SU1321847A1 - Steam turbine exhaust pipe - Google Patents

Abstract

This invention relates to a power system. It allows to increase the reliability and efficiency of the turbine in all modes of operation. The exhaust pipe contains a diffuser installed in the housing 1 with an external bypass. The latter is made in the form of two coaxial conical shells (KO) 5 and 6 installed with the formation of an annular channel 7. The inner KO 5 adjoins the wall of the moisture trap chamber (VK) 8, and the outer KO 6 adjoins the hull I. Channel 7 communicates with VK 8 with openings 9. The steam worked in the turbine enters the diffuser, and the steam retracted with moisture through W, FIR 10 after the nozzle grating of the last turbine stage is sent to VK 8. At the same time, in all modes of operation of the turbine KO 5 surface is less full flow of the pressure in the VC 8. Due to the pressure differential arising humid-vapor mixture is directed into the channel 7 and further to the main flow is diverted to the condenser. 2 Il. (About 10 from th 00 4 (Rig, 2

Description

This invention relates to a power system and can be used in steam turbines.

The purpose of the invention is to increase the reliability and efficiency of the turbine in all modes of operation.

FIG. 1 shows the exhaust pipe, steam turbine, general view; in fig. 2 — node I in FIG. one.

The exhaust pipe includes a housing 1 with a diffuser 2 with an inner 3 and an outer 4 bypass 3 and 4. The outer bypass 4 is made in the form of two coaxial conical shells 5 and 6, installed to form an annular channel 7. The inner shell 5 adjoins the wall of the moisture-collecting chamber 8, and the outer shell 6 - to the housing 1. The annular channel 7 is connected with the chamber 8 by the openings 9. The length is forming, the shell 5 to it does not exceed half the length of the shell 6 which forms the shell (Fig. 1). The size of the cross-section of the channel 7 is established depending on the optimal ratio of the velocities of the main flow and its flow through the chamber 8 and the cable 7. The turbine is connected to the chamber 8 through the target 10.

After working in the turbine, the steam enters the diffuser 2, and the steam discharged with moisture through the slit 10 after the nozzle grating of the last stage of the turbine is directed to chamber 8. According to the gas-dynamic design

five

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five

the following exhaust pipe on all modes static pressure of the main steam flow at the inner surface of the shell 5 is less than the total pressure of the flow in chamber 8. Due to the resulting pressure drop, the wet-steam mixture rushes through the holes 9 into the annular channel 7 and then with the main flow capacitor.

The installation of shells 5 and 6 ensures the ejection of the wet-steam mixture from chamber 8, which eliminates the secondary flow being normally sucked into the main flow and reduces losses due to preventing early separation of the boundary layer from the outer surface of the external bypass 4.

Claims (1)

Invention Formula The steam turbine exhaust manifold, containing a diffuser mounted in the housing with an external contour adjacent to the inlet. 1 trapping chamber, made in the wall of the last opening for draining moisture into the condenser, characterized in that, in order to increase the reliability and efficiency of the turbine, the external bypass is made in the form of two coaxial conical shells installed to form an annular channel communicated with the openings the shell adjoins the wall of the chamber, and the outer - to the body. Editor I. Shulla Order 2732/24 (Compiled by B. Novikov Teh.red I. Be |) escorrector S. Cherni Ti1) azh481Poddiek liHUHni l State Duma ;. Completed CX. SL and its invention -; and | 1 and oTKiVt.ii-iin 1I3 (J3.T, LUskva, F.3). Raushska nap., D. 4 ;.) Manufactured1 |; and T1nCh) 1i1-g1 () l11g) afichesp1.- |||) unit. (p (ld. y. i. HixH-KTi jisi. -I