SU933951A1 - Deep-well metering-out device - Google Patents

Description

The invention relates to techniques for oil production, in particular to devices for dispensing chemical products into a well to prevent corrosion of equipment, deposition of paraffin and salts, the formation of * stable oil and water emulsions, and to reduce the viscosity of well products.

Known dispenser, including container pipes with holes for inlet of the well fluid, a piston sealed in the pipes, a bottom, a pipe for releasing a chemical product and a filter of porous material to limit the consumption of chemical product [Ί J..

The disadvantage of this dispenser is the inability to automatically control the flow of the dosed chemical product in a given mode. It allows dosing only _Λ with a gradual decrease or increase in the consumption of a chemical product as its level in container pipes decreases. If the density of the chemical product is higher than the density of the well fluid, then its flow rate decreases with time, if its density is lower, then the flow rate increases. This mode of supply is not optimal and does not allow to bring the flow rate of the chemical product in accordance with the regime and the changing operating conditions of the well. Closest to the proposed invention is a deep dispenser, including a container for the reagent with holes in the upper and lower parts for the inlet of the borehole fluid and the release of the reagent, a piston with a node for ensuring proportional outflow of the reagent, and a filter [2J. However, the dispenser does not provide sufficient reliability when using reagents with different densities.

The purpose of the invention is to increase the reliability of the dispenser when using reagents with different densities.

933951 4

This goal is achieved by the fact that the unit for ensuring proportional outflow of the reagent is made in the form of a cylinder with a spring-loaded spool and a membrane fixed at one end to the spool and the other to the vessel wall, with side windows made in the cylinder and openings communicating the borehole space in the spool walls with to capacity for reagent.

The drawing shows a depth dispenser.

The downhole dispenser includes a reagent tank 1, which has a lid 2 in the upper part with openings 3 for inlet of the well fluid, and in the lower part of the bottom 4 with an opening 5 for reagent discharge. In the container 1, a piston 6, d is installed above the reagent, and in the lower part of the container there is a unit for ensuring proportional outflow of the reagent, made in the form of a cylinder 7 with a spring spring 8, a spool 9 and a membrane 2 $ 10, which is fixed at one end to the spool 9, and to the other, in the wall of the container 1. Above the bottom 4, with the help of the sleeve 11, a support 12 and a filter 13 are fixed. In the support 12, eo holes 14 are made, communicating the internal cavity of the filter 13 with a cavity above the membrane 10.

In the cylinder 7, side windows 15 are made, communicating the internal cavity of the filter 12 with the internal bore of the cylinder, and in the spool there are calibrated openings 16. Before lowering into the well, the dispenser is adjusted to a predetermined mode of operation, filled with reagent (chemical product) and attached to the pump filter or the descent column pipes.

The dispenser is set to the specified mode by changing the diameter, number and relative position of the calibrated holes and the compression force of the spring, taking into account the viscosity and density of the reagent, in the conditions of the well and the density of the borehole fluid. The spring is compressed so that it can lift the spool 9 with the membrane 10 to the extreme upper position if the container pipes are completely filled with a liquid of lower density, but lowered them to the lowest position if the container pipes are filled with a denser liquid.

The dispenser works as follows.

If the density of the chemical product is higher than the borehole fluid, then after lowering it to the installation depth under the influence of the weight of the chemical product and the piston, the membrane 10 bends down, compressing the spring 8, and the spool 9 occupies the extreme position. The chemical product passes through open calibrated holes 16 into the central channel of the spool 9 and through the hole 5 in the bottom 4 enters the well production. As the level of the chemical product in the tank 1 decreases, its pressure decreases and under the action of the spring 8 of the spool 9 moves upward, raising the membrane 10. Moreover, the holes 16 of the spool open and close sequentially, providing the chemical product in a given mode.

If the density of the chemical product is lower than that of the well fluid, then initially the membrane 10 with the spool 9 occupies the highest position, and, as the level of the chemical product decreases, they move downward, also automatically adjusting the chemical product supply to the well production.

Technical and economic efficiency consists in reducing material costs in oil production by reducing the consumption of expensive reagents and increasing the overhaul period of the well.

Claims (1)

The invention relates to a technique for oil extraction, in particular, devices for the dosed supply of chemical products into a well to prevent equipment corrosion, wax and salt deposition, to form stable emulsions of oil and water, and to reduce the viscosity of a well’s production. A dispenser is known that includes container pipes with openings for the inlet of a well fluid, a piston sealed in pipes, a bottom, a chemical product outlet pipe and a filter of porous material to limit the chemical product consumption pj. The disadvantage of this dispenser is the inability to automatically control the flow rate of the dispensed chemical product in a given mode. It allows dosing only with a gradual decrease or increase in chemical product consumption as its level in container pipe decreases. If the chemical product density is greater than the density of the well fluid, its consumption decreases with time, if its density is lower, the consumption increases. This feed mode is not optimal and does not allow the chemical product flow to be adjusted to the mode and changing conditions of the well operation. Closest to the proposed invention is a submersible dispenser comprising a reagent tank with openings in the upper and lower portions for entering the well fluid and discharging the reagent, a piston with a unit for ensuring proportional flow of the reagent and a filter 2J. However, the dispenser does not provide sufficient reliability when using reagents with different densities. The purpose of the invention is to increase the reliability of the dispenser when using reagents with different densities. This goal is achieved in that the unit for ensuring proportional flow of the reagent is made in the form of a cylinder with a spring-loaded valve and a membrane fixed at one end on the valve and the other in the vessel wall, with side windows in the cylinder, and holes in the wall of the valve with a reagent tank. The drawing shows a deep dispenser. The dosing dispenser includes a reagent tank 1 having a cover 2 with openings 3 in the upper part for entering the well fluid, and a bottom j in the lower part with an opening 5 for releasing the reagent. In the tank 1, a piston 6 is installed above the reagent, and in the lower part of the tank there is a unit for ensuring proportional flow of the reagent, made in the form of a cylinder 7 with a spring-loaded spring 8, a spool 9 and a membrane 10, which is fixed at one end to the spool 9 "Ke container 1. Above the bottom 4 by means of the coupling 11, the support 12 and the filter 13. 8 of the support 12 are made holes 1 (indicating the internal cavity of the filter 13 with the cavity above the membrane 10. In the cylinder 7 there are side windows 15, indicating the internal cavity of the filter 12 s extra Before the launch into the well, the dispenser is adjusted to the specified mode of operation, filled with reagent (chemical product) and connected to the pump filter or the descending column of pipes. by changing the diameter, the number and mutual positioning of the calibrated orifice and the spring compressive force, taking into account the viscosity and viscosity of the reagent, in wells (wells and borehole fluid density). The spring is compressed in such a way that it can lift to the extreme upper position of the gold pin 9 with the membrane 10, if the container tubes are completely filled with a lower density fluid, but have lowered them to the extreme lower position, if the container tubes are filled with a denser fluid. The dispenser works as follows. If the density of the chemical product is higher than that of the well fluid, then after lowering it to the installation depth under the action of the weight of the chemical product and the piston, the membrane 10 bends downward, compressing the spring 8, and the spool 9 occupies the extreme position. The chemical product passes through the open calibrated holes 16 into the central channel of the spool 9 and through the hole 5 in the bottom C enters the production of the well. As the level of the chemical product in the tank 1 decreases, its pressure decreases and under the action of the spring 8, the spool 9 moves upwards, raising the membrane 10. In this case, the holes 16 of the spool open and close in succession, ensuring the chemical product is supplied in the specified mode. If the chemical product density is lower than that of the well fluid, then the TO membrane with spool 9 initially occupies the uppermost position, and as the chemical product level decreases, they move downwards, also automatically adjusting the chemical product supply to the well production. Technical and economic efficiency is to reduce material costs in oil production by reducing the consumption of expensive reagents and increasing the turnaround time of the well. DETAILED DESCRIPTION OF THE INVENTION Deep well dispenser including a reagent tank with openings in the upper and lower parts for entering the well fluid and discharging the reagent with different density, the unit for ensuring the proportional flow of the reagent is made in the form of a cylinder with a spring-loaded slide valve and a membrane fixed at one end on the slide valve and the other in the wall bones, with side windows in the cylinder, and in the walls of