WO2016023722A1 - Method for operating a fuel cell device, fuel cell device and motor vehicle having a fuel cell device - Google Patents

Abstract

The invention relates to a method (1) for operating a fuel cell device, to a fuel cell device and to a motor vehicle having the fuel cell device. In order to be able to readily activate the fuel cell device, operating parameters of the fuel cell device are predefined (6, 7, 12, 14) as a function of a service life of the fuel cell device.

Description

 description

Method for operating a fuel cell device, fuel cell device and motor vehicle with fuel cell device

The invention relates to a method for operating a fuel cell device with a fuel cell, in which at least one operating parameter of the fuel cell device is specified. Furthermore, the invention relates to a fuel cell device with a fuel cell and an operating parameter of the fuel cell device predetermining control unit. Moreover, the invention relates to a motor vehicle with a drive system and a drive energy transmitting connected to the drive system

Fuel cell device.

Method for operating fuel cell devices as well as

Fuel cell devices and motor vehicles with fuel cell devices are well known. In order to operate the fuel cell in an optimal operating condition, the operating parameters are dependent on current requirements of the

Fuel cell device specified. In particular, on the basis of one of

Fuel cell device queried electrical power are given the operating parameters.

However, for the optimal overall operation of the fuel cell device, it is often not sufficient to use only current requirements for the fuel cell device for the specification of the operating parameters.

The invention is based on the object, a method for operating a

Fuel cell device with a fuel cell, a fuel cell device with a fuel cell, and to provide a motor vehicle with a fuel cell device, wherein the at least one operating parameter is given in terms of going beyond the current operation requirements.

For the above-mentioned method, the object is achieved in that the

Operating parameter is given as a function of a service life of the fuel cell device. The object is achieved for the above-mentioned fuel cell device characterized in that the control unit is formed, the operating parameters according to the invention Specify procedure. For the aforementioned motor vehicle, the object is achieved in that the fuel cell device according to the invention

Fuel cell device is.

By specifying the operating parameter as a function of the service life of the

Fuel cell device, this can also be operated on the service life, so that the fuel cell device is optimally operable not only during operation, but also towards the end or the beginning of an operating cycle.

The solution according to the invention can be further improved by various configurations which are advantageous in each case and, if not stated otherwise, can be combined with one another as desired. These embodiments and the advantages associated with them are discussed below.

Thus, the operating parameter can be an operating parameter for a restart of the fuel cell device after the service life or for a decommissioning of

Be fuel cell device before the lifetime. Circumstances that prevail during the service life can be taken into account when specifying the at least one operating parameter, so that the operating parameters for optimum or almost optimal operation of the fuel cell can already be specified during decommissioning and / or when restarting.

The operating parameter can be specified so that before or during decommissioning more water is discharged from the fuel cell, if this threatens to freeze during the service life in the fuel cell. In addition to the service life, a at the

Decommissioning ruling and / or expected during the lifetime outside temperature in the specification of the operating parameter are taken into account. If only the temperature is taken into account, then it may happen that water that does not threaten to freeze in the fuel cell during a short service life, even at temperatures below 0 ° C., is discharged from the fuel cell, so that the fuel cell is discharged during the fuel cell

Re-commissioning has too low humidity. However, restarting with too low humidity can shorten the life of the

Lead fuel cell. Likewise, in the fuel cell freezing water can damage them. By taking into account the expected service life in addition to

Temperature before, during and / or directly after the life and for example in the Decommissioning of the fuel cell device, the fuel cell device optimally put back into operation and protected from frost damage.

To determine the service life, this can be queried, for example, during decommissioning by the driver who enters the expected service life. Alternatively or additionally, the estimated service life can be estimated by a computing device. The

Computing device may be part of a navigation device or a control device of the motor vehicle, for example. Is the motor vehicle in the vicinity of a place where the

Motor vehicle usually longer time, about several hours, is, for example, in the vicinity of the residence or the workplace of the driver, taken out of service, the computer may conclude that a long service life is imminent. Does that fall?

Temperature during the long life below freezing increases the probability that water contained in the fuel cell will freeze. However, if the motor vehicle is removed from a location where the motor vehicle is expected to be longer, out of service

The probability that the water will freeze, even if it sinks below the freezing point, is lower. For example, the motor vehicle at a gas station or at a traffic light only briefly taken out of service, so that the

Probability that the water freezes is low.

The at least one operating parameter can be a delivery rate of tempering fluid through the fuel cell, the temperature of the tempering fluid, a temperature difference over the

Fuel cell, a height of a guided through the fuel cell

Operating media mass flow, and / or a service fluid pressure differential. Such operating parameters can be chosen so that water contained in the fuel cell, in particular water vapor, collects at a point at which the water

Fuel cell not damaged if it should freeze. Also, the at least one operating parameter can be selected such that water contained in the fuel cell, in particular water vapor, is transported out of the fuel cell. Furthermore, the water can be transported by the specification of the operating parameter in the direction of the cathode or the anode. Preferably, the gas pressure difference or the temperature difference during the decommissioning of the fuel cell device is predetermined so that the water collects in the region of the cathode or from the anode's point behind the cathode to prevent ice-induced blocking of the hydrogen flow to the anode.

Furthermore, the operating parameter can be specified so that in the

Decommissioning no additional water is discharged from the fuel cell when the service life is expected to be so short that the water does not freeze at an ambient temperature that is currently or during the service life.

The operating parameter may be one at and / or at least directly or shortly after

Decommissioning of the fuel cell device adjacent to the fuel cell

Be residual operating voltage, the permissible residual operating voltage is limited and preferably a residual operating voltage of 0 V is specified. For this purpose, the

Fuel cell are discharged electrically. To electrically discharge the fuel cell, electrical power provided by the fuel cell during or after decommissioning may be directed to a coolant pump, which may power the coolant through the fuel cell. Thus, for example, water vapor contained in the fuel cell can condense better. A higher media flow rate effectively discharges the water, particularly the water vapor and / or condensed water, from the fuel cell. The electrical power provided can therefore be used additionally or alternatively and at least partially to increase the operating mass flow.

As a result of the commissioning, an operating voltage can be applied to the fuel cell. If the operating voltage rises too much, oxygen may diffuse towards the anode, which may shorten the life of the fuel cell. Consequently, the operating parameter may be an operating voltage applied to the fuel cell as a result of the startup, whereby a possible maximum of the operating voltage is limited. In particular, with little or no power request to the fuel cell, the operating voltage can namely increase when the operating media of the fuel cell are supplied. The operating voltage can be limited by a DC / DC converter. Alternatively or additionally, the supply of the operating media to the fuel cell can be adapted and in particular reduced.

The control unit of the fuel cell device may have a data input for receiving data representing the service life. The motor vehicle may have a data source which, during operation, provides the data representing the service life and the data is transmitted to the control unit in a transferring manner. The data source may include a data receiver that receives current or expected ambient temperatures during operation. The data receiver can receive temperature data via radio and, for example, from the Internet. Furthermore, the data source can be part of a navigation device of the motor vehicle. Alternatively or additionally, an input device for manually entering the service life may be provided, wherein the input device may comprise the data source or may represent a further data source. Alternatively or additionally to the dependence on the service life, the at least one

Operating parameters depending on a high altitude, in which the fuel cell device or the motor vehicle can be taken out of service or put back into operation, are given. The altitude may change during the journey or the service life. For example, when the fuel cell device is transported. Is the

Fuel cell device part of a motor vehicle, this can the

Transport fuel cell device to a different altitude, for example when driving. Even if neither the motor vehicle nor the fuel cell device are in operation, the altitude can change significantly when the motor vehicle is transported, for example, with a car train in the Alps. Furthermore, alternatively or additionally, the at least one operating parameter can be predefined as a function of measured or expected air pollution. Air-lock data can be determined by the fuel cell device or the motor vehicle, for example, by measurements or by a data source, such as by radio and, for example, from the Internet, received. The air-lock data, such as altitude data, may also be generated or received during operation of the fuel cell device or motor vehicle and the air pollution at the location of the fuel cell device or the fuel cell device

Motor vehicle or on a route or to be driven route of the motor vehicle. The operating parameter given by the altitude and / or air pollution is, for example, the humidity of the fuel cell.

The operating parameter may be an amount of fuel cell energy to be stored in a battery of the fuel cell device or of the motor vehicle, wherein the amount of energy to be stored may increase with the altitude. Furthermore, the at least one operating parameter may be the moisture contained in the fuel cell, wherein the desired humidity increases with increasing altitude. Furthermore, the at least one operating parameter can be predetermined as a function of the temperature prevailing at the altitude, so that the permissible moisture contained in the fuel cell decreases, for example, with falling ambient temperature at the altitude.

The invention is explained below in embodiments with reference to the accompanying drawings. Show it: Figure 1 is a schematic representation of an embodiment of the method according to the invention for operating a

 Fuel cell device,

Figure 2 is a schematic representation of an embodiment of a

 fuel cell device according to the invention,

Figure 3 is a schematic representation of an embodiment

 motor vehicle according to the invention.

The invention is explained below by way of example with reference to embodiments with reference to the drawings. The different features of the embodiments can be combined independently of each other, as in the individual advantageous

Embodiments has already been explained.

First, structure and function of a method according to the invention with reference to the embodiment of Figure 1 are described.

FIG. 1 shows the method 1 schematically as a flow chart. The method 1 starts with a first method step 2. In a following method step 3, it is determined whether the fuel cell device is in operation. If the fuel cell device is currently operated, the method step 3 is followed by the method step 4, in which an expected service life is entered, determined, or at least estimated after a pending decommissioning. On the basis of the entered, determined or estimated service life, it is estimated in step 5, which follows process step 4, whether in the

Fuel cell device contained water during the life can freeze. If water in the fuel cell device can freeze during the service life, the method step 5 is followed by the method step 6, in which at least one operating parameter is specified such that during the service life little or no water in the fuel cell device

Fuel cell device and in particular in the fuel cell can freeze. Alternatively, the operating parameter may be set so that water contained in the fuel cell or the fuel cell device is collected at locations where freezing of the water causes no appreciable damage. In addition, the

Operating parameters are specified so that in the fuel cell or the

Fuel cell device contained water is increasingly discharged. If the risk of water freezing in the fuel cell device during the service life is low, method step 5 is followed by method step 7. In method step 7, the operating parameter is set in such a way that when the system is decommissioned

Fuel cell device does not increase water is discharged from the fuel cell. In particular, the operating parameter can be specified such that one in the

Fuel cell at a restart operation existing moisture is within a predetermined range, which may for example be an optimal for restarting the fuel cell area.

Each of the method steps 6, 7 may be followed by the method step 8, in which the re-commissioning of the fuel cell device is awaited.

If it is determined in method step 3 that the fuel cell device is not in operation, method step 9 may be followed by method step 3. In method step 9, which may also follow method step 8, the fuel cell device is put back into operation.

In method step 10 following method step 9, the remaining service life prior to the startup of the fuel cell device is determined. For example, the past service life can be determined by the fuel cell device. Is the

Fuel cell device part of a motor vehicle, another device of the motor vehicle, for example, a control unit or a navigation device, determine the past life and pass it on to the fuel cell device.

In the following to the process step 10 step 1 1 can be estimated whether during the life of the fuel cell device water in the

 Fuel cell device and in particular in the fuel cell can be frozen. If water can be frozen in the fuel cell apparatus during the service life, method step 12 can follow process step 12, in which the operating parameter is predetermined, for example, such that one generated by the fuel cell

Operating voltage is limited. The operating parameter operating voltage can be limited until the temperature of the fuel cell has risen sufficiently to at least partially or even completely thaw the water that is believed to be frozen in the fuel cell device. Is the likelihood that during the lifetime water in the

Fuel cell device is frozen, low, so can follow the process step 1 1 of the step 13, in which the at least one operating parameter for a normal start of the fuel cell device is specified. For example, the

Operating voltage can not be limited or less.

The method steps 12, 13 may be followed by the method step 14, in which the method 1 ends. In method step 14, the operation of the fuel cell device can be continued. For example, step 14 may be followed by step 4.

If the fuel cell device is a fuel cell device of a motor vehicle, then the motor vehicle together with the fuel cell device can be put out of operation and put back into operation. In particular, the fuel cell device can be put back into operation or out of service as a result of re-commissioning or decommissioning of the motor vehicle.

Figure 2 shows schematically an embodiment of an inventive

Fuel cell device. The fuel cell device 20 of the embodiment of FIG. 2 has a fuel cell 21 and a control unit 22. The control unit 22 is designed to specify operating parameters of the fuel cell device 20 and in particular of the fuel cell 21. In particular, the control unit 22 is designed to specify at least one operating parameter as a function of the service life of the fuel cell device according to the method according to the invention. For this purpose, the control unit 22 by means of a control line 23 operating parameters transmitted to the fuel cell 21 may be connected.

If the pending or past service life is not determined in the control unit 22, the control unit 22 may have a data input 24 to which a representative data signal for the service life and optionally for other parameters, such as the current or expected during the service life or expected minimum temperature representative data signal can be applied.

Figure 3 shows schematically an embodiment of a motor vehicle according to the invention with the fuel cell device 20 of the embodiment of Figure 2. For elements that correspond in function and / or construction elements of the embodiment of Figure 2, the same reference numerals are used. For the sake of brevity, only the differences from the exemplary embodiment of FIG. 2 will be discussed below. The motor vehicle 30 according to the invention has the fuel cell device 20, which is shown as an example arranged in a front region of the motor vehicle 30.

Alternatively, the fuel cell device 20 may also be arranged in a rear part or in a middle part of the motor vehicle 30, for example below the passenger compartment of the motor vehicle 30.

To provide a pending and / or past life as well as others

Parameter, for example, a possibly at a decommissioning of the motor vehicle or during the life of the motor vehicle prevailing ambient temperature, the motor vehicle 30 may have a data source 31. The data source 31 may be a control device and / or a navigation device of the motor vehicle 30. The data source 31 may be configured to determine or receive past, current or anticipated ambient temperatures, for example by a wireless connection to the Internet.

Alternatively or in addition to the data source 31, the motor vehicle may have a data source 32, via which an occupant of the motor vehicle 30 can enter the past or anticipated service life and / or temperatures prevailing during the service life.

LIST OF REFERENCE NUMBERS

method

 begin

 Fuel cell device in operation?

 Determine service life

 can freeze water in the fuel cell device during the service life?, 7 Specify operating parameters

 wait for recommissioning

 Put the fuel cell device back into operation

0 Determine past service life

1 may be frozen during the lifetime water in the fuel cell device? 2,13 limit operating voltage

4 end 0 fuel cell device

1 fuel cell

2 control unit

3 control line

4 data input of the control unit

0 motor vehicle

1, 32 data source

Claims

claims

1 . Method (1) for operating a fuel cell device (20) with a fuel cell (21), in which at least one operating parameter of the fuel cell device (20) is specified (6, 7, 12, 13), characterized in that the operating parameter as a function of a service life the fuel cell device (20) is specified.

2. The method (1) according to claim 1, characterized in that the operating parameter is an operating parameter for a restart of the fuel cell device (20) after the service life (12, 13) or for a decommissioning of

 Fuel cell device (20) before the service life (6, 7).

3. The method (1) according to claim 2, characterized in that the operating parameter is set (6, 7) that when decommissioning more water from the fuel cell (21) is discharged, if this during the service life in the

 Fuel cell (21) threatens to freeze.

4. Method (1) according to claim 2, characterized in that the at least one operating parameter is a delivery rate of tempering fluid through the fuel cell, the temperature of the tempering fluid, a temperature difference across the fuel cell, a height of an operating medium mass flow conducted through the fuel cell, and / or an operating fluid pressure difference.

5. The method (1) according to any one of claims 2 to 4, characterized in that the operating parameter is specified (7) that when decommissioning no additional water from the fuel cell (21) is discharged if expected during the lifetime in the Fuel cell contained water does not freeze.

6. The method (1) according to any one of claims 2 to 5, characterized in that the operating parameter is due to the re-commissioning of the fuel cell (21) applied to this operating voltage, wherein a possible maximum of

 Operating voltage is limited (12).

7. Fuel cell device (20) with a fuel cell (21) and a

Operating parameters of the fuel cell device (20) predetermining control unit (22), characterized in that the control device (22) is designed to specify the operating parameter according to one of claims 1 to 6.

8. Fuel cell device (20) according to claim 7, characterized in that the control device (22) has a data input (24) for receiving the service life

 having representative data.

9. Motor vehicle (30) with a drive system and a drive energy transmitted to the drive system connected fuel cell device (20), characterized

 characterized in that the fuel cell device (20) has a

 A fuel cell device (20) according to claim 7 or 8.

10. motor vehicle (30) according to claim 9, characterized by a data source (31, 32), which provides the service life representing data during operation and the data transmitting to the control unit (22) is connected.