RU1772776C - Method of graduating well-logging devices of magnetic susceptibility - Google Patents

Abstract

Use, in the field of geophysical research of wells when measuring the magnetic parameters of materials in large volumes. SUMMARY OF THE INVENTION: calibration is carried out using models representing a hollow toroidal core with an inductance coil. The invention relates to the field of geophysical studies of wells, and can also be used to measure the magnetic parameters of materials in large volumes. A known method for calibrating CMW devices using large-sized models of magnetic susceptibility (MB) in the form of a toroid made of solid magnetic material, for example cement mixed with magnetite powder on which a single-layer winding is wound, is measured. The core is made of non-magnetic non-conductive material and consists of two or more sections separated by diametrical sections. In the first stage, the inductance of the LO winding wound on a toroidal core is determined in a standard way. Then the core is separated into its constituent parts, containers with magnetic substance are placed in the toroid cavity, the toroid is connected, restoring the initial configuration of the winding, and the inductance increment L due to the introduction of the magnetic substance is measured.Thus, the true magnetic susceptibility of the filler material LIST is determined (L - L0) / L0 is then compared with the value of the magnetic susceptibility of the substance obtained with the aid of a graduated KMV instrument placed to measure along the axis of the toroid. Then all operations are repeated for a different composition of the filler material. The method allows you to accurately, quickly and cheaply calibrate CMS devices, as well as measure the magnetic parameters of large-sized model measures 1 or its inductance, then wind a similar winding on a non-magnetic toroid of the same measurements, measure its inductance MB substances are determined from two values of inductance toroid k by the formula tn | mtatsfb VJ W VI VS CN lg L-U where L is the inductance of the winding on the magnetic toroid. LO - winding inductance on an isometric non-magnetic toroid

Description

Then all operations are repeated with other models made of substances with a different MB. Calibration of KM B devices is performed by comparing the readings of K MB devices, measured in moderation and the MB value of the substance of model 2,

The disadvantage of this calibration method is the low accuracy, especially at low MB values, due to the unequal relative position and area of the turns on the model model and on the same non-magnetic toroid.

The purpose of the invention is to increase the accuracy and, as a result, expand the range of calibration of KM B instruments in the region of low MB values.

Method (CMS instrument radarisation consists in measuring the magnetic susceptibility of the model material using a graduated device, which is a toroidal core with a winding, and determining the true MB of the model material by measuring the change in the inductance of the winding when using non-magnetic and magnetic material cores in series. It is proposed to measure the inductance of the coil mounted on the surface of a hollow toroid made of a non-magnetic non-conductive material in the form of sections number no less than two m. The hollow toroid is then separated into sections, containers with magnetic substance are placed in the cavity of the sections, after which the sections are connected again to form a hollow toroid filled with magnetic substance, restoring the configuration of the winding. Then, the winding inductance is measured and determined According to the measurement results, a change in its inductance.

The method is implemented using the device shown in the drawing.

First, the inductance of the winding 2, mounted on the surface of the hollow toroid 1, is measured using a reference device. Then, the toroid and the winding are disconnected on parts 3 and 4 along the diametrical section cavity. Into the cavity of the toroid: cg.h containers 5. filled with granular magnetic substance 6, connect the hour of the toroid

and thus, a model of the magnetic medium crossed by the borehole is obtained. Again, the inductance of the winding L is measured by the inductance increment due to the introduction of the magnetic substance, the MB of the substance is determined by the formula

10

to

L-u u

Then the verified instrument KMV 7 is placed on the axis of the toroid 8 and measurements are taken, the containers are removed from the cavity of the toroid, filled with loose magnetic

substance with a different MB and all the above operations are repeated. Comparing the readings of the CMV device with the MB value of solids, the calibration characteristic of the device is built.

Compared with the prototype method, the calibration range of the CMV devices is expanded in the direction of small values by 20 times.

Claims (1)

The claims A method for calibrating downhole tools for magnetic susceptibility logging, in which a calibrated device measures the magnetic susceptibility of a model substance, which is a toroidal core with a winding, finds the true magnetic susceptibility of the model substance, determines the change in winding inductance when using cores made of non-magnetic and magnetic substance characterized in that, in order to increase the accuracy of calibration, the winding inductance is pre-measured placed on the surface of a hollow toroid made of non-magnetic non-conductive material in the form of sections with a number of at least two, then the hollow toroid is separated into sections, containers with magnetic substance are placed in the cavity of the sections, then the sections are connected, again forming a hollow toroid filled with magnetic substance, restoring the configuration of the winding, and then again measuring the inductance of the winding and determine by The measurement results change its inductance. V