DE10013351A1 - Fuel cell stack has space only for delivery or removal of working medium between adjacent identical electrodes of two individual cells - Google Patents

Abstract

The fuel cell stack has at least two individual cells, each with a membrane electrode unit and two bounding current conductor. Two identical electrodes of two individual cells are adjacent to each other and a space only for the delivery or removal of a working medium is formed between these adjacent electrodes. The space between the electrodes is less than 8 mm. Independent claims are also included for the following: a cell frame for accommodating at least one fuel cell stack.

Description

The invention relates to a fuel cell, in particular another a direct methanol fuel cell (DMFC).

A fuel cell has a cathode, an electric lyte and an anode. The cathode becomes an oxide tion means, e.g. B. air and the anode becomes a focal fabric, e.g. B. supplied hydrogen.

Different types of fuel cells are known for example the SOFC fuel cell from the print DE 44 30 958 C1 and the PEM fuel cell from the publication DE 195 31 852 C1.

The SOFC fuel cell will also be high temperature Called fuel cell because its operating temperature up to 1000 ° C. At the cathode of a high temperature Fuel cells are formed in the presence of the Oxidati by means of oxygen ions. The oxygen ions pass Ren the electrolyte and recombine on the anode side with the hydrogen originating from the fuel Water. Recombination frees electrons sets and thus generates electrical energy.

The operating temperature of a PEM fuel cell is at approx. 80 ° C. At the anode of a PEM fuel cell are formed in the presence of the fuel a proton catalyst. Electrons are there released and generated electrical energy. The proto Nons pass through the electrolyte and bind together the cathode side with that from the oxidizing agent the oxygen and the electrons to water.  

Several fuel cells are usually electrically and mechanically connected to each other to achieve high electrical outputs by connecting elements. An example of such a connecting element is the bipolar plate known from DE 44 10 711 C1. By means of bipolar plates, fuel cells stacked one above the other, electrically connected in series, are produced. This arrangement is called fuel cell stack. When using bipolar plates, each positive pole of a single cell is in electrical and mechanical contact with the negative pole of the neighboring single cell and vice versa. Each individual cell has a cathode compartment (oxidizing agent) and an anode compartment (fuel) for the supply of operating media. To remove the resulting gaseous CO ₂ , to remove the cathode-side product water and to avoid flow losses, each of the spaces mentioned disadvantageously requires a minimum size, so that a sufficiently large installation space must be provided for a single cell.

The object of the invention is a fuel cell stack with good efficiency in compact, space-saving and material-saving design to create the does not have the disadvantages mentioned above. It is white terhin object of the invention, a cell frame for Inclusion of such a fuel cell stack create.

The task is solved by a fuel cell stack according to main claim as well as by a cell frame according to ancillary claim. Advantageous embodiments he arise from the related subclaims.  

The fuel cell stack according to the invention saying 1 comprises at least two individual cells, wherein each individual cell from a membrane electrode assembly and two adjacent conductors. in the Difference to conventional fuel cell stacks are in the fuel cell stack according to the invention according to claim 1, the two individual cells in mirror image arranged so that two identical electrodes, anodes or Cathodes are arranged adjacent. Between these same electrodes there is a room to close or Removal of equipment. So be two Arranged adjacent cathodes, so forms the dazwi space in the cathode space, in the regular the oxidizing agent is added or removed. Vice versa forms the there in two adjacent anodes between the anode compartment. This invented arrangement of two individual cells according to the invention Advantage that not every electrode has its own elec Trodenraum needed, but that at neighboring arranged the same electrodes a single room for each because two electrodes are sufficient. This can do little least one electrode space per invention Fuel cell stacks can be dispensed with. This saves Material and space, since the spaces according to the invention for build the space between two identical electrodes can be significantly smaller than if ent speaking two individual rooms for different elec treads are needed.

In an advantageous embodiment according to claim 2 is the distance between two identical electrodes less than 8 mm. So you can use the same space  more fuel cells than in the prior art arrange without flow conditions within of the gap change significantly.

In a further advantageous embodiment, two anodes are arranged adjacent. Since a liquid / gas mixture flows through the anode compartment regularly, e.g. B. in the methanol fuel cell from a methanol-water mixture, which also entrains the resulting CO ₂ gas, the anode compartment must not be less than a certain flow cross-section with respect to the overflowed electrode from a fluidic point of view. If an anode space for two anodes is now used according to the invention, the space saving has a particularly advantageous effect.

In one embodiment of the invention according to claim 4 is the electrical contacting via external current taps realized.

A cell frame according to claim 5 is for inclusion at least one fuel cell according to the invention stack provided. It typically consists of one electrically insulating material.

The cell frame according to claim 6 has means for or removal of equipment that the Be Guide the propellant into the space between two identical electrodes are formed.  

The addition or removal of the operation is advantageous means according to claim 7 from below in the intermediate space realized.

This has the particular advantage, in the case that the space is an anode space, that the gas formed during the reaction of the fuel on the anodes, e.g. B. CO ₂ , accumulates at the highest point of the space, and only a little entrained gas in the liquid / gas mixture has to be led through additions or discharges from one cell to the adjacent cell.

In a further advantageous embodiment of the cell frame according to claim 8 has the invention Cell frame also a means of dissipating the formed gas on. In the simplest case, this can be done consist of an additional line, the advantage according to claim 9 at the top of the Zwi is attached or also according to claim 10 from a discharge leading to the space in between a gas permeable membrane is separated. This Exhaustion then does not have to be at the top, for example of the space.

The discharge of the resulting gas, e.g. B. CO ₂ has the following advantages. Characterized in that the gas content in the anode compartment and the corresponding lines is reduced, both the lines and the anode compartment can be significantly reduced in their dimensions. The reduction in the anode space leads to a further saving in space. At the same time, the mass transport of the fuel to the electrodes is no longer inhibited to the extent by gas bubbles, which can lead to an increase in the efficiency of the performance of the fuel cell under otherwise identical conditions.

The cell frame according to the invention advantageously has stack consisting of at least two cell frames in an embodiment according to claim 11 additionally Means to connect multiple cell frames. Thereby can be a fuel cell stack with more than two Realize single cells. The means of connection several cell frames in particular include the verb the corresponding inlets and outlets of the Resources.

In a specific embodiment, the execution form according to claim 12, a cell frame with at least a fuel cell stack according to the invention, the anodes being adjacent and means for the supply or discharge of a methanol / water mixture are present in the anode space in between.

The invention is explained in more detail below with reference to FIG. 1.

1 it shows the Fig. Is a schematic diagram of a fuel cell stack comprising a plurality of series-connected cell frame, which in turn comprise in each case two individual cells. The individual cells in turn each comprise a membrane electrode unit and two adjacent current conductors. In each case two individual cells are arranged in mirror image in a cell frame, so that two identical electrodes lie adjacent to one another. In the example shown, two adjacent anodes form a common anode space between them. The methanol / water mixture is fed into and out of the respective anode compartments from below by inlets and outlets. The CO ₂ generated at the anode during the reaction collects in the upper area of the anode compartments and is removed there by a discharge. The supply and discharge channels between the cell frame predominantly only convey liquid. So that these lines, as well as the available space between two anodes (expressed in the distance between these two electrodes) can be significantly smaller for fluidic reasons than would be necessary according to the prior art. At the same time, the oxidizing agent is supplied between the individual cell frames. Since only one cathode compartment is required for two cathodes, this also results in a significant space saving. Fig. 1 shows the air flow through the fuel cell stack, ie through the cathode spaces, which are located between the individual cell frames. The air is sucked off through a perforated cover plate by a suction fan.

The idea of the invention is revealed in a Brenn fabric cell stack, in particular a low-temperature Fuel cell stack in which the fuel single cells are arranged such that two of the same Electrodes are arranged adjacent. Let it through the electrical otherwise required for each electrode reduce the space to almost half (ideally One anode and one cathode compartment for two  Single cells). The fuel cell according to the invention stack saves compared to the state of the art known both material and space without it regularly loses efficiency in burning fabric cells is coming. In a preferred embodiment the fuel cell stack additionally has a means to discharge the resulting gas from the anode compartment on. This has a positive effect on the flow ratio nisse in the fuel lines and on the electrodes from, so that in this embodiment even a crate efficiency is possible.

Claims (12)

1. Fuel cell stack, comprising at least two individual cells, each having a membrane electrode assembly and two adjacent current conductors, characterized in that

• - Two identical electrodes of two individual cells are arranged adjacent, and
• - Between these same electrodes of the two single cells, only one space for supplying or discharging a device is provided.

2. Fuel cell stack according to the previous one Claim, characterized, that the distance between the same electrodes is less than 8 mm. 3. Fuel cell stack according to the previous one Claim, characterized, that two anodes are arranged adjacent and only an anode space is provided between them. 4. Fuel cell stack according to one of the previous ones the claims characterized, that the electrical contacting of the individual cell len takes place via external power taps.   5. Cell frame for holding at least one focal fabric cell stack according to one of the preceding Expectations. 6. cell frame according to the preceding claim, characterized by means of increasing or decreasing lead a resource in the between the same electrodes provided space. 7. cell frame according to the preceding claim, characterized, that the inlets and outlets from below in the two space provided in the same electrodes is provided. 8. Cell frame according to one of the preceding claims 5 to 7, characterized, that a means for discharging a gas from the space provided between the same electrodes is provided. 9. cell frame according to the preceding claim, characterized, that the means for discharging a gas is a gas permeable membrane has. 10. Cell frame according to one of the preceding claims 8 to 9, in which the means for removing a Gases arranged on the upper side of the cell frame is not.   11. Cell frame stack comprising at least two cells Frame according to one of the preceding claims 5 until 10, characterized by connecting means several cell frames, especially for connecting the Means for the entry and exit of a company with tels. 12. Cell frame according to one of the preceding claims 5 to 10, with at least one fuel cell sta pel according to one of Claims 3 to 4, characterized by means of increasing or decreasing lead a methanol / water mixture in the inter anode compartment located between two anodes.