Coupled Thermo-Hydro-Mechanical Processes in Fractured Rock Masses
Coupled Thermo-Hydro-Mechanical Processes in Fractured Rock Masses
Discrete Element Modeling and Engineering Applications
Furtney, Jason; Zhang, Fengshou; Damjanac, Branko
Springer International Publishing AG
08/2024
306
Mole
9783031257896
15 a 20 dias
Fluid Mechanics Concepts.- Chapter 2: Discrete Element Modeling of Hydraulic Fracturing.- Chapter 3: DEM Coupled with Computational Fluid Dynamics (CFD).- Chapter 4: DEM Coupled with Dynamic Fluid Mesh (DFM).- Chapter 5: DEM Coupled with Lattice-Boltzmann Method (LBM).- Chapter 6: Hydraulic Stimulation of Naturally Fractured Reservoirs.- Chapter 7: Models of Stimulation and Production from Enhanced Geothermal
Systems.- Chapter 8: Hydraulic Fracturing Induced Fault Reactivation.- Chapter 9: 3D Lattice Modeling of Hydraulic Fracturing in Naturally Fractured Reservoirs.- Chapter 10: Heat Advection and Forced Convection in a Lattice Code.- Chapter 11: Near Wellbore HF Propagation for Different Perforation Models.- Chapter 12: Design of Extreme Limited Entry Perforation.
Fluid Mechanics Concepts.- Chapter 2: Discrete Element Modeling of Hydraulic Fracturing.- Chapter 3: DEM Coupled with Computational Fluid Dynamics (CFD).- Chapter 4: DEM Coupled with Dynamic Fluid Mesh (DFM).- Chapter 5: DEM Coupled with Lattice-Boltzmann Method (LBM).- Chapter 6: Hydraulic Stimulation of Naturally Fractured Reservoirs.- Chapter 7: Models of Stimulation and Production from Enhanced Geothermal
Systems.- Chapter 8: Hydraulic Fracturing Induced Fault Reactivation.- Chapter 9: 3D Lattice Modeling of Hydraulic Fracturing in Naturally Fractured Reservoirs.- Chapter 10: Heat Advection and Forced Convection in a Lattice Code.- Chapter 11: Near Wellbore HF Propagation for Different Perforation Models.- Chapter 12: Design of Extreme Limited Entry Perforation.