可持續能源開發中的鑽孔地球物理模擬要领
報 告 人:Aimé Fournier 研究员
時 間:2025年6月23日(周一)上午10:00-12:00
地 點:創新中心D518會議室
主講內容:
聚焦 “鑽孔地球物理模擬在可持續能源領域的應用(Sustainable-energy applications of borehole geophysical simulations)”,系統闡述鑽孔地球物理模擬技術于地熱能開發、碳捕集與封存(CCS)、含水层储能等要害可连续能源场景中的创新应用。研究通过构建高精度地球物理数值模型,整合地质、水文、热力等多场耦合信息,深入剖析钻孔周边庞大地质情况下的流体运移、热量传导及应力应变机制。報告揭示了地球物理模拟在优化钻井结构、预测能源开采效率、评估情况风险及提升储能宁静性等方面的重要作用。基于实际工程案例与模拟结果对比,验证了模型的可靠性与有效性。研究结果为可连续能源项目的科学计划、高效实施及恒久稳定运行提供了坚实的理论与技术支撑,对推动能源结构绿色转型、实现全球碳中和目标具有重要的学术价值与现实意义。
主講人簡介:
Dr. Aimé Fournier is an applied mathematician and physicist whose expertise ranges from climate and weather simulation to scientific computation of thermo-hydromechanics and uncertainty quantification. His work presently focuses on borehole integrity for environmental regulatory compliance, enhanced geothermal systems, and CO2 sequestration. Currently he is a Principal Investigator at the MIT Department of Earth, Atmospheric + Planetary Sciences/Earth Resources Laboratory, and Research Associate Professor at the University of Colorado Denver Department of Mathematical and Statistical Sciences, He received his PhD in Physics at Yale University, and went on to be a Project Scientist at the National Center for Atmospheric Research, and Senior Research Geophysicist at Schlumberger. Over his career he's worked on wavelet analysis, numerical solution of partial differential equations, turbulence, Bayesian inference in high dimensions, decision analysis, signal processing, space-time wormholes, and other topics. Common themes among these works have been to: listen to what the sponsor needs; find a sufficient mathematical representation of the physics, and understand deeply what it does and doesn’t say; combine analytical and computational approaches as fit the purposes; build bridges of communication between different kinds of expert; and don't worry about fashionable topics.
