SU1585569A1 - Method and apparatus for controlling the wall-adjoining layer in stream flowing over a solid body by feeding control liquid jet - Google Patents

Abstract

The invention relates to hydraulic aero mechanics, in particular, to boundary layer control systems, and can be used in various hydraulic and thermal engineering devices to obtain the necessary characteristics of the flow of structural elements by the oncoming flow. The aim of the invention is to increase the efficiency of the method by increasing the length of the active portion of the jet in the surface layer and reducing the flow turbulization. When a control jet is fed into the near-wall zone tangentially to the outer surface 5 in the mixing zone of the incident flow and the control jet (at the initial part of the boundary of the control jet 15), a stable vortex zone is created by placing an additional blind vortex chamber between the nozzle 3 and the outer surface 5 7 with a slotted nozzle 8. 1 c.p. f-ly, 2 ill.

Description

The invention relates to hydraulic aero mechanics, in particular, to boundary layer control systems, and can be used in various hydraulic and thermal engineering devices to obtain the necessary characteristics of the flow of structural elements by the oncoming flow.

The aim of the invention is to increase the efficiency of the method by increasing the length of the active part of the jet in the surface layer and reducing the flow turbulization.

Figure 1 shows the structural diagram of the device for implementing the proposed method; Fig. 2 is a schematic diagram of a fluid flow on an enlarged scale.

The device contains a source of liquid 1, a control unit 2, a control nozzle 3 with an confused part 4. The nozzle 3 smoothly mates with the outer surface 5 of the solid body 6 flowing around the incident flow. Between the outer surface 5 and the nozzle 3 is placed additional deaf vortex chamber 7 with a slot 8, separated from the nozzle 3 and the outer surface 5 by partitions 9 and 10 with sharp edges 11 and 12. The width of the hole 8 and the depth of the chamber 7 ratio.

Referring to Fig. 2, the flow paths of vortex tracks 13, 14, the boundary 15 of the control jet and the vortices 16-20 formed in chamber 7 are conventionally indicated when the jet outflows through the nozzle 3.

When a flow around a solid body b (from left to right) and jet flow through the nozzle 3, vortices (e.g., 16-20) are formed in the vortex chamber 7 and trailing trails (vortex tracks) 13 and 14 coming off the edges 11,12. Turbulized fluid from tracks 13 and 14 interact with the eddies 16-20, which

leads to energy dissipation and reduce the degree of flow turbulence.

By swirling the fluid, the pressure in the swirl chamber 7, which prevents the diffusion effect, is lowered, the lateral pressure gradient and the magnitude of the shear stresses in the control jet are reduced, the intensity of the lateral motion of the fluid in the flow is reduced.

Claims (2)

1. The method of controlling the wall layer in the flow around a solid body behind by supplying a jet of control fluid, which implies that the fluid is supplied to the nozzle, the jet is formed by the nozzle, turn and stabilize the jet, so that, in order to increase the efficiency of the method by increasing the length the active part of the jet in the near-wall layer by reducing the flow turbulization, in order to stabilize the flow, create a stable vortex zone in the region of the flow of the control jet with the flowing stream. 2. Device for controlling the wall layer when the flow is flowing around solid body by supplying a jet of control fluid containing a slit nozzle with confused area, placed inside the streamlined body and smoothly mated with its outer surface, which is different from the fact that between the nozzle and the outer surface an additional hole of the vortex is placed with a slit hole, separated from the outer surface and from the control nozzle by partitions with sharp edges, and the depth of the vortex chamber is chosen not less than 0.28 the width of its slit hole. eleven 1