SU1263368A1 - Method and apparatus for obtaining liquid pressure pulses - Google Patents

Abstract

The invention relates to the field of dynamics of various hydraulic systems and devices using fluid flow to create pressure oscillations of the latter. The purpose of the invention is to intensify technological processes by producing high and ultra high pressure pulsating jets and increasing the frequency of pressure pulses in the zone of the collapse of the cavity. For periodic shear cavitation, a fluid is passed through the venturi and at the outlet of it in the fluid flow, electropulse discharges are created with a frequency equal to the frequency of collapse of the cavities. For this purpose, electrodes are mounted on the hinges in the venturi tube, with the possibility of displacement in the radial direction and at a given distance from the critical section. 2 sec. zp f-ly, 1 ill.

Description

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Claims (3)

The invention relates to the dynamics of various hydraulic systems and devices that use fluid flow to create pressure oscillations of the latter, and can be used in the engineering, metallurgical, chemical and other industries in order to, for example, intensify technological processes. The purpose of the invention is the intensification of technological processes by producing high and ultra high pressure pulsating jets and increasing the frequency of pressure pulses in the collapse zone of cavities. The drawing shows an apparatus for carrying out a method for producing a pressure pulse of a fluid. An apparatus for carrying out a method for producing pressure pulses of a fluid comprises a venturi tube 1, made with a flowing part in the form of a rotating body, the diffuser part 2 of which has an opening angle of more than 15 °, inlet 3 and outlet 4 pipelines connected to the venturi tube 1. The device is equipped with electrodes 5 mounted on the outlet pipe 4 in the hinge joints 6 with the ability to move in the radial direction and at a given distance from the critical section. An apparatus for carrying out a method for producing pressure pulses of a liquid operates as follows. Fluid is supplied through the inlet pipe 3 to the inlet of the Venturi tube 1, after which it enters the exit pipe 4. When fluid passes through the flow part of the Venturi tube 1, a flow mode with periodically stalling cavitation is formed, provided by the opening angle of the diffuser part 2 and the ratio of the diameter of the outlet section output pipe 4 to the diameter of the critical section of the Venturi tube 1 is more than four. In this case, an annular cavity 7 is formed in the critical section and exits into the diffuser part 2, the diffuser part of which periodically opens and carries away downstream and collapses in the area of elevated pressure, causing pressure pulses 1.5-2 times higher than the pressure at the inlet. In the zone of collapse of the cavity 7, electropulse discharges are made between electrodes 5 with a frequency equal to their collapse frequency and coinciding in phase, which ensure the amplification of pressure pulses and the appearance of a spark cavitation bubble 8 in addition to the usual cavitation cavity 8. Thus, two additional impulse due to the occurrence and collapse of a spark bubble, which occurs under the influence of a shock wave that occurs when the cavity is collapsed 7. The distance from the critical section of a 1 V tube The venturi to electrodes 5 depends on the mode of operation of the device and is determined by the counting method according to the empirical dependence 54.69-f 0.98-f where PO is the pressure in the inlet pipe 3, Pa; p is the density of the liquid, f is the frequency of collapse of cavities, Hz; Cavity collapse frequency is determined from the ratio (| / 2. () VKP-YfT where p is the diffuser opening angle, deg; VKP is the critical section radius of the Venturi tube 1, m; Vc is the velocity of the liquid in the critical section, m / s; c - flow coefficient; Рвых-Р, cavitation parameter. РВЫХ - pressure at the outlet from diffuser 2, PS - pressure of saturated vapor. Pa. The invention allows to obtain pressure pulses of at least 500 N / mm due to non-spherical collapse of the cavity and two times more in the direction of the shock wave due to the energy redistribution of the collapse one caverns in one direction. Claim 1. A method for producing pressure pulses of a fluid, consisting in passing a liquid through a venturi to create a periodically stalling cavitation mode, characterized in that, in order to intensify technological processes by producing high and ultra high pulsating jets pressure and increase the frequency of the pressure pulses in the zone of collapse of cavities; at the exit in the fluid flow, electric pulse discharges are produced with a frequency equal to the frequency of collapse of cav Ern and coincident in phase. 2. A device for producing pressure pulses of a fluid containing a venturi tube, made with a flow-through part in the form of a body of revolution, and an inlet and outlet pipelines connected to the latter, the diffuser part of which has an opening angle of more than 15 °, and the ratio of the diameter of the output pipeline to the diameter of the critical section of the Venturi tube is more than four, characterized in that, in order to intensify technological processes by obtaining high-pressure and high-pressure pulsating jets, and increasing the frequency of the pressure pulses in the collapse zone of the cavities, it is equipped with electrodes pivotally mounted on the output pipeline with the possibility of moving in the radial direction enii. 3. A device according to claim 2, characterized in that the sliding electrodes are installed at a predetermined distance from the critical section.