Program Minisymposium 2023
France is at the 7th of March on strike. The minisymposium will take place anyway!
Oral presentations (updated 25.2.2023):
09:00 - 09:10: Intro/Welcome
09:10 - 09:40: Erik H. Saenger: Digital Rock Physics: Application to drill cuttings
09:40 - 10:10: Poster oral short presentations
10:10 - 11:00: Coffee break with poster session I
11:00 - 11:40: Clarissa Bordes: Monitoring water saturation variations from seismic noise data : A laboratory controlled experiment
11:40 - 12:20: Ermis Proestakis: Relating induced polarization spectra to petrophysical properties of Lower Cretaceous chalks and outcrop diatomites
12:20 - 13:20: Lunch break with poster session II
13:20 - 14:00: John W. Rudnicki: Rate and State Simulation of Two Experiments with Pore Fluid Injection Under Creep Conditions
14:00 - 14:40: Augustin Thomas: Contributions of poroelasticity in hydrogeology: passive characterization of aquifers thanks to tidal forcings
14:40 - 15:20: Coffee break with poster session III
15:20 - 16:00: Pascal Debec: Impact of karsts on velocities
16:00 - 16:40: Marine Deheuvels: Attenuation Measurements Using Ultrasonic Seismic Waves Propagation: Numerical and Laboratory-Scale Experiments.
16:40 - 17:00: Final discussion, Apero and open end
More participants and poster presentations (will be updated continiously):
Alexey Stovas: Towards a classification of orthorhombic media
Augustin Thomas: Contributions of poroelasticity in hydrogeology: passive characterization of aquifers thanks to tidal forcings
Tobias Orlander: Compaction phases and pore collapse in Lower Cretaceous chalk – insights from Biot’s coefficient
Leonardo TP Meireles: Deriving mineral moduli of the non-carbonate fraction in a marly chalk reservoir using petrophysical logging data and the Isoframe model
Ermis Proestakis: Elasticity of diatomites
Marcel Gurris and Mirko Siegert: Simulation of pressure-dependent thermal conductivity and permeability in sandstones
Martin Balcewicz: Active time-reverse imaging: Defect detection by coda waves in digital concrete physics
Martin Balcewicz: Digital concrete physics: Prediction of the effective elastic material properties of concrete by pressure-dependent high-resolution X-ray Computed TomographyOral presentations (updated 25.2.2023):
