhaust gas flow;
constantly determining a load state of the internal combustion engine during the conducting step;
if the load of the internal combustion engine increases rapidly or if the internal combustion engine is in warmup operation, diverting at least part of the exhaust gas flow via a bypass system and to an adsorption catalytic converter; and
loading the adsorption catalytic converter by guiding the exhaust gas through a series circuit comprising the adsorption catalytic converter and the SCR catalytic converter.
By incorporating a bypass to the exhaust pipe by means of an electrically actuable exhaust gas valve, under certain operating states of the internal combustion engine, in particular when the load is increasing rapidly or during warmup, part or all of the exhaust gas flow can be guided over the adsorption catalyst, which is then generally relatively cool. The NO
x
contained in the exhaust gas is then adsorbed in a particularly favorable manner.
In accordance with an added feature of the invention, the diverting step comprises driving an exhaust gas valve disposed in the main exhaust pipe with an electric actuator and diverting the gas flow from the main exhaust pipe and into the bypass system.
In accordance with an additional feature of the invention, the diverting step comprises switching over the exhaust gas flow to the bypass system in dependence of an accelerator pedal position driving the internal combustion engine or a change over time of the accelerator pedal position.
In accordance with another feature of the invention, the diverting step comprises switching over the exhaust gas flow to the bypass system in dependence on a fuel injection volume of the internal combustion engine.
In accordance with a further feature of the invention, the diverting step comprises switching over the exhaust gas flow to the bypass system in dependence on one of the temperature of the SCR catalytic converter and the temperature of the exhaust gas upstream and downstream of the SCR catalytic converter.
In accordance with again an added feature of the invention, a hydrolysis catalytic converter is provided upstream of the SCR catalytic converter in the gas flow direction.
In accordance with again an additional feature of the invention, the exhaust gas flow is guided over a hydrolysis catalytic converter connected upstream of the adsorption catalytic converter and in the bypass system, and a desorption operation is initiated at specific time intervals by briefly supplying fuel or a reducing agent.
In accordance with again another feature of the invention, the initiating step comprises initiating the desorption operation when a level of NO
x
loading on the adsorption catalytic converter has exceeded a predetermined threshold value.
In accordance with again a further feature of the invention, the level of NO
x
loading on the adsorption catalytic converter is determined with a NO
x
Dolling Winfried
Latsch Reinhard
Tost Rainer
Z{umlaut over (u)}rbig J{umlaut over (u)}rgen
Chapman Jeanette
Greenberg Laurence A.
Lerner Herbert L.
Siemens Aktiengesellschaft
Stemer Werner H.
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