SU1062428A1 - Open diffuser of centrifugal machine - Google Patents

Description

The invention relates to compressor engineering and can be applied to diffusers of centrifugal compressors as well as turbines. A diffuser, made in the form of a shaped channel, extending downstream at the inlet section and tapering at the outlet 1 is known. Since the diffuser is not formed by annular walls, it cannot be used in centrifugal machines. The closest to the invention to the technical essence and the achieved result is a centrifugal machine diffuser containing annular walls forming a shaped channel, which narrows downstream in the meridional section at the outlet section 2. The disadvantage of such a diffuser is considerable hydraulic losses, since no continuous flow is provided narrowing the exit section of high-speed flow. The aim of the invention is to reduce losses in the diffuser. This goal is achieved by the fact that in a bezlopochastny diffuser of a centrifugal machine containing annular walls, forming a shaped channel narrowing downstream in the outlet section, the channel at the entrance section is filled with an expanding one. In addition, the channel has a maximum width on the diameter equal to 1.17-1.18 of the inner diameter of the walls, 1.5-1.6 times the channel width at the entrance, and the outer diameter of the walls is 1.35-1.4 internal diameter, and the width of the channel at the exit - 1.4-1.5 of its width at the entrance. The drawing shows the meridional section of the diffuser. The no-blade diffuser of the centrifugal machine (not shown) contains annular walls 1, forming a shaped channel 2, which narrows downstream in the meridional section at the outlet section 3. Channel 2 at the inlet section 4 is expanding. In addition, channel 2 has a maximum width Lt „on the diameter of the Computed 1.17-1.18 internal diameter DI of wall 1, 1.5–1.6 width b) of channel 2 at the entrance, and the external diameter DI of the walls 1 is 1.35-1.4 of their internal diameter D, and the width Lg of channel 2 per Lg of channel 2 at the exit is 1.4-1.5 of its width L at the entrance. The diffuser operates as follows: The gas flow enters the diffuser from the impeller of the centrifugal machine and spirals. As the flow moves, the flow area increases. When this happens, the speed drops and the kinetic energy is converted into potential energy. The diffuser has the greatest expansion at the inlet section 4 and the smallest at the outlet section 3, due to which there is a continuous flow around the flow and, as a result, a reduction in hydraulic losses. The proposed diffuser helps prevent flow separation at low flow rates, increase braking efficiency and reduce hydraulic losses.

Claims (2)

1. CENTRIFUGAL MACHINE-FREE BLADE DIFFUSER, containing annular walls forming a profiled channel, tapering along the flow in the meridional section at the outlet section, characterized in that, in order to reduce losses, the channel at the inlet section is made expanding. 2. The diffuser in π. 1, characterized in that the channel has a maximum width on the diameter equal to 1.17-1.18 of the inner diameter of the walls, comprising 1.5-1.6 of the width of the channel at the entrance, and the outer diameter of the walls is 1.35-1.4 their inner diameter, and the width of the channel at the exit is 1.4 - 1.5 of its width at the entrance.