2D/3D Boundary Element Programming in Petroleum Engineering and Geomechanics
Morita, Nobuo
2D/3D Boundary Element Programming in Petroleum Engineering and Geomechanics is designed to make it easy for researchers, engineers, and students to start writing boundary element programs. 2D and 3D boundary element methods appear simple; however, it is difficult for programming for the beginner. This reference covers fundamentals, theoretical developments, programing, and applications. Both fluid flow through porous media and structural problems are used for coding exercises. The computer programs may be used as the starting codes and after modifications, they can be applied to real world problems. 2D/3D Boundary Element Programming in Petroleum Engineering and Geomechanics also includes mesh generation, 3D boundary element coding, and interface coding for controlling from mesh generation to plotting the results. Includes interactive 2D and 3D coding exercises that readers can modify according to their needsFeatures research on the most recent developments in indirect and dual boundary element methodsContains case studies showing examples and applications of the theories presented in the book INDICE: Fundamentals 1. Fundamental elasticity equations 2. Flow through porous media 3. Tensor notation or index notation 4. Fundamental solutions Theoretical development 5. Boundary element methods 6. Discretization of integral equations 7. Numerical integration 8. System of linear equations 9. Discretization of the system of equations for fluid flow through porous media Programing 10. 2D structure code (Direct BEM) with stiffness matrix without numerical integration 11. 2D Structure code (Direct BEM) with stiffness matrix with numerical integration 12. 2D Discontinuous Boundary Element Method (DDM) suitable for crack problems 13. 2D transient flow program using time dependent fundamental solution 14. 3D boundary element code (Direct BEM) for solid elasticity problems 15. Analytical 3D displacement discontinuous method: Stress shadow induced by movement of fault planes and fracture opening 16. 3D static fracture model using the dual boundary element method 17. 3D fracture propagation code coupled with 2D finite element flow and 3D fracture code (DDM) Application 18. Interface program, and mesh generation program
- ISBN: 9780128238257
- Editorial: Elsevier
- Encuadernacion: Rústica
- Páginas: 450
- Fecha Publicación: 01/01/2021
- Nº Volúmenes: 1
- Idioma: Inglés