The seismic dispersion and attenuation characteristics of organic shales
Autor: | Hui Li, Qi Huang, Luanxiao Zhao, Yirong Wang, Zhenjia Cai, Xuan Qin, Jinghuai Gao, Dehua Han |
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Rok vydání: | 2022 |
Předmět: | |
Zdroj: | Geophysical Journal International. 232:1785-1802 |
ISSN: | 1365-246X 0956-540X |
DOI: | 10.1093/gji/ggac408 |
Popis: | SUMMARY To improve our understanding of wave dispersion and adsorption signature of organic shales, we select a set of vertical shale samples cored from different formations and conduct the forced-oscillation measurements in seismic frequencies of 2–800 Hz at the oven-dried conditions. The results demonstrated that both Young's modulus and Poisson's ratio of immature Barnett and Eagle Ford shales and mature Mancos shale remain roughly constant and the extensional attenuations are also insignificant at the entire frequency band. However, the mature Jungar shale exhibits strong dispersions with the magnitude of 23.4 per cent for Young's modulus at the confining pressure of 3.4 MPa. The dispersion and magnitude of Jungar shale overall exhibit a decreasing trend with increasing pressure, but still maintain strong attenuation at the confining pressure of 20.8 MPa. It is found that the single parameter of TOC, thermal maturity and clay content are not the controlling factors of wave dispersion and adsorption signatures. Instead, the geochemical index ${\rm{TOC}} \times {S_1}/({S_1}{\rm{ + }}{S_2})$ is positively correlated with dispersion and attenuation magnitude, suggesting that organic richness and maturity level jointly control the wave adsorption characteristics. Geochemical analysis and phenomenological modelling imply that such kinds of energy dissipation in organic shales are possibly caused by the viscous friction at interfaces between inorganic grains and the surface of liquefied or bitumen-filled organic matter. Besides, a modified standard linear solid model containing multiple sets of a characteristic frequency is proposed and well captures the continuous dispersion signatures considering that the Jungar shale contains various maturity-induced viscous organic matter. |
Databáze: | OpenAIRE |
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