RU2482264C1 - Dosed chemical reagent supply device - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: device includes a chemical reagent tank with a hollow drain reagent line equipped with a connection pipe with a calibrated opening, for supply of chemical reagent to the cavity of the product line and the gas accumulation chamber for its being supplied with a gas line from the cavity of the product line to the chemical reagent tank. The gas line is equipped with a gate valve and directly connects the gas accumulation chamber to the product line equipped from the inside with an injector, and from the outside with a cylindrical casing that is interconnected through the holes in the product line with the ejector low pressure chamber; at that, cylindrical casing is interconnected at their inlet openings with the reagent line connected from below to the tank and equipped with the gate valve, into which a connection pipe is inserted.

EFFECT: increasing mixing efficiency and dosing accuracy.

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Description

The invention relates to the oil and gas industry, in particular to devices for the dosed supply of liquid reagents to oil or gas pipelines or during thermal and steam treatment of a bottom hole in order to increase well productivity.

A device for the dosed supply of a chemical reagent (RF patent No. 20744950, IPC 8 ЕВВ 43/00, published on 04/21/1992), including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product pipeline, a gas storage chamber with calibrated hole.

The disadvantage of this device is the dependence of the feed rate of the reagent on its quantity, that is, the smaller the reagent, the faster it flows.

Also known is a device for the dosed supply of a liquid reagent (RF patent No. 2312974, IPC 8 ЕВВ 37/06, F17D 1/16, published in bulletin No. 35 dated 12/20/2007), including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent into the cavity of the product pipeline, a gas storage chamber for supplying it from the cavity of the product pipeline to the chemical reagent tank, a gas pipeline with a differential pressure stabilizer made in the form of a separate partition with a calibrated hole located in the upper part of the gas pipeline, the partition is installed with the possibility of moving over a distance, providing a constant column of chemical reagent for hydraulic resistance to the bubbles of the pop-up gas, and a siphon with an outlet pipe, in which the partition with a calibrated hole is also installed with the possibility of forced movement. The gas accumulation chamber is made in the form of a vertical cylindrical container, in the middle part of which there is a siphon made in the form of transverse sealed upper and lower partitions with a hollow sleeve concentrically mounted relative to the cylindrical container, which is sealed relative to the lower partition connected to the upper part of the gas pipeline, while gas accumulation at the bottom outside of the hollow sleeve is in communication with the chemical reagent tank with a hollow drain reagent line, and inside the hollow sleeve with duktoprovodom outlet pipe directed downwardly through the bottom partition, the cavity gas accumulation chamber located above the upper partition, communicates with the top of the container for the chemical agent.

The disadvantage of this device is that to change the parameters of the supply of a chemical reagent into the product pipeline, it is necessary to change the distances depending on the structural dimensions of the device, which is very difficult to achieve.

The closest in technical essence is a device for the dosed supply of a liquid reagent (RF patent No. 2161242, IPC 7 ЕВВ 37/06, F17D 1/16, published in bulletin No. 36 dated 12/27/2000), including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product line and a gas storage chamber for supplying it from the cavity of the product line to the container for the chemical reagent, while the device is equipped with a gas line with a differential pressure stabilizer made in the form of a separate partition with calibrated with a hole in the upper part of the gas pipeline, while the partition is installed with the possibility of its forced movement to a distance that provides a constant reagent column for hydraulic resistance to the bubbles of the pop-up gas, and the hollow drain reagent pipe is made in the form of a siphon, in the outlet part of which the partition is also forced to move with calibrated hole.

The disadvantages of this device are:

- firstly, the low accuracy of dosing the chemical reagent from the tank into the product pipeline, since there is no adjustment device that allows you to dose the chemical reagent into the product pipeline;

- secondly, low mixing efficiency, since the chemical reagent enters the main stream of the product pipeline from the tank by gravity, from where it is carried away by the main stream of the product pipeline.

An object of the invention is to increase the efficiency of mixing a chemical reagent in a product pipeline before pumping a mixed product into a well, as well as improving the accuracy of dosing a chemical reagent from a tank into a product pipeline.

The stated technical problem is solved by a device for the dosed supply of a chemical reagent, including a container for a chemical reagent with a hollow drain reagent pipe equipped with a fitting with a calibrated hole, for supplying a chemical reagent to the cavity of the product pipeline and a gas storage chamber for supplying it by the gas pipeline from the cavity of the product pipeline to the container for chemical reagent .

What is new is that the gas pipeline is equipped with a gate valve and directly connects the gas storage chamber to the product pipeline equipped with an ejector inside and a cylindrical casing externally connected to the low pressure chamber of the ejector through openings in the product pipeline, while the cylindrical casing is connected to the reagent conduit by its inlet openings attached to the bottom of the tank and equipped with a valve in which the fitting is inserted.

The drawing shows the proposed device for the dosed supply of a chemical reagent.

A device for dosed supply of a chemical reagent includes a tank 1 for a chemical reagent 2 with a hollow drain reagent line 3 for supplying a chemical reagent 2 to the cavity of the product pipeline 4 and a gas storage chamber 5 for supplying it by a gas pipeline 6 from the cavity of the product pipeline 4 to the tank 1 for chemical reagent 2.

The gas pipeline 6 is equipped with a valve 7 and directly connects the gas storage chamber 5 with the product pipeline 4.

The product pipeline 4 is equipped with an ejector 8 from the inside, and a cylindrical casing 9 from the outside.

The cylindrical casing 9 is in communication with the low pressure chamber 11 of the ejector 8 through the openings 10 of the product pipe 4, and the cylindrical casing 9 is connected with its inlet holes 12 with a reagent pipe 3 connected from below to the tank 1 and equipped with a valve 13 into which the fitting is inserted (not shown in the figure) having a calibrated hole.

A device for dosed supply of a chemical reagent operates as follows.

The proposed device for the dosed supply of a chemical reagent can be used, for example, for heat and steam treatment of the bottom-hole zone of wells related to methods for increasing the productivity of the well, while the coolant is superheated water supplied to the well from a mobile steam unit (PUF).

Adding an active substance, such as a hydrocarbon solvent, to superheated water vapor when it is injected into the well allows to improve the quality of processing the bottom-hole zone of the well.

The use of this device, installed in the injection line of the PUF, gives a high effect in those wells in which productivity is sharply reduced due to blockage of pores with paraffin-resinous deposits.

A steam-mobile installation of PPU (not shown) is connected by means of a high pressure pipeline (product pipeline 4) to the wellhead. In the product pipeline 4 mount the proposed device for dispensing the supply of a chemical reagent.

The tank 1 is filled with a chemical reagent, for example a hydrocarbon solvent, in the required volume, depending on the flow rate of the main stream (for example, steam) through product line 4, time, the ratio of the proportion of the dosage of steam and chemical reagent 2, for example (80% / 20%).

A PPU (not shown) is launched into operation, which supplies a stream of superheated water vapor, for example, at a temperature of 190-200 ° C, into the product line 4. Open the valve 7 on the gas pipeline 6 and the valve 13, into which a fitting (not shown) having a calibrated reagent line opening 3. Gas line 6 from product line 4 provides additional steam pressure to the chemical reagent 2 located in the tank 1. A fitting with a calibrated hole installed in the valve 13 allows changing the flow rate depending on the degree of rotation of the valve 13 feature of a calibrated hole depending on the required volumetric or mass amount of a chemical reagent dosed and mixed in a steam stream, which is determined by calculation.

Chemical reagent 2 in the calculated amount through the fitting with the calibrated hole of the valve 13 and the inlet 12 of the casing 9 enters the inner space 14 of the casing 9. In the product line 4 between the ejector 8 and the outlet 10 of the product line 4 a low pressure chamber 11 is formed, where the chemical reagent 2 is drawn from the inner space 14 of the casing 9.

Next, the chemical reagent 2, which is in the low-pressure chamber 11, is mixed in the product line 4 behind the ejector 8 (in the direction of the steam flow) with the steam stream accelerated in the ejector 8, as a result of which intensive mixing of the chemical reagent with the steam takes place behind the ejector 8 in the product line 4.

The vapor phase formed at the outlet section of the product pipeline 4 is a mixed stream of the initial superheated water vapor, which gave part of the thermal energy and the newly formed vaporized vapor from the chemical reagent added to the initial superheated water stream.

Next, the vapor phase mixed in the required proportion from the product pipeline 4 through the wellhead through a string of tubing (not shown) is pumped into the bottomhole formation zone in a predetermined quantity, based on the capacity of one PPU unit, equal to 4 tons of steam per hour. Adding (mixing) a chemical reagent with superheated water vapor during its injection can reduce both the injection rate of the superheated water vapor itself and increase the processing efficiency (increase productivity) of the formation itself by injecting a chemical reagent (hydrocarbon solvent).

Thus, the vapor phase is injected into the well for the estimated amount of time, after which the valve 7 on the gas pipeline 6 and valve 13 on the reagent pipeline 3 are closed and the steam supply from the stationary steam gravity installation (CCGT) is stopped.

After the mixed stream of the initial superheated water vapor is injected into the well in a predetermined amount, it is closed for 2-5 days so that heat is transferred deeper into the formation (not shown) in order to efficiently process it. After that, pumping equipment is lowered into the well and put into operation.

The proposed device for the dosed supply of a chemical reagent can improve the efficiency of mixing the chemical reagent in the product line due to the forced retraction of the chemical reagent in the low-pressure chamber in the product line. In addition, the proposed device due to the presence of a fitting having a calibrated hole and inserted into the valve, improves the accuracy of dosing of the chemical reagent in the product pipeline.

Claims (1)

A device for dosed supply of a chemical reagent, including a container for a chemical reagent with a hollow drain reagent pipe equipped with a fitting with a calibrated hole, for supplying a chemical reagent to the cavity of the product pipeline and a gas storage chamber for supplying it with a gas pipeline from the cavity of the product pipeline to the container for the chemical reagent, characterized in that the gas pipeline is equipped with a valve and directly connects the gas storage chamber to the product pipeline equipped with an ejector inside and a cylindrical casing outside which is connected through openings in the product pipeline to the low pressure chamber of the ejector, while the cylindrical casing is connected with its inlet openings to the reagent pipe connected to the bottom of the tank and equipped with a valve into which the fitting is inserted.