SU1298367A1 - Apparatus for investigating oil-,gas- and water-saturated cores - Google Patents

Abstract

The invention relates to geology, mining and oil and gas industry and improves the accuracy of measuring the electrical resistance of cores (K) 17. The device includes a cylindrical body 1, from the ends of which are installed sealed cones, 10 16 (L W

Description

2 plungers 4 with tips 5 and sockets 6 for piezoelectric sensors and insulating gaskets 7. The housing 1 contains a core holder (KD) in the form of a rubber cuff 8 and a perforated sleeve 9. In the KD there are two composite electrodes, each of which consists of a rigid yoke 12 and electrically conductive and elastic under the conditions of investigation of the working agent 13. Lead can be used as the latter. When working

The invention relates to a technique for determining the physical properties of rock samples under conditions that simulate reservoir, and can be used in the geology, mining and oil industry.

The purpose of the invention is to improve the accuracy of measuring the electrical resistance of cores.

Fig. I depicts a device for studying oil and gas-saturated cores; figure 2 - core holder; FIG. 3 is a graph comparing measurements of electrical resistances of the same oil and gas and hydrogen saturation) 1x samples of reservoir rocks using electrodes — high pressure R and without them R.

The device contains a cylindrical body 1, at the ends of which are mounted sealed with cones 2 with gaskets 3 plungers 4 with tips 5, sockets 6 for piezoelectric sensors (not shown) and insulating gaskets 7 placed in case 1 of the core holder, made in the form of a rubber cuff 8 and the perforated sleeve 9 surrounding it, fittings 10 with channels I1 for supplying and discharging filter fluids and gases, installed in the core holder two components of the electrode j each of which consists of a rigid holder 12 made of stainless steel eyuschey steel in the form of perforated disks with slits (not shown) on one side and an electrically conductive and elastic under conditions studies working agent

The K 17 facilities are placed in a CD, so that the tips 5 abut on the K 17, Electrodes with a diameter equal to the diameter of K 17, 11, and 1. The plungers and the lead side to its ends. In this case, the working agent 13 covers K 17, and the area of its electrical contact with the electrode increases sharply. Then K 17 HarpeBaiof, and the liquid and gas is filtered through it. The plungers 4 are connected to the measuring instrument wires. 1 ap f-ly, 3 ill.

ten . 15 20 - 35 25

13, pressed into the clips 12 from the sides of 1 slot and representing lead.

The device also comprises a fitting 14 for lateral crimping means and flanges 15 mounted on the housing 1 by tightening bolts 16.

The device works as follows.

The core (sample) 17 is placed in a rubber (elastic) cuff 8 and placed in the housing 1 so that the tips 5 of the plungers 4 abut against the sample 17. Seal the space between the plungers and the inner surface of the housing 1.

The effect of reducing the transient contact resistance is achieved as follows.

Composite electrodes (high pressure) with a diameter equal to the diameter of the cylindrical specimen 17 of the rock under study, with a small effort, are pressed from the hand by the plungers 4 with the lead side to its ends. With a comprehensive compression of sample 17, the rock: due to the pressure of the plungers 4 and the rubber cuff 8 on it, the working agent (lead) 13 lines the end surface of the sample uneven due to the porosity of the rock. As a result, the area of electrical contact of the rock sample with the electrode sharply increases tenfold, which leads to a decrease in the contact resistance. The sleeve 12 prevents the lead from spreading under pressure and allows, after

At the end of the study, it is easy to remove a rock sample from the rubber cuff 8. If necessary, filtering fluids through the rock sample, as well as creating and maintaining intra pore pressure, holes are drilled through the center of the electrodes.

The sample is heated to the temperature required for the study using a thermostat. The liquid or gas is filtered through sample 17. The plungers 4 are screwed to the measuring instrument wires: a seismoscope, an IPA-59 for measuring the velocity of an elastic wave, and a bridge for alternating current P-38 for measuring the electrical resistance.

The proposed device allows simultaneous measurement of several physical parameters of a rock sample, namely, permeability, electrical resistivity, and the speed of passage of an elastic wave. The device also makes it possible to increase the accuracy and comparability of the measured electrical resistance of oil-and-water-saturated samples of reservoir rocks and allows fMT to eliminate the costs of

tolls for periodic coating of plunger end surfaces.

Claims (2)

1. A device for the study of oil and gas-water-saturated cores, containing a cylindrical body, with the ends of which are installed cones-sealed plungers with piezoelectric sensors and insulating gaskets, placed in the core holder, filled in the form of a rubber cuff and perforated sleeves, fittings and 5 channel for the supply and removal of fluids to the core, characterized in that, in order to improve the accuracy of the measurement of the electrical resistance of the cores, it is equipped with two composite electrodes installed in the core processor and each of which consists of a rigid yoke and an electrically conductive and elastic under the conditions of the study of the working agent. 2. The device according to claim 1, about t l and 0 five likely to use lead as a working agent. FIG. 2 tir five / 2 №2J Editor A. Sabo Compiled by V. Petrov Tehred L. Serdyukova Proofreader A.Obruchar Order 870/32 Circulation 533 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 J