DE102014213484A1 - A method, apparatus, system, computer program and computer program product for operating a nitrogen oxide sensor - Google Patents

Abstract

In a method for operating a nitrogen oxide sensor in an exhaust gas tract of a vehicle, the nitrogen oxide sensor is operated in a first activation mode, in which a measurement signal of the nitrogen oxide sensor is representative of a gas concentration of a first gas. The nitrogen oxide sensor is operated in a second drive mode that is different from the first drive mode in which a measurement signal of the nitrogen oxide sensor is representative of a gas concentration of a second gas that differs from the first gas in at least one chemical element.

Description

The invention relates to a method, a device, a system, a computer program and a computer program product for operating a nitrogen oxide sensor in an exhaust tract of a vehicle.

Ever stricter legal regulations regarding permissible pollutant emissions in motor vehicles, in which internal combustion engines are arranged, make it necessary to keep the pollutant emissions during operation of the internal combustion engine as low as possible. This makes it particularly for the use of exhaust aftertreatment systems, such as catalysts, required to determine the pollutant components in the exhaust system very accurately.

In particular, nitrogen oxide sensors are used to determine the nitrogen oxide content in the exhaust gas.

From the textbook "Manual Combustion Engines", publisher Richard von Basshuysen / Fred Schäfer, 2nd edition, June 2002, Friedrich Vieweg & Sohn Verlagsgesellschaft mbH Braunschweig / Wiesbaden, page 589 ff., A nitrogen oxide sensor based on ZrO ₂ ceramic is known which has two chambers. In the first chamber, a constant partial pressure of the oxygen contained in the exhaust gas is produced by applying a pumping current. The pumping current is inversely proportional to the air-fuel ratio. In the second chamber, the nitrogen oxide contained in the exhaust gas is decomposed by applying a further current. This can then be measured at a measuring electrode in the second chamber, a current which is proportional to the nitrogen oxide content in the exhaust gas and which forms the measurement signal of the nitrogen oxide sensor.

The object of the invention is to provide a method and a device for operating a nitrogen oxide sensor, so that an operation of an internal combustion engine with very low pollutant emissions is made possible.

The object is solved by the features of the independent claims. Advantageous embodiments of the invention are characterized in the subclaims.

The invention is characterized by a method and a corresponding device for operating a nitrogen oxide sensor in an exhaust gas tract of a vehicle. The nitrogen oxide sensor is operated in a first drive mode in which a measurement signal of the nitrogen oxide sensor is representative of a gas concentration of a first gas. The nitrogen oxide sensor is operated in a second drive mode that is different from the first drive mode in which a measurement signal of the nitrogen oxide sensor is representative of a gas concentration of a second gas that differs from the first gas in at least one chemical element.

The invention is based on the finding that with a nitrogen oxide sensor, other gases can be detected. As a result, two different gases can be measured in a very simple and effective manner with only one sensor.

The nitrogen oxide sensor is, in particular, a nitrogen oxide sensor with two or more chambers, in which, for example, a first pumping current in a first chamber can be adjusted so that interfering gases flow out of the nitrogen oxide sensor again, so that the gas to be measured in a second chamber or further chamber can be measured. This is achieved, for example, by establishing a constant partial pressure of the oxygen contained in the exhaust gas by applying the first pumping current. Furthermore, in the case of the nitrogen oxide sensor, for example, a second pumping current can be adjusted such that the gas to be measured in the second chamber or a further chamber is decomposed and a current can be measured in the second chamber or the further chamber proportional to the content of the to be measured Gas is in the exhaust gas and forms the measurement signal of the nitrogen oxide sensor.

The second activation mode differs from the first activation mode in particular in that control variables of the nitrogen oxide sensor are adapted, such as, for example, a pumping current and / or a voltage to be applied. Alternatively or additionally, electrodes in the individual chambers of the nitrogen oxide sensor can be switched on or off in the second activation mode.

According to an advantageous embodiment, either the first gas or the second gas is a nitrogen oxide.

Especially the determination of concentrations of nitrogen oxides is particularly important to ensure a low-emission operation. For example, for operation of an SCR system (Selective Catalytic Reduction), it is important to be able to determine the NO ₂ concentration in order to determine catalyst malfunctions.

According to another embodiment, either the first gas or the second gas is a chemical compound of hydrocarbon.

Especially hydrocarbons are particularly important to ensure low-emission operation. For example, very stringent hydrocarbon limits are prescribed by future and / or applicable legal regulations, such as the European standard EURO-6 or the US standard SULEF. Such hydrocarbons include, for example, ethene and / or ethane and / or ethyne and / or propene and / or propane. Such hydrocarbons alternatively or additionally also include longer-chain gases such as C ₈ H _x and / or C ₁₂ H _x.

According to a further advantageous embodiment, either the first gas or the second gas is a chemical compound of carbon and oxygen.

The determination of concentrations of compounds of carbon and oxygen, such as CO and / or CO ₂ , are important to ensure low-emission operation.

According to a further aspect, the invention is characterized by a system having the device for operating the nitrogen oxide sensor and the nitrogen oxide sensor.

According to a further advantageous embodiment, the invention is characterized by a computer program, wherein the computer program is designed to perform the method for operating the nitrogen oxide sensor or an advantageous embodiment of the method for operating the nitrogen oxide sensor on a data processing device.

According to a further aspect, the invention is characterized by a computer program product comprising an executable program code, wherein the program code executes the method for operating the nitrogen oxide sensor or an advantageous embodiment of the method for operating the nitrogen oxide sensor when executed by a data processing device.

In particular, the computer program product comprises a medium which can be read by the data processing device and on which the program code is stored.

Embodiments of the invention are explained in more detail below with reference to the schematic drawings. Show it:

1 a nitrogen oxide sensor and

2 a flowchart for operating a nitrogen oxide sensor.

1 shows a nitrogen oxide sensor 1 , The nitrogen oxide sensor 1 is arranged in particular in an exhaust tract of a vehicle.

The nitrogen oxide sensor 1 has, for example, an inlet 5 on, through the exhaust gas into a first chamber 7 can flow. Furthermore, the nitrogen oxide sensor 1 a first diffusion path 11 on and a second chamber 9 , as well as a second diffusion path 13 , Furthermore, the nitrogen oxide sensor 1 have additional chambers and other diffusion paths.

The nitrogen oxide sensor 1 has in particular for each chamber a pumping electrode, so it has for the first chamber 7 a first pumping electrode 15 and for the second chamber 9 a second pumping electrode 17 on.

In addition, he points for the first chamber 7 and the second chamber 9 individually or for both chambers together a ground electrode 19 on.

Furthermore, in the first chamber 7 a reference electrode 21 and in the second chamber 9 a measuring electrode 23 arranged.

Furthermore, the nitrogen oxide sensor 1 a heating element 25 on.

By means of the first pumping electrode 15 and the ground electrode 19 For example, a first pumping current in the first chamber 7 be adjusted so that disturbing gases back out of the inlet 5 flow out, so in the second chamber 9 the gas content of the gas to be measured can be measured by the first diffusion path 11 in the second chamber 9 arrives. This is achieved, for example, by establishing a constant partial pressure of the oxygen contained in the exhaust gas by applying the first pumping current. The first pumping current is, for example, inversely proportional to the air-fuel ratio.

By means of the second pumping electrode 17 and the ground electrode 19 For example, a second pumping current can be adjusted such that the gas to be measured in the second chamber 9 is decomposed.

At the measuring electrode 23 a current is measured which is proportional to the gas content to be measured in the exhaust gas. This current forms the measurement signal of the nitrogen oxide sensor.

A control device 50 is designed to the nitrogen oxide sensor 1 to operate, in particular the first and the second pumping electrode 15 . 17 head for. The control device 50 has in particular an arithmetic unit, a program and data storage, as well as, for example, one or more communication interfaces. The program and data memory and / or the arithmetic unit and / or the communication interfaces can be formed in a structural unit and / or distributed over several structural units.

The control device 50 can also be used as a device for operating a nitrogen oxide sensor 1 be designated.

On the data and program memory of the control device 50 this is in particular a program for operating the nitrogen oxide sensor 1 saved.

2 shows a flowchart of the program for operating the nitrogen oxide sensor 1 , The program is started in a step S1 in which variables can be initialized if necessary.

In a step S3, the nitrogen oxide sensor 1 operated in a first drive mode in which a measurement signal of the nitrogen oxide sensor 1 is representative of a gas concentration of a first gas.

In a step S5, the nitrogen oxide sensor becomes 1 operated in a second drive mode, which differs from the first drive mode, in which a measurement signal of the nitrogen oxide sensor 1 is representative of a gas concentration of a second gas, which differs from the first gas at least in one chemical element.

In a step S7, the program is ended and may optionally be started again in step S1. Alternatively, the program can also be continued again in step S3.

The first gas or the second gas is, for example, a nitrogen oxide. Alternatively or additionally, either the first gas or the second gas is a chemical compound of hydrocarbon. Alternatively or additionally, either the first gas or the second gas is a chemical compound of carbon and oxygen.

This can contribute to the fact that with only one sensor, the concentrations of several different gases can be determined.

LIST OF REFERENCE NUMBERS

1

 nitrogen oxide sensor

5

 inlet

7

 first chamber

9

 second chamber

11

 first diffusion path

13

 second diffusion path

15

 first pump electrode

17

 second pumping electrode

19

 ground electrode

21

 reference electrode

23

 measuring electrode

25

 heating element

50

 control device

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• "Manual combustion engines", editor Richard von Basshuysen / Fred Schäfer, 2nd edition, June 2002, Friedrich Vieweg & Sohn Verlagsgesellschaft mbH Braunschweig / Wiesbaden, page 589 [0004]

Claims (8)

Method for operating a nitrogen oxide sensor ( 1 ) in an exhaust tract of a vehicle, in which - the nitrogen oxide sensor ( 1 ) is operated in a first activation mode in which a measurement signal of the nitrogen oxide sensor ( 1 ) is representative of a gas concentration of a first gas, - the nitrogen oxide sensor ( 1 ) is operated in a second drive mode, which differs from the first drive mode, in which a measurement signal of the nitrogen oxide sensor ( 1 ) is representative of a gas concentration of a second gas that differs from the first gas at least in one chemical element. The method of claim 1, wherein either the first gas or the second gas is a nitric oxide. The method of claim 1 or 2, wherein either the first gas or the second gas is a chemical compound of hydrocarbon. The method of claim 1, 2 or 3, wherein either the first gas or the second gas is a chemical compound of carbon and oxygen. Device for operating a nitrogen oxide sensor ( 1 ) in an exhaust tract of a vehicle, wherein the device is designed to - the nitrogen oxide sensor ( 1 ) in a first activation mode in which a measurement signal of the nitrogen oxide sensor ( 1 ) is representative of a gas concentration of a first gas, - the nitrogen oxide sensor ( 1 ) in a second drive mode, which differs from the first drive mode, in which a measurement signal of the nitrogen oxide sensor ( 1 ) is representative of a gas concentration of a second gas that differs from the first gas at least in one chemical element. System comprising the device according to claim 5 and the nitrogen oxide sensor ( 1 ). Computer program for operating a nitrogen oxide sensor ( 1 ), wherein the computer program is adapted to perform a method according to one of claims 1 to 4 when executed on a data processing device. Computer program product comprising executable program code, wherein the program code executes the method according to one of claims 1 to 4 when executed by a data processing device.

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