Artificial intelligence-based investigation of fault slip induced by stress unloading during geo-energy extraction

Zhenlong Song, Yunyi Qian, Yuxing Mao, Xiaofei Chen, P. G. Ranjith, Qinglin Deng

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Abstract


Seismic events triggered by stress unloading during geo-energy extraction activities have become a key focus in both seismological research and engineering safety. This study presents a novel application of waveform neural networks, combining unsupervised and supervised learning techniques to classify and characterize fractures in laboratory-induced seismic events. Initially, A neural network model was initially developed that is capable of extracting time-frequency features from waveforms through unsupervised training on 1.2 million Acoustic Emission waveforms. Subsequently, this model was fine-tuned using a labeled dataset obtained from Brazilian split and uniaxial compression tests. The final result was a highly accurate model, achieving an accuracy rate of 97.6%. By applying this refined model, insights have been gained into the complex fault slip behaviors induced by geo-energy extraction activities. Our findings reveal that fluid infiltration at the onset triggers low-energy, shear-induced fractures in low-stress fault regions, which then escalate into tensile fractures during critical sliding in high-stress areas. Key precursors to fluid-induced seismicity have been identified, providing a major advance in early seismic hazard detection. These insights are essential for monitoring and early warning of induced seismicity during geo-energy extraction activities. Our work contributes significantly to improving the safety and efficiency of geo-energy extraction, including geothermal, shale gas, and conventional hydrocarbon production.

Document Type: Original article

Cited as: Song, Z., Qian, Y., Mao, Y., Chen, X., Ranjith, P. G., Deng, Q. Artificial intelligence-based investigation of fault slip induced by stress unloading during geo-energy extraction. Advances in Geo-Energy Research, 2024, 14(2): 106-118. https://doi.org/10.46690/ager.2024.11.04


Keywords


Unsupervised learning, acoustic emission signals, rock fracture identification, induced seismicity

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References


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DOI: https://doi.org/10.46690/ager.2024.11.04

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