SU1481485A1 - Fluid-jet pump - Google Patents

Abstract

The invention relates to inkjet technology and can be used in the preparation of aerated media for carrying out well operations. The purpose of the invention is to increase work efficiency by improving the mixing of the active liquid with the passive gaseous medium. The jet pump includes a housing (K) 1, a nozzle 2, a channel 3 for supplying a passive medium, a diffuser 4 and an oscillating element (CE) 5 with a toroidal vortex chamber (TCE) 6 installed in K 1 with the possibility of displacements along its axis. CE 5 is axially spring-loaded and located behind the diffuser 4. Net diaphragms 7 are installed at the ends of TCE 6. The mixture of active liquid and passive gas at the outlet of the diffuser 4 passes through CE 5, which is under the action of hydrodynamic shocks and vortex pulses inside TCE 6, in self-oscillation mode. Due to this, gas bubbles are crushed and in the form of fine particles are carried into the well with a stream of liquid.

Description

UNION OF ADVISORS.

SOCIALIST REPUBLINS

SU 1481485 A1

STATE COMMITTEE ON INVENTIONS AND OPENINGS AT GNST USSR

DESCRIPTION OF THE INVENTIONS

TO AUTHOR CERTIFICATE (21) 4302914 / 25-29 (22) 08.09.87 (46) 05/23/89. Bull. No.19 (71) Ivano-Frankivsk Institute of Oil and Gas (72) A.M. Abdulzade, R.S. Yaremiichuk,

A.I.Spivak and N.A. Efimov (53) 621.694 (088.8) (56) USSR Copyright Certificate No. 1431437, cl. F 04 F 1/00, 1986.

(54) Inkjet pump (57) The invention relates to inkjet technology and can be used in the preparation of aerated media for well operations. The purpose of the invention is to increase operating efficiency by improving the mixing of the active liquid with a passive gas medium. The jet pump comprises a housing (K) 1, a nozzle 2, a passive medium supply channel 3, a diffuser 4 and an oscillating element (CE) 5 with a toroidal vortex chamber (TCE) 6 installed in K 1 with the possibility of movement along its axis. CE 5 is spring loaded in the axial direction and is located behind the diffuser 4. Mesh diaphragms 7 are installed at the ends of the TVC 6. A mixture of active liquid and passive gas exits diffuser 4 through CE 5, which is under the influence of hydrodynamic shock and vortex pulsed vibrations inside TCE 6, _s in self-oscillation mode. Due to this, gas bubbles are fragmented and carried out in the form of small particles into the well with a fluid stream. 1 ill.

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The invention relates to inkjet technology and can be used in the preparation of aerated media for downhole one-$ radios.

The purpose of the invention is to increase work efficiency by improving the mixing of the active liquid with a passive gas medium.

The drawing shows a pump, a longitudinal section.

The jet pump comprises a housing 1, a nozzle 2, a passive medium supply channel 3, a diffuser 4 and an oscillating element 15 with a toroidal vortex chamber 6, mounted in the housing 1 with the possibility of movement along. its axis. The oscillating element 5 is spring loaded in the axial direction, 20 is located behind the diffuser 4 along the flow and is equipped with elastic mesh diaphragms 7 located at the ends of the toroidal vortex chamber 6.

The jet pump operates as follows 25.

Through the nozzle 2, liquid is supplied under pressure, and through the channel 3 a passive medium (gas). Streams are mixed. At the outlet of the diffuser, the mixture passes through an oscillating element 5, consisting of a toroidal vortex chamber 6, closed on both sides by elastic mesh diaphragms 7.

Under the influence of hydrodynamic shock and vortex pulsed oscillations occurring inside the vortex chamber 6, the element 5 oscillates in the mode of self-oscillations. Due to this, gas bubbles are fragmented and carried out in the form of small particles into the well with a fluid stream.

The efficiency of the device is ensured by the sequential passage of the mixture through the elastic mesh diaphragms and the vortex chamber, which are in the flow in an oscillatory mode.

Claims (1)

Claim A jet pump comprising a housing, a nozzle, a passive medium supply channel, a diffuser and an oscillating element with a toroidal vortex chamber mounted in the housing with the possibility of movement along its axis, characterized in that, in order to increase work efficiency by improving the mixing of the active liquid with the passive gas medium, the oscillating element is spring loaded in the axial direction, located behind the diffuser along the flow and is equipped with elastic mesh diaphragms located at the ends of the toroidal vortex ₍ chamber.