Publikasjoner og ansvarsområder
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...
Open source code: Thermopack software perfoms thermodynamic calculations
Understanding Quantum Effects Will Help Us To Export Liquid Hydrogen
Choice of reference, influence of non-additivity and present challenges in thermodynamic perturbation theory for mixtures
Ice formation and growth in supercooled water–alcohol mixtures: Theory and experiments with dual fiber sensors
The Physics and Mathematics of Carbon Capture and Storage
Equation of state and force fields for Feynman-Hibbs-corrected Mie fluids. II. Application to mixtures of helium, neon, hydrogen and deuterium
Curvature Corrections Remove the Inconsistencies of Binary Classical Nucleation Theory
The study of nucleation in fluid mixtures exposes challenges beyond those of pure systems. A striking example is homogeneous condensation in highly surface-active water-alcohol mixtures, where classical nucleation theory yields an unphysical, negative number of water molecules in the critical embryo...
Tolman lengths and rigidity constants from free-energy functionals – General expressions and comparison of theories
The leading order terms in a curvature expansion of the surface tension, the Tolman length (first order), and rigidities (second order) have been shown to play an important role in the description of nucleation processes. This work presents general and rigorous expressions to compute these...