SU1113524A1 - Method of determining depth of well - Google Patents

Abstract

1. METHOD OF OPR. DEPTH OF A DRILLING WELL, including determining the length of a drill string drilled into a well, taking into account the deformation of the string under its own weight and frictional forces against the walls of wells, in order to improve the accuracy of determining the strain of the drill codon , register in time the amount of movement of the drill string at the wellhead, the beginning and end of its movement at the bottom, then compare the measurement data on a time scale and determine the amount of deformation of the drill string. 2. A method according to claim 1, characterized in that, in order to improve the accuracy of measuring the deformation of the drill string under the action of friction forces on the borehole walls, the column is lowered to a depth close to the face, then lifted and lowered again. CO sd 4

Description

The invention relates to drilling, in particular to the measurement of the true bottom hole depths.

The known method of measuring the depth of the tool with the help of a cable, on which marks of different duration are placed, as a result of processing these marks, a correction is made to the extension of the drilling tool SP.

However, differences in stretching of the drilling tool and cable lead to errors in measuring the length of the drill string,

Practically to determine the extension of the drilling tool. downhole using computational methods that take into account various factors affecting the drill string in the well.

A known method for calculating the extension of a drill string due to its own weight and temperature, in which the question of the magnitudes of compressive and tensile forces in drill pipe columns under the action of its own weight of the value of friction against the borehole wall and the buoyancy force of the drilling fluid 21, is considered. and compressing 1 m of the drill pipe is approximately the same, or by experimentally obtaining them, elongation and compression of the drill string can be obtained by changing the drill string elements to which the forces are applied stretch and squeeze. When the drill string is stretched, the forces applied to the uppermost element will be equal to the forces applied to the lowermost element of the drill string when it is compressed. Thus, it is possible to apply this technique to calculate the drill string extension or to calculate the compressive magnitude, provided the drill string is uniform in terms of its elastic properties.

The disadvantages of the proposed method are the lack of reliable data on the friction of the drill string against the borehole wall and the non-uniformity of the specific density of the drilling fluid. Therefore, with the introduction of an amendment to calculate the depth of the drill string, the above method may introduce errors due to the reasons listed above.

There is a known method for determining the depth of a borehole, including determining the length of a string of drill pipes lowered into a well by measuring the weight of a string, taking into account the weight loss of pipes immersed in the washing fluid, and unloading due to friction of the pipes on the borehole walls, determining the weighted average weight per unit length of a string of pipes and calculating the well depth from the ratio of the weight of the pipe string to the weighted average weight per unit length of the FROM pipe.

However, this method gives large errors in deviated wells, since it is used without inclinometry. By measuring the load on the hook, you can take into account the total amount of friction and buoyancy, but it is impossible to distribute it throughout the wellbore and thereby determine the load values in each element of the drill string.

The aim of the invention is to improve the accuracy of determining the strain of the drill string.

The goal is achieved by the fact that according to the method of determining the depth of a borehole, including determining the length of the drill string, lowered into the well, taking into account the deformation of the string under its own weight and frictional forces against the borehole walls, the amount of movement of the drill string at the wellhead is recorded, and end of its movement at the bottom, then compare the measurement data on a time scale and determine the amount of deformation of the drill string.

In addition, in order to improve the accuracy of measuring the deformation of the drill string under the action of friction forces on the borehole walls, the string is lowered to a depth close to the face, then lifted and lowered again.

In the drawing, curve 1 corresponds to the measurement of depth increments by a ground depth gauge, and curve 2 corresponds to the marks of the beginning and end of the movement of the drill string at the bottomhole recorded by the downhole tool. Both curves are synchronized along the time axis.

When the drill string is lowered to the bottom, the lower end of the string will begin to move through the time 4tj from the moment te flows down to the wellhead. ,

Claims (2)

1. METHOD FOR DETERMINING THE DEPTH OF A DRILLING WELL, including determining the length of a drill string dipped into the well, taking into account the deformin of the string under the action of its own weight and friction forces against the walls of the wells, characterized in that, in order to improve the accuracy of determining the deformation of the drill string, register in time, the amount of movement of the drill string at the wellhead, the beginning and end of its movement at the bottom, then compare the measurement data on a time scale and determine the amount of deformation of the drill string. 2. The method of pop. 1, characterized in that, in order to improve the accuracy of measuring the deformation of the drill string under the action of friction against the well walls, the column is lowered to a depth close to the bottom, then it is raised and lowered again. * 1113524