SU1239275A1 - Arrangement for metered feed of chemical agents into well - Google Patents

Description

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The invention relates to the field of oil industry, in particular, to devices for metering chemical reagents into the well.

The purpose of the invention is to increase the metering accuracy and reduce the consumption of reagent.

Fig. I is a diagram of a device with a damping assembly of elastic material; figure 2 - the same, with a pneumatic damping unit.

A device for dispensing chemical reagents into the well is connected to a datang pump containing (FIGS. 1 and 2) cylinder 1 with a piston 2 placed in it, the upper part of which is made with through windows (not shown). The piston 2 is sealed relative to the cylinder (seals not shown). An injection valve 3 is placed in the piston cavity. The cylinder 1 ends with a face septum 4, in which the suction valve 5 is placed. The piston 2 is driven by a rod 6 of rods. The entire pump is suspended in a well on a tubing string (not shown). A pump inlet 7 is attached to the cylinder 1 of the pump, with through-holes 8 serving to enter the pumped liquid to the cylinder 1. A reagent tank 9 is attached to the inlet 7, which is a tubing string of a pre-calculated length, plugged at the bottom. A sealing element 10 is placed in the upper part of the container 9 in the area of its attachment to the receiving branch pipe 7, which seals this container and serves as a supporting element for the feeding tube 11. The latter is equipped with a replaceable fitting 12 (the optimum diameter of the connecting channel is 1-4 mm). The part of the tube placed in the reagent tank is perforated by the radial channels 13, and their number and diameter do not play a significant role. In the described constructions there are 2 holes each.

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Inside the tank is placed damping unit, which may have different designs. The damping 1st unit can be made in the form of a column 14 (FIG. 1) of an elastic material (for example, polyurethane or gas resistant

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239275 2

zines). At one end, the column 14 abuts against the sealing element .10, and the other end against the brass support 15, which is connected to the stem 16. Vertically, but by moving the support 15, it is possible to change the elastic force of the material and thereby regulate the amount of reagent supply during operation.

In addition, the damping assembly may be a cup 17 (FIG. 2) serving as a gas supply in which piston 18 with a stem 19 is placed. When the rod and piston are moved, the displacement volume of the cup changes

15 which also changes the supply of reagent during operation.

The device works as follows.

The tank 9 is filled with reagent at

20 surface, attach it to the suction inlet 7 connected to the cy-. lindrom 1 of the pump, and on the column of pump-compressor pipes is lowered into the well. In the well, the cavity of the receiving port 7 is filled with the well fluid and is settled, divided into water and oil, and due to the density difference the oil pops up and the water descends to the sealing

30 element 10 and forms a settling zone.

When the pump is operating in the cavity of the suction inlet 7, a cyclic (in tact) change of pressure occurs, neither under the action of a change in the dynamic fluid level. Oscillations of this pressure are transmitted through the opening of the interchangeable choke 12 into the cavity of the reagent tank 9. At higher pressure research institutes, the damping unit is compressed and stores energy from the settling zone of the receiving pipe through an opening 12 into the reagent tank a certain amount

45 of water, which, passing through the feeding tube 11, is lowered to the bottom of the reagent tank 9. As the water leaves the feeding tube, the reagent takes its place, which settles into the cutting chamber through the radial channels 13, i.e. The feeding tube serves as a fluid limiter.

As the pressure decreases, the damping node increases in volume, i.e. gives stored energy.,

The increase in this volume leads to the ejection of a portion of the agent into the cavity of the suction inlet, where it is picked up by the flow and enters the sucker-rod pump. Pressure transfer and reagent injection. through a hole in the interchangeable choke, designed so that when the sucker rod pump stops, there are no liquid flows through it. .

The technical advantages of the device proposed are as follows. The reagent tank is equipped with a damping unit, which allows the kinetic energy to be stored during the injection cycle, given away during the suction cycle. Such a solution makes it possible to inject the reagent by force and, which is very important, only during the operation of the pump. Forced injection expands the use of small cross-section nozzles, and this improves the accuracy of the dosage, which is important for the operation of low-flow wells, where small doses of reagent are required.

Since the damping unit stores energy in proportion to the production 39275

pump capacity (the higher the productivity, the more energy is stored), then the amount of injected reagent will be proportional to 5 capacity, which leads to the calculated match of the amount of produced fluid and reagent.

Since the JO sealing element separates the exchangeable spouting and perforation channels of the feeding tube, the flow of the reagent by gravity is prevented, since the cavity of the receiving branch pipe with the container for f5 of the reagent is communicated through one channel, designed in such a way that the spontaneous flow in it cannot meet, and the movement of liquids is possible only under 20 pressure.

All this leads to saving of expensive reagent. The regulation of the consumption of the reagent with the aid of the proposed device becomes possible with the smallest cyclic pressure changes at the pump intake, 6

0uz.2.

VNIIPI Order 3365/27

Produced polytr. pr-tie, Uzhgorod, st. Project, 4

Circulation 548 Subscription

Claims (1)

DEVICE FOR DOSED CHEMICAL REAGENTS SUBMISSION TO A WELL, including a reagent container with a sealing element and a feed tube installed in it with a replaceable fitting perforated by radial channels, characterized in that, in order to increase the metering accuracy and reduce the reagent consumption, it is equipped with a damping unit, placed in the reagent container, and a sealing member disposed between the replaceable nipple and perforations nutrition tion ¹ and tubes. th G0 C © GO ms ¹ 1239275 2