Olav Aursjø holds a PhD in condensed matter physics from the University of Oslo and a Cand. Scient. in theoretical physics from the same university. He has been employed at NORCE since 2014. His main research interests relate to the study of complex system physics, such as single and multi-phase fluid flow, reactive transport phenomena, and flow in porous media. This involve data analysis, theory development, computer simulations, and numerical algorithm development. Together with Espen Jettestuen and Jan Ludvig Vinningland, he is one of the main developers of a lattice-Boltzmann-based CFD solver. This solver has been used for reactive transport modelling, and modelling of both Newtonian and Non-Newtonian fluid flows.
Olav Aursjø
Senior Researcher
olau@norceresearch.no
+47 51 87 52 55
Prof. Olav Hanssensvei 15, 4021 Stavanger, Norway
Division
Energy and Technology
Research Groups
Computational Geosciences and Modelling
More information about Olav
Projects
Publications
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Academic articleA generalized bodyforce scheme for lattice Boltzmann simulations of incompressible flow in complex geometries– Physics of Fluids 2023
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Research reportSmart Water flooding: Part 2: Important input parameters for modeling and upscaling workflow– Universitetet i Stavanger 2022
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Research reportRecommended polymer workflow: Lab (cm and m scale)– Universitetet i Stavanger 2022
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Research reportRecommended polymer workflow: Interpretation and parameter identification– Universitetet i Stavanger 2022
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Research reportPolymer flooding: Simulation Upscaling Workflow– Universitetet i Stavanger 2022
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Conference lectureDigital EOR from pore to core– FORCE Lunch & Learn 2018
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Conference lectureEffects of nucleation on mineral dissolution and precipitation predicted from reactive pore scale simulations– EGU2018 2018
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Conference lectureInsight into core scale oil release from pore scale simulations– SPE EUROPEC featured at 80th EAGE Conference and Exhibition 2018
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Academic articleOn the inclusion of mass source terms in a single-relaxation-time lattice Boltzmann method– Physics of Fluids 2018
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Conference lectureSimulation Tools for Predicting IOR Potential on the Norwegian Continental Shelf– IOR NORWAY 2018 2018
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Academic chapterHow Stress and Temperature Conditions Affect Rock-Fluid Chemistry and Mechanical Deformation– 2017
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Academic chapterMineral Dissolution and Precipitation Rate Laws Predicted from Reactive Pore Scale Simulations– 2017
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Conference lecturePore scale simulation of electro-chemical induced wettability changes in three dimensional pore scale geometries– Interpore 2017-9th International Conference on Porous Media & Annual Meeting 2017
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Conference lectureMineral Dissolution and Precipitation Rate Laws Predicted from Reactive Pore Scale Simulations– IOR NORWAY 2017 - 19th European Symposium on Improved Oil Recovery. Stavanger 2017
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Academic articleAn improved lattice Boltzmann method for simulating advective–diffusive processes in fluids– Journal of Computational Physics 2017
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Conference lectureA computer model for non-invasive heart diagnostics– Pumps & Pipes 10 2016
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Academic articleHow stress and temperature conditions affect rock-fluid chemistry and mechanical deformation– Frontiers in Physics 2016
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Research reportImplementing resistivity measurements into compaction and immiscible flow experiments for EOR– IRIS Internal Report, 2015/218 2015
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Academic articleLattice Boltzmann method for diffusion-limited partial dissolution of fluids– Physical Review E. Statistical, Nonlinear, and Soft Matter Physics 2015
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Academic articleFilm flow dominated simultaneous flow of two viscous incompressible fluids through a porous medium– Frontiers in Physics 2014
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Academic articleA Direct Comparison Between a Slow Pore Scale Drainage Experiment and a 2D Lattice Boltzmann Simulation– Transport in Porous Media 2011
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Conference lectureA Two‐Phase Lattice Boltzmann Model Allowing Controlled Mixing Between Phases– Center for nanoscale control of geologic CO2 fall 2011 symposium 2011
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Academic articleOscillation-induced displacement patterns in a two-dimensional porous medium: A lattice Boltzmann study– Physical Review E. Statistical, Nonlinear, and Soft Matter Physics 2010
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Academic articleMechanisms of seismic EOR– World Oil 2009
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Academic articleSeismic stimulation for enhanced oil recovery– Geophysics 2008
