Gå rett til innhold

Espen Jettestuen


+47 51 87 56 75
+47 932 19 697
Tullins gate 2, 0166 Oslo, Norway

Espen Jettestuen har en dr. scient. i faste stoffers fysikk fra Universitetet i Oslo. Hans forskerinteresser er innenfor komplekse systemers fysikk, og i særdeleshet vekst av overflater, reaktiv transport, en- og flerfasestrømning, transport i porøse medier og bruddmekanikk. Han har jobbet både som bruker og utvikler av numeriske metoder for vitenskapelig modellering.

Espen Jettestuen


Energi og teknologi


Computational Geosciences and Modelling

Mer info om Espen

Se profil i Cristin

Se alle prosjekter
Adaptive mesh refinement in locally conservative level set methods for multiphase fluid displacements in porous media – Computational Geosciences 2023
A generalized bodyforce scheme for lattice Boltzmann simulations of incompressible flow in complex geometries – Physics of Fluids 2023
Pore-scale Ostwald ripening of gas bubbles in the presence of oil and water in porous media – Journal of Colloid and Interface Science 2023
Direct Pore-Scale Numerical Simulation of Microbially Induced Calcium Carbonate Precipitation – Water Resources Research 2023
Smart Water flooding: Part 2: Important input parameters for modeling and upscaling workflow – Universitetet i Stavanger 2022
Limits to Crystallization Pressure – Langmuir 2022
A level set approach to Ostwald ripening of trapped gas bubbles in porous media – Transport in Porous Media 2022
A Discrete-Domain Approach to Three-Phase Hysteresis in Porous Media – Water Resources Research 2021
A locally conservative multiphase level set method for capillary-controlled displacements in porous media – Journal of Computational Physics 2021
Direct Coupling of Free Diffusion Models to Microscopic Models of Confined Crystal Growth and Dissolution – arXiv.org 2020
Microscopic modeling of contact formation between confined surfaces in solution – arXiv.org 2020
A multiphase level set approach to motion of disconnected fluid ganglia during capillary-dominated three-phase flow in porous media: Numerical validation and applications – Chemical Engineering Science (CES) 2019
Pore-Scale Level Set Simulations of Capillary-Controlled Displacement with Adaptive Mesh Refinement – Transport in Porous Media 2019
On the inclusion of mass source terms in a single-relaxation-time lattice Boltzmann method – Physics of Fluids 2018
Mineral Dissolution and Precipitation Rate Laws Predicted from Reactive Pore Scale Simulations – 2017
Footprints of spontaneous fluid redistribution on capillary pressure in porous rock – Geophysical Research Letters 2017
Pore-scale simulation of three-phase capillary pressure and trapping on 3D rock images – 2017
Integration of IOR Research Projects through Generic Case Studies – 2017
An improved lattice Boltzmann method for simulating advective–diffusive processes in fluids – Journal of Computational Physics 2017
Xurography for microfluidics on a reactive solid – Lab on a Chip 2017
Quantitative Image Analysis Phase II – The National IOR Centre of Norway 2016
IORSim - A Simulator for Fast and Accurate Simulation of Multi-phase Geochemical Interactions at the Field Scale – 2016
Microscopic modeling of confined crystal growth and dissolution – Physical Review E (PRE) 2016
Mechanisms for trapping and mobilization of residual fluids during capillary-dominated three-phase flow in porous rock – Water Resources Research 2016
A dissolution model that accounts for coverage of mineral surfaces by precipitation in core floods – Advances in Water Resources 2016
Reactive flow during water flooding – from pore to core Half-year progress report 2015 – JCR 2015
A node-splitting discrete element model for fluid-structure interaction – Physica A: Statistical Mechanics and its Applications 2014
Reactive flow at pore and core scale using the lattice Boltzmann technique – International Research Institute of Stavanger 2014
JCR-7 Symposium 2014 Transaction - Reactive flow during water flooding – from pore2core – Join Chalk Research 2014
Reactive flow during water flooding – from pore to core, Quartely report 2, 2014 – Join Chalk Research 2014
Evolution of a fracture network in an elastic medium with internal fluid generation and expulsion – Physical Review E. Statistical, Nonlinear, and Soft Matter Physics 2014
Classification of fracture patterns by heterogeneity and topology – Europhysics letters 2014
Improved Lattice Boltzmann Models for Precipitation and Dissolution – Transport in Porous Media 2014
Network formation by contact arrested propagation – Physica A: Statistical Mechanics and its Applications 2014
Precipitation, dissolution, and ion exchange processes coupled with a lattice Boltzmann advection diffusion solver – Geochimica et Cosmochimica Acta 2013
Se alle publikasjoner på Cristin