SU1335681A1 - Filter of geoprocess well - Google Patents

Abstract

The invention relates to the operation of geotechnological wells and increases the efficiency of operation of the filter by increasing the permeability of the bottomhole zone and the reliability of the filter due to the non-contact excitation of the disks. The filter includes a clutch 1 and disks connected by a stitch 5, (D) 2. The latter are made hollow and filled with magnetic material. B as a source of oscillations in the cavity (L 00 00 СЛ о: оо

Description

filter placed Electromechanical transducer containing the emitter 6 magnetic field, made with the windings 7 of the excitation, magnetic. House 8 and a protective casing of non-magnetic material. The emitter 6 of the magnetic field is placed in the cavity of the package D 2 and include an alternating current source. Plates 3 of magnetic material, located in the body of the disks

one

The invention relates to the exploitation of geotechnological wells and can be used to increase filter performance and increase the permeability of the well bottom zone.

The purpose of the invention is to increase the efficiency of filter operation by increasing the permeability of the bottom zone and the filter reliability due to the non-contact excitation of the disks.

FIG. 1 shows a filter diagram for geotechnological wells in the working CONDITION; in fig. 2 is a schematic diagram of an electromechanical converter.

The filter of a geotechnological well contains a sleeve 1, disks 2, in which body plates 3 of magnetic material are placed, nipple 4, stitch 5, electrotechnical converter containing magnetic field emitter 6, made with excitation windings 7, magnetic conductor 8 and protective casing 9 from nonmagnetic material and connected via connector 10 with cable 11 to AC power source 12.

Filter geotechnological wells works as follows.

The magnetic field emitter 6 is placed in the cavity of the filter disk pack 2 and includes an alternating current source 12. The plates 3 of magnetic material, located in the body of the disks 2 and intersecting the power lines 13 of the alternating magnetic field of the radiator 6 (Fig. 2), excite mechanical vibrations of the filter discs with a frequency of the alternating magnetic field of the 2 and crossing the power lines of the alternating magnetic field of the radiator 6, excite mechanical oscillations of D 2 with the frequency of the alternating magnetic field of the radiator. When the radiator moves along the filter axis, the prevailing direction of mechanical oscillations and, consequently, the direction of oscillations of the fluid, changes. 3 hp f-ly, 2 ill.

The radiator, the direction 14 of the force applied to this disk and causing its oscillation, coincides with the direction of the force lines of the magnetic 5 field of the radiator, crossing plates of magnetic material, placed in this disk. When the radiator moves along the axis, the prevailing direction of mechanical oscillations of individual disks and, consequently, the direction of fluid oscillations in the interdisk space and the bottom hole zone changes, which significantly prevents the clogging and sedimentation of solid particles. in the interdisk space.

As exciters of mechanical oscillations of the disks, straps 5 made of magnetic material can also be used, while the design of the magnetic field emitter remains the same.

Significantly increases the efficiency of the filter when using discs made entirely of polymeric material, in which the filler is powder from ferro materials with high magnetic permeability or high residual magnetization, as this increases the volume of magnetic material involved. during the excitation of mechanical oscillations of the filter discs.

The geotechnological well filter works both in constant and periodic modes.

The power of the radiator can come from both an industrial AC network and a special

source, having the ability to control the amplitude and frequency of the output pulses, which allows you to select the most effective filter operation mode for a given geotechnological well.

Claims (4)

1. A geotechnological well filter, including a sleeve, connected in series coaxially with each other by means of rigid disks and a source of oscillations, characterized in that, in order to increase the efficiency of the filter operation by increasing the permeability of the bottomhole zone and the reliability of the filter due to non-contact excitation of the disks, - the last ones are made hollow and filled with magnetic material, and as a source of oscillations in the filter cavity 0 g p an electromechanical transducer is located having an emitter of an alternating magnetic field installed with the possibility of its magnetic field intersecting magnetic field of magnetic material in the disks, with the emitter axis parallel to the line connecting the centers of the disks. 2. A filter according to claim 1, characterized in that the disks are made of a polymeric material and are filled with a powder of ferromaterials with a high permeability magnet or high residual magnetization. 3. Filter on PP. 1 and 2, which is based on the fact that the disk straps are made of magnetic material. 4. Filter on PP. 1 and 2, characterized in that plates are made of a magnetic material. Compiled by N.Rudenko Editor M.Blanar Tehred V.Kadar Proofreader, A.T. Order 4027/28 Circulation 532. Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. d., 4/5 Production and printing company, Uzhgorod, st. Project, 4