DE2928425A1 - METHOD AND DEVICE FOR CONTROLLING A GAS WORKING UNDER ATMOSPHERIC CONDITIONS - Google Patents

Description

Procedure and

Device for controlling a gas under atmospheric conditions

The invention relates to a method and a device for regulating a gas under atmospheric conditions within a reactor containment. In particular, the invention relates to a method and an apparatus which allow a read in the interior of a containment of a reactor under atmospheric conditions to be controlled during normal operation of the reactor, and which also allow the pressure and the temperature of the gas under atmospheric conditions to be reduced and the purity of the same is ensured if an accident occurs in the reactor.

In order to control a gas under atmospheric conditions in the interior of a reactor containment envelope, there have been hitherto usually two circuits, i.e. one recirculation circuit for the gas under atmospheric conditions in the Interior of the safety envelope during normal operation of the reactor and a spray circuit in the interior of the safety envelope, provided, which works in the event of a failure of the reactor. These two circuits are provided independently of one another.

The feedback circuit for the gas under atmospheric conditions in the interior of the containment during normal operation of the reactor generally has, as shown in Fig. 1 of the drawing, a prefilter 1, a heating coil 2, a cooling coil 3, a high-performance filter 4, a fan 5, a heater 6, an activated carbon filter 7, a bypass valve 8 to bypass the activated carbon filter in normal operation

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of the reactor, etc. This recirculation loop removed floating particles and radioactive substances in the gas under atmospheric conditions in the interior of the Safety envelope 10 of the reactor are present, and he also controls the temperature or other parameters.

The spray circuit of the reactor containment, on the other hand, has as shown in Fig. 2, sprinkler heads x 11 on, those in the upper area of the safety envelope 10 of the reactor are arranged, as well as a cold water basin 13 below an intermediate floor 12 at the bottom of the reactor containment, a cooling device 14, which is coupled to the cold water basin 13 is and a line arrangement with a valve and a pump, the cold water basin 13 with the sprinkler heads 11 connects. If, in the event of a reactor failure, coolant gets into the containment and the internal pressure in As the safety envelope increases, the spray circuit will dispense cold water and quickly reduce the pressure in order to prevent radioactive substances from reaching the outside from the interior of the containment. This Circuit therefore works during normal operation of the Reaktois not.

A major difficulty with the spray circuit for the containment is its constant test runs, the are extremely difficult to perform. Although test runs of the The spray circuit can be carried out under test conditions that largely approximate the actual working conditions and although these tests are carried out initially after the installation of this circuit or periodically The examination options are to be repeated repeatedly in order to ensure the operational readiness of this cycle compared to the actual conditions of use this cycle is severely limited. Even more important is the fact that the instruments inside the security

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sheath to be placed under water when the spray circuit works incorrectly. An automatic signal processing device is also provided for determining this disturbance is used, and there is a locking device which prevents the spray circuit from operating properly should turn off.

A spray circuit must therefore be provided for conventional designs even though it is not needed during basic operation, i.e. when the reactor is operating undisturbed. Also is the spray circuit itself is not free from susceptibility to malfunctions and does not always work reliably, but this is evident in the background on the responsibility and the effect of this spray circuit is necessary.

The invention aims to provide a method and an apparatus for controlling a standing under atmospheric conditions Gas within a reactor containment shell create that overcome the aforementioned difficulties and. acting as a control for that under atmospheric conditions standing gas in the interior of the containment during normal operation of the reactor and can be used for in the event of a failure of the reactor, to reduce the pressure, to cool it and to ensure adequate cleaning.

In particular, according to the invention, the method and the device are to be designed in such a way that they are operationally reliable work and can be used not only during normal operation of the reactor, but also in the event of a malfunction of the Effective control and regulation of the pressure in the reactor.

According to the invention, a method for controlling a gas under atmospheric conditions within a Reactor containment by the fact that the gas under atmospheric conditions to an inlet of a water

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jet pump is directed to the under atmospheric conditions to bring standing gas into contact with the cold water jet in the water jet pump, and the gas standing under atmospheric conditions with the cold water jet output of the water jet pump, with during contact of the gas under atmospheric conditions with the cold water jet is the proportion of steam under atnospheric conditions standing gas condenses, the gas cools down and the floating particles and the radioactive ones Substances in the gas are passed to the cold water jet, with the temperature, the humidity, the pressure and the Purity of the gas under atmospheric conditions the normal operation of the reactor controlled and the reduction in pressure and temperature of the gas under atmospheric conditions and the purity of the same in Accident of the reactor can be controlled.

During normal operation of the reactor, au! this kind and Way the temperature, the humidity, the pressure and the Purity of the gas under atmospheric conditions controlled and at the same time in the event of a failure of the reactor, the pressure and the temperature of the gas are reduced so that it is adequately cleaned.

A device for controlling a gas under atmospheric conditions within a reactor containment for carrying out the method according to the invention is characterized by a water jet pump with a Einr let, in which the gas under atmospheric conditions gets, a cold water basin and a device for capitalization »« » supply of the water jet pump with cold water from the Kaitwassarbecken. The gas under atmospheric conditions can be directed to an inlet of the water jet pump.

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2328425

In one embodiment according to the invention, the water jet pump arranged in the interior of the security envelope, and the cold water basin is at the bottom of the security envelope. The cold water is supplied by the cold water basin Water jet pump promoted. The cold water jet emitted by the water jet pump becomes the cold water basin on the Recirculated bottom of the safety envelope, while the output of the water jet pump together with the cold water jet Gas in turn through a diffuser part as a gas under atmospheric conditions into the interior of the safety envelope is initiated.

In the event of a failure of the reactor, the cold water jet and the gas under atmospheric conditions, which together by The water jet pump is dispensed, pulled from the safety envelope to the outside, and there can then be a gas-liquid separation connect, the cold water being returned to the cold water basin and that under atmospheric conditions stagnant gas can be cleaned and then discharged through a chimney.

A preferred concept of the invention resides in a method for controlling an under atmospheric conditions Gas within a reactor containment, which is characterized by the fact that the standing under atmospheric conditions Gas is passed to an inlet of a water jet pump in order to contact the gas under atmospheric conditions to bring with a cold water jet of the water jet pump, and to bring the gas under atmospheric conditions together with the cold water jet from the water jet pump. Upon contact of the standing under atmospheric conditions Gas with the cold water jet condenses the vapor portion of the gas under atmospheric conditions, and floating particles and radioactive substances in the gas are transferred to the cold water jet. In this way and

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The temperature, humidity, pressure and purity of the gas under atmospheric conditions become wise. controlled during normal operation of the reactor. The pressure and the Temperature of the gas under atmospheric conditions are decreased, and the gas is cleaned at the time if an accident occurs in the reactor.

The invention is explained in more detail below with reference to the accompanying drawing using two examples. It shows ^:!

Fig. 1 is a schematic view of an

known recirculation circuit under atmospheric conditions standing gas in a containment of a reactor; -

Fig. 2 is a schematic view of an

known spray circuit for 'a Sioherheitshülle; . ": ■ '" _

Fig. 3 is a schematic view of an Aus

management form according to the invention;

Fig. 4 is a schematic view of the layout

construction of an exemplary embodiment of a water jet pump, which is intended for the invention; and .

Fig. 5 is a schematic view of a white

direct embodiment according to the invention.

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According to Fig. 3, two water jet pumps 20 are directed downwards at two points of different heights in the interior of a Safety envelope 10 of a reactor is provided. A cold water basin 13 is located below an intermediate floor 12 on the Bottom side of the interior of the safety envelope. A cooling device 14 is assigned to the cold water basin 13, which the The water in the pool is constantly cooling. The cold water basin 13 is connected to the respective water jet pump via a line arrangement 21 20 connected. The water jet pumps 20 are of course mounted in such a way that the pumps issued cold water does not moisten the instrunents in the interior of the safety envelope 10. The water jet pumps are used for this preferably arranged in corners of the interior of the security envelope. If necessary, can be found below of the water jet pumps, devices may be provided which prevent the water from being atomized or dispersed.

The water jet pump 20 provided according to the invention is designed like a conventional pump that performs the task has to discharge the surrounding gas from the pump with the help of the water. The structure of a water jet pump is indicated schematically in FIG. The main parts of this water jet pump are a cold water discharge nozzle 22, a nozzle chamber 23, a neck portion 24 and a diffuser 25. When high pressure cold water is used as the driving fluid from of the discharge nozzle 22 is discharged to the throat portion 24, gas in the 'interior of the nozzle chamber 23 is released with the aid of the Water is sucked in, and the pressure of the water decreases. The gas, i.e. the fluid to be moved, is at an inlet 26, and it is sucked into the nozzle chamber 23 via an inlet during this ejection of cold water and at the same time with the aid of the cold water jet.

The water in the pool that is constantly cooled and in the cold water pool 13 is saved, is switched on when

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Pump 15 is sucked in, and "gas under atmospheric conditions, generally a gas mixture consisting of air and steam, is discharged via the discharge nozzle 22 of the respective water jet pump 20, is present in the interior of the safety envelope around the pump. This is caused by the cold water jet under" Atmospheric conditions gas is sucked in , and floating particles and radioactive substances in the gas are transferred to the cold water and thus separated.

At the same time, the steam condenses under atmospheric conditions '

Stagnant gas cools down when it comes into contact with the cold water. The temperature and pressure of the gas under atmospheric conditions can be regulated, for example, by first determining the temperature and pressure in the interior of the safety cover and then setting the degree of opening of the outlet valve of the water jet pump 20 to regulate the output of the pump 20. In normal operation, the reactor delivers its full power output, and the Warm s radiation amount is large. Accordingly, if the water jet pump is designed such that it can draw off air in an amount sufficient to remove the amount of heat radiation, it can do its job even if the reactor operation is disrupted.

Of course, the design can also be made in this way that the pressure-reducing effect and the cooling effect

_, _ Atmospheric conditions of the under standing gas automatically when

Occurrence of an accident of the reactor are intensified. Since the air control system for emergencies also in undisturbed The operating sequence of the reactor is constantly in operation and also as a safety device in the event of a fault in the reactor * tors, their operational reliability is extremely high. Furthermore, the continuously working air control unit in the event of an accident or a reactor accident, it is automatically switched to accident mode. The pressure regulating effect

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is thus excellent in comparison to a known spray circuit in the interior of the safety envelope, since the known spray circuit begins to work with a time delay of at least 10 minutes.

In Fig. 5 is a further embodiment according to the invention shown. The design is essentially identical to the embodiment according to Pig. 3 spent a chimney after its cleaning. The water jet pump 20 is in the upper area in the interior of the safety envelope 10 of the reactor and faces downwards, and the cold water basin is below an intermediate floor 12 arranged in the interior of the security envelope. A cooling system 14 is assigned to the cold water basin. The water in the Basin 135 is continuously cooled by the cooling system 14, sucked in by the pump 15 and fed to the water jet pump 20. That which is present in the vicinity of the pump 20, under atmospheric conditions ai standing gas is discharged by means of the cold water stream, from the cold water discharge nozzle of the water line above! - pump 20 is dispensed. A line 30, which extends from the diffuser part, extends through the wall of the safety envelope 10. The water jet and the gas under atmospheric conditions are evacuated via line 30 from the containment 10 carried out. A siphon-like return valve 31 is on an intermediate portion of the conduit 30, and the water accumulating in the return 31 becomes the cold water basin 13 returned in the interior of the safety envelope 10 via a return line 32. The radioactive ones Substances and the like. Containing gas is by means of a compressor 33 to a storage container 34 under corresponding Control and regulation passed and then cleaned while passing through an inert gas filling column 35 and finally released to the outside via the chimney 36.

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Although in the embodiments described above Cold water basin provided within the security envelope it can of course also be arranged outside the safety envelope. The water jet pump can also be arranged outside the safety envelope. Here are the safety sheath and the inlet of the water jet pump over a line connected to each other.

As stated above, is made in the invention the design so that the floating particles and the radioactive substances in the unte ^ ^{tmosphärenbedingun} l! E \ ienden gas accumulate in the water characterized in that the writer atmospheric conditions related G ^ _the water jet pump is eingesäugt. At the same time, the vapor content condenses in the gas under atmospheric pressure, and the gas itself cools down when it comes into contact with the cold water. Thus, the invention can not only change the temperature, the pressure, the humidity - -_: -. '. ". - Atmospheric conditions..

and the purity of the 3 under standing gas in

Interior of the containment during normal operation of the reactor regulate, but the measures according to the invention can also be used as serve a safety device that limits a pressure increase in the safety envelope and the radioactive substances during Failure of the reactor, e.g. loss of coolant, removed. Since the device according to the invention also during normal operation the reactor works constantly, is the operational reliability this facility is extremely large even in the event of a failure of the reactor. Furthermore, the invention prevents the time consuming and cumbersome tests of the known spray circuit in the safety enclosure, which is repeated in periodic Work safety must be checked at regular intervals, to ensure that it works properly in the event of a failure of the reactor. According to the invention there is still another advantage achieved in that the difficulties in connection with a malfunction of the spray circuit known per se can not occur with her, the reactor operation itself hinder. .

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Claims (11)

Dr. F. Zumstein Sr. - ür. "t. Assmann - Dr.'ft. Koenigsberger Dipl.-Phys. R. Holzbauer - Dipl.-Ing. F. Klingseisen - Dr, F. Zumstein jun. PATENT LAWYERS APPROVED REPRESENTATIVES AT THE EUROPEAN PATENT OFFICE REPRESENTATIVE BEFORE THE E U R O P E A N P A T E N T OFFICE 6 / Li DORYOKURO KAKUNENRYO KAIHATSU JIGYODAN, Tokyo PATENT CLAIMS Method for controlling a gas under atmospheric conditions inside a reactor containment, d a du r c h g e k e η η ζ e i c h η et that the gas under atmospheric conditions an inlet of a water jet pump is passed to the gas under atmospheric conditions comes into contact with the cold water jet in the water jet pump to bring, and - the gas under atmospheric conditions is output with the jet of water from the water jet pump will, being while touching the sub-atmospheres ^ conditions of standing gas with the cold water jet the proportion of vapor · of that which is under atmospheric conditions Gas condenses, the gas cools and the floating particles and radioactive substances in Q 30 Q 0 9 / Q 6 4 1 ORIGINAL INSPECTED the gas are passed to the cold water jet, the temperature, humidity, pressure and purity of the gas under atmospheric conditions being controlled during normal operation of the reactor and the reduction in pressure and temperature of the gas under atmospheric conditions and the purity of the same in the event of an accident of the reactor can be controlled. 2. The method according to claim 1, characterized in that the temperature and pressure of the atmospheric gas are controlled by first the temperature and the pressure in the interior of the security envelope are determined, and then the output power the water jet pump is regulated. 3. The method according to claim 1, characterized in that this together with the cold water jet from the Yiass jet pump discharged gas back into the containment via a diffuser as an under atmospheric conditions standing gas is introduced. 4. The method according to claim 1, characterized in that the gas released with the cold water jet from the viass jet pump is released from the safety envelope to the outside will. 5. The method according to claim 1, characterized in that the cold water jet is supplied from a cold water basin located on the bottom of the safety envelope is located, and that the cold water jet emitted by the water jet pump, to the cold water basin is returned. . 6. The method according to claim 1, characterized in that 030009/0641 ORIGINAL INSPECTED the cold water jet is supplied from a cold water basin which is arranged outside the safety envelope, and that the cold water jet emitted by the water jet pump is returned to the cold water basin. ⁵ 7. Apparatus for controlling an under atmospheric conditions standing gas within a reactor containment, characterized by a water jet pump (20) having an inlet into which the gas under atmospheric conditions arrives. a cold water basin (13) and • a device (15 »21) to supply the water jet pump (20) with cold water from the cold water basin (13). 8. Apparatus according to claim 7, characterized in that the water jet pump (20) is arranged inside?. around the safety envelope (10). 9. Apparatus according to claim 7, characterized in that the water jet pump (20) is arranged outside the safety envelope (10), and that the interior of the safety envelope (10) is in communication via a line with the inlet of the water jet pump (20). 10. Apparatus according to claim 7, characterized in that the cold water basin is arranged at the bottom of the safety envelope (10) in the interior thereof. 11. The device according to claim 7, characterized in that the cold water basin (13) is arranged outside the safety envelope (10). : ■ _-.-., 030009/0641 ORiGINALINSPECTED