SU1548329A1 - Aeration pipe of water intake of hydraulic power station - Google Patents

Abstract

The invention relates to hydraulic construction, in particular, to water intakes of hydroelectric power plants operating at low negative outdoor temperatures. The purpose of the invention is to simplify operation. When the flow of water in the water intake 2 of the hydroelectric power station, water flows into the L-shaped tube 3 due to the velocity head. Then the water enters the telescopic tubular nozzle 4 and flows out of the hole 6 into the aeration tube 1. Thanks to the float 5 on the top end of the nozzle 4, the possibility of vertical movement, provides for the entry of warmer water through the opening 6 into the upper layers of water in the aeration pipe 1. The cooled water is forced down into the turbine water conduit. Thus, there is a continuous water exchange in the aeration pipe 1, which prevents the ice plug from forming in its upper part. 1 il.

Description

1The invention relates to hydraulic engineering construction, namely to the receiving water of hydroelectric power plants operating at low negative (outdoor air temperatures.

The aim of the invention is to simplify operation.

The drawing shows the intake Hydroelectric power station with aeration

a pipe and a device that prevents the formation of an ice plug in it, a slit.

Aeration pipe 1 water intake

2 hydroelectric power stations are equipped with a device that protects against freezing of water in it. Device completed

The shape of the L-shaped tube 3 is fixed jieHHou in the cavity of the aeration tube 1 and bent out into the water receiver 2 towards the water flow. At the other end, the L-shaped is rough 3 equipped with a telescopic tubular nozzle k having a float 5) at the upper end The water outlet port 6 is located. I The device operates as follows.

1 When the water flow in the hydroelectric station 2 of the hydroelectric power plant flows, water enters the L-shaped tube due to the velocity head 3 "To ensure efficient operation of the tube, it is sufficient to immerse it into the flow at least 0.2 m from the top wall, so How is it ensured that the bent end of the tube is located in the zone of a more uniform velocity plot in the absence of the influence of the boundary. lay In this case, water enters the nozzle k and flows out of the hole 6 into the aeration pipe 1. The presence of a float 5 at the upper end of the nozzle 4, made with the possibility of longitudinal vertical movement, ensures the flow of warm water into the upper layers of water in the aeration pipe 1. Thus pipe 1 is a continuous water exchange. More heat, the water from the non-freezing layers rises along the G-tube of the tube 3 and is poured out through the hole 6, displacing the cooled water down into the turbine water conduit, providing convective heat exchange and protecting the aeration tube 1 from forming an ice plug in its upper part.

Claims (1)

Invention Formula The aeration pipe of the hydroelectric station's water intake, which has a device that prevents the formation of an ice plug in it, is so that, in order to simplify operation, the safety device is made in the form of an L-shaped tube, fixed withdrawn by the curved end into the water intake towards the flow of water, while the other end of the L-shaped tube is equipped with a telescopic nozzle attached to the upper end of the float and having a water outlet in the upper part.