Abstract
A new multi-mode resistivity imaging sonde, with toroidal coils as source, can conduct three resistivity measurements: azimuthal resistivity, lateral resistivity, and bit resistivity measurements. Thus, the logging time and cost are greatly saved. The toroidal coils are simplified as an extended voltage dipole and the response equations are derived for a homogenous formation. Based on 3D FEM, the depth of investigation (DOI), vertical resolution, circumferential azimuthal capacity, borehole diameter, mud resistivity, thickness of target formation, and the resistivity of the surrounding formation and mud invasion are simulated. The results suggest that the three measurement modes of the new sonde are different in vertical resolutions and DOIs. The circumferential detection ability of the azimuth button depends on the contrast between the anomaly and formation resistivity and the open angle of the anomaly. Whether the borehole is truncated at the bit or not has a great influence on the simulation results. The borehole and mud invasion affect the apparent resistivity in all modes, but the effects of resistivity of surrounding formation and thickness of the target formation are only corrected for lateral resistivity measurement.
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Acknowledgements
The authors would like to thank Sinopec Research Institute of Petroleum Engineering for allowing using the data in this study and Dr. Yin Chengfang for her constructive comments. We are grateful to Nan Yousheng and Xu Zexi for their help in drawing the relevant figures. We also wish to thank the two anonymous reviewers.
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This project is sponsored by Study on High-Precision Logging While Drilling Imaging Technology of Low-Permeability Reservoirs (No. 2016ZX05021-002).
Kang Zheng-Ming is a PhD candidate at the College of Geophysics and Information Engineering, China University of Petroleum (Beijing). His interests are the principles and applications of resistivity logging-whiledrilling.
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Kang, ZM., Ke, SZ., Li, X. et al. 3D FEM simulation of responses of LWD multi-mode resistivity imaging sonde. Appl. Geophys. 15, 401–412 (2018). https://doi.org/10.1007/s11770-018-0692-7
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DOI: https://doi.org/10.1007/s11770-018-0692-7