Day 6-Can Underground Energy Trigger Earthquakes?地下能源会引发地震吗?

Can underground energy projects trigger earthquakes? In this video, I explain induced earthquakes in a simple and visual way using dynamic subsurface simulation concepts. We explore how hydrocarbon production, CO₂ geological storage (CCS), and underground hydrogen storage (UHS) can change pressure and stress underground, and how those changes may influence fault stability. This video is designed to be easy to understand for both academic and non-academic audiences. Using clear visuals and simple explanations, I show: how pressure changes underground why faults may slip the difference between a fluid plume and a pressure footprint why hydrocarbon depletion can change stress how CO₂ injection can affect fault stability why hydrogen storage cycling is a special geomechanical challenge how engineers reduce risk using monitoring, traffic-light systems, and pressure management If you are interested in reservoir simulation, CCS, underground hydrogen storage, geomechanics, fault stability, or subsurface energy systems, this lecture is for you. This channel shares educational content on: Reservoir Simulation Carbon Capture and Storage (CCS) Underground Hydrogen Storage (UHS) Geomechanics Digital Twins AI for Subsurface Energy If you enjoy this video, please like, subscribe, and share. Let me know in the comments what topic you want next: CO₂ leakage, fault stability, hydrogen storage, reservoir simulation, or AI digital twins? #InducedEarthquakes #CCS #HydrogenStorage #ReservoirSimulation #Geomechanics #CarbonStorage #SubsurfaceEnergy #EnergyEducation #YouTubeLecture #FaultStability #诱发地震 #碳封存 #地下储氢 #油藏模拟 #地质力学 #氢能储存 #断层稳定性 地下能源项目会引发地震吗？ 在本视频中，我们将用简单、直观的方式解释诱发地震的基本原理。视频重点介绍油气开发、二氧化碳地质封存（CCS）以及地下储氢（UHS）过程中，地下压力变化如何影响应力状态，并可能改变断层稳定性。 本视频适合非专业观众、学生、研究人员以及对地下能源系统感兴趣的朋友观看。通过动态模拟和清晰图像，我们将解释： 地下压力如何变化 为什么断层可能发生滑动 CO₂羽流与压力波及范围的区别 油气开采如何导致储层压实和应力转移 CCS注入如何影响断层稳定性 地下储氢的周期性注入与采出为什么需要特别关注 如何通过监测、交通灯预警系统和压力管理降低诱发地震风险 如果你对油藏模拟、碳封存、地下储氢、地质力学、断层稳定性和地下能源系统感兴趣，欢迎订阅本频道。