DE2142950B2 - Containment system for sodium-cooled nuclear reactors - Google Patents

Description

The present invention relates to a containment system for sodium-cooled nuclear reactors for Delimitation of the consequences of a pressure and temperature increase due to the evaporating in the reactor cell Sodium and to avoid the radioactive hazard to the environment in the event of damage, in three times Concrete construction, consisting of an inner containment, an outer containment and a this encompassing reactor building, all three shells being essentially rectangular and flat Walls and ceilings are made and in the inner containment a pressure relief space with a Heat sink made of a material that does not react chemically with sodium is present, its function in the Damage is independent of heat-dissipating pipes, according to patent 20 52 335.

This containment system is further improved according to the present invention in that the pressure relief space containing the heat sink is arranged higher than that of the reactor containing space. It has been found that with this arrangement, in the event of damage in the reactor space occurring heat is dissipated faster to the heat sink. In the system that, for example, from Reactor space and pressure relief space consists, forms a natural convection, which is favored by raising the pressure relief space will. With the usual dimensions of the currently planned sodium-cooled power reactors, it has proved to be useful if the upper edge of the heat sink is a few meters higher than that highest point of the heat source, i.e. the upper edge of the

ίο reactor lid space.

In claim 6 of the main application it was proposed that the heat sink in the inner containment consists of several slats attached to a wall. An advantageous embodiment according to FIG The present invention is for the case that the heat sink consists of several parallel perpendicular Disks, characterized in that these disks carry claws on the corresponding Projections rest in the pressure relief space. These discs can be used outside the construction site, for example made of reinforced concrete and towards the end of the construction period in the pressure relief space with the desired Distance from each other. The remains for later repairs or inspections

! "> Space under these panes accessible, because these panes can be moved on the specified projections in the pressure relief space.

In claim 7 of the main application it was proposed that the outer containment outside with a

)!) The sheet steel skin is sealed gas-tight. An advantageous one Further development according to the present invention is characterized in that this sheet steel skin is arranged on all sides with the exception of the bottom at a small distance from the outer containment.

ι ·> This sheet steel skin is made with flexible spacers attached to the outer containment. With this arrangement, tensions are due to different Elongation of concrete and sheet steel skin avoided. This arrangement still allows the Check the gas-tightness of the sheet steel skin and, in the event of damage, the space between the To put concrete containment and the sheet steel skin under a slight negative pressure, so that no gases whatsoever can penetrate outside. This arrangement offers compared to that proposed in the main application Arrangement significant benefits and savings. According to the proposals of the main application, the Much larger space between the outer containment and that for reasons of weather protection

w required reactor building under a low Negative pressure can be set. The possible leaks are naturally in such a reactor building much larger and more numerous, so that the vacuum system and the associated filter system

¹ ^ must be made larger. The arrangement according to the present invention makes it possible, however, to convey the small amounts of gas penetrating through the sheet steel skin inwards into the outer containment, so that at least for a certain time none

w) gases have to be released to the outside.

Furthermore, it has been found to be expedient to also provide the inner containment with a gas-tight interior Lining sheet steel skin. This sheet steel skin is damaged due to thermal stress

M will probably leak, but it has in normal operation the advantage that the losses of the inert gas contained in the inner containment, e.g. B. nitrogen, stay low.

The figure shows a possible embodiment in a vertical section through the containment system of the invention, the differences compared to FIG. 1 of the main application being clear graze. In the figure, part 1 is the steel reactor tank and part 2 is the concrete biological shield. Part 3 is a concrete wall of the inner containment, while part 4 a concrete wall of the outer containment represents. Part 6 is a concrete wall of the reactor building. Part 7 is the reactor lid space, which is connected to the inner containment (3) is connected and against the space of the outer containment (4) through the hood (8) Part 9 is the so-called pressure relief chamber, which is connected to the reactor cell (12) through the upper Channels (31) and lower channels (32) is connected. Part 14 is one of three primary cells in which the Sodium pumps and intermediate heat exchangers are housed. There are several in the pressure relief space (9) Discs (33) acting as a heat sink are suspended, each on two correspondingly shaped projections (34) rest. Part 35 is a rr.um below the

'-> Primary cells (14) and below the pressure relief space (9), which does not belong to the inner containment. Part 36 is a sheet steel skin with which the inner containment (3) is lined. Part 37 is a sheet steel skin surrounding the outer containment, which is inserted in

ι «a small distance from the outer containment (4) is arranged. Part 38 is a schematically indicated fan, which has a space (39) between the Sheet steel skin (37) and the outer containment (4) are placed under a slight negative pressure and there penetrating gases into the outer containment (4).

1 sheet of drawings

Claims (4)

Patent claims: 1. Containment system for sodium-cooled nuclear reactors to demarcate the consequences of a Pressure and temperature rise due to the sodium evaporating in the reactor cell and to the Avoidance of the radioactive hazard to the environment in the event of damage, in three-fold concrete construction, consisting of an inner containment, an outer containment and one of these comprehensive reactor building, with all three shells essentially made of rectangular and flat walls and ceilings are made and a pressure relief space in the inner containment a heat sink made of a material that does not chemically react with sodium is present, whose Function in the event of damage of heat dissipating pipes is independent, according to claim 1 of the Patent 2052335, characterized in that that the pressure relief space (9) containing the heat sink is arranged higher than the space (12) containing the reactor. 2. containment system according to claim 1, wherein the heat sink in the pressure relief space consists of several parallel vertical panes attached to a wall, characterized in that that these discs wear claws on corresponding projections (34) in the pressure relief area (9) rest. 3. Security containment system according to claim 1, wherein the outer containment outside with a gas-tight sheet steel skin, characterized in that this sheet steel skin (37) on all sides with the exception of the bottom at a short distance from the outer containment (4) is arranged. 4. Safety container system according to claim 3, characterized in that the intermediate space (39) between the sheet steel skin (37) and the outer containment (4) with respect to the environment has a slight negative pressure.