KR20140029791A - Hydrogen temperature-increasing and cold-starting method for fuel cell vehicle - Google Patents

Abstract

Since the COD heater is allowed to flow through the COD heater before the low-temperature hydrogen flows into the stack, and the COD heater is not forced to circulate the cooling water by being cooled by the low-temperature hydrogen, the COD heater can be turned on, It is possible to solve the noise problem by consuming the stack current with the COD heater without operating the conventional air blower and the temperature of the supplied hydrogen can be raised without addition of a separate heat exchanger or heater so that the problem of condensate generation can be solved. The present invention provides a method of increasing the temperature of hydrogen and a method of starting a cold start of a fuel cell vehicle.
In order to accomplish the above object, the present invention provides a hydrogen elevating and cold starting method for a fuel cell vehicle, comprising: connecting a COD heater between a hydrogen supply unit and a fuel electrode inlet of a stack and turning on a COD heater; Exchanging the hydrogen supplied from the hydrogen supply unit with the COD heater; And supplying the hydrogen heated by the heat exchange to the fuel electrode of the stack, wherein the supply hydrogen is heated at the time of cold start, and the current of the stack is consumed by using the COD heater.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydrogen-temperature-increasing and cold-starting method for a fuel cell vehicle,

The present invention relates to a hydrogen elevating and cold starting method of a fuel cell vehicle capable of raising the supply hydrogen by using a COD heater and then supplying the hydrogen to the stack to improve the cold start performance of the fuel cell vehicle.

To develop environmentally friendly vehicles, automobile companies are developing with great interest in hydrogen fuel cell vehicles. There are many problems to be solved in the currently developed hydrogen fuel cell vehicle. One of the most urgent and difficult problems to be solved is the strategy to secure the cold-free life.

As a strategy for securing the cold rolling stability, the cooling water is not circulated to the stack at the present time when the fuel cell vehicle is cold.

The reason for this is that cold cooling water does not enter the inside of the stack, and therefore, logic for turning off a COD (Cathode Oxygen Depletion) heater, which is a mandatory condition for cooling water forced circulation, is turned off.

Instead of the COD heater, an air blower is used to consume the current generated in the stack.

However, there is a problem that noise occurs during cold start due to the operation of the air blower.

In addition, since the existing hydrogen transfer path is directed to the ejector through the hydrogen supply proportional control valve (HSV), the hydrogen is supplied to the stack without passing through a heater or a heat exchanger for raising the supply hydrogen, So that there is a problem that condensed water is generated due to low temperature hydrogen and oxygen in the stack.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a COD heater which allows cool hydrogen to flow into a heated stack via a COD heater, It is possible to turn on the COD heater, so that it is possible to solve the noise problem by consuming the stack current by the COD heater without operating the conventional air blower, and the temperature of the supplied hydrogen can be increased without any additional heat exchanger or heater, The present invention provides a method for increasing the temperature of a hydrogen fuel cell of a fuel cell vehicle and a method of starting a cold start of the fuel cell vehicle.

In order to accomplish the above object, the present invention provides a hydrogen elevating and cold starting method for a fuel cell vehicle, comprising: connecting a COD heater between a hydrogen supply unit and a fuel electrode inlet of a stack and turning on a COD heater; Exchanging the hydrogen supplied from the hydrogen supply unit with the COD heater; And supplying the hydrogen heated by the heat exchange to the fuel electrode of the stack, wherein the supply hydrogen is heated at the time of cold start, and the current of the stack is consumed by using the COD heater.

And the hydrogen is heated by heat exchange with the heater plate.

And the hydrogen is heated by heat exchange of the COD heater into the heater rod.

Advantages of the hydrogen elevating and cold starting methods of the fuel cell vehicle according to the present invention are as follows.

First, the supplied hydrogen moves from the hydrogen supply proportional control valve to the COD heater, and after the heat exchange, passes through the ejector and is supplied to the stack. As a result, the temperature of the supplied hydrogen rises, thereby preventing the generation of condensed water in the stack. The temperature of the cooling water can be increased.

Secondly, since the current generated in the stack can be consumed by using the COD heater, the conventional air blower can be turned off, thereby solving the cold noise problem due to supercharging of the air blower.

Thirdly, due to the increase of the hydrogen temperature at the inlet of the anode through the cooling water heater heat exchange, the relative humidity of the recirculated hydrogen is reduced and the condensed water is reduced, so that the clogging of the hydrogen flow channel due to the condensate of the anode channel can be eliminated.

Fourth, it is possible to simultaneously heat the cooling water and the hydrogen at the time of cold start by connecting the fuel electrode hydrogen pipe to the inside of the heater for heating the temperature of the cooling water or to the heater plate without installing a separate heater at the inlet of the fuel electrode.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a hydrogen migration path according to the prior art; FIG.
2 is a block diagram showing a hydrogen transfer path according to the present invention;
3 is a perspective view showing a hydrogen movement path according to the present invention;
Figure 4 is a side view of Figure 3

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

FIG. 2 is a block diagram showing a hydrogen transfer path according to the present invention, FIG. 3 is a perspective view showing a hydrogen transfer path according to the present invention, and FIG. 4 is a side view of FIG.

The present invention relates to a hydrogen elevating and cold starting method for a fuel cell vehicle capable of solving a noise problem caused by operation of an air blower and inducing a temperature rise of supplied hydrogen without adding a separate heat exchanger or a heater.

The method for increasing the temperature of hydrogen and the method of starting cold of hydrogen in the fuel cell vehicle according to the present invention is a method for increasing the temperature of hydrogen by heating the hydrogen passed through the hydrogen supply proportional control valve HSV with the COD heater 25 (heater rod 26 or heater plate 27) .

In other words, by turning on the COD heater 25 that has been turned off at the time of cold start, the low-temperature hydrogen and the COD heater 25 are exchanged with each other to heat the supplied hydrogen supplied from the hydrogen supplying unit 1 to the stack 4 The COD heater 25 can be cooled as well as heated.

At this time, the low-temperature supplied hydrogen supplied from the hydrogen supply unit 1 is circulated in a zigzag path from the heater rod 26 located at one end of the COD heater 25 to the heater rod 26 located at the opposite end of the COD heater 25, And heat exchange between the supplied hydrogen and the heater plate 27 is possible as well as heat exchange into the heater rod is possible.

Although the heater rods 26 of the COD heater 25 appear to be exposed to the outside in the figure, they are substantially enclosed by the heater case of the box structure, May be provided inside the COD heater 25 and have a guide so that the hydrogen can be circulated in a zigzag path for heat exchange with the heater rod 26 inside the COD heater 25. [

Since the conventional COD heater 25 is cooled by the cooling water forced circulation method, the COD heater 25 is turned off to prevent cold cooling water from flowing into the stack 4. However, in the present invention, The COD heater 25 can be turned on since there is no possibility that cool cooling water will flow into the stack 4 due to the forced circulation to the COD heater 25 because the cooling water is cooled by the low temperature supplied hydrogen instead of the cooling water.

Therefore, according to the present invention, the supplied hydrogen moves from the hydrogen supply proportional control valve 2 to the COD heater 25, and after the heat exchange, passes through the ejector 3 and is supplied to the stack 4, It is advantageous not only to prevent the generation of condensed water in the stack 4 but also to raise the temperature of the cooling water in the section where the COD heater 25 is turned on.

Also, since the current generated in the stack 4 can be consumed by using the COD heater 25, the conventional air blower can be turned off, thereby solving the cold noise problem due to supercharging of the air blower.

Further, due to the increase of the hydrogen temperature at the inlet of the fuel electrode through the cooling water heater heat exchange, the relative humidity of the recirculated hydrogen is reduced and the condensed water is reduced, so that the clogging of the hydrogen flow channel due to the condensation of the anode channel inside the stack 4 can be solved.

In addition, it is possible to simultaneously heat the cooling water and the hydrogen at the time of cold start by connecting the fuel electrode hydrogen pipe to the inside of the heater for heating the temperature of the cooling water or the heater plate 27 without attaching a separate heater to the inlet of the fuel electrode.

1: hydrogen supply unit
2: Hydrogen supply proportional control valve
3: Ejector
4: Stack
25: COD heater
26: Heater rod
27: Heater plate

Claims (3)

In a hydrogen elevating and cold starting method of a fuel cell vehicle,
Connecting the COD heater (25) between the hydrogen supply unit (1) and the fuel electrode inlet of the stack (4) and turning on the COD heater (25);
Exchanging the hydrogen supplied from the hydrogen supply unit (1) with the COD heater (25); And
Supplying the hydrogen heated by the heat exchange to the fuel electrode of the stack (4);
Consists of heating, the temperature of the supply hydrogen during cold start, using the COD heater (25) to consume the current of the stack (4) hydrogen heating and cold start method of the vehicle.
The method according to claim 1,
And the hydrogen is heated by heat exchange with the heater plate (27).
The method according to claim 1,
Wherein the hydrogen is heated by heat exchange of the COD heater (25) into the heater rod (26).

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