SU802537A1 - Borehole crooking measuring method - Google Patents

Description

(54) METHOD OF MEASURING WELL CURVENT

The invention relates to methods for drilling directional and vertical wells. A known method for determining borehole curvature. In this method, the deviation of the well bore at a selected scale is determined by the change in the phase difference and the difference or the ratio of amplitudes previously recorded in the calibrated recorder chart. It is also necessary to have information about the proposed wavelength in the area where the drill is located, and to install seismic receivers at a distance less than that of wave 1. The main disadvantages of this method are low direction finding sensitivity due to the poorly defined directional properties of seismic receivers installed vertically and the possibility of obtaining false data, and consequently, false values of the deviations of the wellbore from the vertical due to the non-identity and instability of the amplifying channels, as well as many the number of operations at work. And the difficulty of obtaining the necessary data for solving equations. All these factors lead to significant errors. There is also a known method for determining the borehole curvature using the amplitude total-difference signal processing method, caused by working on the bottom of the bits, recorded with obliquely mounted relative to each other, seismic receivers located in diametrically opposite directions the distance from the wellhead in two mutually perpendicular planes 2. The disadvantage of the method is the small limits of measurement of the angle of curvature Azhinov limited angle of inclination of the geophones. In addition, when measuring angles close to the limit, errors occur due to the nonlinearity of the output characteristic of the system. These drawbacks are manifested when drilling directional wells. The aim of the invention is to improve the accuracy of measurement of the angles of curvature of directional wells.

This goal is achieved by moving the seismic receivers synchronously in position and, at the moment of obtaining the zero value of the difference of the signals of the seismic receivers, determine the angles of curvature of the wellbore.

The drawing shows a diagram of the implementation of the method in the same plane, based on the amplitude sum-differential processing of signals of seismic receivers.

The scheme includes vertical seismic receivers 1 and 2, a rotation mechanism of seismic receivers 3, an amplitude sum-difference device 4, an indicator of the operation of system 5, a null indicator 6, and an offset angle scale.

In the initial position, seismic detectors 1 and 2 are set so that the maxima of their radiation patterns Z ,,,, itnax are shifted relative to each other at a constant angle, and their location on the surface ensures that the equal-signal direction (PCH) coincides with the vertical.

In this case, when the bit is working on the bottomhole, the arising elastic waves excite seismic receivers 1 and 2 in the same way, since in the downhole direction the vectors of radiation patterns are equal. Therefore, the difference A of the voltages of i. And Us. equals zero, i.e. Uii-Usi 0 at the differential output of the device 4. The arrow of the zero-indicator 5 is at zero, and the arrow of the indicator 6 shows some value proportional to the sum of the voltages Uj and Us.2., Signaling the operation of the system.

In case of further drilling, if the bottom hole goes down from the vertical, a null indicator 6 appears on the error signal because the vectors and j are not equal at the same position of the seismic receivers, and the difference output of device 4 produces a difference of the seismic receivers 1 and 2

Ui ,.

The operator (or machine), turning both the seismic receivers (without their mutual displacement) with the help of the rotation mechanism 3, achieves a zero reading of the null indicator, which ensures a shift of the equal signal direction (PCH) towards the bottom side. At this moment, the vectors of the diagram, the directivity of the seismic detectors and r turn out to be equal, and the voltage difference. equals zero. At the same time, the angle is calculated} f by the slit 7.

Amplitude sum-difference signal processing of the seismic receivers is performed in device 4, which has two outputs — differential A, associated with the null indicator, and total $., Associated with the system operation indicator.

Indicator 6 controls the operation of the system by the presence of the total signal from the output of the device 4. This monitoring is necessary in order not to be mistaken in determining whether the PCH coincides with the direction to the bottom, because a signal may be lost due to technical reasons, and the zero indicator hand will show zero. The presence of the total signal means normal operation at a zero value of the differential signal Ac output device 4.

The application of this method clears the measurement limit of the deviation of the well from the vertical, which is very important when drilling directional wells, since the signal-to-signal direction constantly coincides with the direction to the bottom, and is not limited, as in the prototype, by the angle of shift between the seismic receivers constantly installed surface of the earth.

In addition, at the boundaries of the angular shifts between the seismic receivers, the characteristic is nonlinear, which leads to errors when measuring angles close to the limiting ones.

Claims (2)

1. USSR author's certificate number 286890, cl. Е 21 В 47/02, 02.10.69. 2. USSR author's certificate for application number 2590222/03, cl. E 21 B 47/02, 01.30.79.