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VINNINGLAND, JAN LUDVIG
Position:
Senior Research Scientist
Email:
jan.ludvig.vinningland@iris.no
Phone:
(+47) 51 87 56 77
Research group:
Improved Oil Recovery
Office:
Oslo
About Jan Ludvig
Articles (Tidsskriftartikler)
An improved lattice Boltzmann method for simulating advective–diffusive processes in fluids
A dissolution model that accounts for coverage of mineral surfaces by
Improved Lattice Boltzmann Models for Precipitation and Dissolution
Conferences (Konferanser)
Smart water II
Pore scale simulation of electro-chemically induced wettability changes
Can we get a beter knowledge on dissoluion processes in chalk by using microluidic chips?
Mineral Dissolution and Precipitation Rate Laws Predicted from Reactive Pore Scale Simulations
Mineral Dissolution and Precipitation Rate Laws Predicted from Reactive Pore Scale Simulations
Xurography for microfluidics on a reactive solid
A computer model for non-invasive heart diagnostics
Can we get more knowledge on solid dissolution processes using microfluidic chips?
Pore scale simulation and non-Newtonian flow
Simulating gelation of silica for in-depth reservoir plugging using IORSim as an add on tool to ECLIPSE
From increased oil recovery to increased heart recovery: computer models for non-invasive diagnostics
IORSim - A Simulator for Fast and Accurate Simulation of Multi-phase Geochemical
Xurography for microfluidics in reactive systems: the example of the calcite dissolution
Can we measure core scale properties in pore scale models?
Chalk-calcite-microfluidic experiments: construction and flooding of microsystems with reactive fluids, oral presentation
IORSim - an onadd on tool to ECLIOSE for fast and accurate simulation of multi phase geochemical interactions at the field scale
Chalk-calcite-microfluidic experiments: construction and flooding of microsystems with reactive fluids
Water weakening of chalk at realistic reservoir conditions
A multi scale approach to interpret chalk core experiments
Models for evolution of reactive surface area during dissolution and
PORE SCALE MODELING OF BRINE DEPENDENT PERMEABILITY
Pore Scale Modeling of Brine Dependent Pore Space Evolution in Carbonate
View all >>
Reports (Rapporter)
Reactive flow during water flooding - from pore to core
Technical Report - Reactive flow at pore and core scale using the lattice Boltzmann technique
Optimizing water chemistry for EOR – Final Report
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