An inverse-source problem for maximization of pore-fluid oscillation within poroelastic formations
DOI10.1080/17415977.2016.1201663zbMath1369.74051OpenAlexW2474355037MaRDI QIDQ5348708
Chanseok Jeong, Loukas F. Kallivokas
Publication date: 18 August 2017
Published in: Inverse Problems in Science and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/17415977.2016.1201663
PDE-constrained optimizationinverse-source problemamplification frequenciespore-fluid flow hysteresis modelpore-fluid oscillationporoelastic solidswave-based enhanced oil recovery
Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Inverse problems in geophysics (86A22) Inverse problems for waves in solid mechanics (74J25)
Related Items (1)
Cites Work
- Mixed unsplit-field perfectly matched layers for transient simulations of scalar waves in heterogeneous domains
- Mixed perfectly-matched-layers for direct transient analysis in 2D elastic heterogeneous media
- On an inverse source problem for enhanced oil recovery by wave motion maximization in reservoirs
- Wave propagation in layered dry, saturated and unsaturated poroelastic media
- Poroelastic spectral element for wave propagation and parameter identification in multi-layer systems.
- Numerical simulation of fully saturated porous materials
- Time-domain hybrid formulations for wave simulations in three-dimensional PML-truncated heterogeneous media
- Dynamic behaviour of saturated porous media; The generalized Biot formulation and its numerical solution
- Mechanics of Deformation and Acoustic Propagation in Porous Media
- An analytical solution for the transient response of saturated porous elastic solids
- Linear Dynamic Poroelasticity With Microstructure for Partially Saturated Porous Solids
- Evaluation ofu -w andu - π finite element methods for the dynamic response of saturated porous media using one-dimensional models
- Evaluation of higher order, mixed and Hermitean finite element procedures for dynamic analysis of saturated porous media using one-dimensional models
- New unconditionally stable staggered solution procedures for coupled soil-pore fluid dynamic problems
- Function minimization by conjugate gradients
This page was built for publication: An inverse-source problem for maximization of pore-fluid oscillation within poroelastic formations
