SU1638373A2 - Axial diffuser - Google Patents

Abstract

The invention relates to the field of power engineering and can be used, for example, in the output devices of compressors. The purpose of the invention is to reduce hydraulic losses. In the interface of the inlet cylindrical section 1 and the output conic section 2 with an angle of inclination forming 6 to the axis a-a, elements 3 of the effect on the boundary layer are located. The elements are made in the form of blades 4, inclined to the radial direction by an angle determined by a definite expression depending on the angle в and the angle p of the exit of the blades, and forming interscapular channels 5 with an area F not increasing along the flow. 2 Il.

Description

The invention relates to power engineering, can be used, for example, in the · output devices of compressors and is an improvement of the invention by ed, St., No. 1401162. 5

The purpose of the invention is the reduction of hydraulic losses.

Haha. 1 schematically shows the proposed diffuser, a longitudinal section; in FIG. 2 — view A in FIG. 1, 10

The axial diffuser comprises an outer shell with an input cylindrical section 1, an output conical section 2, and elements 3 15 cantileverly located on the shell that act on the boundary layer. Elements 3 are made in the form of sections 1 and 2 of the blades 4 located in the mating zone, forming inter-rosette channels 5 with a cross-sectional area F not increasing 20 along the flow, and having a flow exit angle φ greater than 20 relative to the axis aa of the shell ° The blades 4 are inclined to the radial direction r in the direction opposite to the exit angle φ of the blades 4, and the angle at the slope is determined from the equation γ = arctan ctgfl tgp 'where θ is the angle between the generatrix 6 of the output conical section 2 and the axis aa of the diffuser.

The diffuser operates as follows.

The working fluid enters through the cylindrical section 1. With the development of the boundary layer on the outer shell, there is a danger of its separation. When flowing around the blades 4, along with the twisting of the boundary layer, the blades act on the layer due to their inclination to the radial direction, which helps to stabilize the boundary layer and, as a result, reduce hydraulic losses.

Claims (1)

Claim Axial diffuser according to ed. St. No. 1401162, characterized in that, in order to reduce hydraulic losses, the blades are inclined to the radial direction in the direction opposite to the angle of exit of the blades, and the angle of inclination γ is determined from the equation where Θ is the angle between the generatrix of the output conical section and the axis of the diffuser; φ is the angle of exit of the blades. View