SU832418A1 - Device for investigating seam liquids - Google Patents

Description

one

The invention relates to the design of devices for studying phase states of gas-liquid mixtures and can be used to study samples of reservoir oil and produced water under pressure.

A device for the investigation of reservoir oil under pressure is known, comprising a housing, a working chamber with a piston and a piston, a thermostatic device, a mixing device made in the form of a disk with rotation and equipped with driving and compensating rods installed

However, effective mixing of the gas and oil mixture in this device occurs only. At the moment of moving the disk through the interface between the gas and liquid phases in the working chamber. In addition, the leakage of the test oil from the working chamber through the gland assemblies, in which the drive and compensation

RODS, leads to lower measurement accuracy.

A device for studying reservoir oil is known, comprising a housing, a high-pressure chamber divided by a vertical partition into two cavities communicating with each other through a narrow gap in the upper part of the partition 2 J.

A disadvantage of this device is the use of a liquid metal in it, which creates inconveniences during operation. The presence of direct contact between the liquid metal and the oil under study results. the fact that liquid metal can get from the device into further communication and disrupt the work of the latter. In addition, the risk of an oil-liquid metal emulsion is not completely eliminated.

It is also known a device for examining liquids, comprising a housing, a high-pressure chamber, which

axially; shell in the high pressure chamber with a lid and a working chamber, annular bulkheads placed between the inner walls of the housing and the shell; a movable piston located in the working chamber;

A disadvantage of the known device is the low accuracy of measuring pressures of gas-liquid mixtures, associated with their delamination directly in the process of investigation,

The purpose of the invention is to increase the accuracy of measuring the pressure of gas-liquid mixtures due to intensive mixing. In order to achieve this goal, the working chamber is provided with a vertical partition installed with the possibility of reciprocating movement along the axis, and flow channels are made in the annular partitions and the vertical partition.

The drawing shows a General view of the proposed device, a longitudinal section.

The device consists of a body

 with a high pressure chamber 2 which contains a shell 3 with a movable vertical partition 4 with a channel 5. The partition 4 is equipped with driving and compensating rods 6 and 7, and also a device 8 for moving the drive rod 6. Inside the shell 3 there is a movable piston 9 with sealing elements IО and 11 Shell 3 has a key 12 with a sealing element 13, and housing 1 has a cover 14 with an opening 15 for supplying power to device 8 with a sealing element 16. Working chamber 17 is made in shell 3 It is equipped with a thermostatic device 18 and is connected to the pipe by a pipe 19 with a pressure source 20 and a pressure measuring device 21 dp. In the lid 12, the shell 3 has a channel 22 connected to the pipe 23 for supplying the test liquid to the chamber 17 and to the pipe 24 connected to the pressure measuring device (at

the drawing is not shown).

The device works as follows.

in a way.

Before filling the working chamber 17 with the liquid under study. Through the pipeline 23 and the channel 22, the vertical partition 4 and the piston 9 are installed in the extreme right position next to the cover 12, in which the dead volume of the device is minimal. using the device 8, and the piston 9 is moved using the working fluid by increasing its pressure using the pressure source 20. The pressure of the working fluid in chamber 2 is increased until it exceeds the pressure in that container (not shown), from which it is planned to transfer the liquid under investigation into the working chamber 17 Then the internal cavity of the working chamber 17 is evacuated through channel 2 and then the dead volume the devices are filled with the test liquid from the container through pipe 23. Next, by lowering the pressure in chamber 2 and expelling from it part of the working fluid through pipe 19 by means of a piston 9, which is then moved due to the pressure difference of the test eduemoy fluid in the working chamber 17 and the working fluid in the chamber 2 is filled with the working chamber 17 through the channels 22 and the necessary amount of 5 test liquid.

Then, with the help of a thermostatic device 18, the required temperature is established and the necessary operations are carried out to study the properties of the test liquid as it is done using known devices. The change in the volume and pressure of the test fluid in the working chamber 17 is accomplished by moving the piston 9 by changing the volume and pressure of the working fluid in chamber 2 with the help of the pressure source 20.

Claims (3)

1. USSR Author's Certificate No. 607130, cl. G01 N7 / 00,19.05.75. 2. USSR author's certificate No. 61.0984, cl. E 21 B 47/00, 19.02.75. 3. Acceptance of UK application No. 1328389, cl. On IX, 08/30/73.