Formulates a closed-form theory of MEIS in which impedance factorizes into chemical-accumulation, chemo-mechanical, and poro-mechanical terms, with porosity-accommodation derived from Helmholtz free energy and a three-phase closure.
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7 Pith papers cite this work. Polarity classification is still indexing.
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A robust feedback control system is designed to regulate induced seismicity rates in the Groningen gas reservoir by modulating production rates under operational constraints.
A centered coupling scheme for lattice Boltzmann methods solves Biot's poroelasticity model stably for strong coupling and captures discontinuous solutions in consolidation problems.
Proves unique strong global solutions for small data in a 3D viscoelastic Navier-Stokes-Biot system with Beavers-Joseph-Saffman conditions via spectral analysis, and establishes a Serrin-type blow-up criterion.
A conformal finite element and implicit Euler discretization is proposed and analyzed for the Biot-contact variational problem, proving existence, uniqueness, stability, and a priori error estimates, with numerical verification of the rates.
A calibrated multiphase flow-geomechanics model of the Wilmington Oil Field from 1936-2020 indicates that initializing the sedimentary section with low deviatoric stress provides the best fit to historical ground deformation data and implies a shift from the previously assumed reverse-faulting regim
Verification of sequential THM coupling in PFLOTRAN against poroelastic benchmarks with agreement shown for pressure, temperature, and displacement fields plus fracture treatment.
citing papers explorer
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Multiphysical impedance spectroscopy of porous electrodes based on linear irreversible thermodynamics
Formulates a closed-form theory of MEIS in which impedance factorizes into chemical-accumulation, chemo-mechanical, and poro-mechanical terms, with porosity-accommodation derived from Helmholtz free energy and a three-phase closure.
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A Control Framework for Induced Seismicity Mitigation in Groningen Gas Reservoir
A robust feedback control system is designed to regulate induced seismicity rates in the Groningen gas reservoir by modulating production rates under operational constraints.
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Strong well-posedness of a fluid--poro-viscoelastic interaction problem: An approach by Spectral analysis
Proves unique strong global solutions for small data in a 3D viscoelastic Navier-Stokes-Biot system with Beavers-Joseph-Saffman conditions via spectral analysis, and establishes a Serrin-type blow-up criterion.
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Numerical analysis of the Biot equations coupled to frictional contact mechanics
A conformal finite element and implicit Euler discretization is proposed and analyzed for the Biot-contact variational problem, proving existence, uniqueness, stability, and a priori error estimates, with numerical verification of the rates.
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Stress state, subsidence, and faulting in the Wilmington Oil Field, California: a multiphase flow-geomechanics modeling assessment (1936-2020)
A calibrated multiphase flow-geomechanics model of the Wilmington Oil Field from 1936-2020 indicates that initializing the sedimentary section with low deviatoric stress provides the best fit to historical ground deformation data and implies a shift from the previously assumed reverse-faulting regim
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Verification of a sequential thermo-poroelasticity formulation in PFLOTRAN
Verification of sequential THM coupling in PFLOTRAN against poroelastic benchmarks with agreement shown for pressure, temperature, and displacement fields plus fracture treatment.