Anisotropy measurements and characterization of the Qingshankou shale
Li Qing-feng, Yan Xue-hong,Yan Wei-lin, Ren Li, Wang Peng,Han Jian-qiang,Xia Xue,Chen Hao*
1. Daqing Oilfi eld Exploration Division, Daqing, 163000, Heilongjiang, China
2. Daqing Branch Company of CNPC Logging, Daqing, 163000, Heilongjiang, China
3. Exploration and Development Research Institute of Daqing Oilfi eld Co., Ltd., Daqing, 163712, China
4. State Key Laboratory of Acoustics, Institute of Acoustics, Chinese Academy of Sciences, Beijing, 100190, China
Abstract Qingshankou shale (Gulong area, China) exhibits strong acoustic anisotropy characteristics, posing significant challenges to its exploration and development. In this study, the five full elastic constants and multipole response law of the Qingshankou shale were studied using experimental measurements. Analyses show that the anisotropy parameters ? and γ in the study region are greater than 0.4, whereas the anisotropy parameter δ is smaller, generally 0.1. Numerical simulations show that the longitudinal and transverse wave velocities of these strong anisotropic rocks vary significantly with inclination angle, and signifi cant differences in group velocity and phase velocity are also present. Acoustic logging measures the group velocity in dipped boreholes; this diff ers from the phase velocity to some extent. As the dip angle increases, the longitudinal and SH wave velocities increase accordingly, while the qSV-wave velocity initially increases and then decreases, reaching its maximum value at a dip of approximately 40°. These results provide an eff ective guide for the correction and modeling of acoustic logging time differences in the region.
Fund:
This work was supported by Major Science and Technology Special Project of China National Petroleum Corporation "Research on Large scale Storage and Production Increase and Exploration and Development Technology of Continental Shale Oil" (2023ZZ15)
2024, Vol. 21 
