Since the 21st century, the world economy has entered a new development cycle, and the demand for oil and natural gas resources around the world has skyrocketed. In the face of this huge energy demand, people begin to pay more attention to unconventional oil and natural gas resources. Coalbed methane (CBM) is a gas resource associated and symbiotic with coal. CBM is mainly hydrocarbon gas adsorbed on the pore surface of coal matrix and partially freed in pores or dissolved in water. It is, as an associated mineral resource of coal, a clean, high-quality energy and chemical raw material. It is well-known that the burial depth of CBM reservoirs ranges from hundreds of meters to several thousand meters, and its gas-liquid-solid interaction mechanism is complex. So, it is often necessary to obtain the fluid-coal information by means of, for example, acoustic logging. At present, many scholars have carried out the acoustic research on the fluid-coal system. However, there are relatively few studies on the acoustic characteristics of the gas-liquid-solid linkage effect, especially the fluid saturation effect under different coal rank conditions.
The study, focused on the acoustic characteristics of the gas-liquid-solid linkage effect in CBM reservoirs, revealed the P-wave and S-wave response of fluid saturation under different coal rank conditions. This work was carried out by the research team of Prof. Dr. Dameng Liu, from the China University of Geosciences (Beijing), and was published online in Frontiers of Earth Science on 2022, entitled “P-wave and S-wave response of coal rock containing gas-water with different saturation: an experimental perspective”.
In this study, typical coal samples with low to high metamorphism were selected from the coal mines in the southern margin of Junggar Basin and in Qinshui Basin. Before the acoustic research, basic experiments including coal industrial analysis, vitrinite reflectance measurement, and maceral analysis were carried out. On this basis, coal ultrasonic P-wave and S-wave testing experiments on dry coal samples and on coal samples containing gas-water with different saturation were carried out. Finally, the influence of coal type and gas-water saturation on acoustic response of CBM formations were analyzed.
The authors noted that, for dry coal samples, the acoustic velocity was linear with vitrinite reflectance and density. Meanwhile, the (P-wave velocity V p)/(S-wave velocity V s) ratio, relative anisotropy of both V p and V s of dry coal samples tended to increase with increasing vitrinite reflectance and density of the coal samples, but the correlation between them was not very strong.
The study also showed that the V p and V s of gas-water saturated coal samples increased gradually with increasing water saturation ( S w) and vitrinite reflectance. However, with increasing vitrinite reflectance and density, and S w increased from 0 to 100%, and the range of V p and V s increase was gradually narrowed. For coal samples with similar vitrinite reflectance, the V p/ V s ratio of tectonic coals were larger than those of primary coals, and the increase rang of V p and V s of tectonic coal was also significantly higher when the S w increasing from 0 to 100%.
Additionally, the researchers found that the relative anisotropy of both V p and V s increased linearly with the S w. For coal samples with similar vitrinite reflectance, the relative anisotropy of V p and V s, and its growth rate of the tectonic coal was larger than that of the primary coal in general at the same S w. This suggests that the acoustic anisotropy was stronger in the tectonic coal with well-developed pores and fractures. The anisotropy is more markedly influenced by the water saturation S w.
The analyses of their study on the acoustic characteristics of gas-liquid-solid interactions formed the basis for the geophysical exploration of CBM reservoirs. A clearer understanding of the gas-water distribution characteristics in CBM reservoirs can be obtained when combined their models with that of the previous acoustic works. The study also provides a research basis for in-depth analysis of acoustic geophysical exploration methods under complex fluid conditions in actual reservoirs.
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Cite this article
Dameng Liu, Lijing Li, Zheng Zhao, Wei Chen, Yidong Cai, Yongkai Qiu, Yingfang Zhou. P-wave and S-wave response of coal rock containing gas-water with different saturation: an experimental perspective. Frontiers of Earth Science (2022). https://doi.org/10.1007/s11707-021-0958-x
About Researcher
Prof. Dr. Dameng Liu, Vice President of China University of Geosciences (Beijing), and Executive Director of China Higher Education Society. He presided over 50 national, provincial and oilfield research projects in China, and his research areas are unconventional oil and gas geology theory and technology.
About Frontiers of Earth Science
Frontiers of Earth Science publishes original, peer-reviewed, theoretical and experimental frontier research papers as well as significant review articles of more general interest to earth scientists. The journal features articles dealing with observations, patterns, processes, and modeling of both innerspheres (including deep crust, mantle, and core) and outerspheres (including atmosphere, hydrosphere, and biosphere) of the earth. Its aim is to promote communication and share knowledge among the international earth science communities.
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Frontiers of Earth Science
Experimental study
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P-wave and S-wave response of coal rock containing gas-water with different saturation: an experimental perspective
11-Apr-2022