KR101011132B1 - Gas pre heater - Google Patents

Abstract

PURPOSE: A pre-heating unit for gas is provided to easily heat gas by preventing heat discharge to the outside because a dual pipe is formed in second and third regions. CONSTITUTION: A pre-heating unit(1000) for gas comprises: a body(100) including a first region equipped with a gas inlet(131), a second region(102) equipped with a gas discharge portion(132), and a third region(103) surrounding the second region; a heater(200) equipped inside a can type member(210) communicating with the gas discharge portion; a power part(300) consisting of feedthrough supplying power to the heater; a first heat-insulating member surrounding the cylindrical body; and a second heat-insulating member equipped inside the third region.

Description

Preheating means for gas {GAS PRE HEATER}

The present invention relates to a preliminary heating means for gas, and more particularly, the present invention provides a preliminary heating for gas that is provided inside the double pipe to prevent the outflow of the gas, can maintain the heat insulation to stably heat the gas It is about means.

Fuel cell is a new environment-friendly future energy technology that generates electrical energy from abundantly present on earth such as hydrogen and oxygen.

The fuel cell is supplied with oxygen to the cathode and fuel gas to the anode to perform an electrochemical reaction in the form of reverse electrolysis of water, which generates electricity, heat, and water, resulting in high efficiency without causing pollution. To generate electrical energy.

Depending on the type of electrolyte, the fuel cell may be a phosphate fuel cell (PAFC), a molten carbonate fuel cell (MCFC), a solid oxide fuel cell (SOFC), or a polymer electrolyte fuel cell ( Six kinds of PEMFC, Polymer Electrolyte Membrane Fuel Cell (DMFC), Direct Methanol Fuel Cell (DMFC) and Alkaline Fuel Cell (AFC) are available or planned.

Each of the fuel cells has a difference in operating temperature depending on the difference in electrolyte, and in particular, the operating temperature of the phosphate fuel cell is about 200 ℃, the operating temperature of the molten carbonate fuel cell is about 650 ℃, solid oxide Operating temperature of the fuel cell is 500 ~ 100 ℃, there is a fuel cell in which high temperature conditions are essential.

In order to satisfy the operating temperature of the fuel cell, a method of heating the gas around the fuel cell in which a reaction occurs or heating the gas has been proposed.

The conventional preheater 10 which supplies a gas is shown in FIG.

The preliminary heating device has a body (1) in which the inlet part (3) into which the gas is introduced into one side and the outlet part (2) through which the gas is discharged to the other side is formed in a tubular shape; A heating unit 4 provided inside the body 1 to heat the heating unit 4; And an electric wire 5 for supplying power to the heat generating unit 4.

However, the preliminary heating apparatus shown in FIG. 1 has a possibility that the internal gas is leaked to the outside during the movement of the gas, the temperature of the body is raised, there is a problem that the safety is very low, such as a risk of burn of the operator exists, Heat is released to the outside through the outer peripheral surface of the body has a low heating efficiency due to the heat generating portion has a problem that it is difficult to satisfy the high temperature conditions of 700 ℃ or more.

On the other hand, when a high temperature gas is required in other experiments in addition to the fuel cell, the above-described problems exist, so that heating to a high temperature (above 700 ° C.) is possible while being widely used for fuel cells and other experiments, while enhancing safety. There is a need for preheating means for gas.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to form a second region and a third region of a double tube structure so that heat can be easily heated by preventing heat from being released to the outside. It is to provide a preliminary heating means for the gas.

In addition, an object of the present invention is to provide a preliminary heating means for the gas to facilitate the flow of the internal gas, to prevent the outflow of gas to increase the sealing property.

The gas preheater 1000 of the present invention includes a first region 101 in which a gas inlet 131 to which gas is supplied is formed at one end of the gas preheater 1000. The double pipe structure extending in the longitudinal direction from the region 101, the gas is communicated with the first region 101 in the inner side of the double pipe flows, the gas discharge part 132 is formed to discharge the gas at the other end A body 100 including a second region 102 and a third region 103 formed to surround the second region 102 on an outer side of the double tube; A heat generating part 200 formed in the longitudinal direction in the second region 102 of the body 100 and generating heat; And a power supply unit 300 provided at a periphery of the first region 101 gas inlet 131 of the body 100 to supply power to the heat generating unit 200. Characterized in that it comprises a.

In addition, the heat generating unit 200 is characterized in that provided in the cylindrical member 210 in communication with the gas discharge unit 132.

In addition, the gas preheater 1000 is characterized in that the first insulating member 410 is provided to surround the cylindrical member 210 of the second region (102).

together. The gas preheater 1000 is characterized in that the second insulating member 420 is provided in the third region (103).

In addition, the power supply unit 300 is characterized in that the feed-through (FEEDTHROUGH).

In addition, the predetermined region of the side portion of the first region 101 of the body 100 is characterized in that the opening and closing.

Accordingly, the preliminary heating means for gas of the present invention has the advantage of easily heating the gas by preventing heat from being released to the outside by forming the second region and the third region of the double pipe structure in a predetermined region of the body. .

In more detail, the present invention can be heated to the gas at various temperatures, in particular, the heat generating portion provided in the second region is provided in the cylindrical member, the cylindrical member is formed to communicate with the gas discharge portion by the gas It is easily heated by the heat generating portion while flowing inside the cylindrical member, which has the advantage of heating the gas at a high temperature of 700 ° C or higher.

In addition, the preliminary heating means for gas of the present invention can further improve heat insulation by adding a first heat insulating means and a second heat insulating means to the second region and the third region. It is possible to increase the sealing property and safety by preventing the discharge to the, there is an advantage that can easily heat the gas in a high pressure environment.

In addition, the preliminary heating means for the gas of the present invention has an advantage that the heat supply unit can be stably operated while securing the sealing property by using the power supply unit FEEDTHROUGH.

In addition, the present invention has an advantage that a certain region of the side of the first region of the body is formed so as to be openable and open while maintaining the inner sealing, and easy maintenance and inspection of the device configuration.

1 is a cross-sectional view showing a conventional preliminary heating device for gas.
2 to 4 is a perspective view, an exploded perspective view, and a cross-sectional perspective view of the preliminary heating device for gas according to the present invention.
5 is another exploded perspective view of the preliminary heating device for gas according to the present invention;

Hereinafter, the gas preheating apparatus 1000 of the present invention having the characteristics as described above will be described in detail with reference to the accompanying drawings.

2 to 4 are a perspective view, an exploded perspective view, and a cross-sectional perspective view of the gas preheating apparatus 1000 according to the present invention, Figure 5 is another exploded perspective view of the gas preheating apparatus 1000 according to the present invention.

The preliminary heating device for gas 1000 of the present invention includes a body 100, a heat generating unit 200, and a power supply unit 300.

The body 100 is a basic component of the preliminary heating apparatus for gas 1000 of the present invention that is heated while a gas flows therein, and an inner region is divided into a first region 101 and a third region 103.

The first region 101 forms a predetermined region in the longitudinal direction of the body 100 and communicates with the gas inlet 131 formed at one end of the body 100 so that the gas is in the body 100. This is the first inflow space.

A predetermined region of the side portion of the first region 101 is formed to be openable and closed, so that the components of the gas inlet 131 and the power supply 300 can be easily assembled, and the maintenance and inspection work can be facilitated. Do.

In the drawing, one side of the first region 101 is opened, and an example in which the cover 140 closing the open side is fixed by the fastening means 150 is illustrated.

In this case, a sealed gasket (not shown) may be further provided between the first region 101 and the cover 140 of the body 100 to ensure sealing property.

The second region 102 and the third region 103 form a body 100 together with the first region 101, and form the remaining region of the first region 101.

In this case, the second region 102 and the third region 103 are double tube structures which do not communicate with each other, and the inner region of the double tube structure is the second region 102 and the outer region of the double tube structure is the third region 103. ).

The second region 102 and the third region 103 are separated by an inner tube 110, and the first region 101 communicates with the second region 102, but the third region ( 103 forms an independent space, and a blocking plate 120 is formed to divide the first region 101 and the third region 103 in the height direction.

In this case, since the second region 102 and the first region 101 communicate with each other, the blocking plate 120 has a hollow portion (! 21) corresponding to the second region 102 in the center portion. .

The second region 102 extends in the longitudinal direction from the first region 101 and is formed inside the double tube structure, and has an inner diameter narrower than that of the first region 101.

A gas discharge part 132 is formed in the second region 102 at the other end of the body 100 so that the gas introduced through the gas inlet portion sequentially passes through the first region 101 and the second region 102. After passing through, it is discharged through the gas discharge unit 132.

The second region 102 is provided with a heat generating unit 200 for heating the flowing gas, the configuration of the heat generating unit 200 will be described again below.

By forming the third region 103, the gas preheating apparatus 1000 of the present invention can stably heat the gas by preventing heat from flowing inside or outflow of the internal flow gas. There is an advantage that can be minimized.

The second insulation member 420 may be provided in the third region 103.

In the drawing, since the third region 103 is formed in a cylindrical shape with a hollow inside in the longitudinal direction, the second insulation member 420 is also formed to correspond to the shape of the third region 103 and is formed in a single configuration. A plurality may be divided and provided.

In addition, a first heat insulating member 410 may be further provided inside the second region 102 to increase heat insulating performance.

Since the first heat insulating member 410 is provided with a heat generating portion 200 for generating heat while gas flows in the central region, the first heat insulating member 410 is formed except for the region in which the heat generating portion 200 is formed.

The first heat insulating member 410 and the second heat insulating member 420 prevent heat from being emitted by the heat generating part 200 to the outside, but have heat resistance not to be burned or deformed by the heat generating part 200. Material may be used.

Although FIG. 5 illustrates an example in which both of the first insulation member 410 and the second insulation member 420 are provided, the gas heating device 1000 for gas according to the present invention may include the first insulation member 410 and the first insulation member. The second insulation member 420 is an added configuration, and may not exist or may be provided with only one of the two.

The heat generating unit 200 is formed in the second region 102 in the longitudinal direction in the longitudinal direction to generate heat to heat the gas flowing through the inside.

At this time, one side of the heat generating unit 200 is provided inside the tubular member 210 in communication with the gas discharge unit 132, the gas is heated while passing through the tubular member 210 inside the gas more easily. It is desirable to allow to warm up.

Through this, the gas preheater 1000 of the present invention can heat the gas at various temperatures, in particular, there is an advantage that can heat the gas at a high temperature of 700 ℃ or more.

When the tubular member 210 is provided, the second region 102 formed by the tubular member 210, the tubular member 210 and the inner tube 110, and the inner tube 110 and the body 100 are provided. The interior is formed in the form of a triple tube by the third region 103 to be formed.

The power supply unit 300 is provided at the periphery of the gas inlet unit 131 of the first region 101 of the body 100 to supply power to the heat generating unit 200. The gas inlet unit 131 A pair is provided on the left and right sides of the.

The preliminary heating device for gas 1000 according to the present invention allows the power supply unit 300 to supply power to the heat generating unit 200 while ensuring sealing performance as a feedthrough.

At this time, a sealed gasket (not shown) may be further provided between the power supply unit 300 and the body 100 to ensure sealing property.

As described above, the gas preheater 1000 of the present invention is the heat is discharged to the outside by forming the second region 102 and the third region 103 of the double pipe structure in a predetermined region of the body 100. It is possible to prevent, and to increase the safety, the heating unit 200 provided in the second region 102 is provided in the cylindrical member 210, the cylindrical member 210 and the gas discharge unit 132 and Since the gas is formed so as to communicate with each other, the gas is easily heated by the heat generating unit 200 while flowing inside the tubular member 210, thereby heating the gas at a high temperature of 700 ° C. or higher.

In particular, the preliminary heating device for gas 1000 of the present invention may be used as a component of a fuel cell requiring high temperature driving, and may be used in various fields in which high temperature gas is required.

In addition, the gas preheater 1000 of the present invention can increase the durability to prevent the leakage of gas to increase the safety, there is an advantage that the gas can be easily heated even in a high pressure atmosphere.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: preheater for gas
100: body 101: first region
102: second region 103: third region
110: inner tube
120: blocking plate 121: hollow part
131: gas inlet 132: gas outlet
140: cover 150: fastening means
200: heat generating portion 210: cylindrical member
300: power supply
410: first insulating member 420: second insulating member

Claims (6)

In the preheater 1000 for gas,
A first region 101 in which a gas inlet 131 through which gas is supplied is formed at one end thereof, and a double pipe structure extending in a longitudinal direction from the first area 101, wherein the first area is formed inside the double pipe. And a second region 102 in which gas flows in communication with 101 and a gas discharge portion 132 is formed at the other end, and surrounds the second region 102 on the outside of the double pipe. A body 100 including a third region 103;
A heat generating part 200 formed in the second region 102 of the body 100 in the longitudinal direction and provided inside the tubular member 210 communicating with the gas discharge part 132 to generate heat;
A power supply unit 300 provided at a periphery of the gas inlet unit 131 of the first region 101 of the body 100 and configured to include a feedthrough for supplying power to the heat generating unit 200;
A first insulating member 410 to surround the cylindrical member 210 of the second region 102; And
A second insulating member 420 provided in the third region 103; Gas preliminary heating apparatus comprising a.
delete delete delete delete The method of claim 1,
Preliminary heating apparatus for a gas, characterized in that the predetermined region of the side portion of the first region 101 of the body 100 is formed to be openable.

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