SU1117375A1 - Water intake of hydraulic power station - Google Patents

Abstract

WATER RESISTANT HYDRO; -) .. KTROS, TAITSI and. containing connection p1 with a water pipe head with valves and penieTKOii, installed 51. in the grooves of the stems, and a water-transfer wall, to the upper edge of which a float is attached, characterized in that, with the use of a hydroelectric power station with significant fluctuations. water levels in the water storage system, T1petsa, in the mouths of the mouths are extrapolicy grooves having a turn towards the turbine conduit in the lower part, and the waterline wall is made of 1 pivotally connected to each other with ice rinks mi in the middle of the lateral edges of the sections, like the rollers of the ustai, and :: 1) 1 in the additional groove. CL with SP

Description

And; ") P | ateiiie refers to the construction of buildings, namely, the water intake of natural gas stations, and can be HCHOJibaoBHiio for drawing water from the upper layers of the reservoir.

And (iplotrina water intake is known (: () the electrosledor 1i, including turbine water lines, gates and trash holding IIIHte |) etiki I.

15 reservoirs with a large depth of work, turbine conduits located below the minimum level, take water from the deep layers. The temperature of these layers differs significantly from the temperature of the upper ones, but in the summer months water is colder in the downstream and more tenla in the winter months. A change in the temperature regime in the downstream of a hydroelectric power station leads to a sharp deterioration in environmental conditions, the formation of an extended, non-freezing in winter, section of the river.

Also known is the water receiving station of a hydroelectric power station, which contains a tip with a valve and a grid connected to a turbine water guide, installed in the mouths of the mouths, and a water-transfer wall, to the upper edge of which there are nonclave 2.

The device allows the automatic withdrawal of water from the upper layers of the reservoir. But due to the fact that the water-barreling wall is made in the form of a narnia shield, with significant fluctuations in the water levels in the reservoir, a large shield height is required, and consequently, a greater length of the mouth protecting the water intake from lateral water entry.

The purpose of the invention is to reduce material consumption during the operation of a hydroelectric power plant with significant fluctuations in the water levels in the reservoir.

The goal is achieved by the fact that, under conditions, additional grooves are made, having a turn towards the turbine water conduit in the lower part, and the water transfer wall is made of sections hingedly interconnected with rollers located in the middle of the side edges of the sections, and the rollers are installed in an additional groove .

The drawing shows the receiving water hydroelectric station, parechny cut.

The water receiver includes a turbine conduit 1, 2 emergency shutters, a groove 3 of the trash rack and a movable water-donning wall 4, made of H1 hinged flat sections and having an upper 5, intermediate 6 and lower 7 supporting rollers, has 6 (xUio unshaking gear). Section 8. The upper section of the movable wall 4 is connected with the float 9, which is smoothly streamlined and is not smooth. In addition to ensuring constant penetration below the water level of the movable wall 4, the float 9 also protects the floaters in (logs, ice) in the water intake.

The device works as follows.

At the normal retaining water level in the reservoir, the water flow enters the water intake from the upper layer, expands over the upper section of the moving wall 4, smoothly changing its direction of movement to the turbine water lines 1 and putting into operation the entire height of the trash grill 3. the direction of flow and a decrease in the average flow rate on the grid results in a reduction in head loss in the receiving water.

When the water level in the reservoir decreases, the float 9 also descends. The movable wall 4, held on a constant piping pin by the float 9, under the action of its own weight, declines, changing its height. Such a system provides an automatic change in the height of the sliding wall 4 depending on the water level and the water intake from the upper layers of the reservoir.

The installation of the movable wall 4 in the water intake is performed in standing water in an unfolded vertical position, holding it with a gripper of a lifting mechanism (not shown). The guide called 8 at its base has a turn in the direction of the downstream. Upon entry of the lower support roller 7 of the movable wall 4 into the rotation of the guide groove 8, the wall 4 is folded

and occupies a working position.

When the height of the wall 4 changes, the upper 5 and intermediate 6 track rollers move vertically, and the lower 7 horizontally in the guide groove 8.

The proposed water intake allows it to reduce its material consumption during the operation of a hydropower plant with significant fluctuations in the water levels in the reservoir.

The use of the proposed water intake of the dam hydroelectric station

It also improves the ecological situation in the downstream of the hydroelectric complex due to the approach of the temperature regime of the river to the natural one. In addition, when water is drawn from the upper heated layers of the reservoir with a mechanical kinematic viscosity, the efficiency of the turbine unit increases. For a hydroelectric power plant, the power of 6000. W, the efficiency of efficiency by 0.6 ° / o increases the power, 1117375

39

36 MW. Accepting the value of the economic effect of the production of additional KWT. h for 2 kopecks and the number of hours of use of electricity will be 720 thousand.

gap of installed capacity 1000 h, rub. in year.

Claims (1)

HYDRO WATER RECEIVER?) Л EKTPOCTAHI1and I. containing a head connected to a turbine conduit with gates and a grill installed in the grooves of the mouths, and a water overflow wall, to the upper edge of which a float is attached, characterized in that. In order to reduce the material consumption during the operation of a hydroelectric power station with significant fluctuations in the water levels in the reservoir, additional grooves were made in the mouths, having a turn towards the turbine conduit in the lower part, and a water overflow wall made of sections articulated to each other with rollers located in the middle of the side edges sections, with rollers installed in an additional groove.