DE102004013689A1 - Filter device, in particular for a fuel cell stack - Google Patents

Abstract

The invention relates to a filter device for filtering an operating medium, which is supplied to a fuel cell stack (1) via a feed line (6), with at least one filter (5), wherein the filter (5) in the feed line (6) or at least a part of Supply line (6) is integrated.

Description

The The invention relates to a filter device, in particular for a Fuel cell stack, according to the preamble of claim 1.

The conversion of chemical into electrical energy by means of polymer electrolyte fuel cells represents a particularly efficient and environmentally friendly method for recovering electric current from the operating media hydrogen and oxygen. Two spatially separated electrode reactions take place in which electrons are released or bonded: H ₂ => 2H ⁺ + 2e ^- (Anodic reaction) 2H ⁺ + 2e ^- + ½ O ₂ => H ₂ O (cathodic reaction)

By electrical connection of the spatially separated Reaction zones may be part of the reaction enthalpy converted thereby be obtained directly as an electric current.

A polymer electrolyte fuel cell consists essentially of a functioning as an electrolyte polymer membrane, which separates the reactants hydrogen and oxygen from each other and has a (H ⁺ ) proton conductivity, and two occupied with catalyst material electrodes, among other things, for tapping the generated by the fuel cell electric current are required. Electrodes and polymer membrane are usually compacted into a membrane-electrode assembly (MEA). For the technical realization of two separate from each other by the electrolyte, electrically connected via an outer conductor gas chambers bipolar plates are used, which consist of electrically conductive material and are provided with gas distribution structures, which allow the arrival and removal of Reaktionsedukte and reaction products. The distribution structures in the individual fuel cells usually have a meandering geometry in order to supply the MEA optimally with the operating media and to allow a favorable discharge.

Consequently There is a technical single fuel cell from an MEA, as well two bipolar plates over supply connections charged with the operating media and on the water of reaction dissipated and the electric current occurring during the process can transport.

There the maximum achievable cell voltage of a single fuel cell is physically limited and under use regularly under 1V, typically in the range 0.5 to 0.7V, becomes Producing higher Tensions and performances of several single fuel cells in form a series electrical connection interconnected. This im The following referred to as stack construction complex, which also as Fuel cell stack is called, consists of one or more stacked and in a series electrical circuit arranged, planar single fuel cells.

to Supply of the individual fuel cells in the fuel cell stack with the respective operating media are large main lines, so-called Ports, used, which led axially through the stack structure who the and which the individual fuel cells through laterally over stubs Supply branching channel structures with the operating media.

On Reason of the big one Amount of reaction air, the fuel cell to supply the fuel cell reaction be supplied with oxygen must, and in view of the relative sensitivity of the catalytic active areas and the associated gas diffusion zones opposite one Contamination by toxins and blockage by particles is the Filtering the supplied Ambient air absolutely necessary.

According to the in 3 schematically illustrated prior art, the filtering process takes place through a filter between two sections of the supply line 102 in a housing 101 between fuel cell stacks 103 and air compressor 104 or fan (at low pressure cells) is arranged, with the air from out of the environment, in 3 with the reference number 105 referred, is sucked. Following the supply line 102 is inside the fuel cell stack 103 a main line (not shown) provided with the above stub lines and channel structures.

For use in applications that require a very compact design, such as For example, in the automotive sector, the task results, the Run fuel cell stack with filter device as small as possible. there However, should the pressure losses with a view to higher required compressor outputs, sinking efficiencies and longer ones Maintenance intervals as possible kept small.

It Object of the invention to provide an improved filter device for disposal to provide, which requires in particular minimal additional space, an equivalent filter performance with a minimum pressure loss and if possible economical is to produce.

This task is solved by a filter Device with the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

According to the invention is a Filter device for filtering an operating medium, the fuel cell stack supplied is provided with a filter in which the filter in particular in the outside the fuel cell stack extending supply line is integrated. By integrating the filter in the supply line is the additional Required space for an external filter as in the prior art Technology provided, reduced. Especially with a flexible Design of the filter and the supply line can be the available space optimally exploit and to a variety of different installation variants to adjust. Further leaves the number of connections reduce by two, as a connection of the supply line to the filter housing for Supply and discharge of the operating medium to be filtered is eliminated, which the pressure drop can be reduced.

On Reason of the big one filter area results in a very low pressure loss, in conjunction with the Growing the filter cake allows extended service intervals.

Of the Filter is preferably arranged coaxially to the feed line, wherein between the outer surface of the filter and the wall of the supply line is provided a gap, so that over a preferably size area a filtering can be done. The positioning is preferred by means arranged in the gap supporting and Positioning elements, which ensure a central arrangement. The support and positioning elements can on the inner wall of the supply line and / or on the outer wall be formed of the filter and / or by separately trained, be formed in particular on the filter plugged elements. In particular, extending in the longitudinal direction, star shape arranged ribs suitable. The arranged between the individual ribs channels can be connected by interruptions of the ribs, so that a flow compensation possible is about a pressure gradient for example, as a result of a filter cake that has grown strongly on one side, compensate. Preferably, four ribs are provided at equidistant intervals. Also are distributed nubs possible, making the filter surface as possible be kept large can.

Of the Filter preferably has a hollow cylindrical profile, however In principle, other configurations are possible.

to increase The lifetime of a filter is preferably a cleaning device provided, which in particular by an electrical Heizbarkeit of the filter is formed.

Of the Filter may be arranged in a replaceable module, so that he simply and without damage can be replaced during installation. The replaceable module can in particular by the corresponding, the filter device forming Part of the supply line with the filter arranged therein and corresponding connections to the blower or the blower side Feed line and be formed on the fuel cell stack.

Prefers the filter is at least partially hygroscopic and / or has capillaries that absorb condensation occurring and / or a moistening of the operating medium, in particular during start-up phases of the fuel cell stack.

In front The fuel cell stack may be arranged a pre-filter, which especially larger particles filters out, leaving the filter inside the fuel cell stack preferably long to fulfill its function can.

Of the Filter can be used to enlarge the filter area also protrude into the fuel cell stack and at least partially be included in a main line provided herein.

in the The invention will be described below with reference to exemplary embodiments, in part with reference to the drawing, explained in detail. In show the drawing:

1 a schematic representation of a filter according to the first embodiment,

2a a schematic representation of the function of the filter,

2 B a schematic representation of the partially cut fuel cell stack without showing the filter, and

3 a schematic representation of a conventional filter device according to the prior art.

A fuel cell stack 1 as he is in 1 and 2 B is indicated, consists of a plurality of individual fuel cells, which in turn are composed of two bipolar plates and a MEA arranged therebetween (not shown). The individual fuel cells are each one or more, common main lines 3 and branches thereof in the form of stubs 4 supplied with operating media, in particular with coolant, as well as hydrogen (H ₂ ) and air (in particular O ₂ ), which are required for the reaction described above. The following only applies to the air supply main 3 received.

A filter 5 for filtering the serving as the operating medium ambient air is formed as a hollow cylinder, wherein the air to be filtered the filter 5 flows through in the longitudinal direction and exits through the side walls over substantially the entire length and the entire circumference of the hollow cylinder. The hollow cylindrical filter 5 is approximately concentric in a likewise substantially cylindrical feed line 6 arranged, with the exception of support and positioning elements (not shown), an annular gap between the outer circumferential surface of the filter 5 and the inner surface of the supply line 6 is provided so that the largest possible outflow is guaranteed. The filter 5 has approximately the same length as the supply line 6 on, with seals at the front and rear ends of the filter 5 are provided and the supply line 6 directly into the main line 3 of the fuel cell stack 1 empties.

According to one second, not shown in the drawing embodiment the filter is electrically heated and consists of a temperature-resistant filter material. The pressure drop increases due to a growing filter cake over a given value or is due to a saturation of the filter with pollutants A renewal is required, so can by reversing the gas flow in connection with the heating of the filter, a "burning off" of the pollutants and / or filtered-out particles done and thereby the filter to be cleaned. The order the filter in the supply line of the operating medium to the fuel cell stack corresponds to that of the first embodiment.

According to one another embodiment, not shown in the drawing, is in front of a filter device according to one the embodiments described above arranged a pre-filter, wherein the arrangement and the structure of the pre-filter such according to the state the technique corresponds. A pre-filter is particularly strong and / or with big Particles polluted operating media sense, so preferably a Pre-cleaning is done in a rough pre-filter and the fine filter inside the fuel cell stack not by coarse particles is added. Naturally The prefilter can also be self-cleaning.

to further enlargement of the Filter surface is according to one another embodiment not shown in the drawing the hollow cylindrical filter is designed to be extended in such a way that it passes over the supply line protrudes into the main line of the fuel cell stack, so that also according to this embodiment only one the flow cross-section decreasing and thus increasing the pressure drop transition from supply line to the filter or fuel cell housing is provided. Here as well as in the previously described embodiments the filter as well as the tube is preferably elastic, so that with an enlarged filter surface a optimal and flexible adaptation to the available space is possible.

Claims (10)

Filter device for filtering an operating medium, in particular a fuel cell stack ( 1 ) via a supply line ( 6 ), with at least one filter ( 5 ), characterized in that the filter ( 5 ) into the supply line ( 6 ) or at least part of the supply line ( 6 ) is integrated. Fuel cell stack according to claim 1, characterized in that the filter ( 5 ) and the supply line ( 6 ) at least in the area of the filter ( 5 ) are flexible. Filter device according to one of the preceding claims, characterized in that between the outer surface of the filter ( 5 ) and the wall of the supply line ( 6 ) A gap is provided. Filter device according to claim 3, characterized in that that in the gap and positioning elements are arranged. Filter device according to one of the preceding claims, characterized in that the filter ( 5 ) and / or the supply line ( 6 ) are formed hollow cylindrical. Filter device according to one of the preceding claims, characterized in that a cleaning device for the filter ( 5 ) is provided. Filter device according to one of the preceding claims, characterized in that the filter ( 5 ) is electrically heated. Filter device according to one of the preceding claims, characterized in that the filter ( 5 ) is arranged in a replaceable module. Filter device according to one of the preceding claims, characterized in that the filter ( 5 ) is formed at least partially hygroscopic and / or has capillaries that absorb condensation occurring and / or allow humidification of the operating medium. Filter device according to one of the preceding claims, characterized in that before the supply line ( 6 ) with the filter arranged therein ( 5 ) A pre-filter is arranged.