SU1190014A1 - Installation for determining seepage parameters of formation oil through porous medium - Google Patents

Abstract

1. INSTALLATION FOR THE DETERMINATION OF PARAMETERS OF FILTRATION OF PLASTIC OILS IN A POROUS MEDIUM, containing a core holder with inlet and outlet plungers having central axial channels, flow and fluid collection and temperature and pressure control system with pressure masses, the same mix of strains of the mix of the collagen masses. the accuracy of determining the filtration parameters by eliminating pressure pulsation during oil degassing in the pressure regulator, it is equipped with a container with a separator, while the container is hydraulically connected with an outlet plunger and a pressure regulator, and the outlet of the container is filled with non-carbonated liquid. 2. Installation according to claim 1, characterized in that the container with the separator is structurally combined with the output plunger of the core holder. (L; o o o o

Description

The invention relates to the mining industry, in particular, to devices simulating the processes occurring in a porous medium of oil and gas well formations.

The purpose of the invention is to improve the accuracy of determining the filtration parameters by eliminating pressure pulsations during oil degassing in the pressure regulator.

FIG. 1 is a schematic of the installation; in fig. 2 - plunger separator.

The installation consists of a core holder

1 (FIG. 1) in which the sample is installed

2 mountain breed.

To the core holder 1 through the manifold

3, with valves 4 and 5, a press 6 is connected to create a hydro-press simulating rock pressure. Manifold 3 is equipped with a pressure gauge 7 to control the pressure of the hydrojump. The press 6 through the manifold 3 is also connected to the intake tank 8. The temperature required in the core holder 1 is maintained by means of a water jacket 9 fed by a thermostat. Press 10 through manifold 11 with valves 12 and 13 is connected to a container with a piston separator 14, and through manifold 15 with valves 16 and 17 and manifold 18 with valves 19 and 20 communicate with a pressure regulator 21 and with a separator plunger 22 Nlunger separator 22 (Fig. 2) includes a housing 23, the output part 24 of which is made in the form of a cavity 25 divided into two parts by a movable separator 26. The inlet part 27 of the separator plunger 22 has a central axial channel 28 hydraulically connected with two radial channels 29 and 30 and cavity 25, located under section A cavity 25 located above the separator 26 of the separator plunger 23 is provided with an outlet channel 31. The measuring press 10 is filled with working non-carbonated liquid from the intake tank 32 through the manifold valve 12 12. The pressure generated by the press 10 is monitored by a pressure gauge 33.

The pressure in the cavity of the plunger 22 under the separator 26 is controlled by the pressure gauge 34, and above the separator 26 by the pressure gauge 35.

The test liquid from the container with the piston separator 14 is fed through the valve 36 and the valve 37 of the inlet plunger 38 into the rock sample 2 located in the core holder 1. The pressure of the test liquid at the inlet to the rock sample 2 is controlled by a pressure gauge 39. Through the manifold 15 and 18 the plunger 22 through the regulator 21 communicates with the measuring cylinder 40. The regulator 21 pressure through the manifold 41 with valves 42 and 43, equipped with a pressure gauge 44, a buffer container 45 with a valve 46, a valve 47 with a control pressure gauge 48 communicated with a balloon 49 with a compressed air khom.

The installation works as follows. In the initial state all valves

are closed. The extracted and dried rock sample 2 is loaded into the core holder 1. The container is filled with the test liquid (for example, formation oil). The valve 5 of the manifold 3 is opened and the press 6 of the intake tank 8 is filled with working non-carbonated liquid. The valve 5 is closed and the valve 4 is opened. Press 6 through the valve 4 of the manifold 3 to create a hydro-pressing of sample 2 of the rock in the core holder 1, and with this, a pressure of pressure is generated. The pressure gauge 7 controls the amount of generated hydrojump. The water thermostat through the water jacket 9 maintains in the core holder I a predetermined temperature. The opening of the valve 47 and 46 is filled with compressed gas.

0 from the cylinder 49, the buffer container 45. Upon reaching a predetermined pressure value controlled by the pressure gauge 44, the valve 46 is closed. The pressure in the cylinder 49 is controlled by the pressure gauge 48. The valve 42 is opened, which sets the pressure in the pressure regulator 21 equal to the pressure in the buffer container 45 .

If necessary, to more accurately set the pressure in the pressure regulator 21, excess compressed air is removed.

Q opening valve 43, communicated with the atmosphere.

Next, open the valve 12 of the manifold 11 and fill the press 10 from the tank 32 with the measuring liquid. Close the valve 12, open the valve 16 of the manifold 15 and

through the outlet channel 31, the cavity 25 is filled above the separator 26 of the separator plunger 22 with a measuring liquid. The pressure of the measuring fluid in the cavity 25 above the separator 26 is created above the saturation pressure. Pressure is controlled by

0 gauge 35. Close the valve 16.

The valve 13 of the manifold P is opened and pressure is created above the saturation pressure in a container with a piston separator 14. The pressure is controlled by a pressure gauge 33. Then the valves 36 and 37 are opened and the test liquid from the container with a piston separator 14 is fed into the rock sample 2 through the piston 38 of the core holder 1. The pressure is controlled by a pressure gauge 39. Passing the rock sample 2, the test liquid through the central axial channel 28 of the inlet part 27 of the separator plunger 22 accumulates in the cavity 25 under the separator 26. The pressure through the radial channel 30 of the separator plunger 22 is supplied to the pressure gauge 34 to be monitored. valve 17 of manifold 15 and valve 20 of manifold 18. As the test fluid accumulates in the inlet part 27 of cavity 25 under the section

Claims (2)

1. INSTALLATION FOR DETERMINING FILTRATION OIL FILTRATION PARAMETERS IN A POROUS MEDIA, containing a core holder with inlet and outlet plungers having central axial channels, fluid pumping and sampling systems and a system for creating thermobaric conditions with a pressure regulator, characterized in that, in order to increase the accuracy of determination filtration parameters by eliminating pressure pulsation during oil degassing in the pressure regulator, it is equipped with a container with a separator, while the container is hydraulically connected to the outlet dnym plunger and the pressure regulator, and the output portion of the container is filled with carbonated liquid. 2. Installation according to π. 1, characterized in that the container with the separator is structurally combined with the output plunger of the core holder. e FIG. 1