KR20200137261A - Heating, ventilation and air conditioning cooling system of nuclear power plant - Google Patents

Abstract

The present invention relates to an air conditioning equipment cooling system for a nuclear power plant. The present invention includes: essential cold water auxiliary piping capable of supplying essential cold water performing an air conditioning equipment cooling function; first piping to which the essential cold water is supplied from the essential cold water auxiliary piping; a water-cooled freezer capable of cooling the essential cold water by receiving cooling water from a primary side equipment cooling water system; second piping communicating with the first piping and connected to the first piping and the water-cooled freezer; a cold water discharge unit capable of discharging the cooled essential cold water; third piping interconnecting the cold water discharge unit and the water-cooled freezer; an air-cooled freezer capable of cooling the essential cold water; fourth piping communicating with the first piping while branching off from the first piping and interconnecting the first piping and the air-cooled freezer; and fifth piping interconnecting the cold water discharge unit and the air-cooled freezer. The essential cold water supply of the air-cooled freezer is blocked and the essential cold water is supplied to the water-cooled freezer during nuclear power plant operation. The essential cold water supply of the water-cooled freezer is blocked and the essential cold water is supplied to the air-cooled freezer in the event of a final heat removal source loss accident at the nuclear power plant.

Description

Cooling system for air conditioning equipment of nuclear power plant {Heating, ventilation and air conditioning cooling system of nuclear power plant}

The present invention relates to a cooling system for an air conditioner of a nuclear power plant, and more particularly, a cooling function is performed through the primary side equipment cooling water system when operating a nuclear power plant, and cooling through an air-cooled refrigerator in the event of a loss of the final heat removal source of a nuclear power plant. It relates to a cooling system for air conditioning equipment of a nuclear power plant that can perform the function.

In general, nuclear power plants have a cold water system for performing the cooling function of HVAC, heating, ventilation and air conditioning, and such a cold water system uses cooling water.

Specifically, the Essential chilled water system (ECWS) supplies cold water to the air conditioner and removes the heat load of each area delivered to the air conditioner. The heat load transferred to the cold water is transferred to the primary side equipment cooling water system (CCWS) through the condenser of the essential cold water system refrigerator. The primary side equipment cooling water system removes the heat load generated from these equipment by supplying cooling water to essential and non-essential equipment including refrigerators of the essential cooling water system. The heat load transferred from such a device to the cooling water is finally transferred and discharged to seawater supplied from the primary-side device cooling water system (ESWS) through the primary-side device cooling water system heat exchanger.

When operating a nuclear power plant, such a cooling system performs a cooling function, but there is a problem in that the cooling function of the cooling system is lost in the event of a loss of ultimate heat sink (LOUHS) of a nuclear power plant.

Specifically, in the event of a loss of the ultimate heat sink (LOUHS) of a nuclear power plant, the primary side equipment cooling seawater system is lost, resulting in a loss of the primary side equipment cooling water system function. Due to the loss of the function of the cooling water system of the primary side equipment, the chiller function of the essential cooling water system that receives cooling water from the cooling water system of the primary side equipment is lost, and accordingly, the production of cold water becomes impossible, making it impossible to perform the cooling function of the air conditioner. have.

When it is impossible to perform the cooling function of the air conditioner, it adversely affects the nuclear power plant, which leads to a serious accident. However, a conventional nuclear power plant does not have a separate configuration for solving the problem that the cooling function of the air conditioner becomes impossible in the event of a loss of ultimate heat sink (LOUHS).

The present invention is to solve the above-described problems, and more particularly, when operating a nuclear power plant, the cooling function is performed through the primary side equipment cooling water system, and when the nuclear power plant final heat removal source is lost, the cooling function is performed through an air-cooled refrigerator. It relates to a cooling system for air conditioning equipment of a nuclear power plant that can be performed.

An air conditioner cooling system of a nuclear power plant according to the present invention for solving the above-described problem includes: an essential cold water accessory pipe capable of supplying essential cold water for cooling the air conditioner; A first pipe through which essential cold water is supplied from the essential cold water auxiliary pipe; A water-cooled refrigerator capable of cooling essential cold water by receiving cooling water from the primary side equipment cooling water system; A second pipe communicating with the first pipe and connecting the first pipe to the water-cooled refrigerator; A cold water discharge unit capable of discharging the cooled essential cold water; A third pipe connecting the cold water discharge unit and the water-cooled refrigerator; An air-cooled refrigerator capable of cooling essential cold water; A fourth pipe branching from the first pipe and communicating with the first pipe, and connecting the first pipe and the air-cooled refrigerator; It includes a fifth pipe connecting the cold water discharge unit and the air-cooled chiller, and when the nuclear power plant is operated, the supply of essential chilled water from the air-cooled chiller is cut off, and essential chilled water is supplied to the water-cooled chiller, and the final heat removal of the nuclear power plant In the event of a loss of source, the supply of essential cold water is blocked from the water-cooled refrigerator, and the essential cold water is supplied to the air-cooled refrigerator.

The air-cooled chiller of the air conditioner cooling system of a nuclear power plant according to the present invention for solving the above-described problems can cool essential chilled water using air without using the coolant.

In the fourth pipe of the air conditioner cooling system of a nuclear power plant for solving the above-described problems, a second cold water pump may be provided to provide power to supply essential cold water to the air-cooled refrigerator.

An isolation valve capable of controlling the opening and closing of the pipe may be provided in at least one of the fourth pipe and the fifth pipe of the air conditioner cooling system of the nuclear power plant of the present invention to solve the above-described problem, and the isolation As for the valve, it is preferable that two or more isolation valves are connected in series.

In order to solve the above-described problem, at least one of the first pipe and the third pipe of the air conditioner cooling system of a nuclear power plant of the present invention may be provided with a shutoff valve capable of controlling the opening and closing of the pipe.

In the second pipe of the air conditioner cooling system of a nuclear power plant for solving the above-described problem, a first cold water pump may be provided to provide power to supply essential cold water to the water-cooled refrigerator.

The air conditioner cooling system of a nuclear power plant of the present invention for solving the above-described problem is provided in the second pipe, and a front valve and a rear end capable of controlling the opening and closing of the second pipe at the front and rear ends of the first cold water pump. It may include a valve.

In order to solve the above-described problem, the second pipe of the air conditioner cooling system of the nuclear power plant of the present invention is provided with a water-cooled refrigerator front end valve capable of controlling the supply of essential cold water supplied to the water-cooled refrigerator, and the third pipe A water-cooled refrigerator rear-stage valve capable of controlling the discharge of essential cold water discharged from the water-cooled refrigerator may be provided.

A plurality of the water-cooled refrigerators of the air conditioner cooling system of the nuclear power plant of the present invention for solving the above-described problems are provided, and a plurality of the second pipes are provided to connect the first pipe and the plurality of water-cooled refrigerators. , A bypass valve connected to the plurality of second pipes and controlling opening and closing of the plurality of second pipes may be further included.

The air conditioner cooling system of a nuclear power plant of the present invention for solving the above-described problem is capable of controlling a valve provided in the first pipe, the second pipe, the third pipe, the fourth pipe, and the fifth pipe. The control unit further comprises a control unit, the first pipe, the second pipe, the third pipe, the fourth pipe through a signal according to the operation of the nuclear power plant and a signal according to the loss of a final heat removal source of the nuclear power plant. , It is possible to adjust the valve provided in the fifth pipe.

The control unit of the air conditioner cooling system of the nuclear power plant of the present invention for solving the above-described problems, when the nuclear power plant is operated, closes the valves provided in the fourth pipe and the fifth pipe, and the first pipe, Valves provided in the second pipe and the third pipe are opened, and in the event of a loss of the final heat removal source of a nuclear power plant, the valve provided in the first pipe, the second pipe, and the third pipe is closed, and the The fourth pipe and the valve provided in the fifth pipe may be opened.

The present invention has the advantage of constructing a cooling system for an air conditioner of a nuclear power plant while minimizing the construction impact by additionally providing an air-cooled chiller to a cooling system that performs a cooling function through the primary side equipment cooling water system when operating a nuclear power plant. .

In addition, the present invention uses an air-cooled chiller capable of discharging heat to the atmosphere through a condenser without using cooling water, so that essential cold water can be cooled and supplied even in the event of a loss of the final heat removal source at a nuclear power plant where cooling water cannot be supplied. There is an advantage.

1 is a diagram showing a cooling function system of a nuclear power plant that performs a cooling function through a primary side equipment cooling water system.
2 is an air conditioner of a nuclear power plant that performs a cooling function through a primary side equipment coolant system when operating a nuclear power plant according to an embodiment of the present invention, and performs a cooling function through an air-cooled refrigerator in the event of a loss of the final heat removal source of the nuclear power plant It is a diagram showing a cooling system.
3 is a view showing that a control unit according to an embodiment of the present invention controls a valve through an operation signal of a nuclear power plant and a signal of loss of a final heat removal source of the nuclear power plant.

The present invention relates to a cooling system for air conditioning equipment of a nuclear power plant, and performs a cooling function through the primary side equipment cooling water system when operating a nuclear power plant, and performs a cooling function through an air-cooled refrigerator in the event of a loss of the final heat removal source at the nuclear power plant. It relates to a cooling system for air conditioning equipment of a nuclear power plant.

1 is a view showing a cooling system for an air conditioner of a nuclear power plant using a water-cooled chiller 130 capable of cooling essential cold water by receiving cooling water from the primary side equipment cooling water system of a nuclear power plant, and FIG. 2 is an implementation of the present invention. It is a diagram showing a cooling system of an air conditioner of a nuclear power plant according to an example.

1 and 2, the cooling system of an air conditioner of a nuclear power plant according to an embodiment of the present invention receives the cooling water from the primary side equipment cooling water system and cools down together with a water-cooled chiller 130 capable of cooling essential cold water. The unnecessary air-cooled chiller 150 is used at the same time.When operating a nuclear power plant, essential cold water is supplied to the air conditioner through the water-cooled chiller 130, and in case of loss of the final heat sink of the nuclear power plant (Loss Of Ultimate Heat Sink, LOUHS) is to be able to supply essential cold water to the air-cooled refrigerator (150).

The air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention includes an essential cold water auxiliary pipe 110, a first pipe 120, a water-cooled chiller 130, a second pipe 132, a cold water discharge unit 140, It includes a third pipe 133, an air-cooled refrigerator 150, a fourth pipe 151, and a fifth pipe 152. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 2, the essential cold water accessory pipe 110 is capable of supplying essential cold water for cooling the air conditioner. The essential cold water auxiliary pipe 110 is an essential cold water compression tank 111 capable of maintaining a constant system pressure, and an essential cold water air separator capable of separating air to be generated in the system due to temperature changes and a small amount of air inflow ( 112). Specifically, referring to FIG. 2, the essential cold water auxiliary pipe 110 is supplied with essential cold water from the side of the essential cold water air separator 112, and the essential cold water air separator 111 is supplied from the essential cold water compression tank 111. ), make-up water can be supplied.

However, the essential cold water auxiliary pipe 110 is not limited thereto, and various devices for supplying supplementary water may be provided. The essential cold water supplied from the essential cold water auxiliary pipe 110 is supplied to the air conditioner after being cooled through the water-cooled refrigerator 130 or the air-cooled refrigerator 150 to perform a cooling function.

Essential cold water supplied from the essential cold water auxiliary pipe 110 may be supplied through the first pipe 120. The first pipe 120 is connected to the essential cold water auxiliary pipe 110, and the first pipe 120 is the second pipe 132 connected to the water-cooled refrigerator 130 and the air-cooled refrigerator It may be branched to the fourth pipe 151 connected to the 150.

The water-cooled refrigerator 130 is capable of cooling essential cold water by receiving cooling water through the primary side equipment cooling water system 131. The water-cooled refrigerator 130 may receive cooling water from the primary side equipment cooling water system 131.

The water-cooled refrigerator 130 may include an evaporator and a condenser, and may cool essential cold water by exchanging heat between essential cold water and cooling water through the evaporator and the condenser. However, the configuration of the water-cooled refrigerator 130 is not limited thereto, and, of course, various devices may be provided as long as it can cool the essential cold water.

The water-cooled chiller 130 is capable of cooling essential cold water during operation of a nuclear power plant, and is connected to the essential cold water auxiliary pipe 110 through the first pipe 120 and the second pipe 132 .

The second pipe 132 is connected to the first pipe 120 and the water-cooled refrigerator 130 while being in communication with the first pipe 120, and the essential cold water supplied from the essential cold water auxiliary pipe 110 Is supplied to the water-cooled refrigerator 130 while passing through the first pipe 120-the second pipe 132.

The second pipe 132 may be provided with a first cold water pump 134 capable of providing power to supply essential cold water to the water-cooled refrigerator 130. The first cold water pump 134 is capable of recovering essential cold water moved through the second pipe 132 and supplying it to the water-cooled refrigerator 130, and can provide power to move the essential cold water. .

The cold water discharge unit 140 is capable of discharging the cooled essential cold water to the air conditioner, and the essential cold water cooled by the water-cooled refrigerator 130 is moved to the cold water discharge unit 140. (As will be described later, the cold water discharge unit 140 is also connected to the air-cooled refrigerator 150, and essential cold water cooled in the air-cooled refrigerator 150 may be moved to the cooling unit discharge unit 140.)

The third pipe 133 connects the cold water discharge unit 140 and the water-cooled refrigerator 130, and the essential cold water cooled in the water-cooled refrigerator 130 is the cold water through the third pipe 133. It may be moved to the discharge unit 140.

The air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention further includes the air-cooled chiller 150 capable of cooling essential cold water in addition to the water-cooled chiller 130 described above, and the air-cooled chiller 150 is a nuclear power plant. It can cool essential cold water in case of loss of ultimate heat sink (LOUHS) of power plant.

The air-cooled refrigerator 150 is capable of cooling essential cold water, and is capable of cooling essential cold water using air without using cooling water. Specifically, referring to FIG. 2, the air-cooled refrigerator 150 may include an evaporator and a condenser, and heat exchange between essential cold water and air through the evaporator and the condenser, and discharge heat to the atmosphere through the condenser. will be.

However, the air-cooled refrigerator 150 is not limited to including an evaporator and a condenser, and various devices may be used as long as the essential cold water can be cooled using air.

2, the air-cooled refrigerator 150 is capable of receiving essential cold water through the fourth pipe 151, and the fourth pipe 151 is branched from the first pipe 120 and the It is in communication with the first pipe 120. The fourth pipe 151 connects the first pipe 120 and the air-cooled refrigerator 150, and the essential cold water supplied from the essential cold water auxiliary pipe 110 is the first pipe 120 -the It may be moved to the air-cooled refrigerator 150 through the fourth pipe 151.

That is, the first pipe 120 is divided into the fourth pipe 151 connected to the air-cooled refrigerator 150 and the second pipe 132 connected to the water-cooled refrigerator 130, and the nuclear power plant During the operation of, essential cold water is moved to the water-cooled refrigerator 130 through the second pipe 132, and the air-cooled refrigerator 150 through the fourth pipe 151 in the event of a loss of the final heat removal source of the nuclear power plant. ), the essential cold water is moved.

The fourth pipe 151 may be provided with a second cold water pump 153 capable of providing power to supply essential cold water to the air-cooled refrigerator 150. The second cold water pump 153 is capable of supplying the essential cold water to the air-cooled chiller 150 after recovering the essential cold water moved through the fourth pipe 151, and can provide power to move the essential cold water. There is.

The fifth pipe 152 connects the cold water discharge unit 140 and the air-cooled refrigerator 150, and the essential cold water cooled in the air-cooled refrigerator 150 is the cold water through the fifth pipe 152. As it moves to the discharge unit 140, essential cold water is supplied to the air conditioner.

In the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention, when the nuclear power plant is operated, the essential cold water supply from the air-cooled chiller 150 is cut off, and essential cold water is supplied to the water-cooled chiller 130, and the nuclear power plant In the event of loss of the final heat removal source (Loss Of Ultimate Heat Sink, LOUHS), the supply of essential cold water from the water-cooled refrigerator 130 is cut off, and essential cold water can be supplied to the air-cooled refrigerator 150.

To this end, the first pipe 120, the second pipe 132, the third pipe 133, the fourth pipe 151, and the fifth pipe 152 according to an embodiment of the present invention are provided with valves. A may be provided, and essential cold water may be supplied to or blocked to the water-cooled refrigerator 130 and the air-cooled refrigerator 150 by opening and closing the valve. Hereinafter, a valve provided in an air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention and an operation method thereof will be described in detail.

In one or more of the fourth pipe 151 and the fifth pipe 152 of the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention, the fourth pipe 151 and the fifth pipe 152 An isolation valve 154 capable of controlling the opening and closing of) may be provided. Here, the isolation valve 154 may be provided in any one of the fourth pipe 151 and the fifth pipe 152, and simultaneously with the fourth pipe 151 and the fifth pipe 152 It may be provided.

The isolation valve 154 provided in the fourth pipe 151 is capable of blocking the supply of essential cold water that is moved from the essential cold water auxiliary pipe 110 to the air-cooled refrigerator 150, and the fifth pipe ( The isolation valve 154 provided in the 152 may block the supply of essential cold water that is moved from the air-cooled refrigerator 150 to the cold water discharge unit 140.

The isolation valve 154 blocks the fourth pipe 151 and the fifth pipe 152 during operation of the nuclear power plant, and the fourth pipe 151 in the event of loss of the final heat removal source of the nuclear power plant. And the fifth pipe 152 is opened so that essential cold water can be moved to the air-cooled refrigerator 150.

Here, the isolation valve 154 is preferably connected in series while being provided with two or more isolation valves 154. Since essential cold water must be cooled through the water-cooled chiller 130 during operation of the nuclear power plant, it is preferable to completely block the essential chilled water supplied to the air-cooled chiller 150.

Therefore, it is preferable that two or more isolation valves 154 are connected in series, and through this, it is possible to completely block the supply of essential cold water to the air-cooled refrigerator 150 during operation of the nuclear power plant.

Specifically, two isolation valves 154 may be provided, and even if a failure occurs in one of the isolation valves 154 as two isolation valves 154 are connected in series, the existing system functions are affected. You will not go crazy.

In one or more of the first pipe 120 and the third pipe 133 of the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention, the first pipe 120 and the third pipe 133 ) May be provided with a shut-off valve 121 that can control the opening and closing of. Here, the shutoff valve 121 may be provided in any one of the first pipe 120 and the third pipe 133, and simultaneously with the first pipe 120 and the third pipe 133 It may be provided.

The shutoff valve 121 provided in the first pipe 120 is capable of blocking the supply of essential cold water that is moved from the essential cold water auxiliary pipe 110 to the water-cooled refrigerator 130, and the third pipe ( The shutoff valve 121 provided in 133 is capable of blocking the supply of essential cold water that is moved from the water-cooled refrigerator 130 to the cold water discharge unit 140.

The shutoff valve 121 is to open the first pipe 120 and the third pipe 133 during operation of the nuclear power plant, and the first pipe 120 in case of loss of the final heat removal source of the nuclear power plant. And the third pipe 133 can be closed. Through this, in the event of a loss of the final heat removal source of the nuclear power plant, it is possible to block the supply of essential cold water to the water-cooled refrigerator 130 and supply the essential cold water to the air-cooled refrigerator 150.

Here, it is preferable that the shutoff valve 121 provided in the first pipe 120 is provided past a point at which the fourth pipe 151 diverges from the first pipe 120. Specifically, referring to FIG. 2, the shutoff valve 121 is provided between a point at which the fourth pipe 151 is branched-a point at which the first pipe 120 and the second pipe 132 are connected. It is preferable that, through this, in the event of a loss of the final heat removal source of the nuclear power plant, it is possible to block the supply of essential cold water to the water-cooled refrigerator 130, and supply the essential cold water to the air-cooled refrigerator 150.

In the second pipe 132 of the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention, a front end capable of controlling the opening and closing of the second pipe 132 at the front and rear ends of the first cold water pump 134 A valve 135 and a rear valve 136 may be provided.

The front end valve 135 provided in the second pipe 132 is capable of blocking the supply of essential cold water which is moved from the essential cold water auxiliary pipe 110 to the first cold water pump 134, and the second The rear valve 136 provided in the pipe 132 is capable of blocking supply of essential cold water that is moved from the first cold water pump 134 to the water-cooled refrigerator 130.

The front valve 135 and the rear valve 136 are to open the second pipe 132 during operation of the nuclear power plant, and the second pipe 132 in case of loss of the final heat removal source of the nuclear power plant. It can be closed. Through this, it is possible to block the supply of essential cold water to the water-cooled refrigerator 130 in the event of a loss of the final heat removal source of the nuclear power plant.

Here, it is preferable that the front valve 135 and the rear valve 136 are simultaneously provided in the second pipe 132. In the event of loss of the final heat removal source of a nuclear power plant, since essential cold water must be cooled through the air-cooled refrigerator 150, the essential cold water supplied to the water-cooled refrigerator 130 is supplied to the front valve 135 and the rear valve 136. It is desirable to block completely through ).

In the second pipe 132 of the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention, a water-cooled refrigerator front valve 137 capable of controlling the supply of essential cold water supplied to the water-cooled refrigerator 130 is provided. The third pipe 133 may be provided with a water-cooled refrigerator rear end valve 138 capable of controlling the discharge of essential cold water discharged from the water-cooled refrigerator 130.

The water-cooled refrigerator front valve 137 provided in the second pipe 132 is capable of blocking the supply of essential cold water that is moved from the first cold water pump 134 to the water-cooled refrigerator 130, and the third The water-cooled refrigerator rear-stage valve 138 provided in the pipe 133 is capable of blocking supply of essential cold water that is moved from the water-cooled refrigerator 130 to the cold water discharge unit 140.

The water-cooled refrigerator front valve 137 and the water-cooled refrigerator rear valve 138 open the second pipe 132 and the third pipe 133 during operation of the nuclear power plant, and the final heat removal source of the nuclear power plant In case of loss, the second pipe 132 and the third pipe 133 can be closed. Through this, in the event of a loss of the final heat removal source of the nuclear power plant, it is possible to block the supply of essential cold water to the water-cooled refrigerator 130 and supply the essential cold water to the air-cooled refrigerator 150.

2, the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention may be provided with a plurality of the water-cooled refrigerators (130, 130a), the first pipe 120 and the plurality of water-cooled refrigerators ( A plurality of second pipes 132 and 132a may be provided to connect 130).

Here, when a plurality of the water-cooled refrigerators 130 and 130a are provided, in addition to the second pipes 132 and 132a, the primary side equipment cooling water systems 131 and 131a, the third pipes 133 and 133a, and the first cooling water pump (134, 134a), the front valve (135, 135a), the rear valve (136, 136a), the water-cooled refrigerator front valve (137, 137a), the water-cooled refrigerator rear valve (138, 138a) may also be provided with a plurality of.

2, the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention, when a plurality of the water-cooled refrigerator (130, 130a) is provided, while connecting a plurality of the second pipe 132, a plurality of A bypass valve 160 capable of controlling the opening and closing of the second pipes 132 and 132a may be further included.

The bypass valve 160 is capable of simultaneously controlling the opening and closing of the plurality of second pipes 132 and 132a when the plurality of water-cooled refrigerators 130 and 130a are provided, and through the bypass valve 160 It is possible to control supply and cut off of essential cold water to the plurality of water-cooled refrigerators 130 and 130a at once.

3, the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention includes the first pipe 120, the second pipe 132, the third pipe 133, and the fourth pipe ( 151), a control unit 170 capable of controlling a valve provided in the fifth pipe 152 may be further included.

The control unit 170, the first pipe 120, the second pipe 132, the third pipe 133 through a signal according to the operation of the nuclear power plant and a signal according to the loss of the final heat removal source of the nuclear power plant. ), a valve provided in the fourth pipe 151 and the fifth pipe 152 can be adjusted. (Valves provided in the first pipe 120, the second pipe 132, the third pipe 133, the fourth pipe 151, and the fifth pipe 152 have been described above. Is omitted.)

Specifically, referring to FIG. 3, a transmission unit 171 capable of transmitting a signal generated during operation of a nuclear power plant and a signal generated when a loss of the final heat removal source of the nuclear power plant is lost may be provided, and the control unit ( 170) receives the signal from the transmission unit 171 and receives the first pipe 120, the second pipe 132, the third pipe 133, the fourth pipe 151, the fifth pipe ( The valve provided at 152 can be adjusted.

Here, the signal generated during the operation of the nuclear power plant and the signal generated during the loss of the final heat removal source of the nuclear power plant may be various signals, and the transmitter 171 is a sensor that detects a phenomenon occurring during the operation of the nuclear power plant. B. It may include a sensor that detects a phenomenon that occurs in the event of loss of the final heat removal source of a nuclear power plant. The transmission unit 171 may detect an operation signal of a nuclear power plant and a signal of loss of a final heat removal source of the nuclear power plant through the sensor, and transmit the detected signal to the control unit 170.

Looking at the operation of the control unit 170 in detail, the control unit 170 closes the valves provided in the fourth pipe 151 and the fifth pipe 152 during operation of the nuclear power plant, and the first The valves provided in the pipe 120, the second pipe 132, and the third pipe 133 are opened, and in case of loss of the final heat removal source of a nuclear power plant, the first pipe 120 and the second pipe (132), the valve provided in the third pipe 133 is closed, and the valve provided in the fourth pipe 151 and the fifth pipe 152 is opened.

(Here, the first pipe 120 has the shutoff valve 121, the second pipe 132 has the front end valve 135, the rear end valve 136, the water-cooled refrigerator front valve 137, the The third pipe 133 has the water-cooled refrigerator rear end valve 138, the shut-off valve 121, the fourth pipe 151 has the isolation valve 154, and the fifth pipe 152 has the isolation valve ( 154) may be provided.)

During operation of the nuclear power plant through the operation of the control unit 170, the supply of essential cold water from the air-cooled refrigerator 150 is cut off, and essential cold water is supplied to the water-cooled refrigerator 130, and the final heat removal source of the nuclear power plant In the event of a loss accident, the supply of essential cold water to the water-cooled refrigerator 130 is blocked, and essential cold water can be supplied to the air-cooled refrigerator 150.

The air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention includes the first pipe 120, the second pipe 132, the third pipe 133, and the fourth pipe through the control unit 170. (151), it has been described that it is controlled through a valve provided in the fifth pipe 152, but is not limited thereto.

The air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention does not use the control unit 170, and the operator directly controls the first pipe 120, the second pipe 132, and the third pipe 133. ), the valves provided in the fourth pipe 151 and the fifth pipe 152 may be adjusted, and if necessary, some valves may be adjusted through the control unit 170 and some valves may be adjusted through the operator. May be.

A method of operating an air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention will be described as follows. During operation of the nuclear power plant, valves provided in the fourth pipe 151 and the fifth pipe 152 are shut off in order to cut off essential cold water supplied to the air-cooled refrigerator 150, and the water-cooled refrigerator 130 Valves provided in the first pipe 120, the second pipe 132, and the third pipe 133 are opened to cool by supplying essential cold water to the furnace. Through this, when the nuclear power plant is operated, the essential cold water can be cooled by the water-cooled chiller 130 to supply the essential cold water to the air conditioner.

Thereafter, in the event of a loss of the final heat removal source of the nuclear power plant, the first pipe 120, the second pipe 132, and the third pipe 133 to block essential cold water supplied to the water-cooled refrigerator 130. The valves provided in the fourth pipe 151 and the fifth pipe 152 are opened in order to shut off the valve provided in the air-cooled refrigerator 150 and supply essential cold water to the air-cooled refrigerator 150 that does not use cooling water. do. Through this, essential cold water is cooled by the air-cooled chiller 150, which does not use cooling water, in the event of the loss of the final heat removal source of a nuclear power plant, which makes it impossible to supply cooling water due to the loss of the cooling water system on the primary side, and supplies essential cold water to the air conditioner. You will be able to.

The above-described cooling system for an air conditioner of a nuclear power plant according to an embodiment of the present invention has the following effects.

The air conditioning equipment cooling system of a nuclear power plant according to an embodiment of the present invention is provided with an air-cooled chiller to the cooling system that performs a cooling function through the primary side equipment coolant system when operating the nuclear power plant. There is an advantage of being able to build an air conditioner cooling system.

Specifically, the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention uses a water-cooled chiller 130 that receives cooling water through the primary side equipment cooling water system 131, while using the existing system configuration of the nuclear power plant as it is. , As an air-cooled chiller 150 that does not use cooling water is added between the essential cold water auxiliary pipe 110 and the cold water discharge unit 140, there is an advantage of minimizing the construction impact by utilizing a narrow space.

In addition, the air conditioning equipment cooling system of a nuclear power plant according to an embodiment of the present invention uses an air-cooled refrigerator 150 capable of discharging heat to the atmosphere through a condenser without using cooling water, so that supply of cooling water is impossible at a nuclear power plant. It has the advantage of cooling and supplying essential cold water even in the event of loss of the final heat removal source.

Specifically, in the related art, as the primary side equipment cooling seawater system is lost in the event of a loss of the final heat removal source at a nuclear power plant, cooling water cannot be supplied from the primary side equipment cooling water system, and thus cold water production becomes impossible, and the cooling function of the air conditioner is performed. There was this impossible problem.

However, the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention cools essential cold water through a water-cooled chiller 130 using a primary side equipment cooling water system to supply cold water to the air conditioner during operation of the nuclear power plant. In the event of a loss of the final heat removal source of a power plant, the cooling function is maintained in the air conditioning equipment even in the event of a loss of the final heat removal source of a nuclear power plant by cooling essential cold water through an air-cooled chiller 150 that does not require cooling water. There is an advantage.

Through this, the air conditioning equipment cooling system of a nuclear power plant according to an embodiment of the present invention has the advantage of preventing a serious accident that occurs because the cooling function of the air conditioner cannot be performed in the event of a loss of a final heat removal source in the nuclear power plant.

In addition, the air conditioner cooling system of a nuclear power plant according to an embodiment of the present invention includes the first pipe 120, the second pipe 132, the third pipe 133, the fourth pipe 151, the As each of the plurality of valves is provided in the fifth pipe 152, there is an advantage of being able to completely block the supply of essential cold water to an unnecessary place. In addition, a plurality of valves are provided in the first pipe 120, the second pipe 132, the third pipe 133, the fourth pipe 151, and the fifth pipe 152, respectively. Accordingly, there is an advantage of being able to individually control the opening and closing of the pipe according to various situations.

In the above, the present invention has been described in detail with reference to a preferred embodiment, but the present invention is not limited to the above embodiment, and various modifications may be provided within the scope not departing from the scope of the present invention. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

110...Essential cold water piping 111...Essential cold water compression tank
112...Essential cold water air separator 120...Pipe 1
121... shut-off valve 130... water cooled chiller
131...Primary side equipment cooling water system 132...Second piping
133...3rd pipe 134...1st cold water pump
135...Front valve 136...Rear valve
137...Front valve of water cooled chiller 138...Rear valve of water cooled chiller
140...Cold water outlet 150...Air-cooled chiller
151...Pipe 4 152...Pipe 5
153...Second cold water pump 154...Isolation valve
160... bypass valve 170... control section
171...transmitter

Claims (12)

In the air conditioning equipment cooling system of a nuclear power plant to perform the air conditioning equipment cooling function in case of loss of the final heat removal source of the nuclear power plant,
An essential cold water accessory pipe capable of supplying essential cold water for cooling the air conditioner;
A first pipe through which essential cold water is supplied from the essential cold water auxiliary pipe;
A water-cooled refrigerator capable of cooling essential cold water by receiving cooling water from the primary side equipment cooling water system;
A second pipe communicating with the first pipe and connecting the first pipe to the water-cooled refrigerator;
A cold water discharge unit capable of discharging the cooled essential cold water;
A third pipe connecting the cold water discharge unit and the water-cooled refrigerator;
An air-cooled refrigerator capable of cooling essential cold water;
A fourth pipe branching from the first pipe and communicating with the first pipe, and connecting the first pipe and the air-cooled refrigerator;
And a fifth pipe connecting the cold water discharge unit and the air-cooled refrigerator,
During operation of the nuclear power plant, the supply of essential cold water from the air-cooled refrigerator is cut off, and the essential cold water is supplied to the water-cooled refrigerator,
A cooling system for an air conditioner of a nuclear power plant, characterized in that in the event of a loss of the final heat removal source of the nuclear power plant, the supply of essential cold water is cut off from the water-cooled refrigerator, and essential cold water is supplied to the air-cooled refrigerator. The method of claim 1,
The air-cooled chiller is a cooling system for an air conditioner of a nuclear power plant, characterized in that the cooling water is not used and the essential cold water is cooled by using air. The method of claim 1,
In the fourth pipe,
A cooling system for an air conditioner of a nuclear power plant, characterized in that a second cold water pump is provided to provide power to supply essential cold water to the air-cooled refrigerator. The method of claim 1,
An air conditioner cooling system of a nuclear power plant, characterized in that at least one of the fourth pipe and the fifth pipe is provided with an isolation valve capable of controlling the opening and closing of the pipe. The method of claim 4,
The isolation valve,
An air conditioner cooling system of a nuclear power plant, characterized in that two or more isolation valves are connected in series. The method of claim 1,
An air conditioner cooling system of a nuclear power plant, characterized in that at least one of the first pipe and the third pipe is provided with a shut-off valve for controlling the opening and closing of the pipe. The method of claim 1,
In the second pipe,
A cooling system for an air conditioner of a nuclear power plant, characterized in that a first cold water pump is provided to provide power to supply essential cold water to the water-cooled refrigerator. The method of claim 7,
It is provided in the second pipe,
A cooling system for an air conditioner of a nuclear power plant, comprising: a front valve and a rear valve capable of controlling opening and closing of the second pipe at the front and rear ends of the first cold water pump. The method of claim 1,
The second pipe is provided with a water-cooled refrigerator front end valve capable of controlling the supply of essential cold water supplied to the water-cooled refrigerator,
The air conditioner cooling system of a nuclear power plant, characterized in that the third pipe is provided with a water-cooled refrigerator rear-stage valve capable of controlling the discharge of essential cold water discharged from the water-cooled refrigerator. The method of claim 1,
A plurality of water-cooled refrigerators are provided, and a plurality of second pipes are provided to connect the first pipe and the plurality of water-cooled refrigerators,
A cooling system for an air conditioner of a nuclear power plant, further comprising a bypass valve connected to the plurality of second pipes and controlling opening and closing of the plurality of second pipes. The method of claim 1,
The first pipe, the second pipe, the third pipe, the fourth pipe, further comprising a control unit for controlling the valve provided in the fifth pipe,
The control unit is configured to provide the first pipe, the second pipe, the third pipe, the fourth pipe, and the fifth pipe through a signal according to the operation of the nuclear power plant and a signal according to the loss of the final heat removal source of the nuclear power plant. A cooling system for an air conditioner of a nuclear power plant, characterized in that adjusting the provided valve. The method of claim 11,
The control unit,
During the operation of the nuclear power plant, valves provided in the fourth pipe and the fifth pipe are closed, and valves provided in the first pipe, the second pipe, and the third pipe are opened,
In the event of loss of the final heat removal source of the nuclear power plant, the valves provided in the first pipe, the second pipe, and the third pipe are closed, and the valves provided in the fourth pipe and the fifth pipe are opened. Cooling system for air conditioning equipment of nuclear power plants.

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