Measuring and testing – Liquid analysis or analysis of the suspension of solids in a... – Content or effect of a constituent of a liquid mixture
Reexamination Certificate
2002-03-25
2003-03-25
Williams, Hezron (Department: 2856)
Measuring and testing
Liquid analysis or analysis of the suspension of solids in a...
Content or effect of a constituent of a liquid mixture
Reexamination Certificate
active
06536262
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a method for determining an alcohol concentration in an alcohol/water mixture for fuel cells that are operated with this mixture, in particular direct methanol fuel cells. The invention also relates to an apparatus for carrying out the method.
To maintain the optimum operating parameters in fuel cells that are operated with liquid fuels, it is necessary to control the fuel concentration. For this purpose, the current concentration has to be determined.
Published, European Patent Application EP 0 684 469 A1 discloses a measuring unit for determining the concentration of low-molecular weight alcohols, such as methanol, in water or acids. The measuring unit has a porous anode for the electrochemical oxidation of the alcohol, a cathode for the electrochemical reduction of oxygen, an ion-conducting membrane disposed between the anode and the cathode and a diffusion-limiting membrane which is disposed on that side of the anode which is remote from the ion-conducting membrane. The measuring unit that, so to speak, represents a fuel cell is, for example, disposed in the fuel line and is held at a defined cell voltage by potentiostatic methods. Depending on the alcohol concentration, a current flows through the fuel cell, and the concentration can be worked out—by a calibration curve—from the level of the current. A procedure of this nature is relatively complex, since current and voltage have to be measured or monitored. In what are known as direct methanol fuel cells (DMFCs), the fuel methanol undergoes direct electrochemical oxidation, i.e. is reacted without the intermediate step of a reforming operation (see in this respect, for example, the reference by M. Waidhas in K. Ledjeff (Ed.) titled “Brennstoffzellen: Entwicklung, Technologie, Anwendung” [Fuel Cells: Development, Technology, Applications], C. F. Müller Verlag GmbH, Heidelberg 1995, pages 137 to 156). To achieve the optimum operating point in a DMFC, it is necessary to operate with a dilute fuel in excess.
For economic operation of a direct methanol fuel cell system (stack), it is necessary for the excess fuel and the water, which functions not only as a solvent but also as a reactant (anode reaction: CH
3
OH+H
2
O→CO
2
+6 H
+
+6 e
−
) to be circulated. Therefore, the methanol/water mixture, after it leaves the stack (and after the carbon dioxide formed during oxidation of the methanol has been separated out) is fed back to the anode. Since a certain methanol concentration is required for operation of a DMFC-Stack, the methanol concentration in the anode cycle has to be measured, and, if the concentration is too low, the deficiency of fuel has to be metered in.
For on-line determination of the fuel concentration in the electrolyte of fuel cells, it has already been proposed in International Patent Disclosure WO 01/13451 A1, corresponding to U.S. patent application Ser. No. 10/078,123, to determine the dielectric constant of the mixture by measuring the frequency-dependent capacitance of a measurement cell through which the fuel/electrolyte mixture flows, the dielectric constant being dependent on the fuel concentration. This requires accurate monitoring of pressure and temperature, and the measuring unit must operate highly accurately. Moreover, this type of fuel determination is extremely sensitive to carbon dioxide that is dissolved in the electrolyte and is always present, for example, in the anode circuit of a DMFC-Stack that is operated with liquid fuel.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method and apparatus for determining an alcohol concentration in an alcohol/water mixture for fuel cells which overcome the above-mentioned disadvantages of the prior art methods and devices of this general type. Above all, it is necessary for it to be possible for the concentration determination to take place continuously and in parallel with the operation of the fuel cells or of the stack and for carbon dioxide present in the electrolyte not to cause any disruption.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method for determining an alcohol concentration in an alcohol/water mixture of fuel cells operated with the alcohol/water mixture. The method includes the steps of pumping the alcohol/water mixture through a constriction; measuring a differential pressure between an entry to and an exit from the constriction; and determining the alcohol concentration from the differential pressure.
According to the invention, this is achieved by the fact that the alcohol/water mixture is pumped through a constriction, the differential pressure between the entry to and exit from the constriction and, if appropriate, the flow velocity of the mixture through the constriction are measured, and the alcohol concentration is determined therefrom.
In this method, the fuel is alcohol. The alcohol is in particular methanol, ethanol, propanol or glycol. It is true that Published, Soviet Union Patent Application SU 1 789 909 A discloses a measuring device for measuring the viscosity of a liquid flowing through a pipeline, in particular of oil, in which a sample of the liquid is passed, parallel to the pipeline, through a capillary, and the flow velocity and pressure loss in the capillary are measured. From this, given the known geometry parameters, calculations can be used to determine the dynamic viscosity of the liquid. This measurement method is to be used to monitor the mixing process of products in particular in the oil industry. Even if SU 1 789 909 A states that other applications are possible as well as the oil industry, the document provides no more specific details of such applications. In particular, there is no indication of the application of determining the concentration of alcohols in the electrolyte of fuel cells.
The inventive application of the invention makes use of the surprising fact that the viscosity specifically of an alcohol/water mixture is highly dependent on the composition of the mixture, i.e. the viscosity changes with the alcohol content. For example, in the case of a methanol/water mixture the relative viscosity at 20° C. rises, with a methanol content increasing from 0-16% by mass (5 mol/l), from 1.0 to 1.5 (see in this respect the reference titled “CRC Handbook of Chemistry and Physics”, 69
th
Edition 1988, page D-238).
The invention—during the determination of the alcohol concentration (in particular in the anode circuit of direct methanol fuel cells)—applies the Hagen-Poiseuille law. This law describes the relationship between the flow rate dV/dt (V=Volume, t=time) of a fluid of viscosity &eegr;, for example a solution, through a type or flexible tube of length L and radius R, on the one hand, and the pressure difference &Dgr;p=p
1
−p
2
between the entry to and exit from the pipe, on the other hand: dV/dt=[&pgr;(p
1
−p
2
)R
4
]/[8&eegr;L].
Therefore, in the method according to the invention, the anode liquid is pumped through a constriction of known dimensions (L, R) and the differential pressure between the entry to and exit from the constriction is measured; the pumping rate, i.e. the flow rate, is known. Then, the composition of the alcohol/water mixture is determined from the differential pressure, which is proportional to the viscosity. The particular advantage of the measurement method is that the measured variables pressure difference and—where required—flow velocity can be determined relatively accurately and without using complex and expensive equipment.
In the context of the present patent application, the term “constriction” is understood as meaning a line (pipe or flexible tube) of a defined length with an internal diameter that is smaller than the diameter of the actual line for the alcohol/water mixture. The constriction is advantageously a capillary, i.e. a constriction with a relatively narrow internal diameter, for example &
Baldauf Manfred
Preidel Walter
Greenberg Laurence A.
Locher Ralph E.
Politzer Jay L
Siemens Aktiengesellschaft
Stemer Werner H.
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