SU437036A1 - Acoustic logging method - Google Patents

Description

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This invention relates to exploration geophysics.

There is a method of acoustic logging, which is based on the representation of a wave field excited in the medium by an axisymmetric radiator placed in a cylindrical well, as a sum of two parts: an axisymmetric one containing one type of waves, and one asymmetric one containing other types of waves, in particular reflected from inclined boundaries in the environment.

The method of subtracting signals received diametrically opposed to each other in the same diametral section of the well allows one to efficiently isolate the reflected waves by suppressing other waves.

However, it is not possible to determine by a difference signal by which method from which two opposite directions the reflected signal is received, as a result of which the task of determining the elements of the acoustic reflecting boundaries cannot be solved unambiguously.

The proposed method makes it possible to increase the reliability of the emission of reflected waves and unambiguously determine the direction of incidence of the reflecting boundary. This is achieved by exciting signals in the borehole using a source having central symmetry (sphere, cylinder) and subtracting signals received diametrically opposite directions in two diametric sections of the well above and below the radiator,

equidistant from its center.

FIG. 1 shows a section of a cylindrical well with a diameter d and an acoustic probe. Probe contains centrally symmetric

(cylindrical) emitter 1 and receivers 2 and 3, located higher and lower than the emitter at a distance x / along its axis, and the directivity characteristics of receivers 2 and 3 are diametrically opposite. The flat line a shows the position of the boundaries that intersect the well at an angle of (the plane of apparent padapy in the plane of the drawing). The dotted line b shows the position of the same boundary, the azimuth of which differs from the position a by 180 °. Positions a and b are indistinguishable by the nature of the different signal.

Pa figs. 2 shows the dependence / arrival curve of the reflected waves on the depth h

the center of the emitter when the probe moves in the process of logging along the borehole past its intersection with the boundary. Flat lines refer to position a, and dashed lines refer to position b.

Since the waves reflected from the boundary