DE19532928A1 - Safety valve system for a reactor pressure vessel - Google Patents

Abstract

Arrangement for the safety valve system (1) for the pressure vessel (2) of a power plant, esp. a nuclear power plant, has at least one safety valve (3) with a spring-loaded control valves (4,5) to control the opening and closing of a related safety valve (3), dependent on the pressure in the pressure vessel (2); and there are isolation valves (11,12,13) in the connecting pipework between the safety valve (3) and the control valves (4,5), where the novelty is that each safety valve (3) has two control valves (4a,4b) which can be selected separately and which are attached to a changeover valve housing (45).

Description

The invention relates to a safety valve arrangement for Use on pressure maintenance systems of power plants, in particular Nuclear power plants, with the other features of the generic term of claim 1.

State of the art

In power plants, especially nuclear power plants, is used for Regulation of the reactor coolant pressure is usually a so-called Pressure holder system used, the one for receiving the Has coolant trained container and for one Minimum working pressure in the primary circuit of the power plant ensures. This is particularly necessary because coolants in are pumped around in a supercooled state.

At least on the pressure holder system for safety reasons an overpressure protection device is mandatory ben that has a safety valve that for Overpressure reduction from the pressure holder system is suitable. Known safety valves according to the prior art opened and closed by control valves that over Pipelines with the associated safety valves in Connect. Under pipelines in particular a control line, a supply line and one Understanding the pressure tapping line. The control valve gropes when  Control process the pressure conditions in the pressure holder and worried depending on the corresponding conditions in the pressure holder Opening or closing the safety valve. The Pipelines are already included in known systems Shut-off valves are provided so that a functional separation safety valve and control valve can, if this becomes necessary for maintenance work.

So-called tandem valves are also state of the art known, which is referred to as "SEBIM" valve type and in Nuclear power plants are used. With these tandem valves are two pressure-controlled safety valves in a row switched, with the front valve in normal condition is closed so that no primary circulating fluid can pass through the valve. The downstream, rear valve of the tandem arrangement is in the Normal condition in a half-open position.

If a malfunction occurs, then the associated Control valve controlled the front valve so that from the Pressure holder for pressure reduction medium is discharged. At The pressure drops below a certain pressure value closed original state of the front valve again a. If the front valve has dropped system pressure but due to a valve fault in an open one If the position gets stuck, the rear valve closes and prevents the undesired leakage of coolant.

Task

The invention has for its object a Safety valve arrangement with a safety valve or to improve a tandem valve arrangement in that  In case of malfunction in the area of the valve control Downtimes can be prevented.

This task is characterized by the characteristics of the Claim 1 solved in that each safety valve two Alternatively via separate changeover valves switchable control valves are assigned to a Switch valve housing are arranged, the Switch valves included.

Advantageous developments of the invention result from subclaims 2-11.

The core of the invention is doubling the control valves per safety valve and the provision viewed from changeover valves. Then there is the special one Arrangement of the control valves on a changeover valve housing essential to the invention, the latter the switching valves records. With such an arrangement, the entire Control block of a safety valve simplified, Pipelines between the valves and flange connections, that could lead to leaks and the like minimized. The problems with a complex Line construction goes hand in hand, d. H. Welds, separate Pipelines and seals that are constantly checked must be by the invention in the field of Control valve blocks avoided.

The invention set out in claim 1 is both Tandem valves can also be used on single valve arrangements and leads in the event of a control valve malfunction that defective control valve with just a few simple steps  switches and the reserve control valve is switched on can. This ensures that through control valves Avoided downtimes of the power plant will.

But also the attachment of the two alternatively switchable Control valves is common to a changeover valve housing advantageous because separate support elements and Line parts can be avoided. The susceptibility to failure of the The overall device is thereby reduced.

Due to the arrangement of the two control valves Changeover valve housing via a multiple valve housing with the The housing of the safety valve is the entire device structurally simplified even further.

The changeover valve housing should be in one piece with one extended housing of the bleed control valve. By classifying the changeover valve group with the bleed control valve in a common Housing becomes a further reduction prone to failure Items reached.

If two in a manner known per se Safety valves as tandem valve stages in a row are switched, each of these tandem valve stages becomes two assigned independently working control valves. The one that accommodates the two tandem valve stages Tandem valve housing serves as a carrier for the directly or indirectly flanged valve housing, namely the shut-off valve housing, bleed control valve housing, Switch valve housing and control valve housing.  

The two control valves used for a tandem valve stage are advantageously are angular mutually extending, from the safety valve housing groundbreaking outer surfaces of the changeover valve housing in fixed at the same height. You take based on that Longitudinal direction of the changeover valve housing a symmetrical side by side position. In the changeover valve housing is one on the to avoid operating errors Switching valves acting blocking device provided the can ensure that the flanged control valves can only be activated alternatively.

Claim 11 teaches an alternative arrangement of the Bleed control valves on the outside of each Control valve.

The invention is based on exemplary embodiments in the Drawing figures explained in more detail. These show:

Figure 1 is a schematic representation of a known safety valve arrangement in SEBIM tandem valve technology.

Fig. 2 is a schematic representation of a Sicherheitsven tilanordnung with advanced control;

Fig. 3 is a plan view of the control block of the safety valve assembly shown in FIG. 2;

Fig. 4 is a plan view of a safety valve assembly with extended control in scale Dar position;

Figure 5 is a modified safety valve assembly in a schematic representation.

Fig. 6 is a plan view of the safety valve assembly shown in FIG. 5 and

Fig. 7 shows a scaled plan view of the modified safety valve assembly according to Fig. 6.

First, reference is made to the illustration according to FIG. 1 relating to the prior art.

The safety valve arrangement 1 according to the prior art shown there has a safety valve 3 for reducing the overpressure from a pressure holding system 2 , which in the exemplary embodiment consists of two tandem safety valves 3 a and 3 b connected in series. Each tandem safety valve 3 a, 3 b is assigned a spring-loaded control valve 4 , 5 and is connected to them via pipes or bores, namely control lines 6 a, 6 b, supply lines 7 a, 7 b, pressure tapping lines 8 a, 8 b. Furthermore, each safety valve 3 a, 3 b is assigned a three-way bleed control valve 9 a, 9 b operated with external energy, the bleed valve motor absorbing electrical energy only for a few seconds, since a self-locking valve spindle nut combination holds the valve spindles in the end position reached takes over. Each of the three-way bleed control valves 9 a, 9 b acts directly on the control chamber 10 a, 10 b of the associated safety valve 3 a, 3 b.

In the control lines 6 a, 6 b, supply lines 7 a, 7 b and pressure lines 8 a, 8 b there is a two-way shut-off valve, namely a control line shut-off valve 11 a, 11 b, a supply line shut-off valve 12 a, 12 b and a pressure tapping shut-off valve 13 a, 13 b. With the help of these shut-off valves 11 , 12 , 13 , it is possible to replace a control valve that has become defective during operation of the power plant or a defective three-way bleed control valve. The entire system must be brought here in a depressurized state, since the shut-off valves mentioned only make simple shut-offs. However, time-consuming flushing and degassing of the pressure holder 2 need not take place.

Further, in the schematically illustrated in Fig. 1 safety valve assembly 1, each of Sicherheitsventilstu is fen 3 a, 3 b a Meßstellenabsperrventil 14 a, b associated with 14 the further line to a pressure transducer 15 a, 15 b leads.

With 16 a and 16 b two WKP valves are shown, which are used for recurring function tests (WKP) and lead to a connection to which test and analysis systems can be connected.

The following is a drawing. 2 Referenced. For reasons of clarity, only the first safety valve stage 3 a is shown there. The safety valve 3 a is assigned two control valves 4 a, 4 b which can alternatively be switched on via changeover valves 20 , 21 . Depending on the position of the changeover valves 20 , 21 , the control valve 4 a which is in operation can thus be switched off and the control valve 4 b which is in reserve can be switched on and, if appropriate, vice versa.

The spatial structure of the safety valve arrangement 1 results, for example, from FIGS. 3 and 4. There it can be seen that the changeover valves 20 , 21 are arranged together in a changeover valve housing 25 which is connected to the housing 27 of the safety valve 3 via a multiple valve housing 26 . In the multiple valve housing 26 , the valves 11 a, 12 a, 13 a, 14 a and 16 a are arranged approximately in a sector of a circle.

The change-over valve 25 is formed integrally with a housing portion of a Bleedsteuerventils 9, wherein the two switching valves 20 21 form the direction away from the safety valve housing 27 portion of the Bleedventilgehäuses.

The safety valve housing, which accommodates the two safety valves 3 a, 3 b connected in series, serves as a carrier for further valve housings directly or indirectly flanged onto it, namely the multiple valve housing 26 , the bleed control and changeover valve housing 25 and the control valve housing, which are not separately identified in FIG. 4. The control valves 4 a, 4 b are attached at the same height to outer surfaces 30 of the changeover valve housing 25 which are arranged at an angle to one another and point away from the safety valve housing 27 . The changeover valves 20 , 21 are arranged symmetrically next to one another in the changeover valve housing 25 with respect to the longitudinal direction 35 of the changeover valve housing.

In the change-over valve 25 a to the switching valves 20, 21 acting, non-illustrated mechanical, hydraulic, pneumatic or electrical locking device is provided which exclusively an alternative activation of said flanged control valves 4 a, 4 ensures b.

Fig. 5-7 now show a modified embodiment of the safety valve arrangement, the motor-driven bleed control valve 9 a is not built into the control line 6 a, which runs directly from both control valves to the safety valve, but separate magnet-operated bleed control valves 40 are provided on the outside of the Control valves 4 a, 4 b are arranged and only act on them.

In contrast to the structural version according to FIGS. 2-4, the changeover valves 20 , 21 are therefore also not housed in an expanded bleed valve housing, but in a separately designed, wedge-shaped changeover valve housing 45 , one behind the other in its longitudinal direction.

Claims (11)

1. Safety valve arrangement ( 1 ) for use on pressure maintenance systems ( 2 ) of power plants, in particular nuclear power plants

• a) at least one safety valve ( 3 ) connected to the pressure maintaining system ( 2 ) for reducing the overpressure;
• b) a spring-loaded control valve ( 4 , 5 ) connected to the safety valve ( 3 ) via pipes, control line ( 6 ), supply line ( 7 ), pressure tapping line ( 8 ), which opens or closes the pressure holder ( 2 ) depending on different pressure conditions an assigned safety valve ( 3 ), wherein
• c) between safety valve ( 3 ) and control valve ( 4 , 5 ) to block the pipes connecting these shut-off valves ( 11 , 12 , 13 ) are provided, characterized in that
• d) each safety valve ( 3 ) is assigned two control valves ( 4 a, 4 b) which can alternatively be switched on via switch valves ( 20 , 21 ) and are arranged on a switch valve housing ( 25 ).

2. Safety valve arrangement according to claim 1, characterized in that the changeover valve housing ( 25 ) via a multiple valve housing ( 26 ) with the housing ( 27 ) of the safety valve ( 3 ) is connected. 3. Safety valve arrangement according to claim 1 or 2, characterized in that the changeover valve housing ( 25 ) is integrally formed with an expanded housing of a bleed valve ( 9 ). 4. Safety valve arrangement according to one of the preceding claims, characterized in that two safety valves ( 3 a, 3 b) are connected in series as tandem valve stages and each tandem valve stage is assigned two control valves ( 4 a, 4 b, 5 a, 5 b). 5. Safety valve arrangement according to one of the preceding claims, characterized in that the two series-connected safety valves ( 3 a, 3 b) receiving the safety valve housing ( 27 ) as a carrier for directly or indirectly flanged valve housing (multiple valve housing ( 26 ), engine valve housing, changeover valve housing ( 25 ), control valve housing). 6. Safety valve arrangement according to one of the preceding claims, characterized in that the control valves ( 4 a, 4 b, 5 a, 5 b) are arranged on angularly arranged, from the safety valve housing ( 27 ) facing outer surfaces ( 30 ) of the changeover valve housing ( 25 ) . 7. Safety valve arrangement according to the preceding claim 6, characterized in that the control valves ( 4 a, 4 b) on the outer surfaces ( 30 ) are attached at the same height. 8. safety valve assembly according to any one of the preceding claims, characterized in that the switching valves (20, 21) relative to the longitudinal direction (35) of the Umschaltventilgehäuses (25) are arranged symmetrically adjacent to each other in the transfer valve housing (25). 9. Safety valve arrangement according to one of the preceding claims, characterized in that in the changeover valve housing ( 25 ) to ensure an exclusively alternative activation of the flanged control valves ( 4 a, 4 b) a blocking device acting on the changeover valves ( 20 , 21 ) is provided. 10. Safety valve arrangement according to one of the preceding claims, characterized in that the shut-off valves are arranged in an approximately disc-shaped shut-off valve block, on the outside of the safety valve housing ( 27 ) facing the changeover valve housing ( 25 ) is flanged. 11. Device according to one of the preceding claims, characterized in that a separate bleed valve ( 40 ) (three-way solenoid valve) is arranged on the outside of each control valve ( 4 a, 4 b, 5 a, 5 b).