RU2243417C2 - Stage of centrifugal turbomachine - Google Patents

Abstract

FIELD: mechanical engineering; centrifugal compressors and high-capacity pumps.

SUBSTANCE: proposed stage has working wheel with flat base and conical cover disks and blades between said disks, diaphragms, rotary channels, vane and vaneless diffusers. Wall of vaneless diffuser diaphragms are of different shape relative to setting wall of diaphragm adjacent to inner surface of flat main disk is made concave, and wall of diaphragm adjacent to inner surface of cover disk is made convex.

EFFECT: increased efficiency of stage.

1 dwg

Description

The invention relates to mechanical engineering, in particular to the steps of centrifugal turbomachines. The invention can most effectively be used in centrifugal compressors and high capacity pumps.

A known stage of a centrifugal compressor containing an impeller with a flat main and conical cover discs and vanes between them, diaphragms, a bladeless diffuser and a rotary channel (SU 1820042 A1, Popov I.K., 07.06.1993). In the known step, the spherical wall of the diaphragm adjacent to the capping disk, at the place where the opposite wall forms the transition from a flat surface to a spherical surface, has a bulge. But the extreme point of this convexity is not in line with the end point of the inner surface of the conical disk, and the flow exiting the wheel, getting into the diffuser channel, is twisted. The end point of the inner surface of the flat main disk is located at a distance from the spherical wall of the diaphragm, and from this side the flow also swirls.

Closest to the technical essence of the invention is the stage of a centrifugal turbomachine - a centrifugal compressor, which has an impeller with a flat main and conical cover discs with blades between them, diaphragms, bladeless and blade diffusers, a rotary channel with a displaced axis of symmetry relative to the axis of symmetry of the impeller ( SU 896258 A, Zvanets B.A. et al. 01/07/1982).

Such a displacement of the bladeless and blade diffusers, although it allows you to get rid of one zone with vortices, which appears between the main disk of the impeller and the wall of the bladeless diffuser, but does not relieve the other - between the cover disk of the impeller and the wall of the bladeless diffuser. In addition, this zone increases due to the gap between the impeller disk and the diaphragm wall of the bladeless diffuser, which also increases. The displacement of the axis of the bladeless and blade diffusers also leads to an increase in the flow offset to the wall of the diaphragm of the bladeless diffuser located near the main disk of the impeller. These shortcomings will lead to a strong curvature of the flow through the bladeless diffuser and, at the moment it enters the blade diffuser, violate its calculated angles of attack in the direction of increase. All this leads to an increase in hydraulic losses and an overall decrease in the efficiency of the centrifugal compressor stage.

The objective of the invention is to increase the efficiency of a centrifugal turbomachine stage by reducing hydraulic losses.

The technical result is achieved by the fact that in the step of a centrifugal turbomachine containing an impeller with a flat main and conical cover discs and vanes between them, a diaphragm, a rotary channel, a bladeless and blade diffusers, according to the invention, the walls of the bladeless diffuser are made of different shapes relative to the flow part, and the wall the diaphragm adjacent to the inner surface of the flat main disk is made concave, and the wall adjacent to the inner surface of the conical cover claim - convex.

With this design of the stage, the convexity of the diaphragm wall of the bladeless diffuser and the end point of the inner surface of the conical cover disc, as well as the protrusion of the wall of the diaphragm of the bladeless diffuser and the end point of the flat main disk, respectively, are as close as possible to one line, which avoids unnecessary hydraulic losses due to the reduction of turbulence in the flow coming out of the wheel.

Thus, the proposed design of the centrifugal turbomachine stage provides a reduction in hydraulic losses due to better flow organization at the outlet of the impeller and at the entrance to the blade diffuser. The best flow organization is achieved due to the fact that the flow exiting the impeller moves smoothly, without intermittent braking, along a curved channel and gradually aligns its trajectory.

A curved flow path is determined by the confuser shape of the output part of the impeller. After that, a flow with a straightened path of motion enters the scapular diffuser, flowing onto its blades with the required design angles of attack. In addition, in the area of its movement, the flow has minimal hydraulic losses, which are achieved by providing smooth diffusivity (without jumps, as in the analogue and prototype), which eliminates zones with reverse flows and vortex formation. Significant differences of the proposed design are: the execution of the walls of the bladeless diffuser of various shapes, the proposed new geometry of their location.

This allows you to reduce losses and increase the efficiency of the centrifugal turbomachine stage due to better flow organization and the use of a curved wall design of the bladeless diffuser. The proposed technical solution has novelty and inventive step and meets the conditions of patentability of the invention. The invention is illustrated by a drawing of an advantageous embodiment of the invention, which shows a longitudinal section of a centrifugal turbomachine stage.

The stage of the centrifugal turbomachine has an impeller 1 with a flat main disk 2 and a conical cover disk 3 and blades 4 between them, diaphragms 5 and 6 forming a bladeless diffuser 7 and a rotary channel 8 with a blade diffuser 9 installed between them. Flat main and conical cover disks 2, 3 of the impeller 1 have inner surfaces 10 and 11, respectively. The wall 12 of the diaphragm 5 of the bladeless diffuser 7 adjacent to the inner surface of the flat main disk 2 of the impeller 1 is concave, and the wall 13 of the diaphragm 6 adjacent to the inner surface of the cover disk 3 of the bladeless diffuser 7 is convex in relation to the flow part.

The centrifugal turbomachine stage works this way.

The flow enters the impeller 1, is twisted by the blades 4 and, passing between the inner surface 10 of the cylindrical main disk 2 and the inner surface 11 of the conical cover disk 3, enters into the bladeless diffuser 7 smoothly, without jumps, with a curved flow path 7. Moving along the bladeless diffuser 7 the flow with the help of curved walls 12 and 13 is leveled and with minimal hydraulic losses enters the blade diffuser 9, and from it into the rotary channel 8 and further into the collection chamber or to the next stage.

Thus, the present invention contribute to increasing the efficiency of a centrifugal turbomachine as a whole in comparison with known turbomachines.

Claims (1)

The stage of the centrifugal turbomachine containing the impeller with a flat main and conical cover discs and vanes between them, a diaphragm, a rotary channel, scapular and bladeless diffusers, characterized in that the walls of the bladeless diffuser are made of various shapes relative to the flow part, and the wall of the diaphragm, which borders on the surface of the flat main disk is made concave, and the wall of the diaphragm adjacent to the inner surface of the conical covering disk is convex.