RU2011961C1 - Device for measuring parameters of water films - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: device has capillary filled with electrolyte. The capillary is disposed horizontally. Platinum electrodes and cocks are mounted onto the opposite sides of the capillary. Capillary is provided with two side taps disposed in opposition. One side tap is made in form of a pipe which has medical injector. Piston of the injector is connected with micrometric movement unit. Hydrocarbon liquid is placed into the tap. The other tap is made in form of sealed pipe for placing specimen of rocks. Edge of specimen coincides with the base of the capillary. Start point of the capillary is connected with measuring vessel filled with electrolyte. Piezometer tube is mounted between cock and tap. EFFECT: improved precision of measurement. 1 dwg

Description

 The invention relates to the field of oil production, in particular to devices for determining the physical parameters of water films, and can be used to study their effect on the amount of oil recovery.

A device for determining the thickness of the water film [1], consisting of the air thermostat, capillary, heaters and refrigeration system allowing to change the temperature in the thermostat of ⁰ ° C to 90 ° ^C is used for micro microscope IBI-6. The glass capillary is placed under the microscope and has two piezometric tubes and platinum electrodes at the ends to measure the electrical resistance of the electrolyte film under the drop and other devices to create different speeds of the droplet and its fixation in a certain position.

 The disadvantage of this device is the inability to determine the strength of the aqueous film, the inability to determine the effect of real porous media on the thickness and strength of the film.

 The prototype of the invention is a device for determining the physical parameters of aqueous films, including a capillary with electrolyte, platinum electrodes and faucets installed at its opposite ends [2].

 The disadvantage of this device is the inability to determine the strength of the aqueous film.

 The purpose of the invention is the expansion of the functionality of the device by determining the strength of the aqueous film.

 This goal is achieved by the fact that in the device for determining the physical parameters of aqueous films, including a capillary with electrolyte, platinum electrodes and faucets installed at its opposite ends, according to the invention, the capillary is equipped with a first lateral outlet for accommodating a liquid that does not interact with the aqueous film, and a sealed second a bend to accommodate material interacting with a water film located opposite each other, while the first bend is made in the form of a tube equipped with a medical w with a piston, whose piston is connected to the micrometric displacement unit, the beginning of the capillary is connected to a measuring container with electrolyte, and a piezometer is installed between one of the taps and the bends.

 The drawing shows a device for determining the physical parameters of aqueous films.

 The device contains a capillary 1 made of quartz glass, two faucets 2 mounted on its opposite ends. The capillary is equipped with two side bends. The outlet 3 for introducing a drop of hydrocarbon liquid is made in the form of a supplying glass tube and a medical syringe 4 is inserted into it, to which a micrometer 5 is connected in series. The opposite located outlet 6 is made in the form of a cone or cylindrical tube and a rock specimen 7 and a rubber are placed in it cork 8 for sealing. An additional capacity with an electrolyte 9 and two rulers 10 for measuring the liquid level are connected to the capillary 1. To measure the pressure in the capillary, a piezometer 11 is installed between the tap and the tap from the side of the additional tank 9.

 The device operates as follows. With open taps 2, the capillary 1 is filled with electrolyte, the studied hydrocarbon fluid 12 is squeezed out through the supply tube 3 and squeezed out of the medical syringe 4. The volume of the squeezed drop is determined from the divisions of the micrometer 5. The thickness of the water film 13 between the drop and the rock sample is determined by the magnitude of the electrical conductivity current between the platinum electrodes 14. The conductivity current is periodically measured and the dynamics of the film thickness between the drop and the rock sample is determined. Through an open faucet 2, the electrolyte enters the capillary 1 from the additional vessel 9. According to the law of communicating vessels, the pressure in the additional vessel 9 and the capillary 1 is equalized. The steady-state pressure is calculated by the level of the liquid columns in the additional vessel or piezometer measured by a ruler 10. The opposite faucet 2 is opened and the flow rate of the flowing-out electrolyte is measured using a measuring cylinder and a stopwatch. Depending on the increase or decrease in the rate of flow of electrolyte from the capillary 1, the film strength is determined.

 Thus, the proposed device allows you to determine both the thickness and strength of an aqueous film with Newtonian properties, and to remove its full rheological characteristic.

Claims (1)

 DEVICE FOR DETERMINING PHYSICAL PARAMETERS OF WATER FILMS, including a capillary with electrolyte, platinum electrodes and faucets installed at its opposite ends, characterized in that the capillary is provided with a first lateral outlet for accommodating a liquid that does not interact with the aqueous film and a sealed second outlet for accommodating the material, interacting with a water film located opposite each other, while the first tap is made in the form of a tube equipped with a medical syringe, the piston of which is connected n with micrometric displacement assembly, the beginning of the capillary is connected with the measuring capacitance with electrolyte, and between one of the taps and taps installed piezometer.

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