WO2015162017A2 - Regenerative fuel cell device for a motor vehicle and method for varying a temperature in the interior of a vehicle - Google Patents

Abstract

The invention relates to a regenerative fuel cell device (10) for a motor vehicle, which is configured to carry out an endothermic electrolysis under consumption of a supplied current, and to generate a current by means of an exothermic reaction that is reversible to the endothermic electrolysis. Furthermore, the regenerative fuel cell device (10) is configured such and can be connected, directly or indirectly, to a heat transfer device (14) of the motor vehicle and/or to a sorption refrigeration machine (16) of the motor vehicle such that a waste heat (12) from the regenerative fuel cell device (10) can be passed on to the heat transfer device (14), at least partially, and/or that at least one sub-unit (18) of the sorption refrigeration machine (16) can be heated by means of at least part of the waste heat (12) of the regenerative fuel cell device (10). The invention further relates to a method for varying a temperature in the vehicle interior of a motor vehicle equipped with a regenerative fuel cell device (10).

Description

 Description title

 A regenerative fuel cell device for a motor vehicle and method for varying a temperature in a vehicle interior

The invention relates to a regenerative fuel cell device for a motor vehicle. Likewise, the invention relates to a Fahrzeugtemperiersystem for ei motor vehicle and an energy supply system for an electric

Drive motor of a motor vehicle. Furthermore, the invention relates to a method for varying a temperature in a vehicle interior of a vehicle equipped with a regenerative fuel cell device

Motor vehicle.

State of the art

In DE 10 2004 027 433 Al a vehicle with a battery as a first energy storage and a hydrogen tank as a second

Energy storage described. The hydrogen tank can be filled with a hydrogen produced by an electrolyzer. The electrolyzer and the battery are connectable to an external power source such that first the battery is rechargeable, and from exceeding a predetermined state of charge of the battery, the energy of the external power source for generating hydrogen for filling the hydrogen tank is usable. If energy is required to operate an electric machine as a drive unit, then its energy is first used up to a predetermined state of charge of the battery, and then hydrogen is consumed from the hydrogen tank in an internal combustion engine as fuel for generating energy. Instead of the electrolyzer and the internal combustion engine and a reversible fuel cell should be used. Disclosure of the invention

The invention provides a regenerative fuel cell device

A vehicle temperature control system for a motor vehicle, a power supply system for an electric drive motor of a vehicle, an electric vehicle, and a method of varying a temperature in a vehicle interior of a vehicle equipped with a regenerative fuel cell device

Motor vehicle. Advantages of the invention

The present invention provides possibilities for heating or cooling a vehicle interior of a motor vehicle by utilizing the waste heat of the regenerative fuel cell device occurring during the endothermic electrolysis and / or the reversible exothermic reaction. As will be explained in more detail below, in one use of the present invention, the heating or cooling of the vehicle interior to one for a

Vehicle occupants comfortable temperature even at extreme

Outside temperatures at one (in addition to the waste heat needed)

Energy consumption of almost zero possible. By means of the present invention, a fuel consumption / power consumption necessary for heating or cooling the vehicle interior is thus significantly reduced. The present invention thus contributes to energy saving and environmental protection.

For example, the vehicle interior by means of the

Heat transfer device at least partially forwarded waste heat of the regenerative fuel cell device heated. The waste heat generated in the regenerative fuel cell device allows a generous heating of the vehicle interior even at extreme outside temperatures.

Thus, even in winter energy-saving and low-power driving with a comfortable temperature in the vehicle interior is possible.

As an alternative or as a supplement thereto, the vehicle interior can be cooled by means of the sorption refrigeration machine. In addition to a comfortable, energy-saving and low-power winter driving can thus Even at extremely summery temperatures a pleasant temperature in the vehicle interior can be realized while maintaining the above advantages. In an advantageous embodiment of the regenerative

 Fuel cell device includes the sorption refrigerator a

Absorption chiller and an expeller is as a subunit of the

Sorptionskältemaschine heated by means of at least the part of the waste heat of the regenerative fuel cell device. In this way, the vehicle interior can be cooled energy-saving and environmentally friendly. When

As an alternative or in addition to this, the sorption refrigeration machine can also comprise an adsorption refrigeration machine, as a result of which a cold storage can be realized.

Preferably, the regenerative fuel cell device is connectable directly or indirectly to an electric drive motor of the vehicle such that the current generated by the regenerative fuel cell device can be output to the electric drive motor. The regenerative

Fuel cell device, which for heating or cooling of

Vehicle interior can be used so advantageous, so can also

Ensure a power supply of the electric drive motor can be used. In particular, the regenerative fuel cell device can be used as a supplement to a battery, such as a conventional Li-ion battery. Due to the additional use of

Regenerative fuel cell device together with the battery may have a storage capacity and an energy density of one of the regenerative

Fuel cell device and the battery formed

 Energy supply system can be increased. In this case, the potential weight advantage of the regenerative fuel cell device over an additionally used second battery can be used.

In an advantageous embodiment, the regenerative

Fuel cell device designed to split as endothermic electrolysis, consuming the provided stream of water into hydrogen and oxygen and to generate electricity by means of the reversible exothermic reaction of hydrogen and oxygen to water. Such a regenerative Fuel cell device is relatively easy and inexpensive to produce. It should be understood, however, that the invention is not limited to the use of this type of regenerative fuel cell device. Instead, other exothermic and endothermic reactions can be carried out by means of the regenerative fuel cell device, wherein the waste heat generated is used for heating or cooling the vehicle interior.

Also advantageous is a Fahrzeugtemperiersystem for a motor vehicle with such a regenerative fuel cell device, the

 Heat transfer device and / or sorption chiller.

The advantages set out above are also ensured in a power supply system for an electric drive motor of a vehicle, which comprises such a regenerative fuel cell device and a battery, by means of which the electric drive motor can be energized, wherein the regenerative fuel cell device and the battery are electrically connected to a common electrical interface are via which a charging current from an external power source such to the regenerative fuel cell device and the battery is provided that the battery is rechargeable and at least one of the regenerative

Fuel cell device attached memory for an electrolysis product produced in the endothermic electrolysis is refillable. Thus, a "refueling" of the power system despite the additional use of the

regenerative fuel cell device while maintaining the purely electrical interface possible.

In an advantageous embodiment of the energy supply system, the electric drive motor in a booster operation at the same time by means of the battery and by means of the regenerative fuel cell device can be supplied with power. The realizable parallel supply of electrical

Drive motor from the battery and the regenerative

Fuel cell device contributes to increase the maximum motor current. In a further advantageous embodiment, the regenerative

Fuel cell device and the battery to the generator-operable electric drive motor and / or a generator of the motor vehicle attachable, and one of the generator-operable electrical

The drive motor and / or the generator-generated generator current can be provided to the regenerative fuel cell device and to the battery such that the battery can be charged and the at least one store can be filled up. The present invention thus also contributes to increasing the energy recovery in recuperative braking.

Also an electric vehicle with a corresponding regenerative

Braking device or with such a power supply system realizes the advantages described above.

Furthermore, the listed advantages are also realizable by a

Performing a corresponding method for varying a temperature in a vehicle interior with a regenerative

Fuel cell device equipped motor vehicle. The method is further developable according to the embodiments of the regenerative fuel cell device and the power supply system.

Brief description of the drawings

Further features and advantages of the present invention will be explained below with reference to the figures. Show it:

Fig. La to ld schematic representations and coordinate systems for

 Explain an operation of one embodiment of the regenerative fuel cell device; and

FIG. 2 is a flowchart for explaining an embodiment of the present invention

 Method for varying a temperature in one

 Vehicle interior one with a regenerative

Fuel cell device equipped motor vehicle. Embodiments of the invention

FIGS. 1 a to 1 d show schematic representations and coordinate systems for explaining an operating mode of an embodiment of the regenerative fuel cell device.

The regenerative fuel cell device 10 shown schematically in FIG. 1 a can be used in a motor vehicle, in particular in an electric vehicle or in a hybrid vehicle. The regenerative fuel cell device 10 is configured to perform endothermic electrolysis using a supplied current and generate current by means of an exothermic reaction reversible to the electrolysis. By doing

Embodiment of Fig. La, the regenerative fuel cell device 10 is designed to endothermic electrolysis consumption of the

provided stream to split water into hydrogen and oxygen and generate electricity by means of the reversible exothermic reaction of hydrogen and oxygen to water (oxyhydrogen reaction). It should be noted, however, that this design of the regenerative fuel cell device 10 is to be interpreted only as an example. Preferably, the regenerative

Fuel cell device 10 in its activated state so controlled that either the endothermic electrolysis or the exothermic reaction by means of the regenerative fuel cell device 10 is executable.

Both during the endothermic electrolysis and during the exothermic reaction, a waste heat 12 of the regenerative fuel cell device 10 is generated. The regenerative fuel cell device 10 is additionally designed and directly or indirectly connected to a heat transfer device 14 of the motor vehicle and / or to a sorption chiller 16 of the

Motor vehicle connectable / tethered that the waste heat 12 of the regenerative fuel cell device 10 at least partially to the

Heat transfer device 14 is forwarded and / or at least one subunit of the sorption chiller 16 by means of at least a portion of the waste heat 12 of the regenerative fuel cell device 10 is heated. In the embodiment of FIG. 1 a, the regenerative fuel cell device 10 is connected both to the heat transfer device 14 and to the heat transfer device 14 Sorption chiller 16 connected. The regenerative

Fuel cell device 10 may also be part of a (compact)

Fahrzeugtemperiersystems, which additionally comprises the heat transfer device 14 and / or the sorption chiller 16. The regenerative fuel cell device 10 can thus together with the

 Heat transfer device 14 and / or the sorption chiller 16 may be formed as a (compact) structural unit.

If the regenerative fuel cell device 10 to the

Heat transfer device 14 is connected, the at least partially provided to the heat transfer device 14 waste heat 12 of the regenerative fuel cell device 10 in a vehicle interior of a (with the regenerative fuel cell device 10 and the

Heat Transfer device 14 equipped), in particular in a passenger compartment, forwarded. That way is the

Vehicle interior by means of the at least partially forwarded by the heat transfer device 14 waste heat 12 of the regenerative

Fuel cell device 10 heated. Thus, the waste heat 12 of the regenerative fuel cell device 10 for heating the

Vehicle interior are used, whereby at least less fuel and / or less electrical energy is needed for vehicle heating.

In particular, the waste heat 12 of the regenerative

Fuel cell device 10 for comfortable heating of the

Vehicle interior be sufficient. The usability described here of the waste heat 12 of the regenerative fuel cell device 10 thus reduces energy consumption of a vehicle when heating.

Below the sorption chiller 16, e.g. a Sorptionsklimaanlage be understood. The sorption chiller 16 may in particular be an absorption chiller 16 or an adsorption chiller

comprise / be. As will be explained in more detail below, by means of a

Heating at least one subunit of the sorption refrigeration machine 16 by means of at least the part of the waste heat 12 of the regenerative

Fuel cell device 10 of the vehicle interior by means of

Sorptionskältemaschine 16 are cooled. Thus, in this case too the waste heat 12 of the regenerative fuel cell device 10 is used to

to at least reduce a necessary for cooling the vehicle interior fuel consumption and / or consumption of electrical energy. Also, the waste heat 12 of the regenerative fuel cell device 10 may suffice for comfortably cooling the vehicle interior, so that no fuel consumption and no consumption of electrical energy for cooling the vehicle interior are necessary. Also when cooling the

Vehicle interior energy can thus be saved.

For example, has a designed for the endothermic cleavage of water and power generation by the oxyhydrogen gas regenerative

Fuel cell device 10 (especially in fuel cell operation) often a waste heat 12, which corresponds to at least a thermal power of at least 6.5 kW. This is sufficient for a heating operation, in which even at extreme outside temperatures a good heating of the vehicle interior is achieved to a comfortable temperature. Even for reliable cooling of the vehicle interior to a comfortable temperature, the thermal power of 6.5 kW is sufficient, even in hot outside temperatures.

In an electric vehicle, conventionally, heating or cooling of the vehicle is exclusively by means of an increase in consumption

electrical energy possible. Ensuring a comfortable temperature in an electric vehicle thus requires more frequent recharge / refueling of electrical energy in the prior art. However, this conventional comfort loss is by means of the above-described connection of the regenerative fuel cell device 10 to the

 Heat transfer device 14 and / or to the sorption chiller 16 can be repaired. A driver is thus encouraged to buy / use an environmentally friendly and quiet electric vehicle.

It should be noted, however, that in each type of vehicle by means of the above-described connection of the regenerative fuel cell device 10 to the heat transfer device 14 and / or to the sorption refrigeration machine 16 a pleasant interior for a passenger in the vehicle interior in an environmentally friendly and energy-saving manner is guaranteed.

Optionally, at least a portion of the waste heat 12 before forwarding to the heat transfer device 14 and / or to the

 Sorptionskältemaschine 16 are cached in a memory. In this way, even during a prolonged presence of the regenerative fuel cell device 10 in a deactivated state, the waste heat 12 can be at least partially still used for heating or cooling the vehicle interior.

In Fig. Lb usable with the regenerative fuel cell device 10 Sorptionskältemaschine 16 is exemplified. The

Sorptionskältemaschine 16 is formed as an absorption chiller 16, wherein an expeller 18 as a subunit of the sorption chiller 16 by means of at least the part of the waste heat 12 of the regenerative

 Fuel cell device 10 is heated. In the illustrated example, the sorption refrigeration machine 16 is specifically a LiBr / H 2 O absorption refrigeration system and thus has water as a refrigerant in a refrigerant circuit 20 and an aqueous lithium bromide solution as a solvent in a solvent circuit 22.

In an evaporator 24 in the refrigerant circuit 20, liquid water is sprayed by a pump 26 onto a pipe 28. The pressure present in the evaporator 24 is kept so low that the sprayed water on the pipe 28 evaporates and thus a cooling over the pipe

28 guided cold water, e.g. from 12 ° C to 6 ° C, causes. By means of the

Evaporation of the water on the pipe 28 is thus removed from the cold water heat, so that the cooled cold water for cooling the

Vehicle interior is usable.

To maintain the low pressure in the evaporator 24, is

Water vapor via a line 30 from the evaporator into a in the

Solvent circuit 22 lying absorber 32 transferred and there in the

Solvent dissolved. The solvent diluted with the water is then removed by means of a further pump 34 from the absorber 32 via a Line 36 pumped into lying in the solvent circuit 22 expeller 18. The waste heat 12 which can be introduced into the expeller 18 of the solvent circuit 22 causes the dilute solvent to be heated, thereby releasing water vapor which can escape from the expeller 18 via a line 38 into a condenser 40 located in the coolant circuit 20. The im

 Extractor 18 remaining concentrated solvent can be recycled via a solution-heat exchanger 42 in the absorber 32. The water vapor escaping into the condenser 40 condenses there to water, which can be pumped again by means of the pump 26 from the condenser 40 via a line 44 into the evaporator 24 and then sprayed onto the pipeline 28.

The waste heat 12 of the regenerative fuel cell device 10 provided to the sorption refrigeration machine 16 can thus be used to maintain a cycle which permits continuous cooling of the cold water conducted via the pipeline 28. A waste heat of the process illustrated by means of FIG. 1b can be dissipated via external heat exchangers 46 and 48 which are operated, for example, by means of a water from a cooling tower and / or by means of a cooling water provided otherwise. Since the pumps 26 and 34 hardly consume energy, the energy required to maintain the process is almost exclusively covered by the waste heat 12 of the regenerative fuel cell device 10. This is a vehicle cooling, which hardly consumes the energy resources of the motor vehicle, possible.

Thus, a low cost Li Br / H 2 O absorption refrigeration system as

Sorptionskältemaschine 16 are used so that even with hot outside temperatures of the vehicle interior by means of the waste heat 12 is pleasantly cooled.

It is also pointed out that an adsorption chiller, ie a sorption chiller 16 with a solid sorbent, can be used as sorption chiller 16. Such a sorption chiller 16 can be used in particular as a cold storage using a waste heat 12. In the embodiment of Fig. La is the regenerative

Fuel cell device 10 advantageously so directly or indirectly connected to an electric drive motor 50 of the motor vehicle / connected, that the power generated by the regenerative fuel cell device 10 to the electric drive motor 50 can be output. The regenerative

Fuel cell device 10 forms in particular together with a battery 52, which is for example a lithium-ion battery

Energy supply system for the electric drive motor 50. Also by means of the battery 52, the electric drive motor 50 can be energized. The regenerative fuel cell device 10 thus assists the battery 52. This contributes to an increase in the storage capacity and energy density of the power supply system consisting of the components 10 and 52, especially for an electric vehicle, over a conventional vehicle battery. In addition, in this way a life of the battery 52 can be increased by reducing the charging and discharging cycles incurred. This also causes a decoupling of power and energy content of the

Energy supply system, while in a conventional use of only a vehicle battery for powering the electrical

Drive motor 50 Power and energy are directly related.

By using the waste heat 12 of the regenerative

Fuel cell device 10 for heating or cooling the

Vehicle interior hardly requires energy of the battery 52 to set a comfortable temperature in the vehicle interior. This results in a significant reduction of the consumption of the energy stored on the battery 52, in particular in an electric vehicle, whereby an additional protection of the battery 52 and a longer and further driving is enabled by means of the energy stored on the battery 52. A range of one with the regenerative fuel cell device 10 and the battery 52

equipped vehicle after refueling is at least over 200 km steigerbar. An acceptance of an electric vehicle for a driver is thus increased. The regenerative fuel cell device 10 and the battery 52 are electrically connected to a common electrical interface 54, via which a charging current from an off-vehicle power source 56 is provided to the regenerative fuel cell device 10 and the battery 52 that the battery 52 and at least one rechargeable the regenerative fuel cell device 10 is connected to accumulators 58a and 58b for an electrolysis product produced in the endothermic electrolysis is fillable. A "refueling" of the energy supply system

equipped vehicle is thus possible purely electrically. A direct one

Refilling the at least one memory 58a and 58b is not necessary.

Providing the charging current to the regenerative

Fuel cell device 10 and to the battery 52 can be made either simultaneously or in a predetermined order.

The common electrical interface 54 may, for example, a

Be charging electronics.

By means of an energy manager 60, the energy flow between the electric drive motor 50, the battery 52 and the regenerative

Fuel cell device 10 to be controllable. For example, that can

Driving the components 10, 50 and 52 by means of the energy manager 60 so carried out that the electric drive motor 50 in a booster operation simultaneously by means of the battery 52 and by means of the regenerative

Fuel cell device 10 can be supplied with electric power. In a normal operation of the electric drive motor 50, however, the current flow between the components 10, 50 and 52 can be controlled so that either first the energy of the battery 52 or first on the

regenerative fuel cell device 10 is stored in the form of electrolysis products stored energy for operating the electric drive motor 50.

Optionally, the regenerative fuel cell device 10 and the battery 52 may be connected to the regeneratively operable electric drive motor 50 and / or a generator (not shown) of the motor vehicle

connectable / tethered. Preferably, in this case one of the generator-operable electric drive motor 50 and / or the Generator (when braking the motor vehicle) generator power supplied to the regenerative fuel cell device 10 and the battery 52 such that the battery 52 can be charged and the at least one memory 58a and 58b (by performing the endothermic electrolysis) can be filled. The generator current can either simultaneously or in a predetermined

Order to the battery 52 and to the regenerative

Fuel cell device 10 be prepared. The thus realizable division of the generator current to the battery 52 and to the regenerative fuel cell device 10 causes an increase in the recovered energy portion during recuperative braking. In addition, in this case, during the recuperative braking, the generator current output to the battery 52 is reduced without a reduction in the

Recuperation efficiency is reduced, the battery 52 is better protected. This causes an increase in the life of the battery 52.

In the embodiment of Fig. La includes the regenerative

Fuel cell device by way of example an electrolysis unit 62 (or an electrolyzer) and a fuel cell unit 64. The electrolysis unit 62 is designed to split water into hydrogen and oxygen while consuming a provided current / charging current. Optionally, de-ionized water may be added to a regenerative tank 66

Fuel cell device 10 can be removed. By means of

Fuel cell unit 64, the oxyhydrogen gas reaction for power generation is executable. However, as an alternative to the separate formation of the units 62 and 64, the regenerative fuel cell apparatus 10 may also have a compact electrolysis and fuel cell unit.

The regenerative fuel cell device of FIG. 1a is designed as a closed system, so that in addition to a hydrogen storage 58a for storing the hydrogen produced in the endothermic electrolysis, an oxygen storage 58b for storing the simultaneously obtained oxygen is present in the regenerative fuel cell device 10. In the closed system, the electrolysis unit 62 is preferably designed as a constant pressure electrolyzer, so that both the generated hydrogen and the obtained oxygen are pressurized to the memory 58a and 58b are discharged.

The graph gH2 shown in the coordinate system of Fig. 1c indicates a relation between one present in the hydrogen storage 58a

Memory pressure pH2 and a sufficient volume VH2 of

Hydrogen storage 58a again. Accordingly, a relation between a storage pressure p02 present in the oxygen storage 58b and a sufficient volume V02 of the oxygen storage 58b is shown by the graph g02 in the coordinate system of FIG. 1d.

As shown schematically in the graphs gH2 and g02, with an easily realizable storage pressure pH2 and p02, a relatively small volume VH2 and V02 of the reservoirs 58a and 58b is sufficient. Of the

Storage pressure pH2 and p02 may, for example, be 700 bar in both accumulators 58a and 58b, so that a volume VH2 of 15.5 liters and for the oxygen accumulator 58b a volume V02 of 7.5 liters is sufficient for the hydrogen storage 58a. As a rule, a re-compaction is not necessary. (If desired, a hydrogen post-compression unit may be used.) It should be noted that at these volumes VH2 and V02 for the reservoirs 58a and 58b, the regenerative fuel cell device 10 can be formed with a total volume of about 38 liters. The total volume of the regenerative fuel cell device 10 can thus still below the

Volume of the battery 52 (in a lithium-ion battery typically 50 liters) are.

Equipping the regenerative fuel cell device 10 with the deionized water tank 66 is optional. In addition, the regenerative fuel cell device 10 may also be configured as an open system, wherein the fuel cell unit 64 uses atmospheric oxygen to perform the oxyhydrogen reaction. In this case, the oxygen produced by the electrolysis unit 62 is released into the atmosphere. Optionally, the thereby obtained deionized water in the tank 66 cached or in the

Atmosphere are delivered. In a training of regenerative Fuel cell device 10 as an open system whose total volume is about 35.5 liters.

FIG. 2 is a flow chart for explaining an embodiment of the method of varying a temperature in a vehicle interior of a regenerative fuel cell device equipped one

Motor vehicle.

For carrying out the method explained below, for example, at least some of the components described above can be used. It should be understood, however, that the practicability of the method is not limited to employing at least some of these components.

Using the method of varying a temperature in one

Vehicle interior of a motor vehicle equipped with a regenerative fuel cell device is executed at least one of the method steps Sl and S2:

In a method step Sl, a waste heat of the regenerative

Fuel cell device which is obtained at least partially forwarded to a heat transfer device of the motor vehicle when carrying out an endothermic electrolysis consuming a supplied current and / or at a reversible to the electrolysis exothermic reaction for power generation. By means of the heat transfer device, the at least partially provided waste heat can therefore be forwarded into a vehicle interior such that the vehicle interior is heated by means of the waste heat of the regenerative fuel cell device which is at least partially passed on by the heat transfer device.

In a method step S2, at least one subunit of a

Sorptionskältemaschine heated by at least a portion of the waste heat of the regenerative fuel cell device. As already explained above, can be in this way the vehicle interior by means of

Sorption chiller are cooled. The method steps S1 and S2 can be carried out in any order and with as many repetitions as desired. On a new description of the advantages realized with it is omitted here.

Claims

claims A regenerative fuel cell device (10) for a motor vehicle, which is designed to perform an endothermic electrolysis by consuming a supplied current and to generate electricity by means of an endothermic electrolysis reversible exothermic reaction, characterized in that the regenerative fuel cell device (10) in addition designed and directly or indirectly so to a  Heat transfer device (14) of the motor vehicle and / or to a sorption of the motor vehicle (16) is attachable, that a waste heat (12) of the regenerative fuel cell device (10) at least partially forwardable to the heat transfer device (14) and / or at least one subunit (18 ) of the  Sorptionskältemaschine (16) by means of at least a portion of the waste heat (12) of the regenerative fuel cell device (10) is heatable. 2. A regenerative fuel cell device (10) according to claim 1, wherein the sorption chiller (16) comprises an absorption chiller (16) and an expeller (18) as a subunit (18) of the sorption chiller (16) by means of at least the part of the waste heat (12) of the regenerative Fuel cell device (10) is heated. 3. A regenerative fuel cell device (10) according to claim 1 or 2, wherein the sorption chiller (16) comprises an adsorption chiller. Regenerative fuel cell device (10) according to one of previous claims, wherein the regenerative Fuel cell device (10) can be connected directly or indirectly to an electric drive motor (50) of the motor vehicle such that the current generated by the regenerative fuel cell device (10) can be output to the electric drive motor (15). Regenerative fuel cell device (10) according to one of previous claims, wherein the regenerative Fuel cell device (10) is designed to split water into hydrogen and oxygen as endothermic electrolysis while consuming the provided stream and to generate electricity by means of the reversible exothermic reaction of hydrogen and oxygen to water. Vehicle temperature control system for a motor vehicle with a regenerative fuel cell device (10) according to one of the preceding Claims, the heat transfer device (14) and / or the Sorptionskältemaschine (16). Energy supply system for an electric drive motor (50) of a motor vehicle with a regenerative fuel cell device (10) according to one of claims 4 and 5; and a battery (52), by means of which the electric drive motor (10) can be energized; wherein the regenerative fuel cell device (10) and the battery (52) are electrically connected to a common electrical interface (54), via which a charging current from an external power source (56) to the regenerative Fuel cell device (10) and to the battery (52) is provided that the battery (52) and at least one of the rechargeable Fuel cell device (10) tethered memory (58a, 58b) for an electrolysis product produced in the endothermic electrolysis is refillable. Power supply system according to claim 7, wherein the electric drive motor (50) in a booster operation at the same time by means of the battery (52) and by means of the regenerative fuel cell device (10) can be supplied with power. Power supply system according to claim 7 or 8, wherein the Regenerative fuel cell device (10) and the battery (52) are connectable to the generator-operable electric drive motor (50) and / or a generator of the motor vehicle, and one of the generator-operable electric drive motor (50) and / or the generator generated generator current to the regenerative Fuel cell device (10) and to the battery (52) is provided that the battery (52) can be charged and the at least one memory (58a, 58b) is refillable. Electric vehicle with a regenerative fuel cell device (10) according to one of claims 1 to 5, a vehicle temperature control system according to claim 6 or with a power supply system according to one of claims 7 to 9. Method for varying a temperature in a vehicle interior with a regenerative fuel cell device (10) equipped motor vehicle with at least one of the steps: Forwarding a waste heat (12) of the regenerative Fuel cell device (10), which in an execution of an endothermic electrolysis by consuming a supplied stream and / or obtained in a reversible to the electrolysis exothermic reaction to generate electricity, at least partially to a Heat transfer device (14) of the motor vehicle (Sl); and or Heating at least one subunit (18) of a sorption refrigeration machine (16) of the motor vehicle by means of at least part of the waste heat (12) of the regenerative fuel cell device (10) (S2).