SU973802A1 - Deep-well filter - Google Patents

Description

The invention relates to the mining industry, and more specifically to the oil and gas industry, and can be used, in particular, to filters for boreholes. The design of the filter () is known both with one water intake filtering surface (for example, perforated pipe, wire winding on a core frame, etc.) and with two filter surfaces that contain, in addition to a perforated tubular frame, a second filter surface tf6vna winding or grid 1J. The disadvantages of the known filters are that they do not prevent the sanding of the sand, i.e. suffusion sand removal during installation and operation of a water-lifting pump directly in their cavity. Closest to the invention, a downhole filter containing a perforated frame with an equalizing filtering insert with a variable length of 21 is installed on it. A disadvantage of the known technical solution is that when the pump is located in the filter cavity, any placement of holes in the insert does not exclude the effect of high velocities, inflow in the zone against the inlets of the pump. At that, since the diameters of the insert holes can be performed without taking into account the granulometric composition of the water-bearing rock and the average diameter of its particles, the latter are driven into the holes and increase the hydraulic resistances on the insert, which under the new conditions cannot pass through the required flow, and the equalizing ability the insert is broken. The well filter undergoes mechanical and chemical smacking, and therefore loses its functional purpose more quickly. The purpose of the invention is to prevent sandblasting of the well when the pump is located in the cavity of the filter.

The goal is achieved by the fact that the middle part of the equalizing filter insert is made deaf in proportion to the length of the pump, and the duty cycle of the sections of the equalizing filter insert located on both sides of the (low part) increases in the direction from the deep part to the end of the insert with a maximum squastern equal to the porosity of the nonperforated frame.

The drawing shows the well

.

The middle part of the equalizing filter insert is made in the form of a blank part 1, slightly longer than the length of the pump 2 placed on the water-lifting pipes 3. The sections 4 of the leveling filter insert are located on the junction on both sides of the blank part 1, 1, in the form of, for example, wire winding with variable pitch. The equalizing filter insert is installed on the corresponding section of the perforated frame 5 against the suction ports 6 of the pump 2. The installation of the equalizing filter BCTaBioi takes place immediately when the production filter column is assembled before it is lowered into the well.

When the pump is operating, the filtration flow around part 1. of the insert and directed from both sides to equalizing filtering sections 4, the variable duty cycle of which equalizes the velocities along the length of the filter and thereby reduces them to a value smaller than the critical one. Then the flow of fluid through the perforated frame 5 penetrates into the cavity of the well, is sucked by the pump 2 through the windows 6 and is fed to the surface through the water lift 1e of the pipe 3

In this case, the equalizing filter insert performs the functions of a hydraulic flow distributor and the filtering surface is second in relation to; To the well filter. As a result, rock particles do not block up.

equalizing insert and its permeability is maintained in time.

The duty cycle of section 4 of the equalizing filter insert is increased by the required minimum value, i.e. one that provides a flow rate not exceeding the critical one for a given water-containing rock, up to the porosity of the perforated frame, which is also designed for this condition.

With such a well filter, the number of pump replacements is reduced by two units and, thus, savings are expressed in two operations to replace the pumps in the well by a crew using a drilling unit or a truck crane and two overhauls of the pumps. In monetary terms, this amounts to up to 250 thousand rubles. for every 100 wells.

Claims (2)

1.Gavril to V.M. and others. Drill hole filters. M., Nedra, 1976, with .. 8-9. 2. US patent number 3450207, cl. 166-233, published. 1969 (prototype)