DE102004000063A1 - Method for determination of fuel characteristics in motor vehicle involves determining the geographical position of filling tank station and is linked with information about fuel used there - Google Patents

Abstract

The method involves determining the geographical position of filling tank station (1) and is linked with information about fuel used there. Geographical position of tank station is determined by satellite-based positioning system (2). Fuel characteristic is determined by sulphur content in the fuel. An independent claim is also included for monitoring unit.

Description

The The invention relates to a control unit and a method for detection of fuel properties in a motor vehicle, in particular to determine the sulfur content of the fuel.

different Types of internal combustion engines, such as diesel engines, Gasoline engines or natural gas-powered engines require different types of fuel. Within the individual fuel types there are about that In addition, further differentiations according to the exact composition of the fuel or generally according to the fuel properties. A representative example of this is diesel fuel in the following for diesel engines currently being considered with different levels of sulfur being offered on the market, being long term for environmental reasons a complete transition to the low-sulfur variant is sought.

The specific properties of a fuel have fueled in usually significant impact on the operation of the motor vehicle, so that ideally they should be known to the engine control. at Motor vehicles with diesel engine and one in the exhaust pipe arranged NOx storage catalyst ("NOx trap") for collecting nitrogen oxides for example, the sulfur content of the fueled diesel fuel of great importance, as sulfur compounds of the fuel binding sites in the storage catalyst. As a result, the achievable NOx conversion efficiency from the beginning about 60 70% decrease to values of up to 20% or less, causing the system becomes practically useless. To the efficiency of the storage catalyst must be restored in certain intervals a regeneration or desulfurization of the catalyst can be carried out. Because of this required very high temperatures are such desulfurization processes but as rare as possible or absolutely necessary perform.

to Control the frequency Desulphurization of a NOx storage catalyst are complex systems known, which the efficiency of the storage catalyst with the help monitor by special NOx sensors. Since the need for desulfurization can also be estimated, if the sulfur content of the fuel used is known, are over it In addition, systems have been developed in which the driver manually through activity a button on the dashboard, what sulfur content the just fueled has. The manual entry proves itself However, they are not particularly safe as they are based on the driver's care depends and is easily forgotten due to its typically rare use.

Task of invention

In front Against this background, it was an object of the present invention, simple and reliable means for determining fuel properties in a motor vehicle provide.

These The object is achieved by a method having the features of the claim 1 and by a control unit with the features of the claim 7 solved. Advantageous embodiments are contained in the subclaims.

The inventive method serves to determine fuel properties in a motor vehicle, for example, to determine the sulfur content of the tanked Fuel. It is characterized in that during a refueling process the geographical position of the refueling station at which the refueling process takes place takes place, is determined, and that this position with information about the the refueling station used fuels is linked. The "geographical position" of the filling station must be known only with such accuracy that it possible is the refueling station of adjacent refueling stations with other fuel offers to distinguish. So it is usually sufficient, as a "fuel station" an entire gas station system to look at them and to pinpoint them on their respective country. If it in a gas station but several pumps with different variants of a fuel type are (eg with low-sulfur and sulfur-containing diesel fuel), it can too desirable be, the respective pump to identify as a "fuel station" so that the geographical position can be determined accordingly got to.

The The method described above takes advantage of the fact that certain Tank stations normally always deliver the same fuel. Therefore, from the knowledge of the fueling station on the fuel properties inferred with the identification of the refueling station over their geographical position. The advantage of the method lies in that it runs automatically and thus requires no attention by the driver.

The geographical position of a refueling station can be determined in particular via a satellite-based positioning system, for example via the GPS (Global Positioning System). The achievable with such systems accuracy of Po It is very high and, as a rule, even sufficient to identify the dispenser used in an entire filling station installation.

As already mentioned the registered fuel property, in particular the Be sulfur content of the fuel. In this case, it is preferable the regeneration or desulfurization of a NOx storage catalyst dependent on controlled by the determined sulfur content of the fuel. Thereby can oh-ne consuming Sensors on the catalyst whose desulfurization just as often as necessary causes be optimal, so with minimal fuel consumption Efficiency is achieved.

The Information about it, which fuels at the filling Tankstation can be used Optionally deposited in a database on board the motor vehicle be. So it is for example different countries known whether or when there low-sulfur diesel fuel introduced or is prescribed so that this information in advance in the motor vehicle can be deposited. Such stored information can be found in regular maintenance intervals (for example in the inspection of the motor vehicle) to be brought. Furthermore you can the information about the fuel supply of the filling Tankstation also over a wireless remote data query can be obtained so that in this Trap constantly current Data from relevant Information centers are used.

According to one Continuing the procedure will also increase the amount of the beginning a refueling process in the fuel tank remaining fuel and determines the amount of fuel added. For example a partially still filled with low-sulfur fuel tank filled with a high sulfur fuel, so The engine controller preferably uses the volume weighted one Average sulfur content of existing and refueled fuel for their calculations.

The The invention further relates to a control unit for determining Fuel properties in a motor vehicle, which is set up is to carry out a method of the type described above. D. h., That the control unit in particular during a refueling operation determine the geographical position of the filling station and you with information about can link fuels used there.

According to one special embodiment of the invention, the control unit includes a Fuel gauge module, which is adapted to take place signal a refueling process. The fuel gauge module can for example, be connected to the tank lid and a signal leave if this during a refueling process is removed from the filler neck. Preferably the fuel gauge module further capable of leveling the fuel tank display. In this way, information about the At the beginning of refueling still existing and the amount of fuel added be obtained so that the fuel properties as a weighted Means can be calculated from new and old fuel quantities. One Increase in the amount of fuel in the tank can incidentally also as the signal for a (completed) refueling be used.

Preferably contains the control unit is a satellite-based positioning system, at a refueling the position of the motor vehicle and thus determine the geographical position of the associated refueling station. The control unit can also only have one interface for the connection to have such a positioning-nierungssystem, the latter then in other components such as a navigation system of the Motor vehicle is present and shared.

Of Further contains the control unit preferably has a memory (eg ROM, EPROM etc.), in which information about in different countries or geographic regions used fuels stored are. That way you can for example, depending on from the respectively valid national regulations the sulfur content of the whereabouts determine the fuel offered by the motor vehicle.

LIST OF REFERENCE NUMBERS

in the The invention will be explained in more detail by way of example with reference to the attached FIGURE.

The single figure shows schematically a motor vehicle with a control unit according to the invention while a refueling process.

Although the invention using the example of a diesel vehicle and the sulfur content explained by diesel fuel This is not limited to this and can also with advantage in other cases are used, in which the knowledge of the fuel properties (eg number of drops, chemical composition or additives, etc.) for the Motor control is important.

The motor vehicle shown in the figure 5 contains a diesel engine 7 , in whose exhaust path a NOx storage catalyst 6 is arranged. The accumulation of sulfur compounds in the Spei cherkatalysator 6 must be eliminated from time to time to maintain the highest possible storage efficiency. For reasons of fuel economy and the conservation of the storage catalytic converter 6 On the other hand, the desulphurisation operations should only be carried out as often as absolutely necessary.

The required frequency of desulfurization hangs crucial from the sulfur content of the fueled diesel fuel from. This sulfur content varies from country to country, whereas many countries already regulations for a complete transition have adopted to low sulfur diesel fuel. For example in Germany, France and the Netherlands in 2005 a transition to low-sulfur fuels prescribed by law, while others countries (eg Greece, Ireland) made this transition a few years later at an undefined time.

Since the engine control with knowledge of the sulfur content of the fuel used, the frequency of required desulfurization of the storage catalyst 6 can estimate with a good approximation, it is important to know the sulfur content of each refueled fuel. To this knowledge also with changes of legal regulations and / or with foreign stays of the motor vehicle 5 to have available, the following method and the associated control unit are used.

The said control unit initially contains a GPS module 2 which consists of the received signals from (at least three) satellites 8th the position of the motor vehicle 5 can calculate: The GPS module 2 can be used to a navigation system of the motor vehicle 5 belong to or be used by this. Of course, other devices known to those skilled in the art could be used to determine the position.

Further, the control unit includes a fuel gauge module 3 , which emits a signal when the motor vehicle is refueled. The fuel gauge module 3 may for example be connected to the closure of the tank and recognize when it is opened to the tap of a gas pump 1 introduce.

The GPS module 2 and the fuel gauge module 3 are with a control module 4 connected. This can be designed for example as a microprocessor with appropriate software or as a pure software module within the existing engine control. The control module 4 is output with the diesel engine 7 and optionally the NOx storage catalyst 6 connected to the desulfurization of the storage catalyst 6 to control.

If the motor vehicle 5 at a refueling station 1 stops and fuel is refueled from this, this is the control module 4 via the fuel gauge module 3 displayed. The control module 4 then causes the determination of the current geographical position of the motor vehicle 5 via the GPS module 2 , With the position of the motor vehicle 5 is (approximately) also the geographical position of the refueling station 1 known. Therefore, one may be stored in a memory of the control module 4 deposited database to be queried, which sulfur content of the diesel fuel from the fuel station 1 having. As a rule, it is sufficient to determine the country in which the refueling station 1 due to statutory regulations, the sulfur content of diesel fuel is uniform throughout the country.

The control module 4 uses the information thus determined about the sulfur content of the fuel added and preferably information about the amount of fuel added and the amount of remaining fuel in the tank to the sulfur content of the henceforth from the diesel engine 7 used diesel fuel. With knowledge of this sulfur content, the time can then be predicted with high accuracy and without elaborate additional sensors, to which the NOx storage catalytic converter 6 has such a high sulfur compound loading that desulfurization must be carried out.

Claims (10)

Method for determining fuel properties in a motor vehicle ( 5 ), characterized in that, in the case of a refueling operation, the geographical position of the filling tank station ( 1 ) and linked with information about fuels used there. Method according to claim 1, characterized in that the geographical position of the refueling station ( 1 ) via a satellite-based positioning system ( 2 ) is determined. Method according to claim 1 or 2, characterized that the determined fuel properties the sulfur content of the fuel. A method according to claim 3, characterized in that depending on the sulfur content of the regeneration of a NOx storage catalyst ( 6 ) is controlled. Method according to at least one of the claims 1 to 4, characterized in that the information about at the filling station ( 1 ) used fuels from a database on board the motor vehicle ( 5 ) and / or via a wireless remote data retrieval. Method according to at least one of claims 1 to 5, characterized in that the amounts of fuel in the tank still existing fuel and the fuel added to be determined. Control unit ( 2 . 3 . 4 ) for determining fuel properties in a motor vehicle ( 5 ), characterized in that it is designed to carry out a method according to at least one of claims 1 to 6. Control unit according to claim 7, characterized in that this is a fuel gauge module ( 3 ), which signals the occurrence of a refueling process. Control unit according to Claim 7 or 8, characterized in that it comprises a satellite-based positioning system ( 2 ) or can be coupled with it. Control unit according to at least one of claims 7 to 9, characterized in that it contains a memory in which information about in different countries or regions used fuels are stored.