Publikasjoner og ansvarsområder
Perturbation Theory Based Equation of State for Small Systems under Confinement
HLLC-type methods for compressible two-phase flow in ducts with discontinuous area changes
Depressurization of CO2-N2 and CO2-He in a pipe: Experiments and modelling of pressure and temperature dynamics
Upward and downward two-phase flow of in a pipe: Comparison between experimental data and model predictions
In order to deploy capture and storage (CCS) systems to mitigate climate change, it is crucial to develop reliable models for design and operational considerations. A key element of the system is the interface between transportation and storage, namely the injection well, where various transient...
A combined fluid-dynamic and thermodynamic model to predict the onset of rapid phase transition in LNG spills
Coupled CO2-well-reservoir simulation using a partitioned approach: effect of reservoir properties on well dynamics
We present a model framework for dynamic simulation of the flow of (Formula presented.) and other components in an injection well coupled with a near-well reservoir. With a partitioned approach, we employ numerical methods adapted to the governing equations in each domain. In both well and reservoir...
A combined fluid-dynamic and thermodynamic model to predict the onset of rapid phase transitions in LNG spills
Bulk and interfacial thermodynamics of mixtures: From ultracryogenic fluids to aqueous systems
Accurate quantum-corrected cubic equations of state for helium, neon, hydrogen, deuterium and their mixtures
Cubic equations of state have thus far yielded poor predictions of the thermodynamic properties of quantum fluids such as hydrogen, helium and deuterium at low temperatures. Furthermore, the shape of the optimal α functions of helium and hydrogen have been shown to not decay monotonically as for...