KR102569991B1 - A horizontal-type water collecting device of steam generator for a nuclear power plant - Google Patents

Abstract

The present invention is a water collecting device connected to a main steam pipe in a horizontal direction of a nuclear power plant, a chamber located below the main steam pipe and having an upper part in communication with the main steam pipe, a drain pipe connected to the side of the chamber, and connected to the drain pipe. It includes a sensing unit for sensing water inside the drain pipe and a drain valve connected to the rear end of the sensing unit. According to the present invention, when the heat transfer pipe inside the steam generator is damaged, the coolant containing the radioactive material is collected in a separate space, thereby reducing the risk of radioactive leakage.

Description

A horizontal-type water collecting device of steam generator for a nuclear power plant}

The present invention relates to a water collecting device for a steam generator, and more particularly, to a water collecting device that separately collects radiation-contaminated coolant from being transferred to other devices in a nuclear power plant when a heat transfer pipe inside the steam generator is damaged.

A steam generator of a nuclear power plant has a U-shaped heat pipe installed inside. A high-temperature coolant that absorbs nuclear energy flows inside the heat transfer tube, and the high-temperature coolant and water outside the heat transfer tube exchange heat with each other. Water outside the heat pipe receives heat from the high-temperature coolant and vaporizes into steam, and the steam is transported through the main steam pipe connected to the steam generator to operate the turbine and produce electricity at the power plant.

When the heat pipe inside the steam generator is damaged, the high-temperature coolant flowing inside the heat pipe may flow into the steam generator. In this case, the high-temperature coolant may be transferred to other devices through the main steam pipe connected to the steam generator, and the radioactive material contained in the coolant may propagate, causing a radioactive leakage problem. Therefore, there is a need for a technique for preventing the transfer of the coolant in case of damage to the heat transfer pipe.

Registered Patent No. 10-0626464 (2006.09.13.)

Accordingly, an object of the present invention is to provide a water collecting device that separately collects leaked coolant when a heat transfer pipe inside a steam generator is damaged.

The present invention is a horizontal water collecting device of a steam generator of a nuclear power plant, which is connected to a main steam pipe in a horizontal direction of a nuclear power plant, is located below the main steam pipe, and has a chamber whose upper part communicates with the main steam pipe, and a side surface of the chamber. In one aspect, it includes a drain pipe connected to the drain pipe, a sensing unit connected to the drain pipe to sense the coolant inside the drain pipe, and a drain valve connected to a rear end of the sensing unit.

Preferably, the upper part of the chamber communicates with the main steam pipe, has an inlet through which coolant flows and an outlet through which steam passes, and the outlet is provided with a steam valve to be opened and closed.

Further, preferably, a heat exchange unit for lowering the temperature of the coolant discharged from the inside of the chamber and a decontamination unit for decontamination of radioactive material from the coolant passing through the heat exchange unit are further provided.

Also, preferably, the heat exchange unit is connected to the rear end of the drain valve.

Also, preferably, when the sensor detects the coolant, the steam valve and the drain valve are opened.

According to the present invention, there is an effect of significantly lowering the possibility of exposure to radiation and increasing the safety of a nuclear power plant by preventing coolant from being transferred to other devices when the heat pipe is damaged.

1 schematically illustrates a horizontal water collector for a steam generator of a nuclear power plant according to an embodiment of the present invention.
2 shows a nuclear power plant steam generator horizontal water collecting device according to an embodiment of the present invention in more detail.

Specific structural or functional descriptions presented in one embodiment of the present invention are merely exemplified for the purpose of explaining embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms. . In addition, it should not be construed as being limited to the embodiments described in this specification, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In describing the present invention, if it is determined that a description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the description thereof will be omitted.

1 and 2 show a nuclear power plant steam generator horizontal water collecting device (hereinafter referred to as a 'water collecting device') 100 according to an embodiment of the present invention. Referring to FIGS. 1 and 2 , the water collecting device 100 includes a chamber 110, a detection unit 120, a heat exchange unit 130, and a decontamination unit 140.

The chamber 110 is connected to the main steam pipe 14 running in the horizontal direction and has an internal space capable of collecting the coolant 20. The chamber 110 is located below the main steam pipe 14, and the upper part of the chamber 110 communicates with the main steam pipe 14 to collect the coolant 20 from the main steam pipe 14.

In addition, the chamber 110 communicates with the main steam pipe 14 at another point at the top, and this passage is an outlet through which steam introduced into the chamber 110 can be joined to the main steam pipe 14 again. This passage is provided with a steam valve 112 to control the flow of steam.

The inlet of the chamber 110 is always open, but the outlet is normally closed by the steam valve 112, and the outlet of the chamber 110 is relatively narrower than the inlet. Therefore, steam does not flow from the main steam pipe 14 toward the water collector 100 at normal times.

However, when the coolant 20 leaks due to damage to the heat transfer pipe 12, the coolant 20 mixed with steam may be collected in the chamber 110 by gravity while passing through the main steam pipe 14.

Meanwhile, the side of the chamber 110 is connected to the drain pipe, and the coolant 20 introduced into the chamber 110 is transported to the sensing unit 120 along the drain pipe.

The sensing unit 120 is a component that senses the coolant 20, and a heating junction thermocouple is installed in the sensing unit 120 to detect the inflow of the coolant 20. In addition, the sensing unit 120 is connected to the drain valve 122 at the rear end, and the drain valve 122 is normally closed and opens when the sensing unit 120 detects the inflow of the coolant 20 . In addition, when the sensing unit 120 senses the inflow of the coolant 20, the steam valve 112 is also opened along with the drain valve 122, so that the coolant 20 can be collected smoothly.

The heat exchange unit 130 is connected to the rear end of the drain valve 122, and when the drain valve 122 is opened, the coolant 20 flows into the heat exchange unit 130. The heat exchange unit 130 may lower the temperature of the coolant 20 by taking heat from the coolant 20 introduced into the heat exchange unit 130 by including a heat exchanger through which low-temperature water flows. It is sufficient if the temperature of the coolant 20 that has reached the heat exchanger 130 is lowered enough to perform decontamination.

A decontamination unit 140 is connected to the rear end of the heat exchange unit 130 . The decontamination unit 140 may have a space filled with a silica material to decontaminate the radioactive material of the coolant 20 introduced into the decontamination unit 140 . The coolant 20 whose temperature is lowered in the heat exchange unit 130 reaches the decontamination unit 140, whereby a decontamination process is performed. The rear end of the decontamination unit 140 is connected to the water collection tank 150, and the water collection tank 150 may store the coolant 20 that has undergone the decontamination process.

Meanwhile, a pipe connecting the decontamination unit 140 and the water collection tank 150 may include a water collection valve 142 to adjust the residence time of the coolant 20 in the decontamination unit 140 . The water collecting valve 142 is normally closed, but is opened after the coolant 20 is sufficiently decontaminated in the decontamination unit 140 to allow the coolant to flow into the water collecting tank 150 . In the water collecting device 100 , opening and closing operations of the steam valve 112 , the drain valve 122 , and the water collecting valve 142 may be automatically controlled according to appropriate conditions.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention will be apparent to those skilled in the art.

10: steam generator
12: heat pipe
14: main steam piping
20: coolant
100: Nuclear power plant steam generator horizontal water collecting device according to an embodiment of the present invention
110: chamber
112: steam valve
120: sensing unit
122: drain valve
130: heat exchange unit
140: decontamination unit
142: water collection valve
150: catchment tank

Claims (6)

As a water collecting device connected to the horizontal main steam pipe of a nuclear power plant,
a chamber located below the main steam pipe and having an upper part communicated with the main steam pipe;
a drain pipe connected to the chamber;
a sensor connected to the drain pipe to sense the coolant inside the drain pipe; and
Including; drain valve connected to the rear end of the sensing unit,
the chamber,
An upper portion communicating with the main steam pipe, having an inlet through which coolant flows and an outlet through which steam passes, wherein the outlet has a steam valve and is openable and closed. delete The method of claim 1,
The steam generator horizontal water collector of a nuclear power plant further comprising a heat exchange unit for lowering the temperature of the coolant introduced through the drain valve and a decontamination unit for decontamination of radioactive material from the coolant passing through the heat exchange unit. The method of claim 3,
The decontamination unit,
Nuclear power plant steam generator horizontal water collecting device equipped with silica material capable of decontamination of radioactivity. The method of claim 4,
When the sensing unit detects the coolant, the steam valve and the drain valve are opened. The method of claim 5,
Further comprising a water collection valve connected to the rear end of the decontamination unit,
The water collection valve,
A nuclear power plant steam generator horizontal water collecting device that is opened after decontamination of the coolant in the decontamination unit.