SU1439216A1 - Magnetic dispersing device - Google Patents

Abstract

The invention relates to the treatment of a gas-liquid stream by an alternating electromagnetic field. The goal is to increase the dispersion efficiency by providing the possibility of an electro-polarization effect on the gas-liquid flow. The device includes a housing 1 with a ring 2 which is concentrically mounted inside it with the possibility of rotation with an inner conical surface in the form of helically-arranged plates 3 with a section which narrows in the course of the flow. A ring magnet 4 is placed above ring 2. In case 1 above ring 4, ring sleeve 5 is tightly mounted, made of piezoelectric elements with conductive winding 6 around the perimeter and insulator 7 on the outer surface. The magnet 4 is fixed on the ring 2 and is made in the form of separate segments, the poles of the same name are facing each other. As it moves along the pipeline, the flow causes the ring 2 and the magnet 4 to rotate. Striking the plate 3, the liquid is sprayed in the gas stream and magnetized. Rotational-; e excites current flows that cause the sleeve 5 to deform. The piezoelectric effect occurs, the gas flow undergoes electro-polarization, resulting in the connection of the diffuse liquid with the gas flow. 1 il. and

Description

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The invention relates to the treatment of a gas-liquid stream by an alternating electromagnetic field.

The aim of the invention is to increase the dispersion efficiency by providing the possibility of an electropolarization effect on the gas-liquid flow.

The drawing shows a magnetic dispersant,

The magnetic disperser comprises a housing 1 with a ring 2 concentrically mounted inside it with a rotation 2 with an inner conical surface in the form of helically arranged plates 3 with a section narrowing along the flow and a ring magnet 4 placed above the ring 2 1 over an annular magnet 4 an annular bushing 5 made of piezoelectric elements with a conductive winding 6 around the perimeter and an insulator 7. on the outer surface, the ring magnet 4 being attached to the ring 2 and flax in the form of individual segments, the same poles of which are facing each other.

Magnetic disperser works as follows.

The gas-liquid flow passing through the pipeline causes the ring 2 to rotate and the ring magnet 4 inside the housing 1. Striking the plates 3, the liquid sprayed in the gas stream becomes magnetic and enters the internal cavity of the ring sleeve 5 and the current-carrying winding 6, the rotation of the ring magnet excites current in the wires, which leads to the deformation of the annular sleeve 5, there is a direct piezoelectric junction, i.e., the deformation is converted into electrical energy, the magnetic stream is additionally subjected to electropolarization, resulting in the relationship of the sprayed liquid with the gas stream.

To increase the stability of the resulting dispersion medium, a magnetic system is introduced from the piezoelectric element to generate electrical voltages,

In the electromagnetic field, free radicals appear in the atoms, which is a consequence of the knock-out of electrons from their orbits due to their loss in a magnetic field. In a multicomponent environment, this leads to

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connection of elementary particles of various kinds and contributes to the development of a stable dispersion medium, the molecules of which combine with each other.

When moving the conductor of electricity in a magnetic field, electric currents arise in it. If the piezoelectric element is placed inside the winding, then it is experiencing deformation. The deformation of the piezoelectric elements conducts to the direct piezoelectric effect, t, its polarization, the piezoelectric element in this case turns into a voltage capacitor. Since the flow of liquid and gas all the time during the operation of the well is in an alternating magnetic field and washes the piezoelectric element, this produces an effect on the particles of the flow of electromagnetic field lines.

At the same time, reservoir fluids due to the age-old effect of terrestrial telluric currents are pre-charged and seem to be natural electromagnets. The presence of pre-charged fluid increases the effect. The efficiency of the proposed device by the birth of new free radicals in the process of intensive electromagnetic treatment. The presence of free radicals in elementary particles contributes to the chemical combination of individual molecules and atoms at the molecular level.

During the operation of gas wells, the reservoir fluid (water, condensate, etc.,) makes up no more than 5-10% of the total daily volume of gas produced. If this fluid is not removed from the bottom, then there is a gradual accumulation of fluid in the filter zone and the effect of hydrostatic pressure on the formation increases. This leads to a flood of gas wells. In addition, the gas production volume gradually decreases over time, which ends with the cessation of gas supply. The technical solution avoids the accumulation of fluid in the bottomhole by timely removal of the incoming fluid from the bottom.

In the middle of a cylindrical vessel magnetic rings are placed (3 pieces, of rare-earth magnets (power 10 kgs / cm field), and above the magnets they place an annular piezoelectric element with a coiled winding fed from

1.5 V batteries, 1.5 liters of water is poured into the vessel, 50 g of a foaming powder is added with a volume of 3 liters. This mixture is then broken for 10-30 seconds. The evaluation of the electromagnetic effect is carried out on the stability of the foam mixture. In the absence of an electromagnetic effect on the mixture, the redemption of the foam occurred up to 3 minutes. Under electromagnetic treatment, the stability of the foam increases to 5-9 minutes, which is a positive effect of the electromagnetic treatment on the gas-liquid mixture.

Claims (1)

Invention Formula A magnetic dispersant comprising a housing with concentrically mounted inside and rotatably five 0 a ring with an inner conical surface in the form of helically-arranged plates with a cross-section narrowing downstream and a ring magnet placed above the ring, characterized in that, in order to increase the dispersion efficiency by providing an electro-polarizable capability. impact on the gas-liquid flow, it is provided with an annular bushing tightly mounted in a housing over an annular magnet, made of piezoelectric elements with a conductive winding around the perimeter, and an insulator on the outer surface, the annular magnet attached to the ring and made as separate segments, whose poles of the same name are facing each other.