DE102004037141A1 - Fuel cell system, has drive for several aggregates, where output and discharge handling periods of media stipulated with respective aggregates are adjustable independently from each other - Google Patents

Abstract

The system has pumping set, blower and compressor aggregate, and expander aggregate. A drive (3) is provided for several aggregates, where output and discharge handling periods of media stipulated with respective aggregates are adjustable independently from each other. A differential pressure evaluation unit is provided and a friction coherent coupling transmits power of the drive to a conveyance unit.

Description

The The present invention relates to a drive for the media supply of a Fuel cell system according to the preamble of claim 1.

fuel cells have to while their operation with various media such as air, fuel, coolant and deionized water. At reformer fuel cell system is also reformed from fuel hydrogen, so depending on the reforming process additionally fuel is required. This makes the use of numerous pumps, Compressors, blowers with its own drives and regulations required.

Next the disadvantage of a corresponding space requirement arises also high costs, and with increasing number of cooperating Components also increase the likelihood that one of the components fails.

A reduction of components in a fuel cell system was in the DE 199 08 099 A1 disclosed in which was arranged to increase the efficiency on a common shaft of an electric motor, both a compressor and an expander for the air. Another example of the coupling of two in their flow in a certain relationship to each other standing media by means of a single drive shaft goes from the US 6,376,113 B1 out. The use of a double-head pump for the simultaneous production of air and fuel in the US document and a common drive for a compressor and an expander in the DE-font cause a certain reduction in space requirements. Overall, however, these effects are still unsatisfactory.

Task and Advantages of the invention

task The invention therefore further extends the system complexity and cost of fuel cells reduce and their reliability to increase.

The Invention goes to a drive for the media supply of a Fuel cell system according to the preamble of claim 1, and is solved by its distinctive features. Going from the features of the dependent claims further advantageous embodiments and Modifications of the invention.

Therefore the present invention is characterized in that a common Drive for several units is present, wherein the delivery rate and / or the delivery time the subsidized with the respective aggregate media independently adjustable are.

By the reduction to a single drive for the promotion of all for a fuel cell system required media results in a significant reduction of Space requirements and costs. In addition, the number of Components are reduced, which are subject to aging processes, such as electronic components, in particular by the elimination of the necessary regulations. They can be partly due to robust, mechanical elements are replaced, which with the central drive for the Media supply cooperate accordingly to a trouble-free and reliable To ensure operation of the fuel cell system.

In an embodiment The invention can be a Drehzahlüber- and / or reduction device to be available. This is possible on the shaft of the drive to tap its current speed and in a certain over or under ratio a certain conveyor unit, like Compressor, expander, coolant pump, Recirculation pump and the like more.

In a preferred embodiment can such a speed over- and / or reduction device as transmission, pulley ratio, opposing bevel gears or the like, be formed.

Next this variation of the delivery rates of individual, to be promoted Media can in a further embodiment on the funding period or the delivery date be acted upon by a coupling and / or separating device. A power transmission from the central drive to a specific conveyor unit can thus be parameter-controlled be realized. Thus, depending on the need, the promotion of one or more Media disconnected or switched on or off together. The coupling and / or separation devices depending on requirements elastic or rigid force transmission einkoppelnd be formed.

In a first embodiment, such a coupling and / or separating device for transmitting the rotational movement of the central drive to the corresponding conveyor unit, for example, designed as a frictional clutch. It may have corresponding slats that accomplish the transmission of the rotational movement. It is also conceivable that the transfer the rotational movement is realized by a cone clutch or a suitable other measure.

Around acting on the coupling and / or separating device accordingly to be able to can in a next embodiment an actuator may be provided which connect them to the central drive or separate from him again. Preferably, the actuator can be electrically actuated be. Further embodiments can but also a hydraulic and / or a pneumatic actuator provide. After all is also a combination of several different embodiments conceivable. In particular, this can be advantageous if the Delivery of the speed over- and / or reduction device depending on a specific conveyor and / or Differential pressure should occur. In such a case, for example, via a Cylinder and a corresponding control line an actuator can be actuated so that this engages the conveyor unit depending on the requirement or disengages.

Of the For example, differential pressure can be from one and the same medium tapped at different points in the fuel cell system and be evaluated. But it is also conceivable that in corresponding Related absolute values of pressures of different media such as Air and fuel are evaluated to each other to the coupling or decoupling or even a change in the flow rate or a change in the promotion ratio between to effect individual media.

One additional parameters for the input or output can be a temperature value, for example the absolute temperature value at the outlet of the cooling system at the fuel cell, or a temperature difference between the input and output of the cooling system the fuel cell, and the like. In one moreover advantageous embodiment Also, the humidity value in the air supplied to the fuel cell be detected and, where appropriate, for engagement or disengagement a corresponding conveyor unit be used.

In one next embodiment It can also be provided that an additional drive for coupling a rotational movement in the power train is present. Thus, for example, at a mobile arrangement of a fuel cell system braking energy be fed back into the system.

Based the attached Figure is an embodiment of the present invention.

The attached FIG. 1 shows a block diagram of a fuel cell system.

This is the shading of a fuel cell system 1 visualized. The central unit is the fuel cell 2 which is supplied with fuel, in the present case with hydrogen, and with air, and converts them into electricity. In order to keep the unreacted components of hydrogen and air in the system, appropriate return lines are provided.

For the air supply of the fuel cell 2 is a compressor on the input side 8th provided, which compresses the ambient air and provides the required operating pressure. In the return path of the air is an expander 9 installed in accordance with negative pressure at the outlet side of the fuel cell 8th to be able to carry the air through them better. In the return path of the hydrogen is as a further funding a recirculation pump 11 built-in.

To regulate the operating temperature, a cooling circuit is further provided in which a coolant pump 10 the coolant through the fuel cell 2 and the radiator 12 promoted.

According to the invention can now be a common drive for all conveyor units 3 be provided. In order to allow a tuning of the flow rates, preferably both in terms of volume and in terms of the delivery time, more, between the drive 3 and the conveyor units 8th to 11 intermediate power transmission units 5 . 6 be provided. In the present case are on the shaft 4 of the drive 3 two gears 5 . 6 coupled. The gear 5 exemplifies a direct coupling with the coolant pump 10 dar. The transmission 6 exemplifies with its associated actuator 7 a power transmission unit, which can be engaged or disengaged as needed. In the present case, it is with the recirculation pump 11 for the promotion of unreacted by the fuel cell hydrogen.

About the If necessary, gearbox can also change the gear ratio during the Operation changed so that the volume of the medium to be transported per unit of time reduced or increased as needed can be.

The two conveyor units compressor 8th and expander 9 are in this example directly with the wave 4 connected, so that between these two conveyor units a fixed ratio over the entire speed range of the drive 3 results. Should it be necessary, so of course also here an additional gearbox between one or both conveyor units 8th . 9 and the drive 3 be interposed. The drive 3 is preferably designed as an electric drive, but it can also be realized in any other possible manner, of course.

The illustrated circuit for the air supply includes next to a cloud-shaped symbol 14 for the ambient air still the treatment components condensate separator 13 , Filters 15 and the compressor 8th downstream of a mass flow meter 16 , Additionally is between mass flow meter 16 and fuel cell 2 a humidifier 17 arranged for the regulation of humidity with a supply line 18 is equipped for water. Of course, an optionally required for the supply of humidifying conveyor unit are also coupled to the central drive in a corresponding manner. And the condensate separator 13 is a condensate collector 19 assigned for the absorption of the deposited condensate.

The supply of the fuel cell 2 with fuel, in the present case with hydrogen, takes place from the tank 2 Alternatively, a reformer is possible via a valve 21 which a mass flow meter 22 is downstream. The return of the unused fuel via the already mentioned recirculation path with the recirculation pump 11 ,

The described figure shows only one possible embodiment of the invention, which, however, in no way be regarded as limiting is, but only as a possible embodiment is disclosed.

Claims (13)

Fuel cell system with aggregates for media promotion, such as pump units, fan and compressor units and Expanderaggregate, characterized in that a common drive for several units is present, wherein the delivery rate and / or the delivery time of the subsidized with the respective unit media are independently adjustable. Fuel cell system according to claim 1, characterized in that that a speed over and / or Reduction device is present. Fuel cell system according to claim 2, characterized in that that the speed over and / or Reduction device is a transmission. Fuel cell system according to one of the preceding Claims, characterized in that a coupling and / or separating device for power transmission from the drive to a conveyor unit is available. Fuel cell system according to claim 4, characterized in that that the coupling and / or separating device is a frictional clutch is. Fuel cell system according to one of the preceding Claims, characterized in that an actuator for acting on a Einkopplungs- and / or separating device is present. Fuel cell system according to one of the preceding Claims, characterized in that an electrically actuable actuator is provided. Fuel cell system according to one of the preceding Claims, characterized in that a hydraulic and / or pneumatic actuated Actuator is provided. Fuel cell system according to one of the preceding Claims, characterized in that a dependent on the delivery pressure of a medium operable Actuator is provided. Fuel cell system according to one of the preceding Claims, characterized in that a pressure in particular a differential pressure evaluation unit for the Generation of a signal is provided. Fuel cell system according to one of the preceding Claims, characterized in that a temperature detecting device is provided. Fuel cell system according to one of the preceding Claims, characterized in that a moisture sensor is provided is. Fuel cell system according to one of the preceding Claims, characterized in that an auxiliary drive is provided.