RU2681773C1 - Self-cleaning well filter - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to the mining industry and can be used for the equipment of oil and water wells in the interval of the productive formation. Device includes a frame made of non-magnetic material with holes and annular permanent magnets installed at a distance from each other, a filter jacket in the form of autonomous sections with a winding, lining elements in the form of support rods and connecting elements. Winding of the perforated frame jacket is formed by the inner and outer layers in the form of a non-magnetic nylon cord of a trapezoidal or wave profile. Inner layer of the winding is formed by coils located at a distance from each other. Outer layer of the winding is formed by coils tightly spaced to each other or in the form of a synthetic fabric mesh. Connecting elements are made in the form of upper and lower subs. Filter is equipped with a supporting non-magnetic rod located inside and coaxially to the frame. On the bearing non-magnetic rod there is a spacer sleeve made of a non-magnetic material and a slide bearing, on which annular permanent magnets are mounted, made rotating with inclined ribs. Holes of the frame are made at an angle, the axis of symmetry of the holes forms a sharp angle with the axis of a vertically installed filter, varying from 45 degrees to 90 degrees in the lower part and reflected from 90 degrees to 45 degrees in the upper part of the filter.EFFECT: filtration quality, reliability and durability are improved.1 cl, 4 dwg

Description

The invention relates to the mining industry and can be used for equipment of oil and water wells in the interval of the reservoir.

Known downhole filter made of polyethylene or propylene (RF Patent No. 2258786, published 08/20/2005. IPC E04B Z / 18) with a flushing filter coil, the filter housing is non-magnetic, perforated frame with supporting rods and turns of wire.

The disadvantage of this filter is that during operation, its filtering holes are overgrown with calcium or magnesium bicarbonates (hydrogeological wells), heavy oil fractions (oil wells), which leads to premature clogging and failure of the filter.

A well-known well filter adopted for the prototype made of a non-magnetic perforated frame (RF Patent No. 2478775, published November 10, 2012 IPC E21B 43/08), filter windings of a non-magnetic cord and ring permanent magnets located on the outer surface of the filter.

A disadvantage of the known filter is that after installing the filter on the bottom, the space between the magnets - centralizers - is filled with particles of the reservoir, while the filter becomes not removable, in addition, the diametric dimensions (inner and outer) of the ring magnet lead to the need to reduce the diameter of the pipe downhole filter in relation to the diameter of the drilled well, which leads to a decrease in the surface of the filter and ultimately leads to a decrease in its productivity. Calculations also show that, depending on the coercive force, magnetic field strength, size (width) and the distance between the ring magnets, they (magnets) can cover up to 30% of the useful filtering area of the filter, which further reduces its performance.

The objective of the invention is to provide a downhole filter with self-cleaning, easy to operate, not associated with a power source and having a maximum specific flow rate.

The technical result - improving the quality of filtration of mechanical impurities, as well as preventing clogging of the filter elements with the exclusion of clogging during operation.

The task is achieved due to the fact that the borehole self-cleaning filter, including a frame made of non-magnetic material with holes and ring permanent magnets mounted at a distance from each other, a filter jacket in the form of autonomous sections with a winding, gasket elements in the form of supporting rods and connecting elements, the winding of the filter jacket of the perforated frame is formed by the inner and outer layers in the form of a non-magnetic nylon cord of a trapezoidal or wave profile , the inner layer of the winding is formed by turns located at a distance from each other, the outer layer of the winding is formed by turns tightly located to each other or in the form of a synthetic fabric mesh, the connecting elements are made in the form of upper and lower sub, and the upper sub is made as left-right, in the lower part of the filter there is a sump connected to the lower sub and the flushing valve, the distance between the ring permanent magnets is determined depending on the coercive force and is the magnetic field, and the turns of a non-magnetic nylon cord of the inner layer of the winding laid on the perforated frame with a smaller base of the trapezoidal profile, the filter is additionally equipped with a non-magnetic core located inside and coaxially to the frame, a spacer sleeve of non-magnetic material and a sliding support are located on the non-magnetic core annular permanent magnets rotated with inclined ribs are mounted, the frame holes are made at an angle, the symmetry axis of the holes Indicates the angle with the axis of the vertically mounted filter, varying from 45 degrees to 90 degrees at the bottom and mirrored from 90 degrees to 45 degrees at the top of the filter.

The sliding support is made of material like "Oily"

In FIG. 1 shows a general view of a self-cleaning filter.

In FIG. 2 shows the formation of force F from an upward flow of fluid.

In FIG. 3 shows a torque turning a ribbed magnet.

In FIG. 4 shows a simulation of a stream of liquid jets.

Self-cleaning well filter, including a frame 1 made of non-magnetic material with openings 5 and annular permanent magnets 4 mounted at a distance from each other, a filter jacket in the form of autonomous sections with a winding 6, spacer elements in the form of supporting rods 12 and connecting elements made in in the form of the upper 10 and lower 7 of the sub, with the upper sub 7 being left-right, the winding of the filter jacket 6 of the frame 1 is formed by the inner 14 and outer 6 layers in the form of non-magnetic caprons of the trapezoidal or wave profile cord, the inner layer 14 of the winding is formed by turns located at a distance from each other, the outer layer 6 of the winding is formed by turns tightly located to each other or in the form of a synthetic fabric mesh, in the lower part of the filter there is a settler 8 connected to the lower sub 7 and flushing valve 9, the distance between the ring permanent magnets 4 is determined depending on the coercive force and magnetic field strength, and the turns of a non-magnetic nylon cord external about the layer 6 of the winding laid on the frame 1 with a smaller base of the trapezoidal profile. The filter is additionally equipped with a non-magnetic bearing rod 13 located inside and coaxial to the frame 1. On the non-magnetic bearing rod 13 there is a spacer sleeve 2 of non-magnetic material and sliding support 3, on which ring permanent magnets are mounted 4, made rotating with inclined ribs 11, the holes 5 of the frame 1 are made at an angle, the axis of symmetry of the holes 5 forms an angle with the axis of the vertically mounted filter and varies from 45 g dusov to 90 degrees at the bottom of the mirror and from 90 degrees to 45 degrees at the top of the filter.

Slide support 3 is made of a material of the type “Oily”

Elements of a downhole self-cleaning filter are made of non-magnetic materials: filter pipes based on aluminum, bronze, brass alloys, perforated polyethylene or propylene pipe, non-magnetic support rods, nylon or nylon cord. The external filter element may be a synthetic fabric mesh or a tightly wound nylon cord.

The decrease in the hydrostatic resistance of the fluid flow occurs due to the fact that the non-magnetic frame has openings located at an angle, and the axis of symmetry of the slots forms an angle with the axis of a vertically mounted filter, and the angle of inclination of the holes varies proportionally from 45 ° to 90 ° in the lower part and is mirrored 90 degrees to 45 degrees at the top of the filter. Modeling the hydraulic flow with colored liquid jets made it possible to establish precisely these angles of approach and exit of the liquid to the holes at the time of pumping water from the filter. Permanent magnets are located inside the filter with inclined ribs and are made rotating with a sliding support of the type "Maslyanit".

The well filter works as follows: When the pump is pumped out, the fluid passes through holes 5 in the frame 1 of non-magnetic material and is magnetized by ring permanent magnets 4. When water crosses the magnetic lines of force of permanent magnets 4, cations of hardness salts are not released on the surface of the filter jacket 6, but the mass of water that has already passed it due to the fact that the magnetic field polarizes the cation molecules of the hardness salts contained in the water, and splits them into ions. The positively charged ions do not rejoin into calcite molecules, they form a more porous compound aragonite, which is easily destroyed and washed with the flow of water from the internal volume of the filter.

The mechanism of nucleation of crystals under the action of a magnetic field occurs as follows. A magnetic field exerts an orientationally polarizing effect on water dipoles, as a result of which a change in the structure of water occurs, consisting in a change in the type of coupling of water dipoles to each other; a double hydrogen bond appears instead of a single bond and, as a result, the deposition of hardness salts on the surface of the filter jacket of the filter does not occur.

The result of the filter’s colmatization is the approximation of hydrated Ca ²⁺ and CO ₃ ions and the formation of the corresponding ion combinations, and later on the molecules. The Ca ²⁺ and Co ₃ ^ions in the solution attach to these germinal molecules, local densifications — supersaturations, which ultimately become crystallization centers — form. The precipitation of colmatants on the filters of hydrogeological wells is associated with a violation of chemical equilibrium in the reservoir and occurs during the selection of groundwater. The violation of chemical equilibrium is determined by the desorption of free carbon dioxide due to changes in its partial pressure. As a rule, co-colmatant is multicomponent, it contains calcite Ca (C0 ₃ ), contains Fe (C0 ₃ ), magnesite Mg (C0 ₃ ), pyrite FeS ₂ , pyrolusite Mn0 ₂ and other sparingly soluble compounds that clog the filter jacket to the well out of service. It is possible to eliminate deposits of colmatant, increase the specific flow rate of wells and intensify the process of water extraction through the filter of hydrogeological wells due to the proposed design of the well filter, that is, to influence the cations of hardness salts with a constant magnetic field.

Water moving upward inside the filter, passing through ring permanent magnets, is magnetized as many times as there are magnets mounted inside the filter. A constant magnetic field changes the distribution of electron clouds of ions and polarizes the electron clouds of water molecules. In this case, the interaction energy of ions with the nearest water molecules changes, their polarization occurs, which leads to a change in the structure of water as a whole and, as a result, deposits of colmatant on the filter surface of the filter do not occur.

A slowly rotating constant alternating magnetic field creates an effect on the liquid and thereby the magnetization effect is enhanced.

Claims (1)

A self-cleaning downhole filter, including a frame made of non-magnetic material with holes and ring permanent magnets mounted at a distance from each other, a filter jacket in the form of autonomous sections with a winding, spacer elements in the form of support rods and connecting elements, the winding of the filter shirt of the perforated frame is formed by an inner and the outer layers in the form of a non-magnetic nylon cord of a trapezoidal or wave profile, the inner layer of the winding is formed by turns, distributed laid at a distance from each other, the outer layer of the winding is formed by turns tightly located to each other or in the form of a synthetic fabric mesh, the connecting elements are made in the form of upper and lower sub, and the upper sub is made as left-right, at the bottom of the filter there is a settler connected to the lower sub and the flushing valve, the distance between the ring permanent magnets is determined depending on the coercive force and magnetic field strength, and the turns of the non-magnetic capr the new cord of the outer layer of the winding is laid on the frame with a smaller base of the trapezoidal profile, characterized in that the filter is additionally equipped with a non-magnetic supporting rod located inside and coaxially to the non-magnetic core, a spacer sleeve of non-magnetic material and a sliding support are located on which ring permanent magnets are mounted made rotating with inclined ribs, the holes of the frame are made at an angle, the axis of symmetry of the holes forms an angle with the axis of the vertically mounted filter tra, varying from 45 degrees to 90 degrees at the bottom and mirrored from 90 degrees to 45 degrees at the top of the filter.

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