KR20180010750A - Cooling system for outside air using ahu condensate water and the ship or offshore structure having the same - Google Patents

Abstract

The present invention relates to an external air cooling system using an air conditioner condensate capable of improving cooling efficiency by cooling high temperature air supplied from the outside by condensed water generated through heat exchange of an air conditioner, An air conditioner connected to the duct for cooling the air supplied from the outside to cool the room; and a condenser for circulating the condensed water generated through the heat exchange of the air conditioner to the inside of the duct to lower the temperature of the air supplied from the outside Includes circulating piping.
According to another aspect of the present invention, there is provided an outside air cooling system using an air conditioner condensate, comprising: a duct communicating with the outside air; an air conditioner connected to the duct to cool the outside air to cool the room; And a water cooler connected to the condensate water supply pipe for cooling the condensate generated in the air conditioner, wherein the condenser water is supplied to the cabin space, .

Description

TECHNICAL FIELD [0001] The present invention relates to an external air cooling system using an air conditioner condensate, and a ship or an offshore structure having the same. [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an external air cooling system using an air conditioner condensate, and more particularly, to an external air cooling system using an air conditioner condensate generated by heat exchange of an air conditioner to cool high- To an external air cooling system.

Generally, the air conditioner is composed of a compressor, a condenser, a capillary tube (evaporator), and an evaporator, and cool down the room by lowering the temperature below the external temperature.

That is, the EVAPORATOR flows through the capillary tube (capillary tube) and the liquid refrigerant that has been lowered at a low temperature and a low pressure flows into the space or heat exchange with the object to be cooled, And the compressor is a device for increasing the pressure up to the saturation pressure corresponding to the condensation temperature so that the low temperature low pressure gas refrigerant evaporated in the evaporator is sucked and condensed and liquefied in the next condenser, and the condenser The device is a device for condensing and liquefying high-temperature and high-pressure gas refrigerant compressed and discharged from a compressor by heat exchange with surrounding air or cooling water to release high-temperature heat of the gas refrigerant. The capillary tube (capillary tube) Temperature and high-pressure liquid refrigerant condensed and liquefied is supplied to the next evaporator The refrigerant flows through the evaporator and the refrigerant flows through the condenser, and the refrigerant is condensed, expanded, and evaporated to reduce the temperature of the refrigerant to a temperature lower than the external temperature to cool the room .

At this time, the evaporator is a device for cooling refrigerant through the capillary tube (capillary tube) and introducing the liquid refrigerant that has been lowered to low temperature and low pressure to exchange heat with the surrounding space or the object to be cooled, During the evaporation process, condensate water is inevitably generated.

The temperature after the heat exchange of the air conditioner is about 6 ° C. and the condensed water of about 300 kg per hour is generated in a large amount. However, conventionally, such a cold condensed water is discarded as it is.

Korean Utility Model Publication No. 20-2008-0004668

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner which lowers the high air supplied from the outside air by using low- And an outdoor air cooling system using the air conditioner condensate.

According to an aspect of the present invention, there is provided an outside air cooling system using an air conditioner condensate, including: a duct communicating with the outside air; and an air conditioner connected to the duct for cooling the outside air, And a condensate circulation pipe for circulating the condensed water generated through the heat exchange of the air conditioner to the inside of the duct to lower the temperature of the air supplied from the outside.

The air conditioner may include a circulation pump connected to the condensate circulation pipe and circulating the condensed water through the condensate circulation pipe to the duct.

The condensed water circulation pipe circulates the condensed water of 6 ° C generated by the air conditioner to the duct, so that the air of 35 ° C supplied from the outside air can be preheated and supplied to the air conditioner.

According to another aspect of the present invention, there is provided an outside air cooling system using an air conditioner condensate, comprising: a duct communicating with outside air; an air conditioner connected to the duct to cool the outside air to cool the inside of the room; And a water type cooler connected to the condensed water supply pipe to cool the condensate generated in the air conditioner.

The condensed water supply pipe may be installed in a shipyard area including a cabin space, an engine room space, and a cargo space to supply cool air having heat exchanged with condensed water.

The condensed water supply pipe may be provided with a fan to supply cool air to the cabin space, the engine room space, and the captain space.

The water type cooler includes a condensate circulation pump connected to the air conditioner and a condensate supply pipe for circulating the condensate through a condensate supply pipe, a controller electrically connected to the condensate circulation pump to control operation of the condensate circulation pump, And a heat exchanger for cooling the supplied condensed water according to the operation of the circulation pump.

According to the embodiment of the present invention, the condensate circulation pipe is connected to the air conditioner installed in the room, and the condensed water circulation pipe is connected to the inside of the duct into which the external air flows, so that the cold condensed water generated in the air conditioner can be circulated through the condensate circulation pipe It is possible to provide a ship or an offshore structure having an external air cooling system using air conditioning condensate so as to save energy by circulating the hot air outside through the duct to cool the condensed water beforehand and replace with another air conditioner.

As described above, according to the external air cooling system using the air conditioner condensed water according to the present invention, the condensed water circulation pipe is installed in the air conditioner installed in the room so that the cold condensed water generated in the air conditioner can be circulated through the condensed water circulation pipe It is possible to maximize the efficiency of the energy saving and the air conditioner efficiency because the hot air introduced into the inside and cooled from the outside can be pre-cooled by the cold condensed water, and it is possible to maximize the efficiency of the product .

1 is a block diagram illustrating an external air cooling system according to an embodiment of the present invention.
2 is a flowchart illustrating an external air cooling system according to an exemplary embodiment of the present invention.
3 is a block diagram illustrating an external air cooling system according to another embodiment of the present invention.
4 is a flowchart illustrating an external air cooling system according to another example of the present invention.
FIG. 5 is a configuration diagram showing a water-type cooler of an external air cooling system according to another example of the present invention.

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

FIG. 2 is a flowchart illustrating an external air cooling system according to an embodiment of the present invention. FIG. 3 is a flowchart illustrating another example of the present invention FIG. 4 is a flowchart illustrating an external air cooling system according to another exemplary embodiment of the present invention, and FIG. 5 is a flowchart illustrating an external air cooling system according to another exemplary embodiment of the present invention. FIG. 2 is a configuration diagram showing a water type cooler.

Example  One.

1 and 2, the external air cooling system using the air conditioner condensed water according to the present invention includes a duct 100, an air conditioner 200, and a condensate circulation pipe 300.

The duct 100 is installed in the room 10 which is a contact area between the outdoor 20 and the indoor 10 so as to communicate with the outdoor air.

That is, outside air is introduced through the duct 100 and cooled by the air conditioner 200.

The air supplied from the outside air through the duct 100 is supplied at 35 ° C.

At this time, a blowing fan 110 electrically connected to the outside of the duct 100 is installed in the duct 100.

The air conditioner 200 is connected to the duct 100 to cool the air supplied from the outside through the duct 100 to cool the room 10.

That is, by operating the air conditioner 200, cold condensed water is generated through heat exchange.

At this time, the condensed water generated in the air conditioner 200 is generated at a temperature of about 6 ° C. and about 300 kg per hour.

Meanwhile, the air conditioner 200 is a widely used air conditioner technology, and a detailed description thereof will be omitted.

The condensate circulation pipe 300 is connected to the air conditioner 200 and connected to the inside of the duct 100.

In this way, the condensed water circulation pipe 300 circulates the cold condensed water generated through the heat exchange of the air conditioner 200 into the duct 100, thereby lowering the hot air supplied from the outside.

The condensed water circulation pipe 300 circulates the condensed water of 6 ° C generated in the air conditioner 200 to the duct 100 to cool the air of 35 ° C supplied from the outside air to the air conditioner 200 .

The circulation pump 210 is installed in the air conditioner 200 so as to circulate the cold condensed water to the duct 100 through the condensed water circulation pipe 300 connected to the condensed water circulation pipe 300.

Example  2.

3 to 5, an external air cooling system using an air conditioner condensate according to the present invention includes a duct 100, an air conditioner 200, a condensed water supply pipe 310, a water type cooler 400 ).

The duct 100 is installed in the room 10 which is a contact area between the outdoor 20 and the indoor 10 so as to communicate with the outdoor air.

That is, outside air is introduced through the duct 100 and cooled by the air conditioner 200.

The air supplied from the outside air through the duct 100 is supplied at 35 ° C.

At this time, a blowing fan 110 electrically connected to the outside of the duct 100 is installed in the duct 100.

The air conditioner 200 is connected to the duct 100 to cool the air supplied from the outside through the duct 100 to cool the room 10.

That is, by operating the air conditioner 200, cold condensed water is generated through heat exchange.

At this time, the condensed water generated in the air conditioner 200 is generated at a temperature of about 6 ° C. and about 300 kg per hour.

The condensed water supply pipe 310 is connected to the air conditioner 200 and connected to the water cooler 400 described below.

As described above, the condensed water supply pipe 310 introduces the cold condensate generated through the heat exchange of the air conditioner 200 into the water-type cooler 400, thereby enhancing the cooling efficiency.

The circulation pump 210 is installed in the air conditioner 200 so that the condensed water can be supplied to the water cooler 400 through the condensate water supply pipe 310 connected to the condensate water supply pipe 310 .

The condensed water supply pipe 310 may be connected to a cabin area including a cargo area as well as a cabin area and an engine room area, or an air conditioner installed in a cabin area, an engine room area, and a skipper area.

In the above, captain area means all areas of the ship except cabin area and engine room area.

Accordingly, the condensed water supply pipe 310 can be used as an air conditioner installed in various places by connecting to the cabin space, the engine room compartment, and the ship compartment of the skipper compartment, thereby reducing the air conditioner usage.

In addition, the condensing water supply pipe 310 is provided with a fan 320 for supplying cooling outdoor air, which is heat-exchanged with condensed water, to the cabin space, the engine room space, and the captain space.

Meanwhile, the air conditioner 200 uses the large amount of condensed water to pass the outside air to the condensed water supply pipe 310 to lower the temperature of the outside air and send it to various places in the ship such as a cabin area, an engine room area, It is preferable that the air conditioner is provided in a large capacity so as not to install the air conditioner.

The water cooler 400 is connected to the condensate supply pipe 310 to cool the condensate generated through the heat exchange of the air conditioner 200.

5, the water type cooler 400 includes a condensate circulation pump 410, a controller 420, and a heat exchanger 430.

The condensing water circulation pump 410 is connected to the air conditioning unit 200 and the condensed water supply pipe 310 to circulate the condensed water supplied through the condensed water supply pipe 310.

The controller 420 is electrically connected to the condensate circulation pump 410 to control the operation of the condensate circulation pump 410.

The heat exchanger 430 can circulate the condensed water supplied through the condensed water supply pipe 310 by cooling the condensed water supplied according to the operation of the condensed water circulation pump 410.

According to the embodiment of the present invention, the air conditioner 200 for installing the duct 100 in the room 10 and cooling the air supplied from the outside to the room 100, And the condensate circulation pipe 300 is connected to the air conditioner 200 and the duct 100 so that the cold condensate generated through the heat exchange of the air conditioner 200 is supplied to the duct 100 through the condensate circulation pipe 300 And is applied to a ship or an offshore structure having an outside air cooling system using an air conditioner condensate so that the hot air supplied from the outside can be preheated and supplied to the air conditioner 200 to increase the energy saving efficiency, .

That is, the duct 100 is installed in the room 10 so as to be in contact with the outside air, and the outside air is introduced into the duct 100 by the operation of the blowing fan 110 installed inside the duct 100, The air conditioner 200 is connected and connected to the air conditioner 200 to circulate the condensed water of 6 ° C generated in the air conditioner 200 into the duct 100 to the inside of the duct 100 to be introduced into the duct 100 The condensed water circulation pipe 300 is connected to allow the condensed water to be cooled beforehand by the outside air at 35 ° C. and the condensed water generated in the air conditioner 200 is used, It is applicable to all ships or offshore structures.

The operation state of the external air cooling system using the air conditioning condensed water of the present invention will be described below.

A duct 100 is provided on the side of the room 10 so as to communicate with the outside air so that outside air is introduced into the duct 100 and the air conditioner 200 is connected to the duct 100, The outside air supplied to the duct 100 is cooled to cool the room 10.

When the indoor unit 10 is cooled according to the operation of the air conditioner 200, cold condensate water of 6 ° C is generated. The condensate water generated by the air conditioner 200 flows through the condensate water circulation pipe 300, So that it flows into the inside.

The external air of 35 ° C supplied to the duct 100 is cooled by the cold condensed water circulated through the condensed water circulation pipe 300 before being supplied to the air conditioner 200 .

The cold condensed water generated in the air conditioner 200 circulates through the condensed water circulation pipe 300 and flows into the duct 100 to cool the external hot air before being supplied to the air conditioner 200 So that the air conditioner efficiency can be maximized with minimum energy.

In addition, even if the size of the air conditioner 200 is reduced by circulating cold condensate through the condensed water circulation pipe 300, the cooling efficiency can be maximized, and facility cost can be reduced.

In addition, by connecting the water type cooler 400 to the condensed water supply pipe 310, the condensed water generated in the air conditioner 200 is cooled and sent to various places such as a cabin area, an engine room area, You will not be able to install it or you will be able to reduce air conditioning usage.

As described above, the present invention is not limited to the above-described specific preferred embodiments, and any person skilled in the art can make various modifications without departing from the gist of the present invention. It is to be understood that such changes and modifications are intended to fall within the scope of the appended claims.

10: Indoor
20: Outdoors
100: duct
110: blowing fan
200: Air conditioner
210: circulation pump
300: Condensate circulation piping
310: Condensate supply piping
320: Fan
400: water type cooler
410: Condensate circulation pump
420: controller
430: heat exchanger

Claims (9)

A duct which is installed on the indoor side and communicates with the outside air;
An air conditioner connected to the duct for cooling the air supplied from outside to cool the room; And
A condensate circulation pipe for circulating the condensed water generated through the heat exchange of the air conditioner to the inside of the duct so as to lower the temperature of the air supplied from outside;
An external air cooling system using an air conditioner condensate. The method according to claim 1,
Wherein the air conditioner is provided with a circulation pump connected to the condensate circulation pipe to circulate the condensed water through the condensate circulation pipe to the duct. The method according to claim 1,
Wherein the condensed water circulation pipe circulates the condensed water of 6 ° C generated by the air conditioner to the duct, and the air of 35 ° C supplied from the outside air is preheated and supplied to the air conditioner. A duct which is installed on the indoor side and communicates with the outside air;
An air conditioner connected to the duct for cooling the air supplied from outside to cool the room;
A condensate supply pipe connected to the air conditioner for supplying condensed water generated through heat exchange of the air conditioner; And
A water type cooler connected to the condensate supply pipe for cooling the condensate generated in the air conditioner;
An external air cooling system using an air conditioner condensate. 5. The method of claim 4,
Wherein the condensed water supply pipe is installed in a captain area including a cabin area, an engine room area and a cargo area, and supplies cool air having heat-exchanged with condensate water. 6. The method of claim 5,
Wherein the condensing water supply pipe is provided with a fan for supplying cool air to the cabin space, engine room compartment, and skipper compartment. 5. The method of claim 4,
The water-
A condensate circulation pump connected to the air conditioner and a condensate supply pipe for circulating condensate through a condensate supply pipe;
A controller electrically connected to the condensate circulation pump to control operation of the condensate circulation pump; And
A heat exchanger for cooling the condensate supplied according to the operation of the condensate circulation pump;
An external air cooling system using an air conditioner condensate. A ship having an external air cooling system using an air conditioning condensate, wherein an external air cooling system using the air conditioning condensate according to any one of claims 1 to 7 is installed. An offshore structure having an outside air cooling system using an air conditioner condensate, wherein an outside air cooling system using the air conditioner condensed water according to any one of claims 1 to 7 is installed.

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