Espen Jettestuen

Seniorforsker

esje@norceresearch.no
+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

Divisjon

Energi og teknologi

Forskergrupper

Computational Geosciences and Modelling

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Prosjekter

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Centre for Sustainable Subsurface Resources (CSSR)

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Mekanismer for lagring av CO2 i nærvær av gjenværende olje

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The National IOR Centre of Norway

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Publikasjoner

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 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

Dynamic capillary pressure curves from pore-scale modeling in mixed-wet-rock images – SPE Journal 2013

A level set method for simulating capillary-controlled displacements at the pore scale with nonzero contact angle – Water Resources Research 2013

Drainage fracture networks in elastic solids with internal fluid generation – Europhysics letters 2013

Experimental and analytic modeling of piercement structures – Journal of Geophysical Research (JGR): Solid Earth 2010

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