This course systematically explains the physical and mechanical properties of rock, introduces the testing and determination methods of important parameters in rock mechanics, analyzes the typical problems of rock mechanics in petroleum engineering, and can enable students to deepen and strengthen the understanding of engineering problems.
开设学校:中国石油大学(北京);学科:工学、
This course systematically explains the physical and mechanical properties of rock, introduces the testing and determination methods of important parameters in rock mechanics, analyzes the typical problems of rock mechanics in petroleum engineering, and can enable students to deepen and strengthen the understanding of engineering problems.
-01 Rock Mechanics Overview
--Video
-01 Rock Mechanics Overview-Homework
-02 A Brief History of Rock Mechanics
--Video
-02 A Brief History of Rock Mechanics-Homework
-03 Research Methods of Rock Mechanics
--Video
-03 Research Methods of Rock Mechanics-Homework
- 04 Research Objects and Characteristics in Rock Mechanics
--Video
-04 Research Objects and Characteristics in Rock Mechanics-Homework
-05 The Mechanical Properties of Rocks
--Video
-05 The Mechanical Properties of Rocks-homework
-06 Elastic Properties of Rocks
--Video
-06 Elastic Properties of Rocks-Homework
-07 Uniaxial Compression Testing of Rock
--Video
-Uniaxial Compression Testing of Rock-Homework
-08 Triaxial Compression Testing of Rock
--Video
-Triaxial Compression Testing of Rock-Homework
-09 Tensile Strength Testing of Rock
--Video
-Tensile Strength Testing of Rock-Homework
-10 Rock Rheology
--Video
-10 Rock Rheology-Homework
-11 Stress and Strain
--Video
-Stress and Strain-Homework
-12 Principal Stress and Principal Strain
--Video
-Principal Stress and Principal Strain-Homework
- 13 Strain Energy
--Video
-Strain Energy-Homework
- 14 Thermoelasticity
--Video
-Thermoelasticity-Homework
- 15 Porosity and Permeability
--Video
-Porosity and Permeability-Homework
- 16 The Effective Stress of Rock
--Video
-The Effective Stress of Rock-Homework
-17 In-situ Stress
--Video
-17 In-situ Stress-Homework
-18 Pore Pressure
--Video
-18 Pore Pressure-Homework
-19 The Sedimentary Properties of Rocks
--Video
-19 The Sedimentary Properties of Rocks-Homework
-20 The Mechanical Properties of the Sedimentary Rocks
--Video
-20 The Mechanical Properties of the Sedimentary Rocks-Homework
-21 The Concept of Rock Failure and Tensile Failure
--Video
-21 The Concept of Rock Failure and Tensile Failure-Homework
- 22 The Shear and Compaction Failure of Rock
--Video
-The Shear and Compaction Failure of Rock-Homework
-23 The Stress Analysis of the Surrounding Rock of the Vertical Well Wall
--Video
-23 The Stress Analysis of the Surrounding Rock of the Vertical Well Wall-Homework
-24 The General Solution of Elastic Stress around the Well
--Video
-24 The General Solution of Elastic Stress around the well-Homework
-25 The Time Effect of Poroelasticity
--Video
-25 The Time Effect of Poroelasticity-Homework
-26 The Rules of Borehole Failure
--Video
-26 The Rules of Borehole Failure-Homework
-27 The Methods for Determining the In-situ Stress in the Oil Field
--Video
-27 The Methods for Determining the In-situ Stress-Homework
-28 The Wave Equation
--Video
-28 The Wave Equation-Homework
-29 P-wave and S-wave
--Video
-29 P-wave and S-wave-Homework
-30 The Determination of Rock Elasticity and Strength Parameterssonic with Well Logging
--Video
-30 The Determination of Rock Elasticity and Strength-Homework
-31 The Determination of Fracture and Collapse Pressure with Sonic Logging
--Video
-31 The Determination of Fracture and Collapse Pressure with Sonic Logging-Homework
-32 The Behaviors and Causes of Borehole Instability
--Video
-32 The Behaviors and Causes of Borehole Instability-Homework
- 33 Borehole Collapse
--Video
-33 Borehole Collapse-Homework
-34 The Rock Mechanics Analysis of Borehole Stability during Drilling Process
--Video
-34 The Rock Mechanics Analysis of Borehole Stability-Homework
-35 The Interaction of Shale and Drilling Fluid
--Video
-35 The Interaction of Shale and Drilling Fluid-Homework
-36 Nonlinear Analysis of Wellbore Stability
--Video
-36 Nonlinear Analysis of Wellbore Stability-Homework
-37 The Wellbore Stability Analysis under Complex Conditions
--Video
-37 The Wellbore Stability Analysis under Complex Conditions-Homework
-Wellbore Stability Problem during Drilling Process
-38 Introduction of Sand Production
--Video
-38 Introduction of Sand Production-Homework
-39 The Stability Analysis of Sand Arch
--Video
-39 The Stability Analysis of Sand Arch-Homework
-40 Sand Production Prediction and Prevention
--Video
-40 Sand Production Prediction and Prevention-Homework
-41 Introduction of Hydraulic Fracturing
--Video
-41 Introduction of Hydraulic Fracturing-Homework
-42 The Understanding of Tensile Failure from the Effective Stress
--Video
-42 The Understanding of Tensile Failure from the Effective Stress-Homework
-43 The Formation Breakdown and the Hydraulic Fracture Generation
--Video
-43 The Formation Breakdown and the Hydraulic Fracturing Generation-Homework
-44 The Hydraulic Fracture Orientation and Propagation
--Video
-44 The Hydraulic Fracture Orientation and Propagation-Homework
-45 The Shape and Size of Hydraulic Fracture
--Video
-45 The Shape and Size of Hydraulic Fracture-Homework
-46 The Analysis of Fracture Closure
--Video
-46 The Analysis of Fracture Closure-Homework
-47 The Physical Simulation of Hydraulic Fracturing
--Video
-47 The Physical Simulation of Hydraulic Fracturing
-48 Field Case Example of Hydraulic Fracturing
--Video
-48 Field Case Example of Hydraulic Fracturing-Homework
-49 Reservoir Deformation and Influence
--Video
-49 Reservoir Deformation and Influence-Homework
-50 The Experiment of Rock Fracture
--Video
-50 The Experiment of Rock Fracture-Homework
张广清,博士,教授,博士生导师,石油工程学院院长。担任世界石油理事会中国国家委员会委员,教育部工科基础课教学指导委员会委员,全国石油工程硕士研究生教育认证工作秘书处秘书长,全国研究生工程教指委石油与天然气工程领域协作组组长。2013年获得国家自然科学基金优秀青年基金,2017年首届北京市高等学校青年教学名师。2018年担任非常规油气岩石力学与工程学科创新引智基地(培育)负责人。2019年获得国家杰出青年科学基金资助。曾获得国家科技进步奖二等奖一项,岩石力学与工程学会科技进步奖特等奖和一等奖各一项,教育部科技进步奖一等奖和二等奖各一项,国家级教学成果奖和北京市教学成果奖一等奖各一项。
王琳琳,博士,教授,博士生导师,安全与海洋工程学院副院长。本科毕业于中国石油大学(华东),硕士毕业于同济大学,博士毕业于法国综合理工学院,近年来一直从事岩石力学多场耦合、多尺度方面的研究工作。2014年获得法国岩石力学学会Pierre Londe奖,2015年获学校青年拔尖人才计划支持。
李世远,博士,副教授,石油工程学院工程力学系主任,博士生导师。现任中国岩石力学与工程学会会员,《石油科学通报》副主编。研究方向为石油工程岩石力学、地质力学。本科毕业于上海交通大学,硕士毕业于荷兰代尔夫特工业大学,博士毕业于德国亚琛工业大学。曾获得学校青年拔尖人才计划支持,校青年教师教学大赛二等奖和三等奖各一次,获得学校青年教学骨干教师奖及获得学校教学成果二等奖。主持国家自然科学基金1项,作为骨干成员参与十三五重大专项子任务和油田科技项目多项,获得中国岩石力学与工程学会科技进步一等奖一项。
彭岩,博士,副教授,毕业于西澳大利亚大学,就职于中国石油大学(北京)石油工程学院,主讲理论力学,材料力学和石油工程岩石力学(全英文)等课程,长期从事岩石力学的研究,主持多项科研项目。曾获得国家优秀自费留学生奖,第七届亚洲岩石力学优秀青年学者奖,山东省高等学校科学技术二等奖,入选中国石油大学(北京)的拔尖人才计划。