RU196772U1 - Sealing the cylinder bodies of the steam turbine - Google Patents

Abstract

The invention relates to the field of turbine engineering, namely to the rotor seals at the exit from the inner cylinder body. The seal of the cylinder bodies of the steam turbine at the place of exit of the rotor from the body of the inner cylinder of the steam turbine is characterized by the presence of the body of the outer (1) and the body of the inner (2) cylinder, consisting of an outer (3) and an inner (4) cage, between which a gap is made. In the outer (3) cage and the casing of the inner (2) cylinder, lowers (5, 6) are made. The technical result is the reduction of steam leakage in the high-pressure cylinder, and at the same time obtaining additional turbine power, and increasing its maneuverability by organizing the heating of the body through the performed obnozhenie. 1 ill.

Description

The invention relates to the field of turbine engineering, namely to the rotor seals at the exit from the inner cylinder body.

It is known to seal a steam turbine, characterized by the presence of an outer casing and an inner cylinder casing, installed at the rotor exit from the inner cylinder casing, consisting of a cage in the grooves of which sealing rings are installed (“Steam turbines and turbine units of the Ural Turbine Plant”, under the editorship of Yu. M. Brodova and A.Yu. Kultysheva, 3rd ed., Revised and supplemented, Ekaterinburg, 2017, pp. 109-110, Fig. 4.17). The disadvantage of this solution is a large leak of high-potential steam from the high-pressure cylinder and, accordingly, a decrease in the generated power of the turbine. The large flow rate of steam through the seal is due to the significant pressure difference between the sampling chamber in the inner housing and the return chamber in the outer housing.

The objective of the claimed utility model is to eliminate the disadvantage of the known solution: reducing the total steam leakage in the cylinder when using the returned part of the steam leakage into the high-pressure flow part to obtain additional power and increase the turbine maneuverability.

The task is achieved by the claimed seal at the place of exit of the rotor from the body of the inner cylinder of the steam turbine, characterized by the presence of the body of the outer and the inner cylinder body, consisting of an outer and inner cage between which a gap is made, while in the outer cage and the inner cylinder casing, a downgrade is made.

The technical result of the claimed utility model is to reduce steam leakage in the high-pressure cylinder, and at the same time obtain additional turbine power and increase its maneuverability by organizing the heating of the casing through the performed low.

The claimed device is described on an example implementation in a single-cylinder twin-cylinder turbine according to the attached figure, which shows a bottom view of the connector of the steam inlet part of the high-pressure cylinder.

The seal at the exit point of the rotor from the housing of the inner cylinder of the steam turbine, characterized by the presence of the housing of the outer 1 and the housing of the inner 2 of the cylinder, consisting of an outer 3 and 4 inner cage between which a gap is made. In the outer 3 casing and in the housing of the inner 2 cylinder, the flanges 5 and 6, respectively, are made, which are connected to the chamber of the flowing part behind one of the high pressure stages to return the steam leakage from the seal to the flowing part. The implementation of this utility model in a single-cylinder twin-turbine turbine allows for a nominal operating mode to get an additional gain in power of 0.2 MW.

The device operates as follows.

Steam passes in the gap between the outer 3 and inner 4 casing of the housing of the inner 1 cylinder, and, through the flaps 5 of the horizontal connector in the outer 1 casing, and then in the housing of the inner 1 cylinder, enters the high-pressure flow chamber of one of the stages. Thus, part of the steam leak returns to the high-pressure flow part, where it generates additional power, and this steam also contributes to the heating of the housing of the inner 1 cylinder through the oblique 6, which increases the maneuverability of the turbine.

Claims (1)

A seal at the exit point of the rotor from the body of the inner cylinder of the steam turbine, characterized by the presence of the body of the outer (1) and the body of the inner (2) cylinder, consisting of an outer (3) and an inner (4) cage, between which a gap is made, while in the outer cage (3) and the casing of the inner (2) cylinder are made downs (5, 6).

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