SU969919A1 - Exhaust pipe of steam turbine - Google Patents

Description

(54) EXHAUST STEAM TUBE

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The invention relates to turbine engineering and can be used in the design of low pressure parts of steam turbines with large volumetric steam transmissions. . ,

Known exhaust pipe with a horizontal connector, containing a diffuser, directed to the engine side of the blade and the device for cooling the diffuser leads. Ijk

The disadvantage of this nozzle is the lack of constructive measures to reduce the speed and volumetric steam consumption in a horizontal section of the nozzle, the separation of flows on the upper and lower half of the nozzle.

Known exhaust pipe of a steam turbine with horizontal and vertical connectors, containing mounted in the housing axial diffuser and separation and power fins, forming a separate upper and lower compartments for removing steam from the upper and lower halves of the diffuser 2.

The organization of compartments for the discharge of steam from the upper and lower rollers of the nozzle without its cooling does not allow its specific volume and speed to be reduced to the required extent in the plane of the horizontal connector.

The purpose of the invention is to increase the efficiency and reduce the circumferential unevenness of the flow parameters beyond the last stage of the turbine, i.e. in the inlet section of the pipe.

This goal is achieved by the fact that the nozzle is equipped with external collecting chambers and a parallel cooler installed in the upper compartment parallel to the horizontal connector and the inlet section of the pipe over its entire width, the tube bundle of which is connected to the external collecting chambers mounted on the body of the nozzle.

15

FIG. 1 shows the exhaust pipe, a longitudinal section j in FIG. 2 is a section A-A in FIG. one,

The alloplose nozzle has a horizontal connector 1, an axial radial diffusor 2, separators (guides) and profiled power ribs 3 and 4 that form the upper compartment 5 to release steam from the upper half of the 6 socket and the lower compartment 7 to release steam from the lower half 8 A desuperheater 9 is located in the exhaust manifold in its upper compartment 5, which is installed parallel to the horizontal connector 1 and the inlet compartment 10 of the manifold. Desuperheater 9

consists of a bundle of pipes 11 connected to the inlet and outlet external collecting chambers 12 and 13, which are attached to the body 14 of the nozzle by flanges 15 and 16,

The exhaust pipe of the steam turbine works as follows.

Steam from the last stage of the turbine through the inlet section 10 enters the flow part of the nozzle formed by the apery, with a diffuser 2, separation and power fins 3 and 4. One of the separation fins 3, located in the plane of the HORIZONTAL connector 1, separates the working body the inlet section 10 of the nozzle and guides a part of it through the upper compartment 5 to the bundle of pipes 11 located in the flow part. Steam washes a bundle of pipes 11 through which chilled water flows, partially crying, decreases its volume flow and decreases the flow rate, after the desuperheater 9 passes, the steam flows to the inlet section of the nozzle and is discharged into the condenser.

The cooling water in the tube bundle 11 comes from the inlet collection chamber 12, passes through the tube bundle 11, it is drained from the output collection chamber 13. From the lower half of the exhaust pipe, steam escapes through the bottom compartment 7, into which it enters, pass through the bottom half 8 oseradia. diffuser 2.

The location of the desuperheater behind the cone creates favorable conditions for steam condensation and condensate removal, warns.

moisture on the blades of the last stage and the turbine rotor.

The proposed design of the exhaust; in the upper compartment allows to reduce the volume of steam in the upper half of the nozzle, reduce the speed of steam in the cross section of the horizontal connector, equalize the distribution of pressures and velocities behind the last stage,

0 reduce energy losses and increase the efficiency of the turbine.

Claims (2)

1. USSR author's certificate No. 28339, cl. F 01 D 25/30, 1968. 2. USSR author's certificate №385061., Cl. F 01 D 25/30, 1971 /