Qiuli He scite author profile

Qiuli He

3Publications

18Citation Statements Received

36Citation Statements Given

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Calculation of Tilted Coil Voltage in Cylindrically Multilayered Medium for Well-Logging Applications

Zhan

Wang

et al. 2020

IEEE Access

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In cylindrical multilayered medium, we develop two tool models for electromagnetic (EM) well logging: a metal mandrel winding with a co-axial (tilted) transmitter coil and a tilted (coaxial) receiver coil. The voltages on receivers in those two models are proven to be the same and only zero-order harmonic of EM field need to be considered for voltage calculation. To calculate the voltage, two pseudo-analytical formulae are presented by using the integral of electrical field in spatial and wavenumber domain, respectively. Those two alternative pseudo-analytical formulae can be used to verify calculation accuracy of each other in some scenarios when other numerical methods do not work well. Furthermore, the reflection coefficients of EM fields, consisting of the ratios of the cylindrical functions, are introduced to avoid overflow problems in the numerical integral. Numerical examples corroborate the correctness and stability of the proposed formulae. These formulae help advance the forward modeling and inversion of logging-while-drilling (LWD) azimuthal resistivity measurements and new extra-deep azimuthal resistivity tools (EDAR). INDEX TERMS Directional antennas, receiving antennas, electromagnetic propagation in absorbing media, geophysical measurement techniques, well logging.

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Foundation of Ultradeep Boundary Detection Based on the Electric Field Characteristics

Ding

Chen

et al. 2022

IEEE Trans. Geosci. Remote Sensing

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An Ultra-deep Boundary Detection Method Based on Electric Field Analysis

Ding

Chen

et al. 2019

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Qiuli He

Calculation of Tilted Coil Voltage in Cylindrically Multilayered Medium for Well-Logging Applications

Foundation of Ultradeep Boundary Detection Based on the Electric Field Characteristics

An Ultra-deep Boundary Detection Method Based on Electric Field Analysis

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