DE102006025679A1 - Exhaust system for an internal combustion engine and method for the regeneration of an exhaust gas purification system - Google Patents

Abstract

An exhaust system for an internal combustion engine has at least one exhaust gas purification system (12) and an evaporation unit (20) by means of which an oxidizable liquid can be vaporized and introduced into the exhaust stream upstream of the exhaust gas purification system (12), the evaporation unit (20) being arranged in a chamber (FIG. 22) arranged heating element (24). The evaporation unit (20) is preceded by a water heater principle preheating device (28) upstream of the liquid, which preheats the liquid, if necessary. Furthermore, a method for the regeneration of an exhaust gas purification system (12) in an exhaust system (10) of an internal combustion engine is presented.

Description

The invention relates to an exhaust system for an internal combustion engine, comprising at least one exhaust gas purification system and an evaporation unit, by means of which an oxidizable liquid can be vaporized and introduced into the exhaust gas stream upstream of the exhaust gas purification system, the evaporation unit having a heating element arranged in a chamber. Furthermore, the invention relates to a method for regeneration of an exhaust gas purification system in an exhaust system of an internal combustion engine. Exhaust gas purification systems according to the invention are, in particular particulate filter and NO _x storage catalytic converters.

A generic exhaust system is from the EP 1 369 557 A1 known. Its evaporation unit has as heating element a glow plug, by means of which diesel fuel is vaporized and introduced into the exhaust gas flow upstream of a diesel particulate filter or NO _x storage catalyst in order to regenerate the filter or catalyst at periodic intervals.

As has turned out is a comparatively large electrical Energy needed, to fuel with the help of a glow plug evaporate, with about 60% of this energy already needed, bring the fuel from ambient to boiling temperature. The fuel is not complete evaporated, so enters a mixture of liquid and vapor fuel in the exhaust flow, which may be not completely evaporated in the exhaust gas will not mix satisfactorily with it can, whereby the regeneration of the exhaust gas purification system takes longer or incomplete can be.

One in the EP 1 369 557 A1 proposed possibility not to overload the electrical system of a vehicle by the power supply of the glow plug, is to precede the evaporation unit a preheating stage. This includes a temporary storage in which the amount of fuel required for a single regeneration of the particulate filter is temporarily stored and preheated over a longer period of time.

The Regeneration of a particulate filter takes place approximately every 500 km. In the Meanwhile, there is the oxidizable liquid, especially diesel fuel, in the preheating stage and changes this may be their properties (so-called aging of the liquid, especially at Diesel fuel), which could contaminate the preheat stage.

The The invention provides an exhaust system or a method for regeneration an exhaust gas purification system in which an oxidizable liquid evaporates reliably and is introduced into the exhaust stream.

According to the invention this is in an exhaust system of the type mentioned achieved in that the evaporation unit a pre-heater operating on the instantaneous water heater principle for the liquid upstream of the liquid as needed preheats. By the invention, the amount of energy for evaporation not just provided by the evaporation unit, mostly a small flow path for the Fuel heating Has. Due to the water heater principle, before the evaporation unit provided only the necessary amount of energy at short notice, the the evaporation unit can not apply. The preheater is preferably spatial separated from the evaporation unit and fluidly via a line with this connected. So it does not become a predetermined amount of liquid in a preheating stage cached and over longer time preheated but the liquid is only when needed, namely if a regeneration is due, according to the principle of a water heater heated. This will get the liquid already with a high temperature in the evaporation unit, the then only a relatively small amount of energy can be supplied must, um the liquid completely closed evaporate. Due to the embodiment of the invention is a Contamination of the preheater largely prevented there the liquid only during the regeneration phase (before) is heated. In addition, stands out the inventive solution by a comparatively low energy consumption.

The Preheater should be thermally separated from the exhaust stream, So it will not be warmed up by this, as a constant warming through the hot Exhaust also, e.g. because of the so-called aging of the liquid, could lead to contamination of the preheater. Moreover, the use of the Vorheizeinrichtung yes just then advantageous if the exhaust stream is cold.

According to one preferred embodiment is in the preheater to an electric preheater. This can be controlled very easily.

For this can be a control unit for the preheating device may be provided, that of the liquid supplied Amount of heat energy controls, in the case of an electrical preheater by simply appropriate control of a power supply.

A particularly simple embodiment he is characterized in that it is the preheater to a heated pipe or hose. This provides a comparatively long flow path for the liquid to be heated, whereby a large amount of heat is absorbed by the liquid.

Preferably the pipe or hose is wrapped with a heating wire, which is connected to a voltage source.

Around the space required low, the pipe is coiled. Also a ring line is possible in this context.

alternative The tubing may be considered a substantially unbent tube of extend a tank to the chamber. In this way, the preheater to the available Space adaptable.

As already mentioned, If the oxidizable liquid is fuel, in particular to Diesel fuel.

The Exhaust gas purification system includes preferably a particle filter, in particular with upstream Oxidation catalyst, in the latter case the oxidizable vapor is converted to heat the exhaust.

According to one second aspect of the invention is a method for regeneration an exhaust purification system provided in an exhaust system, such as she has already been described. The method has the following Steps to: After a regeneration requirement is detected became, becomes the liquid by means of the flow heater principle in the preheater and subsequently heated in the evaporation unit to evaporation. Finally will the generated steam is introduced into the exhaust stream to the exhaust gas purification system regenerate.

Further Features and advantages of the invention will become apparent from the following Description of two preferred embodiments with reference to the accompanying drawings. In this shows:

1 a schematic representation of an exhaust system according to a first embodiment of the invention; and

2 a schematic representation of an exhaust system according to a second embodiment of the invention.

1 shows a detail of an exhaust system 10 for an internal combustion engine, in particular a motor vehicle diesel engine (not shown), which is an exhaust gas purification system 12 , here a particle filter 14 with upstream oxidation catalyst 16 , or a NO _x storage catalyst 14 . 16 having. At a line section 18 upstream of the emission control system 12 is an evaporation unit 20 arranged one in a chamber 22 seated heating element 24 having in the form of a glow plug. The evaporation unit 20 is on a fluid line 26 for an oxidizable liquid, in particular a fuel line, connected.

The evaporation unit 20 is a pre-heater operating on the instantaneous water heater principle 28 upstream, spatially from the evaporation unit 20 separated and over the liquid line 26 is fluidly connected to this. The preheater 28 is how out 1 can be seen, thermally separated from the exhaust stream and includes a coiled tubing 30 that with a heating wire 32 is wrapped. Further, a control unit 34 provided, which is the power supply of the heating wire 32 controls.

Will now be a regeneration requirement of the emission control system 12 determined, then the preheater 28 activated by the power supply of the heating wire 32 through the control unit 34 is turned on. In this way, the liquid passing through the heated pipeline 30 flows, a certain amount of heat energy supplied. The liquid is thus preheated and reached in this preheated state via the line 26 the evaporation unit 28 , for example, at the same time as the preheater 28 by switching on the heating element 24 has been activated. In the evaporation unit 20 the oxidizable liquid (here fuel) is evaporated, if not yet in the preheater 28 happen, and through one in the line section 18 protruding part of the evaporation unit 20 introduced into the exhaust stream. The fuel vapor is in the oxidation catalyst 16 implemented and thereby the exhaust gas heated, causing the particulate filter 14 is regenerated.

In the embodiment according to the invention is thus by the preheater 28 the liquid is preheated only as needed, namely when a regeneration requirement exists. Eventually, the system may be designed so that the preheating occurs only when the temperature in the pipeline 30 below a certain threshold, which is for example by one with the control unit 34 coupled temperature sensor can be determined (not shown). If the exhaust gas flow is hot enough to completely vaporize liquid droplets reaching the exhaust gas stream, preheating can be dispensed with. However, the preferred embodiment of the invention provides that the evaporation unit 20 alone for the supply of the evaporation energy is responsible. The preheating, however, should bring the liquid to evaporation temperature. However, this means due to the different ambient temperatures a non-constant energy requirement for the preheater 28 their temperature to be delivered to the liquid must therefore preferably be adapted continuously to the ambient conditions. The advantage of this is that at the same fuel mass flow then the evaporation unit 20 always absorbs the same amount of energy, so that their dimensions (eg surface of the corresponding glow plug and also the surface temperature) can be set very accurately. If the evaporation unit 20 only responsible for the supply of the evaporation energy, this contributes to the fact that their surface temperature can be chosen lower overall. When using a glow plug their coking is avoided.

At low ambient temperatures will also freeze the pipeline 30 avoided.

The fast and possible Fine distribution of the steam in the pipeline is in the invention especially achieved by virtue of the low partial pressure of the vapor, a condensation of the liquid is avoided. The partial pressure of the vapor, especially when using Diesel steam, therefore, is very low, because the vapor content of the total exhaust gas mass flow is very low. This also reduces the steam / condensation temperature far below the known temperature range of the diesel (180 to 380 ° C) to below 100 ° C.

2 shows an alternative embodiment of the exhaust system according to the invention 10 , which differs from the previously described only in that the pipeline 30 itself as a substantially unbent long pipe from a tank 36 for the liquid, here the fuel tank of the vehicle, to the evaporation unit 28 or their chamber 22 extends. In this case forms the liquid line 26 also the pipeline 30 ,

10

exhaust system

12

emission Control system

14

particulate Filter

16

oxidation catalyst

18

line section

20

Evaporation unit

22

chamber

24

heating element

26

liquid line

28

preheater

30

pipeline

32

heating wire

34

control unit

36

tank

Claims (11)

Exhaust system for an internal combustion engine, with at least one exhaust gas purification system ( 12 ) and an evaporation unit ( 20 ) by means of which an oxidizable liquid evaporates and into the exhaust gas stream upstream of the exhaust gas purification system ( 12 ), wherein the evaporation unit ( 20 ) in a chamber ( 22 ) arranged heating element ( 24 ), characterized in that the evaporation unit ( 20 ) a preheating device operating according to the instantaneous water heater principle (US Pat. 28 ) is preceded by the liquid, which preheats the liquid, if necessary. Exhaust system according to claim 1, characterized in that the preheater ( 28 ) is thermally separated from the exhaust stream. Exhaust system according to claim 1 or 2, characterized in that it is in the preheater ( 28 ) is an electric preheater. Exhaust system according to one of the preceding claims, characterized in that a control unit ( 34 ) for the preheater ( 28 ) is provided, which controls the amount of heat energy supplied to the liquid. Exhaust system according to one of the preceding claims, characterized in that the preheater ( 28 ) a heated pipeline ( 30 ). Exhaust system according to claim 5, characterized in that the pipeline ( 30 ) with a heating wire ( 32 ) is wrapped. Exhaust system according to claim 5 or 6, characterized in that the pipeline ( 30 ) is coiled. Exhaust system according to claim 5 or 6, characterized in that the pipeline ( 30 ) as a substantially unbent tube from a tank ( 36 ) to the chamber ( 22 ). Exhaust system according to one of the preceding claims, characterized characterized in that it in the oxidizable liquid is about fuel. Exhaust system according to one of the preceding claims, characterized in that the exhaust gas purification system ( 12 ) a particle filter ( 14 ), in particular with an upstream oxidation catalyst ( 16 ). Method for regeneration of an exhaust gas purification system ( 12 ) in an exhaust system ( 10 ) of an internal combustion engine with an evaporation unit ( 20 ) by means of which an oxidizable liquid evaporates and into the exhaust gas stream upstream of the exhaust gas purification system ( 12 ) and one of the evaporation unit ( 20 ) upstream preheater ( 28 ) for the liquid, the method comprising the following steps: - determining a regeneration requirement, - heating the liquid in the preheater ( 28 ) by means of the instantaneous water heater principle, - further heating of the liquid in the evaporation unit ( 20 ) for the evaporation of the liquid and - introduction of the generated steam into the exhaust gas stream.