SU1361474A1 - Device for investigating process of capillary displacement of oil out of porous specimen - Google Patents

Abstract

The invention relates to the oil industry, in particular, to devices for studying the process of displacing oil from a porous medium and can be used in other industries, such as gas and chemical. The aim of the invention is to improve the accuracy and reduce the research time. In the lower part of the vessel placed the investigated core sample, then pour the working fluid into the vessel. Before connecting the sampling tank is filled with working fluid. After pressure testing, the device is checked for tightness and placed in a heating cabinet, in which the required temperature is set. The locking elements open. Under the action of gravitational forces, the liquid from this tank replaces in the tube the oil accumulated in it (water-oil emulsion), which passes into the sampling tank. The process of oil displacement is observed through a transparent tube, and when the displacement rate drops below a predetermined value, they switch to another temperature mode. 3 il. i (L OS NU 4

Description

The invention relates to the oil production industry, in particular, to devices for studying the process of displacing oil from a porous medium, and can be used in other areas of industry, in particular gas and chemical.

The purpose of the invention is to increase accuracy and reduce research time.

FIG. 1 shows the proposed device; in fig. 2 is a graph of volume of displaced oil versus time for different temperatures (A for T, B for D, C for T,), VH is the volume of displaced oil, T is the test time, s, the moment of deceleration capillary displacement; in fig. 3 - time dependence of the displaced oil volume for different temperature regimes (section А-Т 327К,,), while Vy, is the volume of displaced oil in fractions of the initial oil-bearing volume, G is the time, h.

The device contains a sealed composite vessel made of stainless steel and consisting of two parts - the base 1 and the cover 2, connected by flanges 3. The base of the vessel 1 has an input 4 to create the necessary pressure, and the upper part of the cover 2 has a casing 5 with a window 6, inside of which a glass tube 7 is filled, the internal cavity of which is connected to the vessel cavity by means of a glass collector 8. The tube 7 is sealed with adapter 9 and seals 10. Adapter 9 with two locking elements 11, full of valves with a flow diameter of 10 mm, is connected to sampling tank 12.

The device is placed in a heating chamber (not shown) so that the casing 5 is located outside of it. B the bottom of the vessel is placed the investigated core sample 13. Through the input 4 to the vessel connect the hydraulic press (not shown), filled with working fluid. Then the glass container 8 is installed and the lid 2 and the adapter 9 are closed. Through the latter after tightening the flanges 3, the working fluid is poured into the vessel. Sampling tank 12 is filled with working fluid before connection, and shut-off elements 11 are closed. After pressure testing.

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1.5 times the working temperature in the experiment, the device is checked for tightness and placed in a heating cabinet, at which the required temperature is established, and the necessary pressure is created in the vessel with a hydraulic press. The locking elements open, under the action of gravitational forces, the oil (water-oil to emulsion) displaced from the 10th sample through the tube 7 is transferred to the sampling tank.

Through the transparent tube 7, the progress of the process of oil displacement is observed, and at 15 the displacement rate decreases below a predetermined value (in this case

1) switch to another temperature mode or experience ends, if all necessary temperature

0 modes investigated. The results are depicted as a curve of dependence of the volume of the displaced oil on time in various temperature regimes. FIG. 2 shows the results of the experiment

5 by capillary displacing oil from a core sample.

When used for capillary extrusion of a number of liquids, there is a possibility of water emulsion of oil. In order to accurately determine the amount of oil displaced by opening the closures 11, the oil displaced is transferred by means of the tube 7 to the sampling tank 12. After the sample has been transferred, the closure elements are closed and the sample is analyzed for water content.

Thus, the proposed device allows to obtain, in the course of one experiment, the results of an investigation of the process of capillary displacement of oil in the entire temperature range under investigation, by timely changing the temperature regimes. In this case, investigations are carried out under reservoir conditions and with the required accuracy for any of the working fluids under study.

Claims (1)

The invention The device for the study of the process of capillary displacement of oil from a porous sample, comprising a sealed vessel with an input for the working fluid, characterized in that, in order to increase the accuracy 5 and shorten the test time, it is equipped with a sampling tank connected to a sealed vessel with a transparent tube by means of closures. five 0 five FIG. one FIG. 2 0.8 yb 0 20 40 60 FIG. 3 f 80 t, f