DE2405295A1 - Marine growth prevention in power station cooling water intake - by gamma radiation source inside duct - Google Patents

Abstract

A pipeline duct or tunnel through which sea water or riber water flows, in particular the cooling water intake duct for a power station, is fitted internally with >=1 radioactive source, esp. for producing hard gamma radiation. The source(s) are pref. housed in a waterlight container, in particular a tubular container mounted parallel to the longitudinal axis of the intake duct. The radiation destroys mussels and other marine growth on the walls of the intake duct, in particular on the downstream side of the screens. Radioactive waste may be used as the source matl.

Description

Line traversed by sea or river water The invention relates to a line through which tar or river water flows, in particular a supply line for a heat exchanger arranged in the coolant circuit of a power plant.

For the economical operation of a turbine power plant it is usually required, the largely relaxed ones leaving the turbines Steam further cool down until it condenses. Only the condensate is then again fed to the pipe system of the boiler or nuclear reactor and heated there again. The mentioned cooling of the steam often takes place in heat exchangers, in which sea or fluent water is used as a heat-absorbing medium.

To the inorganic and organic present in sea or river water 3 constituents before the water is fed to such a door exchanger remove, it is known that the supply line z. B. rotating, unilateral from To store cooling water through-flowing sieves, which are constantly on the opposite side Side can be cleaned by a countercurrent flow. Nevertheless, it has been shown that this Measures are not sufficient, in particular to keep the supply line free at all times. On the inner walls of this pipe there are always Iluscheln and similar animals because their eggs can penetrate the sieves mentioned. These rapidly growing Shell approaches together with their calcareous deposits narrow the cross-section the lines relatively quickly, so that an adequate supply of the heat exchanger with sea or river water is no longer possible after a relatively short time. Even an increase in the flow rate or the periodic admission of chlorine in the supply line has nothing essential to it can change. nan an is therefore always forced to manually clean the lines, for which it is necessary to shut down the power plant for a few days. The damage that occurs with every cleaning does not only include that in the Cleaning costs incurred during the cleaning period, but also many times over excessive costs for the electrical energy not produced.

The present invention is based on the object of providing a or river water pipe, especially a supply pipe for one to create a heat exchanger arranged in the coolant circuit of a power plant, in which the listed disadvantages no longer occur.

Invention according to this object is achieved in that within one or more sources for radioactive rays are arranged in the line. the Radiation emanating from the radioactive sources has the same effect as the one described disadvantageous cross-sectional constrictions in the area of the sources and in them lines connected in the current direction no longer occur. The invention is therefore applicable wherever there is a need for lines of organic substances to keep clear.

It is expedient to use hard g-rays as the source material Material used because hard aS rays are particularly penetrating and effective. The dose rate to be selected depends on the cross-section of the line.

It must be at least so great that the desired effect in the all of the space formed by the line in the area of the source enters.

The source material is advantageously in at least one opposite the surrounding water-tight container housed, so that contamination of the Water should be avoided.

In the context of the invention, it is also expedient to provide means which cause the water flowing through the pipe for a sufficiently long time Time is irradiated. For this purpose, for example, the source containers can be made rod-shaped and be arranged parallel to the axis of the line.

Furthermore, the water can be used like a labyrinth in the area of the springs be led. Ultimately, the goal of achieving a sufficiently long exposure time can be can also be achieved by extending the line in the area of the source having. This increases the residence time of the water in this area.

To avoid radioactive damage outside the line is it is advisable to connect the pipe in the area of the source with a pipe made of concrete, for example Shield to surround.

Finally, a particularly advantageous measure is that radioactive waste is used as a source material. The invention thus supports helps to alleviate the disposal problem with regard to radioactive waste.

Further advantages and details of the invention will be based on FIG Exemplary embodiments shown in FIGS. 1 and 2 are explained.

In FIG. 1, a primary circuit designated 1 is very schematically of a nuclear power plant, in which a coolant from the reactor 2 to the heat exchanger 3 and back again. The medium flowing in the secondary circuit 4 (in usually steam or water) is heated in the heat exchanger 3 and drives the turbine 5 at. The turbine 5 Leaving, relaxed steam is in the @ exchanger 6 condensed, in which fluoro or treer water is used as the heat-absorbing medium will. The heat exchanger 6 is supplied with sea or river water via lines 7 and 8.

The feed line 7 is to remove impurities a rotating screen 9 upstream. In addition, in the feed line 7 is the radioactive source 10 arranged.

In the area of the source 10, the line 7 has the extension 11, so that the water is irradiated for a sufficiently long time.

In FIG. 2, part of the supply line 7 is connected to the source 10 shown again enlarged. The source 10 consists of the rod-shaped waterproof Container 12 in which the source material is housed. The container 12 is coaxial arranged in line 7. In addition, the shield 13 is shown in Figure 2, the one here, for example, as one surrounding the line 7 in the region of the source 10 Concrete shielding is formed.

Claims (9)

P a t e n t a n s p r ü c h e 1.) Line through which sea or river water flows, in particular Supply line for one arranged in the coolant circuit of a power plant Heat exchanger, characterized in that within the line (7) one or more sources (10) for radioactive rays are arranged. 2.) Line according to claim 1, characterized in that g e k e n n z e i c hn e t that a hard @ -rays emitting material is used as the source material. 3.) management; according to claim 1 or 2, characterized g e k e n nz e i c h n e t that. the source material in at least one of the surrounding areas tight E3ehdlter (12) is subordinated. 4.) Line according to one of claims 1 to 3, characterized in that g e -k e n n indicates that means are provided which cause the conduction (7) flowing water is irradiated for a sufficiently long time. 5.) Line according to claim 4, characterized in that g e k e n n z e i c hn e t that the source container (s) (12) is rod-shaped and parallel to the longitudinal axis the line (7) are arranged. 6.) Line according to claim 4, characterized in that g e k e n n -z e i c h n e t, that the water flowing through the line (7) is in the area of the source filter (12) is guided like a labyrinth. 7.) Line according to claim 4, characterized in that g e k e n n z e i c hn e t, d & the line (7) in the area of the radioactive source or sources (10) an extension having. 8.) Line according to one of the preceding claims, characterized g e k It is noted that they are protected by a shield, in particular made of concrete (13) is surrounded. 9.) Line according to one of the preceding claims, characterized g e k It is noted that radioactive waste is used as a source material.