KR101439469B1 - heat exchanger for pressure control of heat transfer medium - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat exchange apparatus for controlling a pressure of a heat transfer medium to facilitate heat exchange through a heat transfer medium by increasing a pressure of the heat transfer medium.
The heat exchanger for controlling the pressure of the heat transfer medium according to the present invention comprises:
A first heat exchanger in which a heat source supplied from the outside exchanges heat with the heat exchange medium;
A second heat exchanger for heat-exchanging the heat exchange medium from the first heat exchanger with a fluid supplied from the outside;
A pump circulating a heat exchange medium between the first heat exchanger and the second heat exchanger;
An expansion tank installed between the first heat exchanger and the second heat exchanger and expanding and contracting according to the temperature of the heat exchange medium flowing into the first heat exchanger and flowing in from the second heat exchanger;
A gas inflow pipe for injecting a makeup gas into the expansion tank and regulating an inflow pressure of the makeup gas through a first pressure regulating valve;
And a gas outlet pipe for discharging a makeup gas from the expansion tank and adjusting a discharge pressure of the makeup gas through the second pressure control valve.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat exchanger for controlling the pressure of a heat transfer medium,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger, and more particularly, to a heat exchanger capable of increasing the pressure of a heat transfer medium to increase the boiling point of the heat transfer medium and lower the freezing point, To a heat exchanger for regulation.

In the heat exchanger, the heat transfer medium preferably has a wide heat transfer range.

That is, if the boiling point of the heat transfer medium of the heat exchanger is high and the freezing point is low, the flow of the heat transfer medium can be smoothly performed, and heat exchange can be activated.

2, a pump 30 'and an accumulator (not shown) are connected to the piping between the first heat exchanger 10' and the second heat exchanger 20 ' ) 70 are provided.

At this time, the accumulator 70 merely has a buffer function in the flow of the heat exchange medium, and can not control the pressure of the heat exchange medium.

Therefore, since the pressure of the heat exchange medium can not be raised in the conventional heat exchange apparatus, the heat exchange medium must be supplied at a constant pressure, so that the boiling point is relatively low and the freezing point is increased.

As a result, the boiling point of the heat exchange medium is lowered. When the freezing point is increased, icing and cracking are caused to cause a trouble in the flow of the heat exchange medium, and the heat exchange efficiency of the conventional heat exchange apparatus is lowered.

When the heat exchanging medium is a fluid consisting of a mixture of two or more kinds of materials other than a fluid composed of a single material, if the specific material is frozen or boiled, the fluid is initially separated to change its characteristics, There is an additional problem such that the control is difficult and the physical properties are changed.

For the above reasons, in the related art, a method of raising the boiling point of the heat exchange medium of the heat exchanger and lowering the freezing point has been sought, but so far, satisfactory results have not been obtained.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a heat exchanging apparatus capable of increasing the supply pressure of a heat exchanging medium in a conventional heat exchanging apparatus, And a heat exchange device for controlling the pressure of the heat transfer medium.

According to an aspect of the present invention, there is provided a heat exchange apparatus for controlling a pressure of a heat transfer medium,

A first heat exchanger in which a heat source supplied from the outside exchanges heat with the heat exchange medium;

A second heat exchanger for heat-exchanging the heat exchange medium from the first heat exchanger with a fluid supplied from the outside;

A pump circulating a heat exchange medium between the first heat exchanger and the second heat exchanger;

An expansion tank installed between the first heat exchanger and the second heat exchanger and expanding and contracting according to the temperature of the heat exchange medium flowing into the first heat exchanger and flowing in from the second heat exchanger;

A gas inflow pipe for injecting a makeup gas into the expansion tank and regulating an inflow pressure of the makeup gas through a first pressure regulating valve;

And a gas outlet pipe for discharging a makeup gas from the expansion tank and adjusting a discharge pressure of the makeup gas through the second pressure control valve.

Here, the gas outlet pipe is provided with a gas sensor.

The heat exchanging device for controlling the pressure of the heat transfer medium according to the present invention is characterized in that a gas inlet pipe and a gas outlet pipe are provided in the expansion tank and when the makeup gas is injected into the expansion tank through the gas inlet pipe, The boiling point of the heat exchange medium can be increased in accordance with the pressure increase of the heat exchange medium and the freezing point can be lowered so that the flow of the heat exchange medium can be smoothly performed between the first heat exchanger and the second heat exchanger, There is an effect that can be achieved.

Further, the heat exchanging device for controlling the pressure of the heat transfer medium according to the present invention is provided with a gas sensor in the gas outlet pipe, so that it is possible to detect the leakage of the fluid between the first heat exchanger and the second heat exchanger through the gas sensor Thereby preventing fire or explosion due to leakage of the fluid.

1 is a schematic view for explaining the structure of a heat exchanger for controlling the pressure of a heat transfer medium according to the present invention;
2 is a schematic view for explaining a structure of a conventional heat transfer apparatus

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

As shown in FIG. 1, the heat exchanging device A for controlling the pressure of the heat transfer medium includes a first heat exchanger 10, a second heat exchanger 20, a pump 30, an expansion tank 40, A gas inlet pipe 50, and a gas outlet pipe 60.

In the first heat exchanger (10), a heat source supplied from the outside exchanges heat with the heat exchange medium.

In the first heat exchanger 10, heat exchange between the heat source and the heat exchange medium is performed simply by abutting the tube 11 through which the heat source flows and the tube 11 through which the heat exchange medium flows. In the first heat exchanger 10, A detailed description of the heat exchange between the heat source and the heat exchange medium will be omitted.

The second heat exchanger (20) exchanges heat with the fluid supplied from the outside by the heat exchange medium from the first heat exchanger (10).

In the second heat exchanger 20, the heat exchange medium and the fluid are simply exchanged by the tube 21 through which the heat exchange medium flows and the tube 21 through which the fluid flows. In the second heat exchanger 20, The detailed description of the heat exchange between the heat exchange medium and the fluid will be omitted.

The pump 30 circulates the heat exchange medium between the first heat exchanger 10 and the second heat exchanger 20.

The pump 30 may be of any structure and system as long as it is capable of pumping the heat exchange medium, so that detailed description of the pump 30 will be omitted.

The expansion tank 40 is installed between the first heat exchanger 10 and the second heat exchanger 20. The expansion tank 40 is connected to the first heat exchanger 10 and the second heat exchanger 20, To expand and contract according to the temperature of the water.

The expansion tank 40 may be of any structure and system as long as it can expand and contract in accordance with the temperature of the heat exchange medium, so that detailed description of the expansion tank 40 will be omitted.

The gas inlet pipe 50 is for injecting the makeup gas into the expansion tank 40 and regulates the injection pressure of the makeup gas through the first pressure control valve 51.

In such a gas inlet pipe 50, the makeup gas may be nitrogen.

The gas outlet pipe 60 discharges the makeup gas from the expansion tank 40 and controls the discharge pressure of the makeup gas through the second pressure control valve 61.

The gas outlet pipe 60 is preferably provided with a gas sensor 62.

The gas sensor 62 is provided in the gas outlet pipe 60 so that it is possible to detect the leakage of the fluid between the first heat exchanger 10 and the second heat exchanger 20 through the gas sensor 62.

At this time, the gas detector 62 may be of any structure and system as long as it can detect the leakage of the fluid, so that detailed description of the gas detector 62 will be omitted.

The pressure control of the heat transfer medium in the heat exchanger (A) for controlling the pressure of the heat transfer medium according to the present invention will now be described in detail.

In the present invention, a heat source supplied from the outside exchanges heat with the heat exchange medium in the first heat exchanger (10).

The heat exchange medium from the first heat exchanger (10) flows into the second heat exchanger (20) and exchanges heat with the fluid flowing from the outside.

At this time, the heat exchange medium circulated by the operation of the pump 30 between the first heat exchanger 10 and the second heat exchanger 20 is pressure controllable.

That is, in the present invention, between the first heat exchanger 10 and the second heat exchanger 20, a gas having a gas inlet pipe 50 and a second pressure regulating valve 61 provided with a first pressure regulating valve 51, When the makeup gas is supplied into the expansion tank 40 by opening the first pressure control valve 51 of the gas inflow pipe 50, the expansion tank 40 having the outflow pipe 62 is provided, The pressure of the heat exchange medium circulating between the first heat exchanger 10 and the second heat exchanger 20 can be increased and the second pressure regulating valve 61 of the gas outlet pipe 60 is opened to open the expansion tank 40 The pressure of the heat exchange medium circulating between the first heat exchanger 10 and the second heat exchanger 20 can be lowered.

Here, the second pressure regulating valve 61 is closed when the first pressure regulating valve 51 is opened, and the first pressure regulating valve 51 is closed when the second pressure regulating valve 61 is opened.

The second pressure regulating valve 61 is closed when the first pressure regulating valve 51 is opened and the first pressure regulating valve 51 is closed when the second pressure regulating valve 61 is opened, The makeup gas can be introduced into the expansion tank 40 through the gas outlet pipe 50 and the makeup gas can be discharged from the expansion tank 40 through the gas outlet pipe 60.

When the pressure of the heat exchanging medium is increased in the pressure regulating process of the heat exchanging medium, the boiling point of the heat exchanging medium can be increased and the freezing point can be lowered. Thus, icing and cranking of the heat exchanging medium can be prevented .

At this time, the icing of the heat exchange medium hinders the heat exchange with the fluid by blocking the pipe, adversely affecting the process of the rear end of the heat exchanger. Especially, when the fluid is vaporized, the gasification is not performed properly, Since the heat exchange medium can be smoothly flowed by preventing the heat exchange medium from being iced, heat exchange can be smoothly performed even with a small amount of heat exchange medium, and damage to components can be prevented, The power of the pump 30 can be reduced and energy can be saved.

The cracking of the heat exchange medium causes the generated vapor to flow into the heat transfer medium circulation pump 30 to cause a failure and interfere with the flow of the heat transfer medium. As a result, cracking of the heat exchange medium is prevented, It is possible to smoothly perform the heat exchange even with a small amount of heat exchange medium and also to prevent the damage of the components such as the pump 30 and the like so that the power of the heat transfer medium circulation pump 30 It is possible to reduce energy consumption.

In the above description, the heat exchange efficiency is improved by controlling the pressure of the heat exchange medium. However, the heat exchange device for controlling the pressure of the heat transfer medium according to the present invention is capable of preventing fire and explosion accident .

This will be described in detail as follows.

If the fluid leaks during the heat exchange through the first heat exchanger 10 and the second heat exchanger 20, fire and explosion may follow.

However, in the present invention, the gas outlet pipe 60 is provided with the second pressure control valve 61 and the gas sensor 62, and when the leakage of the fluid occurs, the gas is detected through the gas sensor 62 .

Therefore, leakage of the fluid can be easily confirmed through the gas sensor 62 of the gas outlet pipe 60, so that fire and explosion accident due to leakage of the fluid can be prevented.

As described above, the heat exchanging device A for controlling the pressure of the heat transfer medium according to the present invention is characterized in that the gas inflow pipe 50 and the gas outflow pipe 60 are provided in the expansion tank 40, It is possible to increase the pressure of the heat exchange medium to increase the boiling point of the heat exchange medium according to the pressure of the heat exchange medium and to lower the freezing point of the heat exchange medium. The heat exchange medium can be smoothly flowed between the first heat exchanger 10 and the second heat exchanger 20 so that heat exchange efficiency can be improved and the gas outlet pipe 60 is provided with the gas sensor 62 The leakage of the fluid between the first heat exchanger 10 and the second heat exchanger 20 can be detected through the gas sensor 62, thereby preventing fire or explosion due to leakage of the fluid.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10, 10 ': first heat exchanger 11: tubular body
20, 20 ': second heat exchanger 21: tube
30, 30 ': pump 40: expansion tank
50: gas inlet pipe 51: first pressure regulating valve
60: gas outlet pipe 61: second pressure regulating valve
62: Gas detector 70: Accumulator
A, A ': Heat exchanger

Claims (2)

A first heat exchanger in which a heat source supplied from the outside exchanges heat with the heat exchange medium; A second heat exchanger for heat-exchanging the heat exchange medium from the first heat exchanger with a fluid supplied from the outside; A pump circulating a heat exchange medium between the first heat exchanger and the second heat exchanger; An expansion tank installed between the first heat exchanger and the second heat exchanger and expanding and contracting according to the temperature of the heat exchange medium flowing into the first heat exchanger and flowing in from the second heat exchanger; A gas inflow pipe for injecting a makeup gas into the expansion tank and regulating an inflow pressure of the makeup gas through a first pressure regulating valve; A gas outlet tube for discharging a makeup gas from the expansion tank and regulating a discharge pressure of the makeup gas through a second pressure regulating valve; Respectively,
Wherein the gas outlet pipe is provided with a gas sensor for detecting a leakage of fluid between the first heat exchanger and the second heat exchanger to prevent fire or explosion due to leakage of the fluid. Heat exchanger. delete

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