RU2012712C1 - Power plant sluice - Google Patents

Abstract

FIELD: hydraulic construction. SUBSTANCE: as a hydroelectric pumped storage power plant 5 operates in turbine mode, water from basin 11 of an upstream reservoir enters a downstream reservoir and then in water passage. Basin 11 is refilled with water through sluice window 13 from middle-deep water layer of basin 10 having water temperature approximately equal to those of reservoir 8. Radioactive elements which enters basin 10, settle as sediment 27 and are accumulated ahead of ground dam 16. Fish grid 14 prevents the radioactive contamination of water passage through fish. EFFECT: increased efficiency of operation. 3 cl, 4 dwg

Description

 The invention relates to hydraulic engineering, and in particular to devices for the technical bonding of nuclear (NPP) and pumped storage (PSP) power plants in such a way that the atomic cooling pond is a pumped storage tank.

 The purpose of the invention is to save money and increase work efficiency by preventing thermal and radioactive contamination of a reservoir of a power storage plant.

 In FIG. 1 shows a power complex, a top view; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 is a section along BB in FIG. 2; in FIG. 4 - node I in FIG. 2.

 The intake structure 1 and the outlet 2 of the nuclear power plant 3 and the intake and outlet structure 4 of the pumped storage (PSP) power plant 5 are located on the upstream non-flowing water body 6, and the power station 5 is located on the downstream water body 7 formed on the waterway 8. Between the intake and exhaust structures 1 and 2 (NPP) and intake-exhaust structure 4 (PSPP) have a gateway 9, dividing the reservoir 6 into two water areas, one of which water area 10 is the actual cooler (NPP), and the other water area 11 is adjacent to the intake-exhaust 4 construction (PSP), forming its forebays. The gateway 9 is made in the form of a building 12 with a culvert window 13 in the middle height part of the building 12, covered by a fish fence in the form of a net 14. Moreover, above the window 13, the building 12 is made in the form of a panel 15 of flexible material, and below the window 13 - in the form of an underwater soil embankment 16. The blade 15 is held in position by inflatable cylindrical floats 17 made of flexible material, a load in the form of a tubular beam 18 and an anchor device in the form of two continuous or discontinuous rows of concrete blocks 19, laid on the bottom 20 of the reservoir 6 and connected by flexible connections 21 to the tubular beam 18. The blade 15 is made closed around the cylindrical floats 17 and the tubular beam 18, the fish net 14 with elements 22 is fixed to the tubular beam 18, and the slopes of the embankment 16 in the lower parts are located between the rows of anchor concrete blocks 19 and are directly adjacent to them.

 The building 12 above the culvert window 13 consists of separate floating sections, the elements of which are interconnected: inflatable cylindrical floats 17 butt (Fig. 2), tubular beams 18 by means of a tubular element 23, loops 24 and flexible elements 25 (Fig. 4), and panels 15 by means of panels-slatters 26 (in Fig. 2, one slat is not shown).

 The device operates as follows. During the operation of the power plant 5 (PSPP) in turbine mode, water from the water area 11 of the upper reservoir 6 enters the lower reservoir 7 and then follows the stream 8. In this case, the replenishment of the water area 11 is carried out through the culvert window 13 of the gateway 9 with water of a middle depth of the water area 10, having a temperature close to the household temperature of the water in the reservoir 8. If a substance containing radioactive elements enters the water area 10, they precipitate 27 and accumulate in front of the soil embankment (dam) 16. At the same time, I net 14 prevents radioactive contamination of watercourse 8 through fish. During the operation of the power plant 5 in the pump mode, water from the lower basin 7 first flows into the water area 11 of the upper basin 6, and then through the window 13 - into the water area 10.

 The speed of water in the culvert window 13 is limited from the condition of maintaining the temperature stratification of water in the water area 10 and it usually does not exceed 0.3-0.4 m / s. At such a water velocity in the window 13 there is no agitation of the bottom sediments 27, and the difference in water levels in the water areas 10 and 11 does not exceed one centimeter. In this case, the anchor concrete blocks 19 work in conjunction with a dirt embankment, thereby increasing each other's stability. (56) Copyright certificate of the USSR N 1093752, cl. E 02 B 9/00, 1982.

 USSR author's certificate N 1351993, cl. E 02 B 9/00, 1985.

Claims (3)

 1. ENERGY COMPLEX GATEWAY, including an enclosing structure with a culvert installed in the pond between the intake and exhaust structures of the nuclear and hydroaccumulative power plants, characterized in that, in order to save money and increase operational efficiency by preventing thermal and radioactive contamination of the water reservoir of the hydroaccumulating power plant, the enclosing equipped with flexible couplings and a fish trap blocking the culvert, made in the middle part of the enclosing wall angles, the upper part of which is made in the form of a sheet of flexible material, closed around cylindrical floats and weights, while the lower part of the building is made in the form of an underwater embankment, the slopes of which are located in the lower part between the rows of anchor concrete blocks and directly adjacent to them, and the fish catcher is mounted on a load connected by flexible connections to concrete blocks.  2. The gateway according to claim 1, characterized in that the cylindrical floats are made of flexible material.  3. The gateway under item 1, characterized in that the load is made in the form of a tubular beam.

Images