SU794434A1 - Apparatus for investigating processes of displacement and filtration of liquids and gases - Google Patents

Description

The invention relates to the oil and gas industry and can be used in devices for studying the processes of displacing and filtering liquids and gases in natural reservoir rocks.

Known devices for studying the processes of displacement and filtration of liquids and gases, containing a comprehensive hydraulic crimping chamber, a rubber cuff with end sleeves, in which a core sample is placed, sealing pistons and a supply tube system [1].

However, this model of the reservoir does not provide full modeling of reservoir conditions due to the lack of nodes to ensure thermal stabilization of the simulated processes. The length of this model will be limited due to the deflection of a composite core sample enclosed in a rubber cuff having insufficient rigidity, which does not give a reliable similarity of fluid displacement processes.

The aim of the invention is to increase the accuracy of modeling reservoir conditions.

This goal is achieved in that the sealing pistons are stepwise, the smaller stage of which is mounted with the possibility of axial movement in the end bushings.

In addition, the device is equipped with a perforated sleeve, in which 5 rubber cuff with a core sample is placed, and a tubular spiral heater placed on the perforated sleeve.

The drawing shows a General view of the model of the layers in the context.

О The reservoir model consists of a cylindrical body of the hydraulic crimping chamber 1, inside which there is a composite core sample 2, in a rubber sleeve 3. In order to keep the cylindrical core samples 5 stable and not bending, the rubber sleeve 3 is placed in a steel perforated sleeve 4. Sealing of the ends of a composite sample and a uniform supply of fluid to the end face over the area: 0 of the sample surface is achieved using the end sleeve 5. To ensure rigidity of the reservoir model and centering the composite sample in the hydraulic crimping chamber The ends of the cylindrical body have 5 two-stage free pistons 6 with self-sealing rings 7 for sealing. In the body of each piston, supply communications are installed, including a nozzle 8 for outputting the connecting tubes 9. The piston stroke is fixed by a holding nut 10. Through the nozzle 11, spindle oil 12 is pumped into the hydraulic pump chamber to simulate rock pressure. hydraulic crimp inlet line.

To ensure rapid thermal stabilization of the entire system and improve heat loss, the formation temperature in the reservoir model is maintained by a thermostatically controlled coolant circulating through a tubular copper coil 13 located inside the hydraulic crimping chamber. Measurement of the temperature of the reservoir model is carried out by a thermometer 14, placed in the thermowell of the plug 15 for draining the oil.

The physical model of the reservoir works as follows. Through the nozzle 11, in order to create the necessary pressure, oil 12 is pumped into the hydraulic crimping chamber. The pressure of the spindle oil is transmitted to the free pistons 6, causing their horizontal movement. The piston stroke is limited by nuts 10. Through the perforation holes of the sleeve 4, the pressure of the spindle oil is transferred to the cuff 3 and the composite core sample 2, which provides simulation of rock pressure and sealing of the composite core sample. Under the influence of pressure of the spindle oil, the bushings 5 are pressed against the end surfaces of the composite sample, providing a sufficiently tight fit of the individual cylindrical samples to each other. A coolant heated in a thermostat to a certain temperature circulates through a tubular sieve 13 located inside the hydraulic crimping chamber, thereby achieving thermal stabilization of the studied processes.

The supply and removal of fluids to the composite core sample is carried out using tubes 9.

Claims (3)

The claims of the invention 1. A device for studying the processes of displacement and filtration of liquids and gases, containing a comprehensive hydraulic crimping chamber, a rubber cuff with a con- 15 core sleeves, in which the core sample, sealing pistons and a supply pipe system are located, characterized in that, in order to increase the accuracy of modeling reservoir conditions, the sealing pistons are made stepwise, the smaller stage of which is installed with the possibility of axial movement in the end bushings. 2. The device according to π. 1, characterized in that it is provided with a perforated sleeve in which a rubber cuff with a core sample is placed. 3. The device according to paragraphs. 1 and 2, characterized in that it is equipped with a tubular spiral heater placed on a perforated sleeve.