BG99890A - System for steam generation safety valve control - Google Patents

Abstract

The system finds application in coping with emergency situations in the cooling system of a nuclear power plants steam generator in a WWER reactor. It ensures time for starting active operations by the service staff for safe coping with the emergency situation and prevents the contamination of the secondary steam- and water-supply system by the isolation of the faulty steam generator from the water mains. The system includes a source of air under pressure to which a compressed air tank (4) is connected, and after it control devices (1, 2 & 3) are connected to the distribution air system. To the supply air lines of the control devices to the safety valves from one to four shutting valves and after them from one to four electrically driven valves are assembled.

Description

SUBSTANCE: invention relates to a steam generator safety valve control system which can be used in emergency response. Emerging at nuclear power plants equipped with WWER reactors, in particular for accidents resulting from the loss of a coolant through the contact surface of the reactor cooling system in a steam generator.

BACKGROUND OF THE INVENTION

It is known that the actions of service personnel in nuclear power plants during emergencies are subject to pre-approved procedures.For example, in the event of interruption of reactor cooling through the covering contact surface of the steam generator cooling system, the accident is assumed to be managed in such a manner. way that, after determining the affected steam generator (eg intermittent heat exchanger. leaking from the primary manifold collector pipeline), the operator isolates the faulty steam generator circuit from o laditelnata system of the reactor with the aid of manually closing the main isolation shut-off valves in the main branches of the circulatory system.

A system (FIG. 1) comprising a pressurized air source of 0.6MPa is known to which control devices 1 and 2 are connected, which are set to open a pressure of 5.69 MPa and 5.78 MPa, respectively. From control devices 1 and 2 through the distribution system the supply and drive control air is fed to the differential piston of the cylinder 3 under pressure of the safety valve of the respective steam generator. If the pressure in the impulse pipeline of the device. connected to the protection system rises to the value set. In order to open the pressure, the supply air is fed to the control unit, resulting in a lack of pressure above the differential piston of the compressed air cylinder and the relief valve opens. In the event of a decrease in the pressure of the fluid in the protection system, the pressure of the the supply air is recovered and the relief valve closes.

The distribution system is provided with a ventilation system that connects the control unit to the safety valves, thereby opening the individual safety valves to a forced opening pressure lower than the nominal value.

known control systems do not provide for the possibility of failure and failure when closing the main isolation valve. In the event of such an accident, if there is no possibility of isolating the affected circuit by closing the main isolating valve, comprehensive contamination of the secondary system may be obtained. of the nuclear power plant, as well as the danger of radioactivity being released in the area of the plant.

Nuclear power plants are known to operate with VVER-1OOOO type reactors whose cooling system is not equipped with main isolation valves. In the event of a fault in the cooling system to the steam generator, the latter cannot be immediately isolated from the affected steam generator and this can lead to to contamination of the plant's secondary system. There is also a danger of release of radioactivity, which is the result of the considerable operational difficulty of immediately and reliably lowering the pressure of the reactor cooling system to a level providing the opening of the safety valves of the affected steam generators or steam collecting stations for the purpose of releasing steam into the atmosphere.

In view of the foregoing, it is an object of the present invention to provide a steam generator control valve control system that provides simple and reliable emergency control.

SUMMARY OF THE INVENTION

The essence of the technical object of the invention is a steam generator control valve control system, which allows additional pressure adjustment necessary to open the safety valve to a pressure close to the pressure achieved in the test tests of the respective steam generator reactor, such as the safety valve is operated by pressurized air and operates for the required period of time during the accident.

-The existing air distribution system includes a pressurized air source to which actuators are connected via valves. The latter, through outlet actuators and supply lines, are connected to pulse-switching valves.

It is a feature of the system of the invention that a three-way reservoir and a shut-off valve are connected in series between the pressure source air and the first shaft, as an additional compressed air control device, provided that an additional control device is provided, wherein the control devices are connected to the distributor air system through sequentially closed shut-off valve and electrically operated valve.

The safety valve control system described in this way has a number of advantages that enable it to quickly and safely manage emergencies caused by the interruption of the cooling system to the steam generator.

The main advantage that the proposed technical solution provides is a significant increase in the amount of time in which the service personnel have the opportunity to initiate actions to safely manage an emergency. This advantage is the result of the ability to adjust the safety valves of the damaged steam generator to open at pressure close to the pressure value in the steam rotor test tests.

Another advantage of the invention is that the system allows, once the damaged steam generator has been identified, to be isolated as quickly as possible from the pipeline network, thus preventing extensive contamination of the secondary vapor equipment, reducing the danger of the water supply system. leakage of activated fluid through the steam generator's back valves to the environment.

The system of the invention allows the reactor cooling system to immediately start to reduce the pressure of the reactor cooling system with the standard power supply of the nuclear power plant without the need to pre-cool the reactor cooling system to establish the required boiling limit.

-4Thus, the magnitude of the critical fluid discharge from the main to the secondary side of the damaged steam generator is immediately and substantially reduced.

The proposed technical solution allows to maintain the possibility for the safety signal to function during the cooling of one of the steam generators in the cooling system of one of the steam generators with such a possible next case in which small leakages (in their size corresponding to of an intermittent inspection of a convoluted heat exchange tube) unexpectedly develop into large leaks (in the event of an emergency, accompanied by damage to branches ^ pipelines or unexpected damage The lever of the coverage of the primary conduit of the steam generator).

In addition, in emergency situations, when necessary,

not at the pressure of reactor cooling system is not adjusted lags to isolate themselves safe, intact supply tanks - of the refrigeration reactor system.

The invention creates conditions in the future to facilitate the management of emergencies in the cooling system of steam generators by automatically activating the protective equipment. An example in this regard is the implementation of this technical solution at the Dukovani Nuclear Power Plant, where it will be possible to quantify the amount of leakage in the event of an accident in the steam generator cooling system. In economic terms, the implementation of the safety valve management system is expressed ^ as the value of one main steam line reaches the sum of 220,000 kroner or 1320000 kroner for one reactor block, while also increasing the value of maintenance and inspection activities (once a year) of control devices including checking the integrity of the actuators.

DESCRIPTION OF THE DRAWINGS.

An exemplary embodiment of the steam generator control valve control system of the invention may be presented in more detail by means of the accompanying drawings, where:

-5- Figure 1 is a diagram of an existing control air distribution system for WWER atomic reactors - 440 Figure 2 is a diagram of a control air distribution system for the same type of nuclear reactors according to the invention.

EXAMPLE IMPLEMENTATION OF THE INVENTION

The temporary booster system required to open the emergency valves of a faulty steam generator is presented by comparison and with the existing situation in WWER-440 reactors.

Figure 2 shows a modification of the control air distribution system that allows the relief valves to be readjusted in the event of a failure in the steam generator cooling system to a pressure close to the pressure value determined in the test tests of the respective reactor.

The proposed distribution system includes a 0.6 MPa air source to which an air volume tank 4 is connected, the parameters of which allow air to be supplied for almost 3 hours. After the main air duct 4, they are arranged electrically in series. valve 1 and shut-off valve 1, with control devices 1 2 and 3 connected in parallel to the main air duct, set to a pressure of 5.69 MPa, 5.78 MPa and 7.37 MPa respectively.

To the supply air ducts connecting the control units 1,2 and 3 to the actuators of the safety valves, respectively, a closing valve 3 and an electrically actuated valve 3, a closing valve 2 and an electrically actuated valve 2 and a closing valve 4 with an electrically operated van valve 4 are mounted respectively. The control devices are also connected with switching valves 1,2 and 3, adjusted respectively to 5,69 MPa and 5,78 MPa. The used closing valves 1-4 provide closure in case of failure of the electric drive baths

-6 valves 1-4.All electrically operated valves 1-4 are equipped with manual control of the team-closed position.

The control unit 3 is intended to control the pressure for opening the pressure relief valve. Close to the pressure value. Determined in the test tests and is therefore suitable to be different in color from the other control devices, for example colored red, with colored bands or other marking.

The transition to raised pressure of the relief valve opening can be made very easily by opening the closing valves 4 or by closing the closing valves 2 and 3. As a result, when the pressure in the steam generator reaches 7.37 MPa, the pulse switch valves 1,2 and 3 will open at the same time. It must be borne in mind that the value of the pressure.certainly in the test tests or in the pressure test of the safety valve body does not exceed that in the protected system.

The new configuration of the steam generator safety valve control system preserves all existing safety functions. For example, in the event of a failure of one of the control units 1 or 2, if necessary, the electrically actuated valve 1 and the shut-off valve 1 need to be switched, the pulse switches valves 1,2 and 3 are switched to a direct opening function, ie actuated at a pressure of 5.69 or 5.78 MPa. All possible modes of operation of the switching valve system and their performance are shown in Table 1.

OPERATING MODES OF THE PAROGENERATOR SYSTEM - PULSE VALVES.

NORMAL ACTION OF THE UNIT

Impulse switch valves / IPV / 1,2,3 - CLOSED - steam line pressure

Electrically operated valve \ / E. &&~~ TOTAL, When closed Closing valve / 3V / 1 jump to 'jump'.

-7EZV 2 / SV 2

EWS 3 / EW 3

EWC 4> EW 4

- OPEN, On Closing - IPV opens - OPEN, On Closing - IPV opens - CLOSED, Closing and raising the pressure to 5.69 MPa, IPV 2 IPV 3 open.

NORMAL ACTION OF THE UNIT (pressure reached 5.69 / 5.78 MPa)

IPV 1 - selected

ECV1 / AC1 - OPEN

When a pressure of 5.69MPa is reached.

(5.69 MPa) ECV2 / EC2 - OPEN The IPO opens, if the pressure raise, IPV 2.3-open EEAS / EFA - OPEN hereinafter referred to as IPA 2.3 open at pour- dips 5.78 MPa. (5.78 MPa) ECV4 / ZV4 - CLOSED

ACTION OF THE UNIT IN AN EMERGENCY SITUATION (cooling system to the steam generator)

IPV 1,2,3 EW1 / 3B1 - OPEN When a pressure of 7,37 closed EWS2 / 3B2 is reached in the MSL - CLOSED IPV1,2,3 open

EDS / SDS - CLOSED Control devices 1,2 exceed pressure <7.0 MPa pressure set point for opening.

EHV4 / EH4 - OPEN The leaking air uoi.e 6 control units must be installed.

—8 ~

Note: If the switching valves (IPV) are fully open due to

5.78 MPa, all pressure values. Exceeding 5.69 or pulse valves will be closed when valve 4 is opened and valves 3 are closed. In this way they are transferred to the set pressure value for opening.

7.37 MPa.

Claims (1)

Patent Claim Steam generator safety valve control system comprising a source of pressurized air to which control devices are connected by means of valves, whereby impulse switching valves, characterized by you, not between the pressure source of air, are connected to the control devices. and the first control unit (1) are connected in series to a compressed air tank (4), an electrically operated valve (1) and a shut-off valve (1), with an additional control device (3) being provided, each control unit / 1 /, / 2 /, / 3 / is connected to the distribution air system by successively located respectively shut-off valve / 3 / -electric actuated valve / 3 /, shut-off valve / 2 / -electrically actuated valve / 2 / and shut-off valve / 4 / -electric actuated valve / 4 /.