SU1148935A1 - Method of protecting fish at water intakes from water flows - Google Patents

Abstract

A method for protecting fish at water outlets from water courses, including the supply of water by a group of flow formers from the water intake area to a transit flow, characterized in that, to increase the efficiency of fish protection, the flow of a group of flow formers from the water intake area of a fish in a transit flow is carried out by fish (or) water is supplied by another group of flow formers to the water intake area from the transit flow horizons where there is no fish slope. Lt HOCOCCi

Description

The invention relates to hydraulic engineering and can be used in water courses where it is necessary to prevent the young fish from entering the water intakes. There is a method of protecting fish from getting into water intakes, which includes the formation of currents 1 in a watercourse. However, this method has low efficiency, since it does not ensure the removal of fish from water intake. There is also known a method of protecting fish in water intakes from watercourses, which includes the supply of water by a group of flow formers from the water intake area to a transit stream 2. A disadvantage of this method is the low efficiency resulting from the fact that the time distribution of fish in the thickness of the stream is not taken into account. The purpose of the invention is to increase the efficiency of fish protection. This goal is achieved by the fact that according to the method of protecting fish at water intakes from watercourses in the region, water is supplied by a group of flow formers from the feed area of the water intake to a transient flow at the horizons of the fish slope and (or) feeds water by another group of flow formers to the water intake area from horizons of transit flow, where there is no stingray of fish. FIG. 1 shows a scheme for implementing the method when feeding water intake with bottom water masses, top view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a schematic diagram of a method for feeding water intake with surface masses of water, top view; in fig. 4 shows a section BB in FIG. 3. In the diagrams, areas of water intake in natural conditions are indicated by the PD line; when feeding on bottom water masses - line D; when fed by surface masses of water - Liiii P. The method is carried out as follows (while protecting the young fry of herring and carp fishes). In the daytime, when juveniles roll down in the surface horizons of a watercourse, they create hydraulic jets 1 directed from water intake 2, and in the bottom horizons they create jets 3 directed from watercourse 4 to water intake 2 (Fig. 1 and 2). As a result, the bottom water masses 5 enter the water intake 2, and the surface ones along with the young are diverted by the transit flow of the watercourse 4. At night, when it rolls down, and from the young it sinks into the lower horizons, they create jets b directed from water intake 2, and in the upper horizons create jets 7, directed to the water intake 2 (Fig. 3 and 4). At the same time, the surface masses of water 8 enter the water intake, and the bottom masses, together with the young, are diverted to the transit flow zone. If a large amount of rolling fry of sturgeon fish arrives in the water intake, then in the bottom horizons, where they roll, jets are always created from the coast, and in the surface horizons - streams directed into the water intake, i.e. as shown in FIG. 3. Such an implementation of the method makes it possible to increase the effectiveness of protecting the fish.

FIG. 2

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Claims (1)

METHOD FOR PROTECTING FISH AT INLETS FROM WATERFLOWS, comprising supplying water by a group of stream formers from the intake area to the transit stream, characterized in that, in order to increase the efficiency of fish protection, water is supplied by the group of stream forming agents from the intake area to the transit stream at the slopes of the fish and ( or) water is supplied by another group of flow generators to the water supply area from the horizons of the transit stream, where there is no slope Figure 1 4 ^ QO with SO Sp