WO2014090144A1 - Reactor cooling agent system of pressurized water reactor nuclear power plant - Google Patents

Abstract

A reactor cooling agent system of a pressurized water reactor nuclear power plant comprises an accident water cooling tank (12). An emergency residual heat discharging cooler (13) is disposed in the accident cooling water tank (12). One end of the emergency residual heat discharging cooler (13) is connected to a condensed water pipeline isolating valve (15). The condensed water pipeline isolating valve (15) is connected to a water supplementing pipeline isolating valve (16). A condensed water pipeline joint (18) is connected between the condensed water pipeline isolating valve (15) and the water supplementing pipeline isolating valve (16). The other end of the emergency residual heat discharging cooler (13) is connected to a steam pipeline joint (17). Two ends of the emergency residual heat discharging cooler (13) are further respectively connected to parallel-connected emergency water supplementing tanks (14). The system can prevent or alleviate consequences of a serious accident occurring in the nuclear power plant.

Description

 Description

 Reactor coolant system for pressurized water reactor nuclear power plant

 TECHNICAL FIELD The present invention relates to an accident response system for a reactor coolant system of a pressurized water reactor nuclear power plant, and specifically relates to a reactor coolant system for a pressurized water reactor nuclear power plant having severe accident response measures. Background technique

 In the past, nuclear power plants lacked prevention and mitigation measures for serious accidents under severe accident conditions. The reactor coolant system has complete and serious accident prevention and mitigation measures, including: high pressure exhaust of reactor pressure vessel, rapid pressure relief in primary circuit, steam The secondary side of the generator is discharged with passive residual heat. In the accident condition, the high pressure exhaust of the reactor pressure vessel is put into operation, and the non-condensable gas accumulated at the top of the reactor pressure vessel is discharged, thereby preventing the influence of these non-condensable gases on the heat transfer of the reactor core, and ensuring that only the only one in the reactor coolant system is The soda interface, to alleviate the consequences of the accident. The rapid relief of the primary circuit performs the rapid pressure relief function under severe accidents, reduces the risk of high pressure melting piles under severe accidents, and avoids the phenomenon of high pressure melt injection that threatens the integrity of the containment. In the event of an accident in which the entire plant is powered off and the power plant loses the residual heat removal capability of the active core, the secondary side passive residual heat removal system of the steam generator operates to derive the residual heat of the core for a long time and maintain the reactor in a safe state. Summary of the invention

 The object of the present invention is to provide a pressurized water reactor nuclear power plant reactor coolant system with severe accident response measures suitable for the most widely used pressurized water reactor nuclear power plant (station) reactor coolant system, which can prevent and mitigate serious accidents. s consequence.

The invention is realized by the invention, a reactor coolant system of a pressurized water reactor nuclear power plant, which comprises an accident cooling water tank, and an emergency waste heat discharge cooler is arranged in the accident cooling water tank, and the emergency waste heat is discharged and cooled. One end of the device is connected to the condensate line, and the condensate line is separated from the hydration line. The condensate line is connected between the condensate line and the hydration line. The emergency heat is discharged from the cooler. One end is connected to the steam pipeline, and the two ends of the emergency waste heat discharge cooler are also respectively connected with the parallel emergency water supply tank.

 Further, the above-mentioned pressurized water reactor nuclear power plant reactor coolant system further includes a reactor pressure vessel, a normal exhaust gas enthalpy, a pressure relief tank interface, and an accidental exhaust gas enthalpy disposed at the top of the reactor pressure vessel, wherein the reactor pressure vessel and the normal exhaust gas闽 connected, the accident exhaust 闽 is connected between the normal exhaust 闽 and the reactor pressure vessel, and the accident venting 闽 is also connected to the pressure relief tank interface. When the reactor is in normal operation, the door of the accident exhaust valve is closed. When an accident occurs, open the accident exhaust door to discharge the non-condensable gas at the top of the reactor pressure vessel.

 Further, the above-mentioned pressurized water reactor nuclear power plant reactor coolant system further includes a voltage regulator, a surge tube, a main pipe cold section connected to the reactor pressure vessel, and a main pipeline hot section, and one end of the surge tube is connected to the main pipeline hot section. One end is connected to the regulator, and the top of the regulator is also equipped with a quick relief. In this solution, the top of the voltage regulator is equipped with a quick pressure relief 闽. Under severe accident conditions, the quick pressure relief 闽 performs the discharge pressure relief function to prevent the high pressure fuse.

 The invention has the advantages that a reactor coolant system for a pressurized water reactor nuclear power plant with severe accident response measures will be theoretically analyzed and experimentally verified, and will be applied to the design of three generations of domestic nuclear power plants. The analysis shows that in the event of a serious accident, the accidental exhaust enthalpy at the top of the reactor pressure vessel can discharge half of the total volume of the reactor coolant system; the capacity of each series of rapid depressurization enthalpy is the sum of the three sets of safe enthalpy capacity. It can prevent the occurrence of high-pressure fusible accidents. In the accident condition where the whole plant is powered off and the power plant loses the residual heat removal capacity of the active core, the residual heat of the core is extended by the secondary side passive residual heat removal system of the steam generator. The reactor is in a safe state.

 DRAWINGS

 1 is a schematic diagram of a reactor coolant system of a pressurized water reactor nuclear power plant provided by the present invention.

In the figure, 1 reactor pressure vessel; 2 regulator; 3 steam generator; 4 main pump; 5 main pipeline Hot section; 6 main pipeline transition section; 7 main pipeline cold section; 8 wave tube; 9 fast pressure relief 10; 10 accident exhaust 闽; 11 normal exhaust 闽; 12 accident cooling water tank; 13 emergency waste heat discharge cooler; Emergency water supply tank; 15 condensate water line isolation 闽; 16 water supply line isolation 闽; 17 steam line interface; 18 condensate line interface; 19 pressure relief box interface; 20 containment.

 detailed description

 The present invention will be described in detail below with reference to the accompanying drawings and embodiments:

 In a severe accident condition, a reactor coolant system of a pressurized water reactor nuclear power plant is exhausted through a reactor pressure vessel, and the non-condensable gas at the top of the reactor is discharged to prevent the heat transfer from being affected by the core; Perform fast pressure relief to prevent high pressure melting; Provide a means to derive primary heat in severe accident conditions through the secondary side passive system of the steam generator.

 A pressurized water reactor nuclear power plant reactor coolant system is provided with a high pressure exhaust gas enthalpy of the reactor pressure vessel at the top of the reactor pressure vessel, and a quick pressure relief 顶部 at the top of the pressure regulator, on the secondary side of the steam generator of each loop There is a secondary side passive residual heat removal system for the steam generator. Each series includes one (or more) water supply tanks, one cooler, and the cooler is arranged at the bottom of the accident cooling water tank.

 A reactor coolant system for a pressurized water reactor nuclear power plant, comprising a reactor pressure vessel 1, the reactor pressure vessel 1 being respectively connected with a main pipeline cold section 7, a main pipeline hot section 5 and a normal exhaust enthalpy 11; a normal exhaust enthalpy 11 and The accident exhaust 闽 10 is connected, and the accident exhaust 闽 10 is connected to the pressure relief tank interface 19; one end of the undulating tube 8 is connected to the main pipe hot section 5, and the other end is connected to the regulator 2, the regulator 2 and the rapid pressure relief闽9 is connected, the main pipe hot section 5 is connected to the steam generator 3, the steam generator 3 is connected to the main pipe transition section 6, the main pipe transition section 6 is connected to the main pump 4, and the main pump 4 is connected to the main pipe cold section 7 The upper portion of the steam generator 3 is also connected to a steam line port 17 and a condensate line port 18, respectively, and both the steam line port 17 and the condensate line port 18 pass through the containment 20.

The accident cooling water tank 12 includes an emergency waste heat discharge cooler 13 and an emergency waste heat discharge cooler 13 One end is connected to the condensate line isolation 闽15, the condensate line isolation 闽15 is connected to the hydration line isolation 闽16, and the condensate line interface 18 is connected between the condensate line isolation 闽15 and the hydration line isolation 闽16, emergency waste heat The other end of the discharge cooler 13 is connected to the steam line port 17, and the two ends of the emergency waste heat discharge cooler 13 are also connected to the parallel emergency water supply tank 14, respectively.

 The key equipment for the reactor coolant system to implement serious accident prevention and mitigation measures are:

 1) Accident cooling water tank

 The accident cooling water tank provides a heat sink for the discharge of the secondary side of the steam generator. Accident cooling The water tank has an annular structure and is arranged on the outer side of the containment close to the top of the containment cylinder. The civil structure is designed in unison with the containment. It is also designed with a water supply interface and a drain connection for water filling and draining during maintenance before starting.

 2) Emergency residual heat discharge cooler

 The emergency waste heat discharge cooler consists of upper and lower tube sheets which pass through and are fixed to the tank wall of the accident cooling water tank. The upper and lower tube sheets are respectively connected to the upper and lower heads. The upper head is connected to the main steam line through a line, and the lower head is connected to the condensate line through a line.

 3) Emergency water supply tank

 The emergency fill tank is a cylindrical container with an oval head. During the operation of the system, when the water level on the secondary side of the steam generator is reduced to a certain water level, the isolation raft on the injection line is opened, the water in the emergency water supply tank is injected into the secondary side of the steam generator, and the steam generator is compensated twice during the operation of the system. The reduction of the side water level.

 4) Quick pressure relief

During the normal operation of the unit and the design basis accident, the quick decompression 闽 is in the closed state, and the overpressure protection of the reactor coolant system is realized by the safety of the regulator. Quick unloading under severe accident conditions The pressure relief function is performed to prevent high pressure melting.

 5) Accident exhaust 闽

 When the reactor is in normal operation, the door is closed and is the isolation barrier at the boundary of the circuit. In the event of an accident, the door is opened and the non-condensable gas at the top of the reactor pressure vessel is discharged.

 The specific workflow of the present invention is as follows:

 When an accidental exhaust signal is issued, two series of accident exhaust vents are opened, and the non-condensable gas accumulated on the top of the reactor pressure vessel is discharged from the reactor pressure vessel to alleviate the consequences of the accident.

 Under severe accident conditions, the quick pressure relief 闽 performs the discharge pressure relief function, and the operator manually opens the door according to the relevant serious accident handling procedures in the main control room or the remote shutdown station to complete the rapid pressure relief of the reactor coolant system. In order to avoid the occurrence of high pressure fuses and direct heating of the containment.

 When the start signal of the secondary side passive system of the steam generator is issued, the isolation 闽 of the condensate pipe is opened to connect the secondary side passive residual heat removal system of the steam generator. After the system is put into operation, the water condensed on the side of the cooler tube is injected into the secondary side of the steam generator, heated by the primary side reactor coolant to become steam, and enters the tube side of the cooler through the system steam line to transfer heat to the accident cooling water tank. After the water is condensed again into water, it returns to the secondary side of the steam generator to form a natural circulation. The system transfers the heat from the reactor coolant to the cooler through the steam generator and then to the water in the cooling water tank, which in turn passes the heat out of the water in the cooling water tank to maintain the safety of the reactor.

 After the system is put into operation, if the water level on the secondary side of the steam generator is reduced to a certain height, the isolation 闽 of the emergency water supply line, the water in the water supply tank is injected into the secondary side of the steam generator, and the secondary side water level of the steam generator during the operation of the compensation system The reduction. At the end of the water injection, the operator should manually close the isolation raft of the makeup line.

Claims

Rights request

1. A reactor coolant system for a pressurized water reactor nuclear power plant, characterized by: It includes an accident cooling water tank (12), and an emergency waste heat discharge cooler (13) is provided in the accident cooling water tank (12). The emergency waste heat discharge cooler One end of (13) is connected to the isolation terminal (15) of the condensate water pipeline. The isolation terminal (15) of the condensate water pipeline is connected to the isolation terminal (16) of the water supply line. The isolation terminal (15) of the condensate water pipeline is connected to the isolation terminal (16) of the water supply line. ) is connected to a condensate pipeline interface (18), the other end of the emergency waste heat discharge cooler (13) is connected to the steam pipeline interface (17), and both ends of the emergency waste heat discharge cooler (13) are also connected to the parallel emergency Connect the water supply tank (14).

2. A pressurized water reactor nuclear power plant reactor coolant system according to claim 1, characterized in that: it also includes a reactor pressure vessel (1), a normal exhaust port (11), a pressure relief tank interface (19) and An accident exhaust port (10) is provided at the top of the reactor pressure vessel (1), where the reactor pressure vessel (1) is connected to the normal exhaust port (11), and the accident exhaust port (10) is connected to the normal exhaust port (11). ) and the reactor pressure vessel (1), the accident exhaust port (10) is also connected to the pressure relief box interface (19).

3. A pressurized water reactor nuclear power plant reactor coolant system according to claim 2, characterized in that: it also includes a pressure regulator (2), a surge tube (8), and a pressure regulator connected to the reactor pressure vessel (1). The main pipeline cold section (7) and the main pipeline hot section (5), one end of the wave tube (8) is connected to the main pipeline hot section (5), and one end is connected to the voltage stabilizer (2), and the voltage stabilizer (8) 2) The top is also provided with a quick pressure relief valve (9).