DE2248280C3 - Horizontal feed water tank - Google Patents

Description

The invention relates to a horizontal feed water tank with injection openings for the condensate, Inlet openings for steam and feed water outlet openings at the bottom of the feed water tank, in which there is an intermediate container that is open at the top and at least one end face between the inflow and Injection openings and the feed water outlet openings, the length of which is between the end faces is larger than the area of the feed water tank occupied by the injection and inflow openings.

Such a feed water tank is known from CH-PS 4 66 322. Here is below the Water injection, a steam-heated intermediate tank is provided in the feed water tank, which is used for Degassing of the injected feed water is used and essentially has the advantage that the Water level in the feed water tank itself regardless of the requirements of the feed water degassing can fluctuate. The intermediate container has an overflow so that the excess water from the The intermediate tank can fall on the surface of the feed water tank.

To ensure that the feed water sprayed into a feed water tank is mixed as closely as possible To achieve the steam in the feed water tank is in DT-OS 20 51368 the injection point in one Arranged steam dome, from where the water via deflection devices into the actual feed water tank drips off.

If you switch a feed water tank into the circuit of a boiling water reactor, it can be done do not avoid that the degassed or heated water comes into contact with radioactive substances comes, especially since the incoming steam can contain radioactive substances and in the feed water tank partially condensed. In addition, radioactive substances can come from the rising vapor bubbles the surrounding water are transferred.

The object of the present invention is to provide a feed water tank that is used for switching on is particularly well suited in the circuit of a boiling water reactor. Dicer feed water tank in addition to the degassing of the feed water, it is intended to ensure that as little as possible with corrosion protection provided surface can be provided and that through defined flow paths of the degassed feed water it is ensured that a minimum of radioactivity is present in the feed water tank outflowing feed water is present. This is particularly possible because the flow in the is essentially guided along the bottom of the intermediate container and that the degassed feed water as a result, it does not come into contact again with the gas space above the water level.

This object is achieved according to the invention in a feed water tank of the type specified at the outset solved that the Speisewasserbehäiter is part of a nuclear power plant with boiling water reactor and that at least one end face of the intermediate container is open to the bottom of the intermediate container

An embodiment of the invention is shown in FIG. 1 in longitudinal section and in F i g. 2 shown schematically in a cross section along the section line II-1I in FIG. The feedwater tank 1 has an elongated cylindrical shape ur.d is divided into a chamber 2 for uncleaned secondary condensates and a chamber 3, which is provided for the actual degassing and / or mixed preheating of the condensate. The condensate supply lines 4 are attached to the upper part of the feed water tank 1 and are connected to injection openings 5 for the condensate in the interior of the feed water tank 1. In addition, inlet nozzles 6 are provided for the steam to be introduced, which open into distribution pipes 7, from which individual pipes 8 branch off, at the lower ends of which inflow openings 9 are provided for the steam. The inflow openings 9 are located in the interior of an intermediate container 10, which is open on both end faces 11 and 12 and on the upper side 13 at least in the area above which the injection openings 5 for the condensate are located. The feedwater outlet openings 14 are located on the lower part of the feedwater container 1. The intermediate container 10 protrudes on both sides beyond the area in which the injection openings 5 for the condensate and the inflow openings 9 for the steam are located. The steam flowing in through the inflow openings 9 contains large amounts of oxygen and therefore has a corrosive effect on the inner surface of the intermediate container 10. This surface must therefore be protected against corrosion by coatings or the like. Since the inner surface of the intermediate container 10 is significantly smaller than the inner surface of the feed water container, it is sufficient to provide a smaller area with special corrosion protection in an arrangement according to the present invention.

The arrows 15 indicate the path of the degassed water. They show that this is in the intermediate container 10 collecting degassed and preheated water not directly to the feed water outlet openings can flow, but must take a detour via the end faces of the intermediate container 10. This results in a longer path for the degassed water, which means that the radioactivity is greatly reduced, see above that only slightly radioactive feed water leaves the feed water outlet openings 14.

Another advantage of the feed water tank according to the invention results from rapid increases in load of the turbo set. A larger amount of colder feed water gets into the feed water tank, so that with feed water tanks without intermediate tank 10 suddenly a larger amount of steam flows into the feed water tank to heat the feed water. Through the one in the feed water tank

The intermediate tank is initially only a small one due to the filtered feed water With the feed water removed in the feed water tank, the pressure in the feed water drops more slowly from and the in the food

The amount of steam flowing in increases only slowly. This thus increases the ability of the whole Improved steam generation system for faster load increases.

1 sheet of drawings

Claims (1)

Claim: Horizontal feed water tank with injection openings for the condensate, inlet openings for Steam and feed water outlet openings at the bottom of the feed water tank, in which there is a Intermediate container open at the top and on at least one end face between the inflow and Injection openings and the feedwater outlet openings, the length of which is between the The end faces are larger than the area of the feed water tank occupied by the injection and inflow openings, characterized in that the feed water tank (1) is part of a nuclear power plant with boiling water reactor and that at least one end face (11; 12) of the intermediate container (10) is open to the bottom of the intermediate container (10).