SU673697A1 - Ejector device for cooling basin - Google Patents

Description

one

The invention relates to ejector devices for reservoirs-coolers of waste water of thermal power plants and can be used in cooling systems using reservoirs with a circulating water supply system.

Known injector device for cooling ponds, formed by the output section of the discharge channel and two lines (awesome dams, one of which is made with a slot in the initial section 1.

A disadvantage of the known device is a low degree of ejection into the discharge stream, which reduces the efficiency of circulation, the mass of water in the reservoir and the intensity of washing out of the stagnant zones, as well as its cooling properties.

The purpose of the invention is to increase the efficiency of the device.

The goal of the goal is achieved by making one of the dams a curved or curvilinear arc of a circle of radius R tangent to a straight parallel longitudinal axis of the discharge channel in its end section, or as a multi-faceted chord surface of the same circle of radius R.

The radius of the circle is R YUN, where H is the width of the discharge channel in the terminal section.

FIG. 1 shows the proposed device in the plan; in fig. 2 shows an embodiment of a curved dam.

The ejector device includes an upstream section of the discharge channel I, which is brought onto shore 2 of the reservoir. The discharge channel has an end section 3 and an axis 4. The first direction of the dam 5 has slot 6. The second direction of the dam 7 adjoins the wall of the drop channel, is made along the arc of a circle of radius R and in the end section 3 is tangent to a line parallel to the axis 4 of the discharge channel 1. The radius R of the dam 7 has the value RUN, where H is the width of the discharge channel 1 in the terminal section 3.

Dam 7 (see. (2) can be constructively executed from trapezoid or rectangular blocks 10, forming a broken line of chords inscribed in a circle of radius R.

The device works as follows.

Discharge jet 8 passes through channel 1 and then through end section 3 in the directions indicated by arrows, sticks to dam 7, in the section along slot 6 it is a curved wall jet and ejects cross-flow 9 behind dam 5, which leads to the circulation of fluid in the pond.

Due to the fact that the discharge jet is a curved wall and the ejection is increased in comparison with a straight-line jet of the same flow rate, the circulation efficiency of the water mass and, therefore, the efficiency of the body cooling water increases with the introduction of the invention.

Claims (1)

1. USSR author's certificate number 139619, cl. E 02 B 9/00, 1960. , ten Rig.2