SU1460687A1 - Apparatus for measuring electric conductivity - Google Patents

Abstract

The invention relates to the field of geology, serves to measure the electrical resistivity (resistivity) and can be used to calculate oil reserves and design oil fields. The aim of the invention is to improve the accuracy of measuring porosity-cavernous resistivity1 The invention relates to geology, oil and gas industry and can be mainly used in the preparation of baseline data for calculating oil reserves and designing an oil field development project. The purpose of the invention is to increase the accuracy of measuring the electrical resistivity (CES) of porous-cavernous rocks in a direction parallel to the stratification. rocks in the direction parallel to the bedding. In the device for resistive electrical devices, bulk electrodes are made of metal pellets with a silver-plated surface, which make it possible to create an electric current in a rock specimen in the form of a cylinder with an axial channel in a direction parallel to the bedding. When measuring the resistivity of a rock sample, one of the bulk electrodes is formed in the volume of the axial channel, the other in the volume of the coaxial space formed by the side surface of the sample and the inner surface of the metal cover rigidly fixed on the base. The clamp clamp and the base of the device, made of an electrically non-conductive material, through elastic pads are pressed against the ends of the rock specimen with a certain force, fixed by the measuring device. 1 pe. The drawing shows a diagram of the device in the Assembly when measuring the electrical resistivity of a sample of a porous-cavernous rock in a direction parallel to the bedding. A device for measuring the resistivity of cylindrical samples from a core includes a housing in which a clamp clamp 1 is located, equipped with a hydraulic chamber 2 with a plunger 3, a base 4 of an electrically non-conducting material (dielectric) with a built-in (L 4iik O CX sl

Description

plug connector 5 and conductor 6, forming a current collector for connecting to the measuring device, ringing the metallic leather 7, fixed on the base 4, cover 8 with the plug 9 rigidly fixed in its lower part, forming the second current collector, cover 1 About from an electrically non-conductive material with a spring-loaded rod 11 and a rigidly fixed support 12 embedded on its inner side, fitted with current collectors. Electrodes 13 and 14 of silver-plated metal pellets, pressure gauge 15 for measuring pressure liquid in chamber 2, pressure screw 16 connecting cover 10 and clip 1 and intended to create tension in sample 17 of rock in the direction of its axis, elastic pads 18 and 19 of current-conducting material to seal the ends of sample 17 of rock, a spring 20, under the action of which the bulk electrode 14 is compacted. The current path 6 is mounted along the axis of the housing in the dielectric base 4 and, together with the spring-loaded rod 11, forms one of the current collectors. The second current collector is formed by a cover 8, made in the form of a hollow zipingra fixed on the base 4, the internal diameter of which exceeds the sample diameter.

Measurement of resistivity of porous-cavernous

The rocks in the device are as follows.

A test sample 17 of a porous-cavernous rock, made of a core, having a cylindrical shape and an axial channel oriented perpendicular to the bedding, is mounted on the base 4, having previously placed on its surface an elastic strip 18 of electron-conductive material. The axial channel and the space formed by the side surface of the sample 17 and the inner surface of the cover 8 are filled with metaplastic

In this case, bulk electrodes 13 and 14 are formed with pellets whose surface is coated with a layer of silver. Screw 16 is pressed against pressure gauge 15 to the upper end of sample 17 through gasket 19 of elastic electrically conductive material. Under pressure of spring 20, rod 11 compacts the bulk electrode 14, and it comes into close contact with the rock specimen. At the same time, due to the action of the elastic force from the side of the deformed elastic gasket 19, the bulk electrode 13 is compacted and also comes into close contact with the rock specimen. An AC bridge is connected to the plug-in connectors 5 and 9 and the electrical resistivity of the sample of porous-cavernous rock is measured in a direction parallel to the bedding.

Claims (1)

Invention Formula A device for measuring the electrical resistivity of cylindrical samples made from a core, comprising a housing in which a dielectric base is located, and a lid connected by a pressure screw with a clamp clamp, metal electrodes with current collectors for connection to a measuring instrument, characterized in that - no measurement accuracy, the current collector of one of the electrodes is made in the form of a conductor installed along the axis of the housing in a dielectric base and spring-loaded w The current on the inside of the lid, the current collector of the second electrode is a hollow cylinder fixed on the base, the inner diameter of which exceeds the diameter of the sample, and the electrodes installed along the axis of the sample and on its outer cylindrical surface are made of silver-plated metal pellets. /five