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育人成果 个人简介   我于2019年11月博士毕业于加拿大麦吉尔大学地球与行星科学学院，固体地球物理专业。现为浙江工业大学教授，博士生导师。国家级青年人才计划入选者。主事聚焦于防震减灾的研究，在地震前兆信号探索、远震触发、注采诱发地震触发以及二氧化碳地质封存等领域，发展了地震监测、震源分析、水文岩石力学数值模拟以及人工智能分析等一系列方法。在 EPSL, JGR, GRL，SRL，BSSA, Nature Communications等国内外知名期刊发表论文16篇。  我的研究主要围绕着非常规油气开发中产生的诱发地震所开展。应用地震学、水文地质力学模拟以及人工智能等相结合的方法，重点研究非常规油气注采（页岩气开发）诱发地震的发震机理与地震监测。同时计划开展应用量子重力仪对于地震前兆信号的探索，应用地震学方法监控山体滑坡，以及二氧化碳地质封存中微地震监测等方向的研究。欢迎对地球物理、地震学感兴趣的同学，推免或报考我的研究生。也欢迎博士后加入研究团队，具体待遇可商洽 教学与课程 科研项目 科研成果  已发表论文：  [1]    Yu, H., Wang, B., Kao, H., Visser, R., and Jobin, M., 2024, Storage potential of CO2 by repurposing oil and gas-related injection wells in the Montney Play, northeast British Columbia, Canada: International Journal of Greenhouse Gas Control, v. 133, p. 104102[2]    Wang, B., H. Kao, H. Yu, G. Li, R. M. H. Dokht, and R. Visser (2024), Unveiling Key factors governing seismogenic potential and seismogenic productivity of hydraulic fracturing pads: Insights from machine learning in the Southern Montney Play, Earth and Planetary Science Letters, 626, 118511, doi:https://doi.org/10.1016/j.epsl.2023.118511.[3]    Wang, B., Kao, H., Yu, H., Visser, R., & Verdecchia, A. (2023). Quantitative evaluation of the competing effects of wastewater disposal and hydraulic fracturing on causing induced earthquakes: A case study of an M3.1 earthquake sequence in Western Canada. J. Geophys. Res.: Solid Earth, 128, e2022JB025048.[4]    Yu, H., Kao, H., Wang, B., Visser, R., (2022). Long-Term Fluid Injection Can Expedite Fault Reactivation and Development: Riedel Shear Structures Illuminated by Induced Earthquakes in Alberta, Canada. Journal of Geophysical Research: Solid Earth 127, e2022JB025126[5]    Wang, B., H. Kao, H. Yu, R. Visser, and S. Venables (2022), Physical factors controlling the diverse seismogenic behavior of fluid injections in Western Canada, Earth Planet. Sci. Lett., 589, 117555.[6]    Wang, B., H. Kao, R. M. H. Dokht, R. Visser, and H. Yu (2022), Delineating the Controlling Factors of Hydraulic Fracturing‐Induced Seismicity in the Northern Montney Play, Northeastern British Columbia, Canada, With Machine Learning, Seismol. Res. Lett[7]    Gao, D., Kao, H., Wang, B., Visser, R., Schultz, R., & Harrington, R. Complex 3D Migration and Delayed Triggering of Hydraulic Fracturing‐Induced Seismicity: A Case Study Near Fox Creek, Alberta. Geophys. Res. Lett., e2021GL093979[8]    Yu, H., R. M. Harrington, H. Kao, Y. Liu, B. Wang (2021), Fluid-injection-induced earthquakes characterized by hybrid-frequency waveforms manifest the transition from aseismic to seismic slip. Nat Commun 12, 6862[9]    Yu, H., H. Kao, R. Visser, B. Wang (2021), From Seismic Quiescence to Surged Activity After Decades of Wastewater Disposal: A Case Study in central-west Alberta, Canada, Geophys. Res. Lett., p.e2021GL095074[10]Gao, D., Kao, H., & Wang, B. (2021). Misconception of waveform similarity in the identification of repeating earthquakes. Geophys. Res. Lett., 48(13).[11]Wang, B., A. Verdecchia, H. Kao, R. M. Harrington, Y. Liu, H. Yu(2020), A study on the largest hydraulic fracturing induced earthquake in Canada: numerical modeling and triggering mechanism, Bull. of the Seismol. Soc. of Am., 110(5), pp.2283-2294.[12]Yu, H., R. M. Harrington, H. Kao, Y. Liu, R. E. Abercrombie, B. Wang (2020). Well proximity governing spatial variation of stress drop and seismic attenuation associated with hydraulic fracturing induced earthquakes, J. Geophys. Res., 125(9).[13]Wang, B., R. M. Harrington, Y. Liu, H. Kao, H. Yu (2020). A study on the largest hydraulic‐fracturing‐induced earthquake in Canada: Observations and static stress‐drop estimation. Bull. Seismol. Soc. Amer., 110(5), pp.2283-2294[14]Yu, H., R. M. Harrington, B. Wang, Y. Liu (2019). Induced seismicity driven by fluid diffusion revealed by a near-field hydraulic stimulation monitoring array in the Montney Basin, British Columbia. J. Geophys. Res., 124(5), pp.4694-4709.[15]Wang, B., R. M. Harrington, Y. Liu, H. Kao, H. Yu (2018). Remote Dynamic Triggering of Earthquakes in Three Unconventional Canadian Hydrocarbon Regions Based on a Multiple-station Matched-filter Approach. Bull. Seismol. Soc. Amer., doi: 10.1785/0120180164.[16]Wang, B., R. M. Harrington, Y. Liu, H. Yu, A. Carey, N. J. van der Elst (2015). Isolated cases of remote dynamic triggering in Canada detected using cataloged earthquakes combined with a matched-filter approach, Geophys. Res. Lett., 42, 5187–5196.  社会服务