Chemistry: electrical current producing apparatus – product – and – Having magnetic field feature
Reexamination Certificate
2002-11-19
2004-09-21
Chaney, Carol (Department: 1745)
Chemistry: electrical current producing apparatus, product, and
Having magnetic field feature
C429S006000, C429S010000, C429S010000, C429S006000
Reexamination Certificate
active
06794070
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a fuel cell apparatus comprising a fuel cell and a fuel-producing unit that produces a hydrogen enriched fuel and, more particularly, to a fuel cell apparatus comprising a fuel cell unit and a fuel-producing unit, which has at least one compressor for producing an operating pressure for the fuel cell apparatus.
2. Description of the Related Art
Fuel cells are electrochemical converters of chemical energy into electrical energy. A fuel cell comprises an anode, at which a substance is electrochemically oxidized, a cathode, at which another substance is electrochemically reduced and an electrolyte facilitating ionic charge transport between both electrodes. For simplification in the following description the substance to be oxidized is designated or called the “fuel”. Accordingly without further loss of generality the substance to be reduced or oxidizing agent is designated with the term “air”.
Basically the fuel cell apparatus can be a single fuel cell, but also an electrical and/or electrochemical circuit or assembly of several individual fuel cells. Besides the electrical and/or electrochemical circuit one also finds a structure, which supplies and/or transports products away from the electrodes, in the fuel cell or fuel cell stack. Also peripheral components, which, for example, are necessary to supply gas, for heat management and for control engineering, are provided in the fuel cell apparatus.
In many cases it is necessary to obtain, and also produce a hydrogen-enriched fuel for the fuel cell from, hydrocarbons, such as natural gas, gasoline, diesel fuel, methanol or the like. For that purpose a suitable fuel converter unit for conversion of hydrocarbons to a hydrogen-enriched fuel is required.
Frequently so-called PEM fuel cells are used in conventional fuel cell apparatus. These PEM fuel cells react especially with carbon monoxide components in the hydrogen-enriched medium to form a CO coating on the cathode electrode, so that conversion of the hydrogen on that electrode is difficult and/or prevented. The production of the CO coating on the cathode is generally designated as “poisoning” the cathode by those skilled in the art. For this reason the corresponding fuel cell apparatus guarantees the production of a largely or mostly carbon monoxide-free, hydrogen-enriched medium. Thus the carbon monoxide components in the hydrogen-enriched reformat and/or fuel are nearly completely reduced with the help of reactors.
The components of a suitable fuel cell apparatus have transport and/or operating resistances for the fuel and/or operating material. For example, the fuel production unit, the fuel cell itself, the after-burning units and the conducting pipes and valves all have a fluid flow resistance, which must be overcome in operation.
Currently compressors or the like, which act on the fuel cell apparatus, especially the fuel cell and/or the fuel-producing unit with an excess- or over-pressure, are used to overcome the corresponding transport and/or operating resistances. With the help of an appropriate over-pressure both the hydrocarbon, air and also the fuel flows are compressed and forced through the various parts of the fuel cell apparatus (see for example EP 0 977 295 A1).
In the fuel cell apparatus according to the state of the art however it is disadvantageous that an undesirable leakage of the hydrogen-enriched fuel or the like can occur from the apparatus. This causes a potential danger to the apparatus. Furthermore the compression effort and expense, above all, because of the use of two compressors for air and combustible gases, is relatively large.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an improved fuel cell apparatus of the above-described kind, including at least one fuel cell and a fuel-producing unit, which does not have the above-described disadvantage.
It is a further object of the present invention to provide a fuel cell apparatus of the above-described kind, including at least one fuel cell and a fuel-producing unit for making hydrogen-enriched fuel, which has at least one compressor for producing an operating pressure of the fuel cell apparatus, which guarantees a careful operation of the fuel cell apparatus with its operating substances with reduced effort and/or reduced expense and, at the same time, decisively reduces the dangerous potential for leakage.
This object, and others which will be made more apparent hereinafter, are attained in a fuel cell apparatus including at least one fuel cell and a fuel-producing unit for making a hydrogen-enriched fuel, in which at least one compressor is provided for producing at least one operating pressure in the fuel cell apparatus.
According to the invention the at least one operating pressure is less than atmospheric pressure.
Various advantageous embodiments of this apparatus are possible, some of which are described hereinbelow.
Accordingly in a preferred embodiment the operating pressure on the fuel cell apparatus on its gas side is less than atmospheric pressure.
In the fuel cell apparatus according to the invention, with the above-described features, the at least one fuel cell is operated at an over-pressure, because the hydrogen-enriched fuel supplied to the fuel cell is acted on by an under-pressure or low-pressure drawing it through the fuel cell. This guarantees that at least no hydrogen-enriched fuel can escape in case of a leak from the fuel cell apparatus, which effectively eliminates the danger from such leaks in an advantageous manner.
The compressor unit or compressor units for producing the under-pressure are preferably arranged downstream of the fuel cell or fuel cells in the flow direction. Preferably the pressure-producing unit is arranged between the fuel cell and an outlet for exhaust gas. These features guarantee that at least one operating medium, i.e. the hydrogen-enriched fuel, the air, the nearly pure oxygen or the like, is acted on with the under-pressure produced by the at least one compressor. Thus the at least one compressor pulls or draws the at least one operating medium into the fuel cell according to the invention.
Also only one low-pressure-producing device according to the invention is arranged upstream of the outlet for the exhaust gas from the fuel cell apparatus. For this reason the number of required pressure-generating units is reduced in comparison to the state of the art. The efficiency, the costs and failure susceptibility of the fuel cell apparatus according to the invention are thus substantially improved.
In preferred embodiments of the invention the compressor or compressors for producing the low pressure are arranged downstream of an outlet for the hydrogen-enriched fuel from the at least one fuel cell. This guarantees that the hydrogen-enriched fuel is acted on with the under-pressure. Because of this feature of the apparatus no hydrogen-containing fluid and/or gas can escape from the fuel cell apparatus in case of a leak. Thus dangerous leakage conditions are avoided.
In especially preferred embodiments of the invention a separate compressor unit for producing an over-pressure in the oxygen-containing second fluid flow into the fuel cell or fuel cells is arranged at least upstream of an entrance to the fuel cell or fuel cells for the second fluid flow. In these embodiments the compression work for compression of the oxygen-containing second fluid flow, especially air, nearly pure oxygen or the like, is considerably reduced, since only the cathode-side flow resistance of the at least one fuel cell is overcome by means of this compressor unit. That is the e.g. air is not to be compressed to the pressure level above the fuel cell pressure level.
The anode side flow resistance of the fuel cell apparatus or the at least one fuel cell is already exceeded by means of the at least one compressor or by its under-pressure. Consequently, above all, the separate compressor unit, e.g., can be a comparatively simple blower, which only produces a comparat
Amrhein Wilhelm
Arends Gesine
Chaney Carol
Martin Angela J.
Robert & Bosch GmbH
Striker Michael J.
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