KR101294162B1 - A Humidifier for Fuel Cell - Google Patents

Abstract

The present invention includes a first inlet through which dry air is introduced, and a first outlet through which humidified humidified water is discharged, wherein at least one second inlet through which wet air is introduced and dry air from which moisture is removed are discharged. A housing having at least one second outlet; A hollow fiber membrane module having a plurality of hollow fiber membranes disposed inside the housing to absorb moisture contained in the wet air through the second inlet and to humidify the moisture in the dry air flowing through the first inlet; And a nozzle unit provided to inject water from an inlet of the housing to which the dry air is supplied.

Description

Humidifier for Fuel Cell {A Humidifier for Fuel Cell}

The present invention relates to a humidification device for a fuel cell having a nozzle integrally injecting water directly, and more particularly, to directly inject moisture into the dry air flowing into the housing to increase the humidification efficiency, the dry air is introduced The present invention relates to a humidifier for a fuel cell that can diffuse a fluid flow to a central part of a humidifier and reduce the number of installations of a hollow fiber membrane in preparation for improving humidification efficiency and performance.

In general, a fuel cell vehicle operates with a driving force generated by an internal fuel cell converting chemical energy generated by a reaction between oxygen and hydrogen into electrical energy.

As shown in FIG. 1, such a fuel cell requires a humidifier that requires moisture for operation and humidifies the air supplied thereto, and the humidifier is discharged as a wet gas discharged from the fuel cell. Humidifiers are used that operate by exchanging moisture with dry gas that is supplied with moisture from the exhaust gas.

As a humidifier used in such a fuel cell, a compact humidifier with a low power consumption and a small installation space is required. The humidifier is used in a fuel cell although there are a variety of humidifiers such as ultrasonic humidification, steam humidification, and vaporization humidification. As the humidifier, a membrane humidifier using a hollow fiber membrane is employed.

This is because it is relatively small compared to other types of humidifiers, and has a great advantage of not requiring special power as well as the package side.

2 is a cross-sectional view showing a general membrane humidifier.

The humidifier 100 has a housing 101, and the housing 101 is formed with a first inlet 102 for introducing dry air and a first outlet 103 for discharging dry air, and the housing 101. ), The hollow fiber membrane module 107 is disposed, and a plurality of hollow fiber membranes 106 are accommodated in the hollow fiber membrane module 107.

In the membrane humidifier 100 having such a hollow fiber membrane, when wet air is supplied from the second inlet 104 and passed through each of the hollow fiber membranes, moisture in the wet air is separated by the capillary action of the hollow fiber membrane, and the separated moisture is It penetrates and condenses inside the capillary of the hollow fiber membrane and moves inside the hollow fiber membrane 106.

In addition, the wet air from which the water is separated is moved out of the hollow fiber membrane 106 and discharged through the second outlet 105.

On the other hand, the dry air is supplied from the first inlet 102, the dry air supplied from the first inlet 102 is moved through the inside of the hollow fiber membrane, wherein the water separated from the wet air of the hollow fiber membrane 106 It moves inward and the dry air is humidified by this moisture, and is discharged through the humidified first outlet 103.

However, in the case of the conventional membrane humidifier 100, wet air is supplied into the housing 101 through the second inlet 9104 to supply moisture to the hollow fiber membrane 106 and is discharged through the second outlet 105. .

However, as shown in FIG. 3, the hollow fiber membrane module 107 has a plurality of hollow fiber membranes 106 formed in a compact and compact form, so that the wet air introduced through the second inlet 104 is hollow. There was difficulty in infiltrating into the desert module 107.

In addition, since the rate of diffusion of the wet air is also very slow, there is a further difficulty. For this reason, in the hollow fiber membrane module 107 accommodated in the housing 101, the wet air passing through the outside of the hollow fiber membrane module may be stored in the housing ( The inside of the hollow fiber membrane module 107 does not penetrate into the arrow direction shown in FIG.

In addition, since the speed of diffusion into the housing 9101 is very slow, it has a great influence on the humidification efficiency. Accordingly, the inside of the module in the hollow fiber membrane module 107 is not supplied with sufficient moisture, thereby acting as a factor that lowers the overall efficiency of the membrane humidifier.

 In addition, the conventional membrane humidifier 9100 deteriorates the humidification efficiency of the humidifier even more because the dry air flowing through the first inlet 9102 mainly flows to the center portion of the hollow fiber membrane module 107 (square box in FIG. 2). Let's go.

This results from the simulation experiment of FIG. 3, and it can be clearly seen from FIG. 3 that most of the dry air flows only to the center portion of the hollow fiber membrane module 107.

That is, while the dry air flowing through the first inlet 102 flows mainly to the center portion of the hollow fiber membrane module 107, the wet air introduced through the second inlet 104 is hollow fiber membrane module 107. Since the flow is discharged to the edge of the humidifier had a problem of lowering the humidification efficiency.

The present invention is to solve the problems as described above, by directly spraying moisture into the dry air flowing into the housing to increase the humidification efficiency, the flow of dry air flows into the central part of the humidifier, humidification It is an object of the present invention to provide a humidification apparatus for a fuel cell that can reduce the number of installation of hollow fiber membranes in preparation for efficiency and performance improvement.

The present invention for achieving the above object, has a first inlet through which the dry air is introduced, and a first outlet through which the humidified humidified air is discharged, at least one second inlet and the moisture into which the wet air is introduced A housing having at least one second outlet port through which the removed dry air is discharged; A hollow fiber membrane module having a plurality of hollow fiber membranes disposed inside the housing to absorb moisture contained in the wet air through the second inlet and to humidify the moisture in the dry air flowing through the first inlet; It provides a humidifier for a fuel cell comprising a nozzle unit provided to inject water from the inlet of the housing to which the dry air is supplied.

Preferably, the nozzle unit is at least one injection nozzle disposed inside the housing to spray the front end of the hollow fiber membrane module and the cylindrical tube inserted into the inlet and the water supply pipe formed in the cylindrical tube It includes.

More preferably, the cylindrical tube includes an inner tube inserted into the inlet, an intermediate tube forming a water inlet connected to the water supply tube, and an outer tube having an outer diameter extending radially from the intermediate tube.

More preferably, the injection nozzle is provided in a diffusion pipe which is bent in an inflow direction of dry air from an extension pipe extending a predetermined length from the tip of the cylindrical pipe to diffuse dry air.

More preferably, the injection nozzle is provided to face the supply direction of the dry air flowing through the cylindrical tube.

More preferably, the injection nozzles are provided to correspond to each other with the central portion of the hollow fiber membrane module.

According to the present invention as described above by directly spraying water at the front end of the hollow fiber membrane module to the inlet of the housing in which the dry air is introduced to provide moisture to the dry air, by mixing with the dry air and the sprayed water 1 The humidifying by primary, and the first humidified dry air hits the injection nozzle at the front end of the hollow fiber membrane module and can be diffused in the radial direction of the hollow fiber membrane module, so that the second humidification can be improved compared to the conventional.

In addition, by dispersing the dry air flowing into the front end of the hollow fiber membrane module through the first inlet of the housing outward so as not to be concentrated in the center of the hollow fiber membrane module, to solve the unbalance of the supply flow of dry air to the entire area of the hollow fiber membrane module Uniform humidification performance can be maintained.

In addition, since the humidification efficiency and performance of the hollow fiber membrane module are improved by the nozzle unit provided at the inlet of the housing, the number of installation of the hollow fiber membrane can be reduced, thereby reducing the use cost of the hollow fiber membrane, thereby reducing the manufacturing cost of the humidifying apparatus. The total volume can be reduced, enabling a miniaturized design, which is advantageous in terms of the miniaturized package.

Figure 1 is a schematic diagram showing the air supply through the humidifier provided in a typical fuel cell.
2 is a cross-sectional view showing a humidifier for a fuel cell in general.
3 is a graph of simulation test results for explaining the poor humidification of dry air generated in the humidifier for fuel cells.
4 is an overall configuration diagram showing a humidifier for a fuel cell according to a preferred embodiment of the present invention.
FIG. 5 is a perspective view illustrating a nozzle unit employed in a humidification apparatus for a fuel cell according to an exemplary embodiment of the present invention.
6 is a state diagram in which a nozzle unit is mounted on a humidifier for a fuel cell according to an exemplary embodiment of the present invention.
7 is a state diagram of the use of the nozzle unit mounted to the humidifier for fuel cells according to an embodiment of the present invention.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 4 to 7, the fuel cell humidification apparatus 100a according to an exemplary embodiment of the present invention is dried to artificially supply moisture to dry air introduced into the housing 101 and to humidify it. The nozzle unit 200 is integrally provided on the air supply path.

The humidifier 100a includes a housing 101 and a hollow fiber membrane module 107. The housing 101 includes a first inlet 102 through which dry air flows through an opened inlet 102a, Passing through the hollow fiber membrane module 107, the first outlet (103) for discharging the humidified air added by the moisture is provided in the internal space, respectively.

In addition, at least one second inlet 104 through which the wet air discharged from the fuel electrode flows into the outer surface of the body of the housing 101, and dry air from which moisture is removed while passing through the hollow fiber membrane module 107. Each of the at least one second outlet 105 is discharged.

The hollow fiber membrane module 107 absorbs moisture contained in the wet air supplied through the second inlet 105, while humidifying the dry air introduced through the first inlet 102. The plurality of hollow fiber membranes 106 are integrated and arranged in a central region of the inner space of the housing 101 so as to be parallel to the supply flow of the dry air supplied through the inlet 102a.

Meanwhile, as shown in FIG. 4, the nozzle unit 200 sprays water from the inlet 102a of the housing 101 to which dry air is supplied by the air blower 201 through the air filter 202. It can be provided to supply.

As shown in FIGS. 5 and 6, the nozzle unit 200 includes a cylindrical tube 210 inserted into the inlet 102a of the housing 101 and a water supply tube formed in the cylindrical tube 210. It may include a spray nozzle 230 disposed inside the housing 101 to spray the water supplied through the 220 at the front end of the hollow fiber membrane module 107.

Accordingly, the water supplied through the water supply pipe and sprayed through the injection nozzle 230 are mixed with the dry air into which the micronized water droplets injected by spraying at the front end of the hollow fiber membrane module 107 are introduced into the wet air. It is first humidified to convert to.

At the same time, the first humidified dry air naturally hits the water supply pipe 220 having the injection nozzle 230 and diffuses at the front end of the hollow fiber membrane module, thereby uniformly passing through the entire hollow fiber membranes provided therein. In addition to the central portion of the module 107 and the moisture absorbed in the outer portion is the secondary humidification.

The cylindrical tube 201 is exposed to the outside of the housing by forming an inner tube 212 is inserted into the inlet (102a) of the housing 101, the water inlet 215 connected to the water supply pipe 220 The outer tube 214 and the outer tube 216 having an outer diameter extending radially from the intermediate tube 214.

Accordingly, the dry air introduced through the outer tube 216 is introduced into the housing through the inner tube 212, and the water supplied through the water inlet 215 is supplied through the water supply tube 220. It is injected from the injection nozzle 230.

The injection nozzle 230 is bent at approximately right angles in the inflow direction of the dry air from the extension tube 222 extending substantially horizontally from a front end of the inner tube 212 constituting the cylindrical tube 210 in a predetermined length and dry air and At least one may be provided in the diffusion pipe 224 to impinge while spreading.

At this time, the injection nozzle 230 is provided so as to face the supply direction of the dry air flowing through the cylindrical tube 210 to spray the water to the dry air supplied through the cylindrical tube 210 to dry air and water The primary humidification performance can be increased by increasing the mixing efficiency of the liver.

In addition, the dry air passing through the cylindrical tube 210 interferes with the diffusion tube 224 and is diffused at the front end of the hollow fiber membrane module 107 so that the dry air is not concentrated through the central portion of the hollow fiber membrane module. In addition, it is possible to increase the secondary humidification performance by inducing air flow to the outer side with a relatively higher water content than the central portion, thereby further improving the humidification efficiency of the dry air passing through the housing.

In addition, by reducing the number of installation of a plurality of hollow fiber membrane 106 integrated in the hollow fiber membrane module 107, it is possible to reduce the manufacturing cost as compared to the prior art and to reduce the volume of the housing to reduce the weight.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

101: housing 102: first inlet
103: first inlet 104: second inlet
105: second outlet 106: hollow fiber membrane
107: hollow fiber membrane module 200: nozzle unit
210: cylindrical tube 212: inner tube
214: intermediate tube 215: water inlet
216: outer tube 220: water supply tube
222 extension tube 224 diffusion tube
230: injection nozzle 102a: entrance

Claims (6)

A first inlet through which dry air is introduced, a first outlet through which humidified humidified water is discharged, and at least one second inlet through which wet air is introduced, and at least one through which dry air from which moisture is removed is discharged A housing having a second outlet;
A hollow fiber membrane module having a plurality of hollow fiber membranes disposed in the housing to absorb moisture contained in the wet air flowing through the second inlet and to humidify the moisture in the dry air flowing through the first inlet; And
And a nozzle unit provided to inject water from the inlet of the housing to which the dry air is supplied. The method according to claim 1,
The nozzle unit includes a cylindrical tube inserted into the inlet and at least one injection nozzle disposed inside the housing to spray water supplied through the water supply pipe formed in the cylindrical tube at the front end of the hollow fiber membrane module. Humidifier for fuel cell, characterized in that. The method according to claim 2,
The cylindrical tube includes an inner tube inserted into the inlet, an intermediate tube forming a water inlet connected to the water supply tube, and an outer tube having an outer diameter extending radially from the intermediate tube. Humidifier. The method according to claim 2 or 3,
And the injection nozzle is provided in a diffusion tube which is bent in an inflow direction of dry air from an extension tube extending a predetermined length from the tip of the cylindrical tube to diffuse dry air. The method according to claim 2 or 3,
The injection nozzle is a fuel cell humidifier, characterized in that provided to face the supply direction of the dry air flowing through the cylindrical tube. The method according to claim 2 or 3,
The injection nozzle is a fuel cell humidifier, characterized in that the water injection direction is positioned so as to face the center of the cylindrical tube in the direction in which the dry air flows, so that the dry air is uniformly humidified.

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