摘要 |
<p>The present invention offers methods and apparatus for low-frequency sonic borehole logging with tube waves using discrete frequency measurements. A source transducer (16) emits sonic energy at location in a borehole (14) of at least one discrete frequency which induces propagation of tube waves in the borehole; sonic energy of the tube waves is received at multiple receiver locations in the borehole, the multiple receiver locations being spaced apart from one another and from the source transducer location; and at each said receiver location the complex pressure response (amplitude and phase, or real and imaginary parts) of a receiver (20-30) to the received sonic energy of the tube waves is detected relative to a phase reference. The detected complex pressure response may be processed to determine phase velocity of the tube waves in the borehole as a function of frequency, to determine attenuation of the tube waves in the borehole as a function of frequency and/or to determine attenuation and amplitude as functions of frequency. In addition, tube wave reflection coefficients near fractures, bed boundaries, etc., may be calculated. The tube wave data are useful for permeability correlation, fracture evaluation, rock rigidity studies and other purposes.</p> |