Chemistry: electrical and wave energy – Apparatus – Electrolytic
Reissue Patent
2001-01-17
2003-04-08
Valentine, Donald R. (Department: 1741)
Chemistry: electrical and wave energy
Apparatus
Electrolytic
C204S258000, C204S283000
Reissue Patent
active
RE038066
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to an electrolysis apparatus with a number of membrane electrolysis cells, each of which comprises a membrane that is provided on both sides with a contact layer.
In an electrolysis apparatus, a medium is electrolytically decomposed by applying a supply voltage between an anode and a cathode. If water is used as the medium, hydrogen and oxygen are thereby formed. Such an electrolysis apparatus can consequently be used for generating hydrogen and/or oxygen as and when required. For example, an electrolysis apparatus may be provided for injecting hydrogen as and when required into the primary coolant loop of a pressurized water reactor.
An electrolysis apparatus may be designed as a membrane electrolyzer. In that case, the electrolysis apparatus comprises a number of membrane electrolysis cells, in which the functional principle of a fuel cell is reversed. The functional principle of a fuel cell is described, for example, in the paper “Brennstoffzellen für Elektrotraktion” [fuel cells for electrotraction], K. Strasser, VDI-Berichte [Reports by the Association of German Engineers], No. 912 (1992), pages 125 et seq.
In the case of such a membrane electrolysis cell, the water provided as the medium is supplied to a membrane arranged between the anode and the cathode, in particular a cation exchanger membrane, provided as the electrolyte. The membrane is thereby usually provided with a contact layer on each of both sides. The first contact layer serves as the anode and the second contact layer serves as the cathode. Such a membrane electrolysis cell is distinguished by a particularly compact design, so that an electrolysis unit with a number of membrane electrolysis cells can be accommodated in a particularly confined space.
For the use of an electrolysis apparatus as a hydrogen generator in the industrial sector or in the power plant sector, it is necessary for its production capacity to be designed to meet the basic hydrogen requirement. If that is the case, the design of the electrolysis apparatus as a membrane electrolyzer, which is desirable with regard to structural advantages, may be unsuitable, particularly for applications with a comparatively high hydrogen requirement.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an electrolysis apparatus with a number of membrane electrolyzers of the type mentioned, which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and which, while being of a compact design, is also suitable for comparatively high hydrogen production rates and can consequently be used particularly flexibly.
With the foregoing and other objects in view there is provided, in accordance with the invention, an electrolysis apparatus, comprising:
a plurality of membrane electrolysis cells each having a membrane formed with a contact layer on both sides thereof;
a contact plate disposed on each of the contact layers and having a surface facing the respectively associated contact layer; and
each contact plate having a system of ducts formed in the surface facing the contact layer for transporting water and/or gas.
The invention is based on the concept that a membrane electrolyzer, which is also suitable for high hydrogen production rates, should have a number of membrane electrolysis cells with membranes dimensioned over a particularly large area. Even with such dimensioning of the membranes, reliable feeding of the membranes with the medium to be decomposed, in particular water, should be ensured. For this purpose, a transport system which is reliable and also suitable for large-area membranes is provided for the medium and also for the gas generated in the electrolysis process for each membrane of the electrolysis apparatus. A particularly compact design can be achieved in this case by the transport system being integrated into the contact plates provided for the electrical contacting of the electrodes fitted on the membranes.
In accordance with an added feature of the invention, the system of ducts is a plurality of concentric circular segments. This is particularly preferably because it has been found that in the case of such an arrangement of the system of ducts a particularly favorable and reliable feeding of all the active regions of a membrane can be achieved. The membrane electrolysis cells are in this case expediently connected electrically in series.
In accordance with an additional feature of the invention, a porous conductor plate is disposed between each contact layer and a respective contact plate. Such a porous conductor plate, which may be formed for example from titanium, on the one hand establishes a reliable electrical contact between the contact layer and the contact plate assigned to it, while on the other hand unhindered passage of the medium to be decomposed to the membrane and of the electrolytically generated gas into the system of ducts is ensured. The porous conductor plate in this case additionally enhances the distribution of the supplied medium on the membrane.
In accordance with another feature of the invention, each system of ducts disposed on the two sides of a respective membrane are connected to be fed with a medium independently of one another. In other words, the systems of ducts that straddle a membrane can be fed with the medium, in particular with water or deionized water, independently of one another. In such an arrangement, that contact layer of the membrane which is intended as the anode for the electrolysis process can be supplied with a different medium than that contact layer which is intended as the cathode. The electrolysis apparatus can consequently be used particularly flexibly. For example, in the case of such an arrangement the contact layer of the membrane intended as the cathode can be fed with coolant circulated in the primary loop of a nuclear plant, where as the contact layer of the membrane intended as the anode can be fed deionized water. An electrolysis apparatus designed in such a way can consequently be used as a hydrogen generator for the reactor coolant that is integrated directly into the coolant loop of a nuclear plant. The systems of ducts of the contact plates arranged on both sides of a membrane are in this case expediently connected to gas removal systems kept separate from one another.
In accordance with a further feature of the invention, the membrane electrolysis cells are arranged in a stack, and the stack is disposed in a housing. The housing has an end face with a fixing element for bracing the membrane electrolysis cells to one another. This feature leads to particularly reliable current conduction within the electrolysis apparatus. Neighboring membrane electrolysis cells can in this case be pressed flat against one another by means of the fixing elements, so that a particularly reliable conductive connection is ensured between each contact layer and the contact plate respectively assigned to it.
In accordance with again a further feature of the invention, an analysis unit is electrically connected to at least one of the contact layers, the analysis unit determining a decay time of a voltage signal of the membrane when a power supply to the membrane is disconnected. This feature results in particularly high operational reliability of the electrolysis apparatus. This is based on the perception that an operationally induced failure of a membrane electrolysis cell is attributable comparatively frequently to damage to its membrane, for example perforation. Such damage to a membrane by perforation can be detected in a particularly simple way by measuring the time over which the voltage drops across the membrane after disconnection of the power supply to the membrane. This is because, in this case the membrane electrolysis cell to be investigated should briefly behave like a fuel cell, since there are still remains of the previously generated hydrogen or oxygen on both sides of the membrane. If the membrane is intact
Framatome ANP Gmb
Greenberg Laurence A.
Mayback Gregory L.
Stemer Werner H.
Valentine Donald R.
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