- E-post
- ivar.stefansson@uib.no
- Besøksadresse
-
Allégaten 41
5007 Bergen - Rom: 4A14d
- Postadresse
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Postboks 7803
5020 Bergen
Forskergrupper
Kort info
Ivar Stefansson jobber med væskeflyt og varmetransport samt forskyvninger av steinmasser i porøse medier. Han utvikler forskningskode som han bruker til å utforske for eksempel hvordan sprekker i steinen påvirkes av endringer i temperatur og væsketrykk i bergvarmereservoarer.
Forskning
Ivar Stefansson er en forsker i porøse medier-gruppen og Vista-senteret for modellering av koblet undergrunnsdynamikk ved Matematisk institutt ved Universitetet i Bergen (UiB). He studerte nanoteknologi og anvendt og beregningsorientert matematikk ved UiB, med utvekslingsopphold ved Universitetet i Stuttgart og Imperial College, London. Han disputerte for doktorgrad ved UiB med tittelen with the title Modelling and simulation of thermo-hydro-mechanical processes in fractured porous media i 2021.
Ivars forskning handler om væskeflyt og varmetransport samt forskyvninger av steinmasser i porøse medier med sprekker. Han utvikler og implementerer numerisk metoder og simuleringsteknologi, og bruker disse metodene til simuleringer som øker forståelsen vår av undergrunnsoperasjoner som bergvarme, flyt av grunnvann og CO2-lagring.
Ivar er en av utviklerne av PorePy, som er et simuleringsverktøy for flerfysikkprosesser i porøse medier med sprekker. Han har deltatt i flere internasjonale og tverrfaglige samarbeid, herunder med Universitetet i Stuttgart og Imperial College, London. Ivar vil lede FRIPRO-prosjektet DifFracS, om simulering av sprekker, fra 2026.
Publikasjoner
Konferanseforedrag
- Eirik Keilegavlen; Alessio Fumagalli; Ivar Stefansson et al. (2019). Mixed-dimensional discrete fracture matrix models with heterogeneous discretization and non-matching grids. (ekstern lenke)
- Ivar Stefansson; Eirik Keilegavlen; Jakub Wiktor Both et al. (2024). Multiphysics simulation of fractured geothermal systems using PorePy. (ekstern lenke)
- Inga Berre; Haakon Langeland Ervik; Ivar Stefansson et al. (2021). Discrete Fracture-Matrix Modelling of Coupled THM Processes and Fracture Deformation. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen (2017). Handling of Fractures and Intersections in Finite Volume Methods. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen et al. (2018). Modelling of thermal shock induced fracture growth. (ekstern lenke)
- Inga Berre; Runar Lie Berge; Hau Trung Dang et al. (2020). Modelling of process-structure interaction resulting from fluid injection in fractured subsurface systems. (ekstern lenke)
- Eirik Keilegavlen; Alessio Fumagalli; Ivar Stefansson et al. (2018). Unified modeling and discretization of flow in fractured porous media. (ekstern lenke)
- Ivar Stefansson (2024). A simple and efficient line search for nonlinear and semismooth multiphysics problems. (ekstern lenke)
- Sæunn Halldorsdottir; Inga Berre; Eirik Keilegavlen et al. (2021). Thermal fracturing and natural convection: A hidden source of geothermal activity in the earth’s crust?. (ekstern lenke)
- Eirik Keilegavlen; Ivar Stefansson; Inga Berre et al. (2019). Enhancing Geothermal Reservoirs – Modelling and Analysis of Hydraulic and Thermal Stimulation. (ekstern lenke)
- Ivar Stefansson (2023). Elastic normal fracture deformation in thermoporomechanical media. (ekstern lenke)
- Runar Lie Berge; Eirik Keilegavlen; Alessio Fumagalli et al. (2018). PorePy: A Python Simulation Tool for Fractured and Deformable Porous Media. (ekstern lenke)
- Jakub Wiktor Both; Marius Nevland; Ivar Stefansson et al. (2025). Fracture reactivation in geothermal reservoirs: Strategies for numerical modeling of fracture contact mechanics in thermoporoelastic media. (ekstern lenke)
- Ivar Stefansson (2023). Modeling and Simulation of Fracture Deformation in Coupled Problems. (ekstern lenke)
- Inga Berre; Shin Irgens Banshoya; Ivar Stefansson et al. (2024). Simulation of THMC processes in fractured porous media. (ekstern lenke)
- Ivar Stefansson; Antonio Rinaldi; Thomas Driesner et al. (2022). Mixed-dimensional hydromechanical modelling of an in situ hydroshearing experiment. (ekstern lenke)
- Eirik Keilegavlen; Shin Irgens Banshoya; Sæunn Halldorsdottir et al. (2022). Modeling and Simulation of Thermo-Hydro-Mechanical-Chemical Processes in Fractured Rocks with Applications to Geothermal Energy. (ekstern lenke)
- Eirik Keilegavlen; Alessio Fumagalli; Runar Lie Berge et al. (2017). PorePy: A Python Simulation Tool for Fractured and Deformable Porous Media. (ekstern lenke)
- Inga Berre; Bernd Flemisch; Anna Scotti et al. (2017). [2] Benchmarking and comparison of numerical methods: overall considerations and a recent study of methods for flow in fractured porous media, Flow in Deformable Porous Media: Numerics and Benchmarks. (ekstern lenke)
- Ingrid Kristine Jacobsen; Inga Berre; Jan Martin Nordbotten et al. (2024). An MPSA-Newmark discretization of the elastic wave equation with absorbing boundary conditions. (ekstern lenke)
- Inga Berre; Ivar Stefansson (2024). Process-structure interaction in geothermal reservoirs: modeling and simulation. (ekstern lenke)
- Inga Berre; Jakub Wiktor Both; Sæunn Halldorsdottir et al. (2024). Mathematical and Numerical Modelling of Process-Structure Interaction in Fractured Geothermal Systems. (ekstern lenke)
- Eirik Keilegavlen; Ivar Stefansson; Inga Berre et al. (2020). A simulation model for fracture reactivation accounting for thermo-hydro-mechanical forces with applications to geothermal systems. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Alessio Fumagalli et al. (2019). Numerical Methods for Flow in Fractured Porous Media in a Unified Implementation. (ekstern lenke)
- Eirik Keilegavlen; Alessio Fumagalli; Runar Lie Berge et al. (2017). Discretization of mixed-dimensional problems using legacy codes. (ekstern lenke)
Forelesning
- Ivar Stefansson; Anders Nermoen; Walter H Wheeler et al. (2024). Ground source heat in Norway – on the value gained by firm, renewable, carbon neutral, local and areal effective thermal resources by the Geothermal Energy Association of Norway. (ekstern lenke)
- Ivar Stefansson (2024). Some whys and hows of computational mathematics. (ekstern lenke)
- Anders Nermoen; Fionn Iversen; Ivar Stefansson (2023). Network Meeting Bergen: Ground Source Heat Pump Energy System. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen (2017). Coupled processes in geothermal systems. (ekstern lenke)
- Anders Nermoen; Gilles Pelfrene; Fionn Iversen et al. (2023). GeoEnergy 2023. (ekstern lenke)
Vitenskapelig bokkapittel
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen (2020). Finite Volume Discretisation of Fracture Deformation in Thermo-poroelastic Media. (ekstern lenke)
- Ivar Stefansson; Runar Lie Berge; Inga Berre et al. (2021). Modelling of Thermally Induced Fracture Slip caused by Fluid Injection During Geothermal Production. (ekstern lenke)
Populærvitenskapelig artikkel
- Ivar Stefansson (2022). Slik kan vi hente stabil, fornybar energi fra under bakken. (ekstern lenke)
- Ivar Stefansson (2022). Slik kan vi hente stabil, fornybar energi fra under bakken. (ekstern lenke)
- Ivar Stefansson (2019). Geotermisk energiproduksjon. (ekstern lenke)
- Ingrid Kristine Jacobsen; Marius Nevland; Ivar Stefansson (2024). Geotermisk energi. (ekstern lenke)
Vitenskapelig artikkel
- Eirik Keilegavlen; Alessio Fumagalli; Runar Lie Berge et al. (2019). Implementation of mixed-dimensional models for flow in fractured porous media. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen (2018). Finite-volume discretisations for flow in fractured porous media. (ekstern lenke)
- Ivar Stefansson; Jhabriel Varela; Eirik Keilegavlen et al. (2024). Flexible and rigorous numerical modelling of multiphysics processes in fractured porous media using PorePy. (ekstern lenke)
- Inga Berre; Wietse Boon; Bernd Flemisch et al. (2021). Verification benchmarks for single-phase flow in three-dimensional fractured porous media. (ekstern lenke)
- Ivar Stefansson; Eirik Keilegavlen; Sæunn Halldorsdottir et al. (2021). Numerical Modelling of Convection-Driven Cooling, Deformation and Fracturing of Thermo-Poroelastic Media. (ekstern lenke)
- Eirik Keilegavlen; Runar Lie Berge; Alessio Fumagalli et al. (2021). PorePy: an open-source software for simulation of multiphysics processes in fractured porous media. (ekstern lenke)
- Bernd Flemisch; Inga Berre; Wietse Boon et al. (2018). Benchmarks for single-phase flow in fractured porous media. (ekstern lenke)
- Ivar Stefansson; Eirik Keilegavlen; Inga Berre (2021). A fully coupled numerical model of thermo-hydro-mechanical processes and fracture contact mechanics in porous media. (ekstern lenke)
- Ivar Stefansson; Eirik Keilegavlen (2023). Numerical Treatment of State-Dependent Permeability in Multiphysics Problems. (ekstern lenke)
- Inga Berre; Ivar Stefansson; Eirik Keilegavlen (2020). Fault slip in hydraulic stimulation of geothermal reservoirs: Governing mechanisms and process-structure interaction. (ekstern lenke)
- Eirik Keilegavlen; Laure Duboeuf; Anna Maria Dichiarante et al. (2021). Hydro-mechanical simulation and analysis of induced seismicity for a hydraulic stimulation test at the Reykjanes geothermal field, Iceland. (ekstern lenke)
- Ingrid Kristine Jacobsen; Inga Berre; Jan Martin Nordbotten et al. (2025). A Finite Volume Method for Elastic Waves in Heterogeneous, Anisotropic and Fractured Media. (ekstern lenke)
- Ivar Stefansson (2024). A line search algorithm for multiphysics problems with fracture deformation. (ekstern lenke)
Konferanseposter
- Ivar Stefansson; Eirik Keilegavlen; Inga Berre (2017). Coupling Conditions for Finite Volume Methods for Fractured Porous Media. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen (2017). Finite Volume Methods for Flow and Transport in 3-Dimensional Fractured Porous Media. (ekstern lenke)
- Inga Berre; Ivar Stefansson (2024). Multi-Point Finite Volume Method for Fracture Propagation in Linear Elastic Media. (ekstern lenke)
- Inga Berre; Ivar Stefansson (2024). Multi-Point Finite Volume Method for Fracture Propagation in Linear Elastic Media. (ekstern lenke)
- Ivar Stefansson; Inga Berre; Eirik Keilegavlen (2019). Simulation of temperature and pressure driven fracture deformation. (ekstern lenke)
Prosjekter
- Leder et forskerprosjekt for tidlig karriere (FRIPRO) med tittelen Differentiable Fracture Simulation (DifFracS).
- Deltager på Center for Modeling of Coupled Subsurface Dynamics | University of Bergen
- Deltager på Mathematical and Numerical Modelling of Process-Structure Interaction in Fractured Geothermal Systems (MaPSI) | Porous Media Group | UiB