DE2733047A1 - Mechanical support for electrodes in fuel cells - having corrugated metal support sheets mounted at angle of approximately 30 degrees to lines of wire mesh support - Google Patents

Abstract

The mechanical support of electrodes in electrochemical cells has a construction consisting of a support member with parallel support stays and a wire net mounted on >=1 side of it. The wires in the net should form an angle with the stays between 25-35 degrees. The spacing between the stays of the support should be between 2-10 times the average spacing of the wires in the net. Alternatively, the angle can be 30 degrees and the spacing between 3-6 times the average spacing between the wires. The support is corrugated metal and the net is made from metal, esp. Ni. Used esp. for the gas side support and contacting of electrodes made from a powdered catalyst material in fuel cell elements. Provides uniform electronic surface contact for the electrode.

Description

Assembly for the mechanical support of electrodes

in electrochemical cells The invention relates to an assembly for the mechanical support of electrodes in electrochemical cells from one Support member with parallel webs and a network on at least one side of the support member.

So-called supported electrodes, such as those used as gas diffusion electrodes used in fuel elements and fuel batteries are on the gas or electrolyte side to support the powdery or bound catalyst material provided with support members. These support members can be one or more nets, being on the electrolyte side between the catalyst material and the support member generally there is still a diaphragm.

For the electrolyte chambers of electrochemical cells is already a support structure or support member with flow channels for the electrolyte liquid have been proposed to provide essentially free of narrow in the direction of flow (German patent application Akt.Z. P 26 56 083.8). The support frame have two thin porous edge areas, between which - in the direction of flow the electrolyte liquid - parallel to each other at a distance Bars are arranged.

It is advantageous to have two thin networks in parallel to each other arranged running wires. The support structure in the electrolyte chambers can, however also have two thin porous edge areas, in particular thin nets, between in which a network is arranged in a corrugated, folded or kinked shape, that there are flow channels for the electrolyte liquid.

On the gas side, the catalyst material can, as already stated, be supported by a spacer network, whereby - according to DT-OS 2 129 187 - Between the spacing networks of two neighboring cells to separate the gas spaces and are arranged for Stromabnaame contact plates. In the contact plates can advantageously be embossed gas ducts and therefore are preferred for this purpose corrugated sheets are used, i.e. support members with parallel to each other Webs.

The supported electrodes require an external one for contacting Contact pressure. As demonstrated by measuring the AC resistance of the individual cells can be, but is often not even at an average pressure of approx. 4 bar perfect contact achieved, although in principle for the function of a fuel element with supported electrodes a minimum contact pressure of approx. 0.1 bar will be sufficient should.

To achieve a uniform contact pressure with electrochemical Cells it is known from DT-PS 1 930 116 to use so-called pressure pads, those filled with gas or liquid and on the side facing away from the electrolyte of the electrodes with the interposition of networks made of metals and / or plastics are arranged. These pressure pads are - in addition to the usual components in the battery arranged - beMlter, which are in or in front of the end plates or in particular between individual cells or groups of multiple cells. You require therefore an additional space requirement and thus particularly affect the performance volume the battery.

The object of the invention is to provide an assembly for mechanical support of electrodes in electrochemical cells from one Support member with parallel webs and a network on at least one Design side of the support member so that danit a uniform electronic Surface contacting of the electrodes is possible.

This is achieved according to the invention in that the network is square Has mesh and is arranged on the support member such that the net wires with the webs of the support member form an angle approximately in the range between 25 and 350, and that the distance between the parallel webs of the support member from each other is approximately 2- up to 10 times the average wire spacing of the network.

Up until now, the individual components in the assemblies were arranged in such a way that that their preferred directions were parallel to each other, i.e. the webs of the support member and one half of the wires of the nets lose parallel to each other; the other Half of the net wires then lay vertically - in the case of nets with square meshes to the jetties. The reason for such an arrangement is in particular to see that with the nets the wires run parallel to the edges and the nets were cut from rolls in such a way that aan received as little waste as possible.

In the assemblies according to the invention, however, the network wires now form with the webs an angle between about 25 and 35 ° C, with an angle of about 300 is particularly preferred. It has been shown that with such a mutual arrangement of support member and network the periodic structures of both Components, i.e. the square meshes of the nets with the parallel webs of the Support member.s, combined with a certain dimensioning to an extremely uniform one local pressure distribution lead. The arrangement of the two components under one Angle of 30 °, for example, is to be understood as meaning that half of the net wires with the webs of the support member - in the direction of extent of the network level - one Forms angles of 300, while the other half of - the square mesh ashes delimiting - wires running at an angle of 1200 to the webs.

In the assembly according to the invention, the Stutqlied is advantageous corrugated sheet metal, i.e. it consists of metallic material.

The network is also advantageously made of metal, preferably made of Nickel. The corrugations of the sheet then form the webs. their distance from each other is about 2 to 10 times the average wire spacing of the network. Preferably the distance between the webs of the support member is about 3 to 6 times the mean wire spacing of the network. The various components of the assemblies, i.e. support members and / or nets, but can also be made of plastic.

The assembly according to the invention is used in particular for the gas side Support and contacting of electrodes made of powdery catalyst material in fuel elements, i.e.

the gas-impermeable support member and the gas-permeable wire mesh serve as transfer elements for the current and the contact pressure.

In addition, this assembly can also be used as a support body in the Serve electrolyte space, with both the support member and the network or networks are electrolyte-permeable. Furthermore, the assembly can also be used in other electrochemical Cells are used, such as in metal / Ufft cells and electrolysers.

The invention is still intended to be based on exemplary embodiments and figures are explained in more detail.

The pressure distribution on the electrode surface can be advantageous in the It can be made visible in a way that between Katta1ysatormaterial and Diapohragma Carbonless or blue paper (approx. 35 µm thick) and a plastic drawing sheet (approx. 70 µm thick) is inserted.

These components then ground together with the other components of a Cell under a press with plane-parallel punches at a pressure of approx. 4 bar condensed.

In FIGS. 1 to 4 is the grid-based one - approximately in fourfold enlargement Distribution shown, which occurs with different orientations of the components an assembly on the gas side of a supported electrode results. The figures 1 to 4 apply to an angle ton 300, 45 °, 0o (parallel arrangement) or 150 between the support member and the adjacent network, the catalyst material is present. A nickel mesh was used as a component in each of the assemblies Linen binding and a corrugated iron sheet were used, the distance between the corrugations was approx. 3 - (thickness of the corrugated sheet: approx. 1.5 mm, with a sheet thickness of 0.3 -). The metal mesh (mesh thickness: 0.6 sn) had a wire thickness of 0.3 mm and a mesh size (square mesh) from 0.67 mm up; the mean wire spacing was flomit approx. 18.

It can be seen that in the arrangement according to FIG. 1, the pressure points as are evenly distributed over the entire surface. This means that it is at an orientation of approx. 300 between the webs of the support member (corrugated iron) and the mesh wires due to an interference-like superposition to a local extremely even pressure distribution on the electrode surface feces.

In a corresponding manner, the invention can also use a Assembly on the electrolyte side of a supported electrode ensures an even pressure distribution be achieved. Such an assembly can, for example, consist of two thin nickel meshes with square mesh and consist of a multitude of nickel wires that - as a support member - between the nickel nets parallel to each other and at a distance are arranged from each other, wherein the mesh wires with the Iinzeldräten of the support member make an angle of about 300. The nickel nets (thickness: approx. 0.1 mm) have a Mesh size of approx. 0.2 mm and a wire thickness of approx. 0.05 - on; the middle one Wire spacing is then about 0.25 ii. The nickel wires of the support member are approx.0.5 mm thick and arranged at a mutual distance of approx.1.5 mm (approx. 100 wires on a lung of 20 cm).

6 P a t e n t a n s p r ü c h e 4 figures

Claims (6)

Claims 1. Assembly for the mechanical support of electrodes in electrochemical cells from a support member with parallel to each other Webs and a net on at least one side of the support member, d a d u r c h g o k e n n n n e i n e t that the net has square meshes and on the support member is arranged such that the net wires with the webs of the support member one Form angles approximately in the range between 25 and 350, and that the distance between the parallel Bars of the support member from each other about 2 to 10 times the average wire spacing of the network. 2. Assembly according to claim 1, characterized in that the network wires extend at an angle of about 300 to the webs of the support member. 3. Assembly according to claim 1 or 2, characterized in that the Distance between the webs of the support member about 3 to 6 times the middle one Wire spacing of the network. 4. Assembly according to one of claims 1 to 3, characterized in that that the support member is a corrugated sheet metal. 5. Assembly according to one or more of claims 1 to 4, characterized characterized in that the network consists of metal, in particular nickel. 6. Use of the assembly according to one or more of the claims 1 to 5 for gas-side support and contacting of electrodes made of powder Catalyst material in fuel elements.