KR20230056152A - Ventilation system and method for electrical equipment room of vessel and vessel inculding the same - Google Patents

Abstract

A ventilation system for an electrical equipment room of a vessel, according to an embodiment of the present invention, comprises: an air conditioner (100) which generates air-conditioned air (1) to control the temperature of internal air (3) inside an electrical equipment room (10) of a vessel; an air conditioning air supply duct (200) which connects the electrical equipment room (10) with the air conditioner (100) and provides a path through which the air-conditioned air (1) is supplied to the electrical equipment room (10); a wind volume control damper (300) which is installed in the air-conditioned air supply duct (200) and controls the wind volume of the air-conditioned air (1); a first temperature sensor (410) which measures the temperature of external air (2-1, 2-2) outside of the electrical equipment room (10); and a second temperature sensor (420) which is installed in the electrical equipment room (10) and measures the temperature of the internal air (3). The wind volume control damper (300) controls the wind volume of the air-conditioned air (1) by using the temperature of the external air (2) and the temperature of the internal air (3) respectively measured by the first temperature sensor (410) and the second temperature sensor (420). Therefore, overheating of electrical equipment can be prevented.

Description

VENTILATION SYSTEM AND METHOD FOR ELECTRICAL EQUIPMENT ROOM OF VESSEL AND VESSEL INCULDING THE SAME}

The present invention relates to a ventilation system and method for an electrical equipment room of a ship, and to a ship including the system, and more particularly, to a ship that can prevent overheating of electrical equipment in the electrical equipment room and minimize an increase in cost therefor. A ventilation system and method for an electrical equipment room, and a ship including the system.

Currently, a centralized ventilation system is applied to the electrical equipment room (EER) of the ship. That is, a certain amount of air from the main air conditioner is supplied to the electrical equipment room, and the same amount of air is discharged through natural ventilation.

However, the electrical equipment room generates a lot of heat from electrical equipment, so if the main air conditioner is used to cool and heat the room under the same conditions as the general cabin, even if cooling is needed in the electrical equipment room in winter, the electrical equipment room is heated, that is, hot air of about 37 ° C. is supplied, which can cause problems in the operation of electrical equipment. In addition, to prevent overheating of electrical equipment, a separate Package Air Conditioner Unit (PACU) must be additionally installed in the electrical equipment room, so capital expenditure (CAPEX) and operational expenditure (OPEX) costs will increase.

Korean Patent Laid-open Publication No. 10-2015-0050782 (air conditioning ventilation equipment for ships and ships having the same, 2015.05.11)

The technical problem to be achieved by the spirit of the present invention is to provide a ventilation system and method for a ship's electrical equipment room that can prevent overheating of electrical equipment in an electrical equipment room and minimize an increase in cost for this purpose, and a ship including the system will be.

Ventilation system for electrical equipment room of a ship according to an embodiment of the present invention includes an air conditioner 100 for generating air conditioning air 1 for adjusting the temperature of a bet 3 inside an electrical equipment room 10 of a ship; an air conditioner air supply duct 200 connecting the electrical equipment room 10 and the air conditioner 100 and providing a path through which the air conditioner air 1 is supplied to the electrical equipment room 10; an air volume control damper 300 installed in the air conditioner air supply duct 200 and controlling the air volume of the air conditioner air 1; A first temperature sensor 410 for measuring the temperature of the outside air (2-1, 2-2) outside the electrical equipment room (10); And a second temperature sensor 420 installed in the electrical equipment room 10 and measuring the temperature of the bet 3; and the air volume control damper 300 includes the first temperature sensor 410 and the The air volume of the air conditioner 1 is adjusted using the temperatures of the outdoor air 2-1 and 2-2 and the temperature of the indoor air 3 measured by the second temperature sensor 420, respectively.

In addition, it further includes an outdoor air supply duct 500 connected to the electrical equipment room 10, and the outdoor air 2-1, 2-2 is the first outdoor air 2-1 supplied to the air conditioner 100 And a second outside air (2-2) supplied to the outside air supply duct 500, wherein the outside air supply duct 500 supplies the second outside air (2-2) into the electrical equipment room (10). path can be provided.

In addition, an air discharge unit 600 installed in the electric equipment room 10 and discharging the bet 3 to the outside may be further included.

Also, the air discharge unit 600 may include a fan driven by a motor.

In addition, when the temperature of the outside air (2-1, 2-2) is equal to or higher than the cooling reference temperature, the air conditioner 100 cools the air conditioner air 1, and the air volume control damper 300 is fully opened to cool It is possible to supply only the air conditioner air 1 that has been removed to the inside of the electrical equipment room 10 .

In addition, when the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature, the air conditioner 100 heats the air conditioner air 1, and the opening amount of the air volume control damper 300 is adjusted A part of the heated air of the air conditioner is supplied to the inside of the electric equipment room 10, and the outside air supply duct 500 connected to the electric equipment room 10 is used to enter the electric equipment room 10. The temperature of the bet 3 may be adjusted within a target temperature range by supplying the second outside air 2-2.

In addition, when the temperature of the bet 3 is higher than the target temperature of the electrical equipment room 10, the opening amount of the air volume control damper 300 may decrease.

In addition, when the temperature of the bet 3 is lower than the target temperature of the electric equipment room 10, the opening amount of the air volume control damper 300 may increase.

In addition, when the temperature of the outside air (2-1, 2-2) is lower than the cooling reference temperature and higher than the heating reference temperature, the air volume control damper 300 is completely blocked to use the outside air supply duct 500 Thus, only the second outside air 2-2 may be supplied into the electrical equipment room 10.

In addition, the ventilation method for the electric equipment room of the ship according to another embodiment of the present invention supplies the air conditioner air 1 generated from the air conditioner 100 to the inside of the electric equipment room 10 of the ship through the air conditioner air supply duct 200 step; The temperature of the outside air (2-1, 2-2) outside the electrical equipment room 10 and the inside of the electrical equipment room 10 (3) using the first temperature sensor 410 and the second temperature sensor 420, respectively. ) measuring the temperature; And controlling the temperature of the bet 3 by adjusting the air volume of the air conditioner air 1 using the air volume control damper 300 installed in the air conditioner air supply duct 200, and controlling the air volume The damper 300 uses the temperatures of the outdoor air (2-1, 2-2) and the indoor air (3) measured by the first temperature sensor 410 and the second temperature sensor 420, respectively. Adjust the air volume of the air conditioner air (1).

In addition, the outside air (2-1, 2-2) is supplied to the first outside air (2-1) supplied to the air conditioner 100 and the outside air supply duct 500 connected to the electrical equipment room (10). 2 outside air (2-2) may be included.

In addition, when supplying the second outdoor air (2-2) into the electric equipment room 10, the outdoor air 2 is supplied into the electric equipment room 10 using the outdoor air supply duct 500, , The bet 3 can be discharged to the outside using the air discharge unit 600 installed in the electrical equipment room 10.

In addition, in the step of adjusting the temperature of the inner air (3), when the temperature of the outside air (2-1, 2-2) is equal to or higher than the cooling reference temperature, the air conditioner 100 cools the air conditioner air (1) and , The air volume control damper 300 is completely open to supply only the cooled air of the air conditioner 1 to the inside of the electric equipment room 10 .

In addition, in the step of adjusting the temperature of the indoor air (3), when the temperature of the outdoor air (2-1, 2-2) is less than the heating reference temperature, the air conditioner 100 heats the air conditioner air (1) and , The opening amount of the air volume control damper 300 is adjusted so that the heated air of the air conditioner 1 and the second outdoor air 2-2 can be supplied into the electrical equipment room 10.

In addition, when the temperature of the bet 3 is higher than the target temperature of the electrical equipment room 10, the opening amount of the air volume control damper 300 may decrease.

In addition, when the temperature of the bet 3 is lower than the target temperature of the electric equipment room 10, the opening amount of the air volume control damper 300 may increase.

In addition, in the step of adjusting the temperature of the bet 3, when the temperature of the outside air 2-1, 2-2 is less than the cooling reference temperature and is greater than the heating reference temperature, the air volume control damper 300 is completely blocked so that only the second outside air 2-2 can be supplied into the electrical equipment room 10 using the outside air supply duct 500.

In addition, a ship according to another embodiment of the present invention includes the above-described ventilation system for the electrical equipment room of the ship.

A ventilation system and method for a ship's electrical equipment room according to an embodiment of the present invention, and a ship including the system installs a wind volume control damper in an air conditioner air supply duct, and adjusts the air volume according to the temperature of the outside air and the temperature of the inside air volume control damper By adjusting the amount of opening of the electric equipment room, it is possible to properly maintain the temperature of the inside of the electric equipment room without installing a separate package air conditioner unit in the electrical equipment room. Thus, overheating of the electrical equipment can be prevented.

In addition, since costs such as capital expenditure (CAPEX) and operational expenditure (OPEX) are minimized, energy can be saved.

1 is a schematic diagram of a ventilation system for an electrical equipment room of a ship according to an embodiment of the present invention.
2 is a flow chart of a ventilation method for an electrical equipment room of a ship using a ventilation system for an electrical equipment room of a ship according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily carry out the present invention. This invention may be embodied in many different forms and is not limited to the embodiments set forth herein.

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

1 is a schematic diagram of a ventilation system for an electrical equipment room of a ship according to an embodiment of the present invention.

As shown in FIG. 1, the ventilation system for the electric equipment room of a ship according to an embodiment of the present invention includes an air conditioner 100, an air conditioner air supply duct 200, an air volume control damper 300, and a first temperature sensor 410 ), a second temperature sensor 420, an outside air supply duct 500, and an air discharge unit 600.

The air conditioner 100 may generate air conditioner air 1 to adjust the temperature of the interior of the electric equipment room 10 of the ship. The outdoor air (2-1, 2-2) may include a first outdoor air (2-1) supplied to the air conditioner 100 and a second outdoor air (2-2) supplied to the outdoor air supply duct (500). The air conditioner 100 may generate the air conditioner air 1 by using the first outside air 2-1 as it is, or generate the air conditioner air 1 by heating or cooling the first outside air 2-1. . The air conditioner 100 operates in a cooling mode when the temperature of the outside air 2-1, 2-2 outside the electrical equipment room 10 is equal to or higher than the cooling reference temperature, and operates in the heating mode when the temperature is lower than the heating reference temperature. .

The air conditioner air supply duct 200 may connect the electrical equipment room 10 and the air conditioner 100 . The air conditioner air supply duct 200 may provide a path through which the air conditioner air 1 is supplied into the electric equipment room 10 . The air conditioner air supply duct 200 may be a duct with pressure supplied by the air conditioner 100 .

The air volume control damper 300 may be installed in the air conditioner air supply duct 200. The air flow control damper 300 is fully opened when the temperature of the outside air (2-1, 2-2) is equal to or higher than the cooling reference temperature, and when the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature, the air volume control damper 300 The air volume of the air conditioner air 1 is controlled by adjusting the opening amount of the control damper 300, and when the temperature of the outside air 2-1 and 2-2 is below the cooling reference temperature and above the heating reference temperature, the air volume control damper (300) can be completely blocked. The cooling reference temperature may be approximately 23 degrees, and the heating reference temperature may be approximately 12 degrees, but is not limited thereto.

The first temperature sensor 410 may measure the temperature of the outside air 2-1 and 2-2 outside the electrical equipment room 10 . The first temperature sensor 410 may feed back the measured temperature of the outside air 2-1 and 2-2 to the air conditioner 100 and the air volume control damper 300.

The second temperature sensor 420 is installed in the electrical equipment room 10 and can measure the temperature of the bet 3 inside the electrical equipment room 10 . The second temperature sensor 420 may feed back the measured temperature of the bet 3 to the air volume control damper 300 .

The outside air supply duct 500 is connected to the electrical equipment room 10 and may provide a path through which the outside air 2-1 and 2-2 is supplied to the electrical equipment room 10. The outdoor air supply duct 500 may be a natural supply duct without supply pressure.

The air discharge unit 600 is installed in the electrical equipment room 10 and can forcibly discharge the bet 3 inside the electrical equipment room 10 to the outside. The air discharge unit 600 may be a fan driven by a motor.

The air flow control damper 300 uses the temperature of the outdoor air (2-1, 2-2) and the temperature of the indoor air (3) measured by the first temperature sensor 410 and the second temperature sensor 420, respectively, to control the air conditioner. The air volume of the air 1 can be adjusted. This will be described in detail with reference to the drawings below. At this time, the target temperature of the bet 3 of the electrical equipment room 10 is determined to be around 27 degrees, but the temperature of the bet 3 may be allowed between the lowest allowable temperature of 5 degrees and the highest allowable temperature of 35 degrees. . Therefore, the target temperature range of the bet 3 may be 5 degrees to 35 degrees.

When the temperature of the outside air (2-1, 2-2) is higher than the cooling reference temperature, the temperature of the inner air (3) inside most of the cabins and electrical equipment rooms (10) of the ship is higher than the target temperature, so the air conditioner 100 By cooling the first outside air (2-1), the cooled air conditioning air (1) can be supplied to most of the cabins and electrical equipment rooms (10) of the ship. The air conditioner 100 may start cooling when the temperature of the outside air 2-1 and 2-2 is equal to or higher than the cooling reference temperature. In this case, the air volume control damper 300 is fully opened, and the entire amount of air required inside the electrical equipment room 10 is supplied from the air conditioner 100 through the air conditioner air supply duct 200, and the entire amount of the supplied air is discharged Discharge through section 600. At this time, since the amount of air supplied and exhausted from the electrical equipment room 10 is the same, the second outdoor air 2-2 supplied by natural ventilation does not flow into the electrical equipment room 10, and only the cooled air conditioner air 1 It can be supplied into the electrical equipment room 10. Therefore, when the temperature of the outside air (2-2, 2-2) is higher than the cooling reference temperature, the temperature of the bet (3) inside the electrical equipment room (10) can be maintained within the target temperature range as in most cabins of the ship. Overheating of electrical equipment can be prevented.

On the other hand, when the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature, the temperature of the bet (3) inside most of the cabins and electrical equipment rooms (10) of the ship is below the target temperature, so the air conditioner (100 ) can heat the first outside air (2-1) and supply the heated air conditioning air (1) to most of the cabins and electrical equipment rooms (10) of the ship. The air conditioner 100 may start heating when the temperatures of the outside air 2-1 and 2-2 are lower than the heating reference temperature. In this case, in order to properly maintain the temperature of the bet 3 inside the electrical equipment room 10, the air volume control damper 300 is adjusted to supply some of the heated air conditioner air 1 to the inside of the electrical equipment room 10, At the same time, after supplying the second outside air 2 into the electrical equipment room 10 in a natural ventilation method using the outside air supply duct 500 connected to the electrical equipment room 10, the air installed in the electrical equipment room 10 The bet 3 may be discharged to the outside using the discharge unit 600 . At this time, since the amount of exhaust air discharged from the air discharge unit 600 is greater than the amount of air supplied from the air conditioner air 1 supplied from the air conditioner 100, the second outside air 2-2 is supplied to the outside air supply duct by the difference. 500) through natural ventilation.

Therefore, when the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature, unlike most cabins of the ship, the temperature of the bet 3 inside the electrical equipment room 10 can be maintained within the target temperature range Overheating of electrical equipment can be prevented, and even when the temperature of the outside air (2-1, 2-2) is too low, some of the air conditioner air (1) heated by the air conditioner (100) through the air conditioner air supply duct (200) is supplied to prevent malfunction of electrical equipment at too low a temperature.

The air volume control damper 300 may adjust the opening amount in a proportional control method according to a difference between the temperature of the bet 3 inside the electric equipment room 10 and the target temperature.

That is, when the temperature of the outdoor air (2-1, 2-2) is less than the heating reference temperature (approximately 12 degrees), and the temperature of the indoor air (3) is higher than the target temperature (approximately 27 degrees) of the electrical equipment room 10, the air volume The opening amount of the adjusting damper 300 may be reduced. Also, when the temperature of the bet 3 is lower than the target temperature of the electric equipment room 10, the opening amount of the air volume control damper 300 may increase. The temperature of the bet 10 of the electrical equipment room 10 may be higher or lower than the target temperature of the electrical equipment room 10, but must be within the target temperature range.

On the other hand, when the temperature of the outside air (2-1, 2-2) is less than the cooling reference temperature and is greater than the heating reference temperature, the air volume control damper 300 is completely blocked and the air conditioner air 1 is directed into the electrical equipment room 10 It is not supplied, and only the second outside air 2-2 may be supplied into the electrical equipment room 10 using the outside air supply duct 500. The entire amount of air supplied through the outside air supply duct 500 is discharged through the air discharge unit 600 .

In addition, since costs such as capital expenditure (CAPEX) and operational expenditure (OPEX) are minimized, energy can be saved.

Hereinafter, a ventilation method for an electrical equipment room of a ship according to an embodiment of the present invention will be described in detail with reference to the drawings.

2 is a flow chart of a ventilation method for an electrical equipment room of a ship using a ventilation system for an electrical equipment room of a ship according to an embodiment of the present invention.

As shown in FIG. 2, in the ventilation method for the electrical equipment room of a ship according to an embodiment of the present invention, first, the air conditioner air 1 generated in the air conditioner 100 is supplied to the ship through the air conditioner air supply duct 200. It is supplied into the equipment room 10 (S100).

Next, the temperature of the outside air (2-1, 2-2) outside the electrical equipment room 10 and the inside of the electrical equipment room 10 using the first temperature sensor 410 and the second temperature sensor 420, respectively. The temperature of (3) is measured (S200).

Next, the temperature of the bet 3 is adjusted by adjusting the air volume of the air conditioner air 1 using the air volume control damper 300 installed in the air conditioner air supply duct 200 (S300).

At this time, the air volume control damper 300 measures the temperature of the outdoor air 2-1 and 2-2 and the temperature of the indoor air 3 measured by the first temperature sensor 410 and the second temperature sensor 420, respectively. It is possible to adjust the air volume of the air conditioner air (1) by using.

When the temperature of the outside air (2-1, 2-2) is equal to or higher than the cooling reference temperature, the air conditioner 100 may cool the air conditioner air 1 and supply it to most cabins and electrical equipment rooms 10 of the ship. At this time, the air volume control damper 300 is fully opened, and the second outside air 2-2 does not flow into the electrical equipment room 10, so only the cooled air conditioner air 1 is supplied into the electrical equipment room 10 It can be.

On the other hand, when the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature, in order to appropriately maintain the temperature of the bet (3) inside the electrical equipment room (10), the opening amount of the air volume control damper (300) A part of the controlled and heated air conditioner air 1 is supplied to the inside of the electrical equipment room 10, and the second outside air enters the electrical equipment room 10 using the outside air supply duct 500 connected to the electrical equipment room 10 (2-2) is supplied, and the bet 3 can be discharged to the outside using the air discharge unit 600 installed in the electrical equipment room 10.

If the temperature of the bet 3 is higher than the maximum permissible temperature and overheats, the air volume control damper 300 may be opened and the air volume of the heated air conditioner air 1 may be reduced. In addition, the second outdoor air 2-2 below the heating reference temperature is supplied into the electrical equipment room 10 using the outside air supply duct 500 connected to the electrical equipment room 10. In addition, the bet 3 is discharged to the outside using the air discharge unit 600 installed in the electrical equipment room 10 . Therefore, the inside of the electric equipment compartment 10 can be cooled by lowering the temperature of the bet 3 below the maximum allowable temperature.

In addition, when the temperature of the bet 3 is lower than the minimum allowable temperature, the air volume of the air volume control damper 300 is increased so that the air volume of the heated air conditioner air 1 can be increased. Therefore, the inside of the electric equipment room 10 can be heated by raising the temperature of the bet 3 to a minimum allowable temperature or higher.

On the other hand, when the temperature of the outside air (2-1, 2-2) is less than the cooling reference temperature and is greater than the heating reference temperature, the air volume control damper 300 is completely blocked and the air conditioner air 1 is directed into the electrical equipment room 10 not supplied In addition, only the second outside air 2-2 may be supplied into the electrical equipment room 10 using the outside air supply duct 500. Also, the entire amount of the air supplied through the outside air supply duct 500 is discharged through the air discharge unit 600 .

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to make various modifications and practice within the scope of the claims and the detailed description of the invention and the accompanying drawings, and this is also the present invention. It goes without saying that it falls within the scope of the invention.

100: air conditioner 200: air conditioner air supply duct
300: air volume control damper 410: first temperature sensor
420: second temperature sensor 500: outside air supply duct
600: air outlet

Claims (18)

An air conditioner (100) for generating air conditioning air (1) for adjusting the temperature of the bedding (3) inside the electric equipment room (10) of the ship;
an air conditioner air supply duct 200 connecting the electrical equipment room 10 and the air conditioner 100 and providing a path through which the air conditioner air 1 is supplied to the electrical equipment room 10;
an air volume control damper 300 installed in the air conditioner air supply duct 200 and controlling the air volume of the air conditioner air 1;
A first temperature sensor 410 for measuring the temperature of the outside air (2-1, 2-2) outside the electrical equipment room (10); and
A second temperature sensor 420 installed in the electrical equipment room 10 and measuring the temperature of the bet 3; includes,
The air volume control damper 300 measures the temperature of the outdoor air 2-1 and 2-2 measured by the first temperature sensor 410 and the second temperature sensor 420 and the temperature of the indoor air 3 Controlling the air volume of the air conditioner air (1) using temperature,
Ventilation systems for electrical equipment rooms on ships. According to claim 1,
Further comprising an outside air supply duct 500 connected to the electrical equipment room 10,
The outside air (2-1, 2-2) includes a first outside air (2-1) supplied to the air conditioner 100 and a second outside air (2-2) supplied to the outside air supply duct 500, ,
The outside air supply duct 500 provides a path through which the second outside air 2-2 is supplied into the electrical equipment room 10,
Ventilation systems for electrical equipment rooms on ships. According to claim 2,
It is installed in the electrical equipment room 10 and further comprises an air outlet 600 for discharging the bet 3 to the outside.
Ventilation systems for electrical equipment rooms on ships. According to claim 3,
The air discharge unit 600 includes a fan driven by a motor,
Ventilation systems for electrical equipment rooms on ships. According to claim 3,
When the temperature of the outside air (2-1, 2-2) is higher than the cooling reference temperature,
The air conditioner 100 cools the air conditioner air 1,
The air volume control damper 300 is fully open and supplies only the cooled air conditioner air 1 into the electric equipment room 10,
Ventilation systems for electrical equipment rooms on ships. According to claim 5,
When the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature,
The air conditioner 100 heats the air conditioner air 1,
The opening amount of the air volume control damper 300 is adjusted to supply a part of the heated air from the air conditioner 1 to the inside of the electrical equipment room 10, and the outside air supply duct 500 connected to the electrical equipment room 10 ) to supply the second outdoor air (2-2) into the electrical equipment room (10) to adjust the temperature of the bet (3) within the target temperature range,
Ventilation systems for electrical equipment rooms on ships. According to claim 6,
When the temperature of the bet 3 is higher than the target temperature of the electrical equipment room 10, the opening amount of the air volume control damper 300 decreases,
Ventilation systems for electrical equipment rooms on ships. According to claim 7,
When the temperature of the bet 3 is lower than the target temperature of the electric equipment room 10, the opening amount of the air volume control damper 300 increases,
Ventilation systems for electrical equipment rooms on ships. According to claim 6,
When the temperature of the outside air (2-1, 2-2) is less than the cooling reference temperature and is greater than the heating reference temperature,
The air volume control damper 300 is completely blocked to supply only the second outside air 2-2 into the electrical equipment room 10 using the outside air supply duct 500,
Ventilation systems for electrical equipment rooms on ships. Supplying the air conditioner air 1 generated from the air conditioner 100 to the inside of the electrical equipment room 10 of the ship through the air conditioner air supply duct 200;
The temperature of the outside air (2-1, 2-2) outside the electrical equipment room 10 and the inside of the electrical equipment room 10 (3) using the first temperature sensor 410 and the second temperature sensor 420, respectively. ) measuring the temperature; and
Controlling the temperature of the bet 3 by adjusting the air volume of the air conditioner air 1 using the air volume control damper 300 installed in the air conditioner air supply duct 200; including,
The air volume control damper 300 measures the temperatures of the outdoor air 2-1 and 2-2 and the indoor air 3 measured by the first temperature sensor 410 and the second temperature sensor 420, respectively. Controlling the air volume of the air conditioner air (1) by using
Ventilation methods for electrical equipment rooms on ships. According to claim 10,
The outside air (2-1, 2-2) is the first outside air (2-1) supplied to the air conditioner 100 and the second outside air supplied to the outside air supply duct 500 connected to the electrical equipment room (10) Including (2-2),
Ventilation methods for electrical equipment rooms on ships. According to claim 11,
When the second outside air 2-2 is supplied into the electrical equipment room 10,
The outside air 2 is supplied into the electrical equipment room 10 using the outside air supply duct 500,
Discharging the bet 3 to the outside using the air discharge unit 600 installed in the electrical equipment room 10,
Ventilation methods for electrical equipment rooms on ships. According to claim 12,
In the step of adjusting the temperature of the bet 3,
When the temperature of the outside air (2-1, 2-2) is higher than the cooling reference temperature,
The air conditioner 100 cools the air conditioner air 1,
The air volume control damper 300 is fully open and supplies only the cooled air conditioner air 1 into the electric equipment room 10,
Ventilation methods for electrical equipment rooms on ships. According to claim 13,
In the step of adjusting the temperature of the bet 3,
When the temperature of the outside air (2-1, 2-2) is less than the heating reference temperature,
The air conditioner 100 heats the air conditioner air 1,
Ventilation method for the electrical equipment room of a ship, in which the opening amount of the air volume control damper 300 is adjusted to supply the heated air conditioner air 1 and the second outside air 2-2 to the inside of the electrical equipment room 10 . 15. The method of claim 14,
When the temperature of the bet 3 is higher than the target temperature of the electrical equipment room 10, the opening amount of the air volume control damper 300 decreases,
Ventilation methods for electrical equipment rooms on ships. According to claim 15,
When the temperature of the bet 3 is lower than the target temperature of the electric equipment room 10, the opening amount of the air volume control damper 300 increases,
Ventilation methods for electrical equipment rooms on ships. 15. The method of claim 14,
In the step of adjusting the temperature of the bet 3,
When the temperature of the outside air (2-1, 2-2) is less than the cooling reference temperature and is greater than the heating reference temperature,
The air volume control damper 300 is completely blocked to supply only the second outside air 2-2 into the electrical equipment room 10 using the outside air supply duct 500,
Ventilation methods for electrical equipment rooms on ships. A vessel comprising a ventilation system for an electrical equipment room of a vessel according to any one of claims 1 to 9.

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