SU1749613A1 - Injector - Google Patents

Abstract

Use: in the field of engineering to increase the efficiency of the outlet nozzle of an axial gas turbine by leveling the composition and increasing the pressure of the gas. SUMMARY OF THE INVENTION: an injection device comprising coaxially arranged in a mixing chamber. 2 pc tubes with tangential holes forming a Segner type wheel and communicated with the evaporating liquid supply pipeline. An additional wheel is installed coaxially with the main wheel and connected with its entrance to the latter. The tangential holes of the wheels are directed towards each other, and all the tubes are made with holes evenly spaced along their radius and directed along the gas flow. Rotation of the tubes in opposite directions provides intensive mixing of the gas flow, and liquid injection - heat removal and increase in gas pressure. 2 yl

Description

The invention relates to mechanical engineering and can be used in the design of output devices for axial gas turbines.

A steam turbine exhaust manifold is known, comprising a diffuser and an evaporating fluid injection system which includes an annular manifold placed in a specially formed internal channel and spray nozzles. The nozzles are designed to supply fluid to the vacuum zone at the root of the turbine blades.

However, this technical solution is not reliable and economical, since the flow is not equalized in composition, and the pressure rises slightly.

Closest to the invention is a desuperheater containing tubes with tangential holes arranged coaxially in the mixing chamber and installed on the cradle assembly, forming a Segner-type jet wheel and communicating with the evaporating fluid supply line.

This technical solution is intended to mix the vapor stream with the liquid, but it is not sufficiently effective, since the liquid is sprayed only near the walls of the mixing chamber. In addition, the fields of density, pressure and velocity are not aligned.

The aim of the invention is to increase the efficiency by leveling the composition and increasing the gas pressure.

FIG. 1 shows the injection device, type of assembly, longitudinal section; in fig. 2 - the same view from the entrance.

The injection device (Fig. 1, 2) consists of a mixing chamber 1 inside which at the attachment points 2 are installed symmetrically in the radial direction of the tube 3 and 4 At the ends of the tubes are made tangential holes 5, forming

2

H) ON

ABOUT)

Segner wheel type reactive force device.

The tubes 3 form the main wheel, and the tubes 4 are additional, the latter being coaxial with the main, and the tangential holes in the tubes are directed in pairs towards each other. A pipeline 6 is installed in the attachment points for supplying a vaporizing liquid. In tubes 3 and 4 there are a number of outlet openings 7, evenly spaced along the radius of the tubes and directed along the gas flow.

The injection device operates as follows.

The gas stream exiting, for example, after an axial gas turbine stage, enters the mixing chamber 1, where the evaporating fluid is supplied to the tubes 3 and 4 through the pipelines 6 of the attachment points 2 of the fastening. heat is removed from the gas, due to which there is a more complete recovery of the gas pressure, i.e., an increase in the static pressure. Fluid injection reduces aerodynamic losses. The fluid flowing out of the tangential orifices 5 creates a reactive moment, which causes the tubes to rotate. Tubes 3 and 4 rotate relative to the knot.

2 fastenings and in different directions and thereby strengthen the positive effect of injection of the evaporating liquid. Rotation of the tubes in different directions promotes intensive mixing and increase the uniformity of flow, which improves its structure in the outlet part.

The technical advantage of the device is to intensify the process of leveling the composition of the stream and increasing the pressure of the gas.

Claims (1)

Claims of the invention: An injection device comprising coaxially placed in the mixing chamber and mounted on a tube mounting unit with tangential openings, forming a Segner-type wheel and communicating with the evaporating fluid supply pipeline, characterized in that, in order to increase efficiency by leveling the composition and increasing pressure gas, the device is equipped with an additional wheel mounted coaxially with the main wheel and connected with its entrance to the latter, and the tangential holes of the wheels are directed s are pairwise towards each other, all pipes being made with holes evenly spaced along their radius and directed along the gas flow Phie.1 , 7 FIG. 2