RU2634093C1 - Stand for testing of downhole equipment filled with gaseous hydrocarbon by external hydraulic pressure at high temperatures - Google Patents

Abstract

FIELD: testing equipment.

SUBSTANCE: stand for testing of downhole equipment filled with gaseous hydrocarbon by external hydraulic pressure at high temperatures contains a housing with an internal cavity hermetically sealed with cover. Downhole equipment is installed in the internal cavity. The internal cavity is able to connect to a hydraulic pressure generation system and is able to connect to a liquid discharge line. The body is equipped with a heater covering the inner cavity. In this case, the downhole equipment on one side is connected to the upper part of the pressure vessel inner chamber, and on the other hand it is able to connect to the gas discharge line. The upper part of the inner chamber has the possibility of alternate connecting to a hydrocarbon gas supply system and an inert gas supply system. The lower part of the inner chamber has the possibility of connecting to a pressure boost system. The inner chamber on the boundary between the upper part and the lower part has the possibility of being connected to the discharge line of the liquid.

EFFECT: external hydraulic pressure testing of downhole equipment filled with a high pressure hydrocarbon gas at high temperatures.

1 dwg

Description

The invention relates to test equipment and can be used in the oil and gas industry, in particular, when testing filled with gaseous hydrocarbon downhole equipment with external hydraulic pressure at high temperatures.

The well-known "Installation for testing pipes for crushing by external hydraulic pressure" according to the patent of the Russian Federation for invention No. 2381468, containing hydraulic cylinders, a frame, a container enclosed in this frame, on which a multilayer winding of a high-strength tape, a base, an upper tube, a lower tube, a stand is applied for assembling pipe samples, a mandrel was introduced to fix the pipe sample, and the upper and lower plugs combined with it, and the gaps between the ends of the sample of the test pipe and the upper and lower plugs were sealed m seal, which consists of a steel tape wound in several layers at the upper and lower joints of the pipe sample and plugs, and wound on top of the said steel tape polyurethane tape.

A disadvantage of the known device according to the patent of the Russian Federation for the invention No. 2381468 is the impossibility of testing the external hydraulic pressure of a pipe filled with gaseous hydrocarbon under high pressure at high temperature.

The well-known "Installation for mechanical testing of materials in various environments at high temperatures and pressures" according to the patent of the Russian Federation for invention No. 2240531, adopted as the closest analogue, containing a working chamber with grippers for the sample, a loading mechanism, a heater, means for supplying a gas medium and control measuring equipment, while the walls and flanges of the working chamber are equipped with a cooling jacket, the sample gripper rods and heater current leads have cooling ducts, located on the inside of the cooling jacket a heat-insulating structure, moreover, at the inlet to the working chamber of the gaseous medium introduced further fueling the surge tank to the piston and the control gas feed regulator, and a heater is formed in a spiral shape and located in the working chamber so that the sample is inside the helix.

A disadvantage of the known device according to the patent of the Russian Federation for invention No. 2240531 is the inability to test the external hydraulic pressure of a sample filled with gaseous hydrocarbon under high pressure.

The claimed invention has the task of testing the external hydraulic pressure of downhole equipment filled with gaseous hydrocarbon under high pressure at high temperatures.

The problem in the invention is solved due to the fact that the test bench filled with gaseous hydrocarbon downhole equipment with external hydraulic pressure at high temperatures contains a housing with a hermetically sealed lid of the internal cavity in which the downhole equipment is installed, the internal cavity has the ability to connect to the hydraulic pressure generation system and has the ability to connect with a line discharge fluid, on the body is installed covering the internal cavity a heater, while the downhole equipment is connected on one side to the upper part of the inner chamber of the pressure vessel, and on the other hand, is connected to a gas discharge line, the upper part of the inner chamber is connected to the hydrocarbon gas supply system and the inert gas supply system one at a time , the lower part of the inner chamber has the ability to connect with a pressure boosting system, the inner chamber at the boundary between the upper part and the lower part is able to connect Iniye with a liquid drain line.

The claimed invention differs from the known technical solution according to RF patent No. 2240531 in that the downhole equipment is connected on one side to the upper part of the inner chamber of the pressure vessel and, on the other hand, has the ability to connect to the gas discharge line, the upper part of the inner chamber is able to alternately connect with a gaseous hydrocarbon feed system and with an inert gas feed system, the lower part of the inner chamber is capable of being connected to a pressure boosting system, internal to Amer on the border between the upper part and the lower part has the ability to connect to the line drain fluid.

The indicated difference made it possible to obtain a technical result, namely, it provided an external hydraulic pressure test for downhole equipment filled with gaseous hydrocarbon under high pressure at high temperatures.

In FIG. 1 is a diagram of a test bench for testing hydraulic equipment filled with gaseous hydrocarbon with external hydraulic pressure at high temperatures.

The test bench for testing downhole equipment filled with gaseous hydrocarbon with external hydraulic pressure at high temperatures (Fig. 1) contains a housing 1 with a hermetically sealed cover 2, an internal cavity 3, in which downhole equipment 4 is installed, the internal cavity 3 has the ability to be connected to the hydraulic pressure generating system 5 and has the ability to connect with a line 6 discharge fluid on the housing 1 is installed covering the inner cavity 3 of the heater 7, while downhole equipment 4 with one the side is connected to the upper part 8 of the inner chamber 9 of the pressure vessel 10, and on the other hand it is able to connect to the gas discharge line 11, the upper part 8 of the inner chamber 9 is able to alternately connect with the hydrocarbon gas supply system 12 and the inert gas supply system 13 , the lower part 14 of the inner chamber 9 is capable of being connected to the pressure boosting system 15, the inner chamber 9 at the boundary 16 between the upper part 8 and the lower part 14 is capable of being connected to the liquid discharge line 17.

The stand for testing filled with gaseous hydrocarbon downhole equipment external hydraulic pressure at high temperatures (Fig. 1) works as follows. Before starting the testing of downhole equipment 4 at the stand:

- The hydraulic pressure generation system 5 is disabled.

- The hydrocarbon gas supply system 12 is turned off.

- The inert gas supply system 13 is turned off.

- Pressure boosting system 15 is disabled.

- Line 6 discharge fluid closed.

- The gas discharge line 11 is closed.

- Line 17 drain fluid is closed.

The downhole equipment 4 is placed in the inner cavity 3 of the housing 1. The downhole equipment 4 is connected on the one hand to the upper part 8 of the inner chamber 9 of the pressure vessel 10, and on the other hand connected to the gas discharge line 11. The internal cavity 3 is hermetically sealed with a cover 2. Since the mixture of a hydrocarbon, for example methane, with air is explosive, before testing the downhole equipment 4 and the inner chamber 9 of the pressure vessel 10 are flushed with an inert gas, such as nitrogen or argon. To reduce the inert gas flow rate, the inner chamber 9 is filled with a liquid, for example water. To do this, connect the pressure increase system 15 and open the liquid discharge line 17. The liquid from the pressure increasing system 15 enters the lower part 14 of the inner chamber 9. The liquid fills the lower part 14 of the inner chamber 9 to the boundary 16 between the upper part 8 and the lower part 14 of the inner chamber 9. When filling the inner chamber 9 to the boundary 16, the liquid flows out into the open line 17 drain fluid. Then, the pressure increase system 15 is turned off, the liquid discharge line 17 is closed. The upper part 8 of the inner chamber 9 is connected to the inert gas supply system 13. The gas discharge line 11 is opened. Inert gas under pressure enters the upper part 8 of the inner chamber 9 and then through the downhole equipment 4 into the open gas discharge line 11. After purging with inert gas, the gas discharge line 11 is closed and the inert gas supply system 13 is turned off.

Create external hydraulic pressure on the downhole equipment 4 to 50 MPa (500 kg / cm ² ). To do this, the line 6 discharge fluid open and the internal cavity 3 is connected to the system 5 of creating hydraulic pressure. A liquid, such as water, under pressure from the hydraulic pressure generating system 5 enters the internal cavity 3 and then into the liquid discharge line 6. After filling the internal cavity 3, the liquid discharge line 6 is closed. Increase the fluid pressure in the inner cavity 3 to the required for the test and the hydraulic pressure generation system 5 is turned off.

An internal pressure of a gaseous hydrocarbon, for example methane, is created in the downhole equipment 4. For this, the upper part 8 of the inner chamber 9 is connected to the hydrocarbon gas supply system 12. The gas discharge line 11 is opened. Displacing an inert gas, gaseous hydrocarbon under pressure enters the upper part 8 of the inner chamber 9 and then through the downhole equipment 4 into the open gas discharge line 11. The gas discharge line 11 is closed. The pressure of the gaseous hydrocarbon in the downhole equipment 4 is increased to the required level, and the hydrocarbon gas supply system 12 is turned off.

Obtaining high pressures of gaseous hydrocarbon in downhole equipment up to 50 ... 100 MPa (500 ... 1000 kg / cm ² ) is a difficult technical task and requires significant energy costs. The pressure increase in the downhole equipment 4 to 50 ... 100 MPa (500 ... 1000 kg / cm ² ) is carried out by additional compression of the gaseous hydrocarbon with a liquid, for example water. To do this, connect the pressure increase system 15. The fluid from the pressure increase system 15 enters the inner chamber 9 and fills its upper part 8. The fluid compresses the gaseous hydrocarbon, which leads to an increase in pressure in the downhole equipment 4 to the level necessary for the test. Then, the pressure boosting system 15 is turned off.

If it is necessary to conduct a test at an elevated temperature, a heater 7 is connected. The downhole equipment 4 is kept under an external hydraulic pressure of a liquid and an internal pressure of a gaseous hydrocarbon at an elevated temperature for a predetermined time.

At the end of the test, the heater 7 is turned off. By opening the liquid discharge line 6, the external hydraulic pressure in the inner cavity 3 of the housing 1 is removed. By opening the gas discharge line 11, the internal pressure of the gaseous hydrocarbon is removed in the downhole equipment 4 and in the inner chamber 9. By opening the liquid discharge line 17 liquid is discharged from the inner chamber 9 of the pressure vessel 10. Then, the gas discharge line 11, the liquid discharge line 17 and the liquid discharge line 6 are closed. Open the lid 2 and remove the downhole equipment 4 from the internal cavity 3 of the housing 1. Next, a detailed study of the condition of the downhole equipment 4 is carried out.

The claimed invention made it possible to obtain a technical result, namely, it provided an external hydraulic pressure test for downhole equipment filled with gaseous hydrocarbon under high pressure at high temperatures.

Claims (1)

A test bench for testing hydraulic equipment filled with gaseous hydrocarbon with external hydraulic pressure at high temperatures, comprising a housing with a hermetically sealed cover and an internal cavity in which the downhole equipment is installed, the internal cavity has the ability to connect to a hydraulic pressure generation system and has the ability to connect to a fluid discharge line the housing is installed covering the internal cavity of the heater, characterized in that the downhole equipment with one the orons are connected to the upper part of the inner chamber of the pressure vessel, and on the other hand it has the ability to connect to the gas discharge line, the upper part of the inner chamber is able to alternately connect to the hydrocarbon gas supply system and to the inert gas supply system, the lower part of the inner chamber is capable of connecting with a pressure boosting system, the inner chamber at the boundary between the upper part and the lower part has the ability to be connected to a liquid discharge line.

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