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Journal of the Australian Society of Exploration Geophysicists
RESEARCH ARTICLE

A comparative study of borehole size and tool effect on dispersion curves

Weijun Zhao 1 Jongman Kim 2 Yeonghwa Kim 2 3
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1 Centre for Northeast Asian Studies, Tohoku University, Japan.

2 Department of Geophysics, Kangwon National University, South Korea.

3 Corresponding author. Email: yhkim@kangwon.ac.kr

Exploration Geophysics 40(1) 154-162 https://doi.org/10.1071/EG08116
Submitted: 14 November 2008  Published: 27 February 2009

Abstract

Sonic wave dispersion characteristics are one of the most important targets of study, particularly in estimating shear wave velocity from borehole sonic logging. We have tested dispersion characteristics using monopole and dipole sources. Theoretical dispersion curves were computed for tool-absent and tool-included models having the same physical properties but different diameters (including Φ520 mm, Φ150 mm, and Φ76 mm). Comparisons were made between boreholes of different sizes and between tool-absent and tool-included models. Between the tool-included and the tool-absent boreholes, a close similarity in dispersion curve shape was revealed for the monopole source, and a significant difference was shown for the dipole source. However, for the cut-off frequency, particularly in the engineering boreholes (Φ76 mm and Φ50 mm), a significant difference was observed for signals from the monopole source, but approximately the same cut-off frequencies were found with the dipole source. This indicates the need of careful choice of source frequency in monopole-source sonic logging, particularly in an engineering borehole.

The results of numerical experiments show that cut-off frequency is exponentially proportional to the inverse of borehole radius, irrespective of the mode type and the presence of a tool, and that the cut-off frequencies for each borehole environment could be expressed as an exponential function, rather than the inversely proportional relationship between the cut-off frequency and the borehole radius that was previously generally recognised. From the direct comparison of dispersion curves, the effects on the dispersion characteristics of borehole size and the presence of the tool can be revealed more clearly than in previous studies, which presented the dispersion curve and/or characteristics for each borehole environment separately.

Key words: borehole size, cut-off frequency, dispersion, monopole and dipole source, tool effect.


Acknowledgments

The authors express sincere thanks to Mr. Sungkun Park and Byoung Chol Hwang of Kangwon National University for much help in writing this paper. We are indebted to the anonymous referees for their valuable comments and suggestions on this paper.


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