SU1010184A1 - Method of dissipating flow energy - Google Patents

Abstract

A METHOD FOR SUBSTITUTING ENERGY OF A FLOW, mainly in a high-pressure spillway, including splitting it into separate streams, twisting these streams in the upper conduits in one direction and integrating the streams in the outlet conduit, , the swirling of the separated flows in the vortex conduits is produced in a spiral-like toaectorium by a compact jet due to the. -DELECTION of the separated flows at an acute angle to the longitudinal axis tangent to m about vortex conduits. 00

Description

The invention relates to the field of gutters and is intended for gats & and the kinetic energy of the flow, prenm: abnormally in high pressure spillways. There is a known method of extinguishing the energy of the flow, which includes spinning the flow in a vortex conduit and gradually quenching it in the discharge conduit L-3. The disadvantage of this technical solution is that the complete extinguishing of the flow energy occurs in the discharge conduit of a length of 90-1OO its diameters, the construction of such a extension is not always technically feasible and economically justified. There is also known a method of quenching the energy of a stream, mainly in the Fountain Pore Spillway, which includes dividing it into separate streams, twisting these streams in vortex conduits in one direction and combining the streams in an outlet conduit of the spillway 2,1 WHEREAS, the two unidirectional ringed swirling flows are only in contact with the side surfaces at that time as the main surface; the mass of the flows does not participate in the interaction, and creates in the diverting conduit a general twist of flow, although less intensive. The purpose of the invention is to increase the efficiency of energy flow quenching. This is achieved by the fact that the swirling of the separated flows in vortex water is produced in a helical trajectory with a compact jet due to the supply of separated flows at an acute angle to the longitudinal axis and tangentially to vortex conduits. Fig, I shows a high-pressure pipe, a horizontal section; FIG. 1 is a sectional view of FIG. in fig. 3 is a section B-B in FIG. 1. Device J implements the proposed method in the form of a common conduit 1, Inlet conduits 2 and 3j of vortex conduits 4 and 5, a common outlet conduit 6, The method proceeds as follows., Flow, passing through the common conduit 1, is divided into separate streams. Separated streams along two supply lines 2 and 3 are concentrated concentrated at an acute angle to the longitudinal axes and tangentially to the respective vortex channels 4 and 5, thanks to such a paddock. the flows in the vortex conduits 4 and 5 are formed into helical component jets with separate standing spiral ridges (as opposed to circular swirling flows in the known), the spreading of which (ridges) along the walls of the vortex conduits 4 and 5 over a length of 6 diameters are very slight. The lengths of the left and right vortex conduits 4 and 5 are selected so that the spiral output jets from the vortex conduits hit with ridges towards each other in the central part of the common outlet 5 of the conduit 6, and this way the nodTH is less effective energy extinguishing. The lengths of the left and right vortex conduits 4 and 5 are determined respectively (Fig. 1). ACB {4) (ot; npciB (but not more than 6 D according to the condition of preserving Lp H-shaped jets, where P is any integer number: 1, 2, 3, and so on; SS - CORNER between supply and vortex conduits (Fig. 1);; - diameter of the vortex conduits (Fig, I), The proposed method is intended for use in the spillway systems of high-pressure hydroschemes, where the power of the discharge idle flow of water reaches many millions of kilowatts. It will allow to increase the efficiency of energy dissipation in the high-level spillway.

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Claims (1)

METHOD FOR EXTINGUISHING FLOW ENERGY, mainly in high-pressure spillway, including dividing it into separate streams, twisting these flows in the upper water ducts in one direction and combining the flows in the outlet spillway, characterized in that, in order to increase the efficiency of energy quenching, the flow is twisted and twisted Separated flows in vortex water conduits are produced along a helical-like theory with a compact jet due to the inlet of the separated flows at an acute angle to the longitudinal axes and relative to the generatrices of the vortex. out water conduits. - £ - | -ίή 1 1010184 2