KR100689333B1 - Fuel supply apparatus for fc - Google Patents

Abstract

The liquid fuel supply device of the fuel cell of the present invention is a fuel cell in which a liquid mixture of fuel and water is supplied to an anode of a stack to generate electricity, and air is supplied to a cathode to obtain electromotive force from an electrochemical reaction. The mixed liquid storage tank in which the fuel mixture mixed with the fuel liquid and water is stored so as to calculate the concentration by the control process by measuring the refractive index of the mixed fuel mixture liquid, and provided on the inner side of the mixed liquid storage tank. A concentration adjusting means comprising a light emitter and a detector installed on the other side; A buffer tank for temporarily storing the fuel mixture mixed at a constant concentration in the concentration adjusting means so as to be continuously supplied to the stack; By mixing the fuel liquid and water to a certain concentration, and then continuously supplied to the stack through the buffer tank, the power generation of the stack is carried out in a state that the fuel mixture is continuously supplied to the concentration controlled within the prescribed value is stable Will be done.

Description

Fuel cell liquid fuel supply device {FUEL SUPPLY APPARATUS FOR FC}

1 is a schematic diagram showing the configuration of a fuel cell equipped with a liquid fuel supply device of the present invention.

Figure 2 is a cross-sectional view showing a single cell structure of the stack according to the present invention.

3 is a cross-sectional view showing the main portion of the present invention.

Explanation of symbols on the main parts of the drawings

10: stack 22: anode

23: cathode 41: methanol

43: water 50: fuel mixing means

51: mixed liquid storage tank 52: light emitter

53: detector 54: fuel mixture

55: refractive index measuring instrument 60: buffer tank

The present invention relates to a fuel cell for generating electricity through an electrochemical reaction of fuel and air supplied from the outside, and more particularly, to maintain a constant concentration of the fuel mixture supplied for the power generation of the fuel cell stack The present invention relates to a liquid fuel supply device of a fuel cell suitable for supplying a stable supply to a fuel cell.

In general, a technique related to a fuel cell is known as a device for directly converting energy contained in a fuel into electrical energy, and such a fuel cell generally has a porous anode (ANODE) and a cathode (CATHODE) on both sides of a polymer electrolyte. Is attached, the electrochemical oxidation of hydrogen as a fuel occurs at the anode (anode or anode) and the electrochemical reduction of oxygen as an oxidant at the cathode (reduction electrode or cathode). Is generated.

Hydrogen supplied to such a fuel cell is purified by purifying only hydrogen (H ₂ ) from a hydrocarbon-based (CH-based) fuel such as LNG, LPG, CH ₃ OH, and gasoline through a desulfurization process → reforming reaction → hydrogen purification process. It is used in the form of direct methanol fuel cell (DMFC), which is used in the form or uses liquid methanol as a direct fuel.

The direct methanol fuel cell is a reforming reaction at an electrode by directly supplying a methanol mixture of methanol and water in a predetermined ratio (about 10%: 90%) to a cathode of a stack, which is a power generator, without using a reformer. This has the big advantage that the reformer becomes unnecessary and can simplify the whole system.

However, in the fuel cell using the conventional methanol as described above, the methanol mixture solution supplied to the stack as described above is mixed with methanol and water by directly adjusting the valve opening on the supply line, so that the mixture solution of a constant concentration is supplied. There was a problem that it is impossible to continuously supply.

The object of the present invention devised in view of the above problems is to provide a liquid fuel supply apparatus of a fuel cell suitable for allowing the fuel liquid and water to be mixed at a constant concentration, such that the fuel mixture is continuously supplied to the stack. Is in.

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In a fuel cell in which a mixture of fuel and water is supplied to an anode of a stack to be generated and air is supplied to the cathode to obtain electromotive force from an electrochemical reaction, the refractive index of the fuel mixture mixed with the fuel and water is measured. In order to calculate the concentration by the control process, the mixed liquid storage tank in which the fuel mixture mixed with the fuel liquid and water is stored, the concentration composed of a light emitting unit provided on one side of the mixed liquid storage tank and a detector provided on the other side. Adjusting means; A buffer tank for temporarily storing the fuel mixture mixed at a constant concentration in the concentration adjusting means so as to be continuously supplied to the stack; Provided is a liquid fuel supply device for a fuel cell, comprising: a fuel cell;
BRIEF DESCRIPTION OF THE DRAWINGS To make the construction and operation of the present invention described above clearer, a preferred embodiment of the present invention will be described below.

1 is a schematic configuration diagram of a fuel cell in which a liquid fuel supply device according to the present invention is installed as an embodiment of the present invention.

As shown in the drawing, the overall configuration of the fuel cell 1 includes a stack of solid polymer type generating electricity, a liquid fuel supply means 11 for supplying a fuel mixture to the stack 10, and a stack ( Air line 12 for supplying air to 10, the discharge line 13 for discharging CO ₂ and H ₂ O generated from the stack 10, and the fuel mixture supplied to the stack 10 Concentration adjusting means 50 for mixing at a constant concentration, and the buffer tank 60 for temporarily storing the fuel mixture mixed at a constant concentration in the concentration adjusting means 50 to be continuously supplied to the stack 10 It is provided.

The stack 10 may be a single cell in which an electrochemical reaction occurs or a plurality of single cells may be sequentially stacked and assembled into bolts. Referring to FIG. 2, a single cell structure will be described. A membrane-electrode assembly (MEA: MEMBRANE-ELECTRODE ASSEMBLY) 24 formed by bonding the anode 22 and the cathode 23 to diffuse gas on both sides of the membrane 21, and both sides of the membrane-electrode assembly 24. A separator 25 which is assembled so as to be in close contact with each other and forms a flow path of fuel gas and an oxygen-containing gas at the anode 22 and the cathode 23, and is disposed on both sides of the separator 25 and the anode 22. ) And current collector plates 26 and 27 serving as current collector electrodes of the cathode 23.                     

 The electrolyte membrane 21 of the membrane-electrode assembly 24 is an ion exchange membrane made of a polymer material, and an electrolyte membrane 21 commercially available includes a Nafion membrane of DuPont, which serves as a carrier for hydrogen ions, and contacts oxygen with hydrogen. The anode 22 and the cathode 23 serve as a support for the platinum (Pt) catalyst layer, and porous carbon paper or carbon cloth is bonded to both sides of the electrolyte membrane 21. Structure.

The separation plate 25 is formed of a dense carbon plate, and a plurality of ribs are formed to form a fuel gas flow path groove 31 on the surface of the anode 22 during assembly, and oxygen on the surface of the cathode 23. The containing gas flow path groove 32 is formed.

It is preferable that the current collector plates 26 and 27 have excellent electrical conductivity, excellent corrosion resistance, and do not generate hydrogen embrittlement. good.

The liquid fuel supply means 11 is provided with a fuel tank 42 for storing methanol 41, which is a fuel liquid, and a water tank 44 for storing water 43, respectively, and a fuel supply line connected to each of them. Valves 47 and 47 'are respectively provided on the 45 and the water supply line 46, and are connected to the stack 10 at the connection portion of the fuel supply line 45 and the water supply line 46. The mixed liquid supply line 48 is connected.

And, the concentration adjusting means 50 is installed on the mixed liquid supply line 48, as shown in Figure 3 and the mixed liquid storage tank 51 is mixed and stored in a predetermined ratio methanol 41 and water 43 and And a light emitter 52 and a detector 53 so as to face each other inside the mixed liquid storage tank 51, and a refractive index measuring instrument 55 for detecting the concentration by measuring the refractive index of the fuel mixture 54.

In addition, a buffer tank 60 is installed on the mixed liquid supply line 48 between the concentration adjusting means 50 and the stack 10, and the fuel mixed liquid 54 'mixed in a predetermined concentration in the mixed liquid storage tank 51 is formed. It is temporarily stored so that it is continuously supplied to the stack 10.

In the figure, reference numeral 15 denotes a solenoid valve installed on the air line 12, and 16 denotes a solenoid valve installed on the mixed liquid supply line 48.

The operation and effect of the fuel cell provided with the liquid fuel supply device of the present invention configured as described above will be described.

When the operator operates the switch of the fuel cell 1, the fuel mixture is opened by opening the solenoid valves 15 and 16 on the air line 12 and the mixed liquid supply line 48 according to a control program preset by the electronic controller (not shown). 54 and air are supplied to the stack 10.

As described above, the fuel mixture supplied to the stack 10 flows along the fuel gas flow path groove 31 and diffuses to the entire surface of the anode 22 of the membrane-electrode assembly 24, thereby performing electrochemical oxidation of hydrogen, and air. Flows along the oxygen-containing gas flow path 32 and diffuses across the cathode 23 of the membrane-electrode assembly 24 to cause electrochemical reduction of oxygen, and electricity is generated due to the movement of electrons generated. The generated electricity is collected in the current collector plates 26 and 27 and used as an energy source.

At this time, the reaction formula and total reaction formula at each pole are as follows.                     

Anode _{(ANODE): CH 3 OH +} H 2 O → CO 2 + 6H + + 6e -

Cathode: 3 / 2O ₂ + 6H ⁺ + 6e ^_ → 3H ₂ O

Total Reaction: CH ₃ OH + 3 / 2O ₂ + H ₂ O → CO ₂ + 3H ₂ O

In addition, the fuel mixture 52 supplied to the stack 10 as described above is methanol 41 by adjusting the opening degree of the valves 47 and 47 'on the fuel supply line 45 and the water supply line 46. And water 43 are mixed in a predetermined ratio and stored in the mixed liquid storage tank 51, and the fuel mixture 54 thus stored detects the light emitted from the light emitter 52 in the detector 53 and controls the refractive index. It calculates by processing and the density | concentration of the fuel mixture liquid 54 is detected. When the detected concentration is out of the prescribed value, the concentration of the fuel mixture 54 is adjusted by opening the valves 47 and 47 'to further supply methanol 41 or water 43.

As described above, the fuel mixture liquid 54 in which the concentration is adjusted to within the prescribed value in the mixed liquid storage tank 51 is sent to the buffer tank 60 again and continuously supplied to the stack 10, thereby adjusting the fuel mixture liquid to a constant concentration ( 54 is stably supplied to the stack 10.

As described above in detail, the liquid fuel supply apparatus of the fuel cell of the present invention supplies a mixture of fuel and water to the anode of the stack to be generated and supplies air to the cathode to obtain electromotive force from an electrochemical reaction. And a mixed liquid storage tank in which a fuel mixture mixed with fuel liquid and water is stored so as to calculate a concentration by a control process by measuring the refractive index of the fuel mixture mixed with the fuel liquid and water, and the mixed liquid storage tank. Concentration adjusting means consisting of a light emitter installed on the inner side of the detector and a detector installed on the other side; A buffer tank for temporarily storing the fuel mixture mixed at a constant concentration in the concentration adjusting means so as to be continuously supplied to the stack; In addition, the fuel mixture and the water is stored in the buffer tank in a state in which the fuel liquid and water are mixed in a predetermined concentration in the concentration control means, the fuel mixture liquid is supplied to the stack and the power generation is carried out, precisely the concentration of fuel mixture liquid Since the stack is developed in this continuously supplied state, stable power generation is achieved without deterioration of efficiency.

Claims (2)

In a fuel cell in which a mixture of fuel and water is supplied to the anode of the stack to be generated and air is supplied to the cathode to obtain electromotive force from an electrochemical reaction. The mixed liquid storage tank in which the fuel mixture mixed with the fuel liquid and water is stored so as to calculate the concentration by the control process by measuring the refractive index of the fuel mixture mixed with the fuel liquid and water, and the mixed liquid storage tank. A concentration adjusting means comprising a light emitter installed on one side of the inside and a detector installed on the other side; A buffer tank for temporarily storing the fuel mixture mixed at a constant concentration in the concentration adjusting means so as to be continuously supplied to the stack; Liquid fuel supply apparatus for a fuel cell, characterized in that it comprises. delete

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