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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A centered coupling scheme for lattice Boltzmann methods solves Biot's poroelasticity model stably for strong coupling and captures discontinuous solutions in consolidation problems.
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
citing papers explorer
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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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A lattice Boltzmann method for Biot's consolidation model of linear poroelasticity
A centered coupling scheme for lattice Boltzmann methods solves Biot's poroelasticity model stably for strong coupling and captures discontinuous solutions in consolidation problems.
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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