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Magnus Aashammer Gjennestad
Magnus Aashammer Gjennestad
Norwegian University of Science and Technology/SINTEF Energy Research
Verified email at sintef.no - Homepage
Title
Cited by
Cited by
Year
Thermodynamic modeling with equations of state: present challenges with established methods
Ø Wilhelmsen, A Aasen, G Skaugen, P Aursand, A Austegard, E Aursand, ...
Industrial & Engineering Chemistry Research 56 (13), 3503-3515, 2017
1372017
The spinodal of single-and multi-component fluids and its role in the development of modern equations of state
P Aursand, MA Gjennestad, E Aursand, M Hammer, Ø Wilhelmsen
Fluid Phase Equilibria 436, 98-112, 2017
572017
Stable and efficient time integration of a dynamic pore network model for two-phase flow in porous media
MA Gjennestad, M Vassvik, S Kjelstrup, A Hansen
Frontiers in Physics 6, 56, 2018
332018
A multi-phase ferrofluid flow model with equation of state for thermomagnetic pumping and heat transfer
E Aursand, MA Gjennestad, KY Lervåg, H Lund
Journal of Magnetism and Magnetic Materials 402, 8-19, 2016
322016
Potential of enhancing a natural convection loop with a thermomagnetically pumped ferrofluid
E Aursand, MA Gjennestad, KY Lervåg, H Lund
Journal of Magnetism and Magnetic Materials 417, 148-159, 2016
312016
Relations between seepage velocities in immiscible, incompressible two-phase flow in porous media
A Hansen, S Sinha, D Bedeaux, S Kjelstrup, MA Gjennestad, M Vassvik
Transport in Porous Media 125, 565-587, 2018
302018
Performance analysis of heat and energy recovery ventilators using exergy analysis and nonequilibrium thermodynamics
MA Gjennestad, E Aursand, E Magnanelli, J Pharoah
Energy and Buildings 170, 195-205, 2018
272018
Fluid meniscus algorithms for dynamic pore-network modeling of immiscible two-phase flow in porous media
S Sinha, MA Gjennestad, M Vassvik, A Hansen
Frontiers in Physics 8, 548497, 2021
192021
Onsager-symmetry obeyed in athermal mesoscopic systems: two-phase flow in porous media
M Winkler, MA Gjennestad, D Bedeaux, S Kjelstrup, R Cabriolu, ...
Frontiers in Physics 8, 60, 2020
162020
Pore network modeling of the effects of viscosity ratio and pressure gradient on steady-state incompressible two-phase flow in porous media
MA Gjennestad, M Winkler, A Hansen
Transport in Porous Media 132 (2), 355-379, 2020
162020
Investigation of non-ideal behavior of plate-fin heat exchangers in LNG services
G Skaugen, M Hammer, MA Gjennestad
Energy Procedia 64, 13-22, 2015
132015
Modelling of Heat Transport in Two-phase Flow and of Mass Transfer Between Phases Using the Level-set Method
MA Gjennestad, ST Munkejord
Energy Procedia 64, 53-62, 2015
122015
A combined fluid-dynamic and thermodynamic model to predict the onset of rapid phase transitions in LNG spills
KY Lervåg, HL Skarsvåg, E Aursand, JA Ouassou, M Hammer, ...
Journal of Loss Prevention in the Process Industries 69, 104354, 2021
112021
Thermodynamic stability of volatile droplets and thin films governed by disjoining pressure in open and closed containers
MA Gjennestad, Ø Wilhelmsen
Langmuir 36 (27), 7879-7893, 2020
102020
Computation of three-dimensional three-phase flow of carbon dioxide using a high-order WENO scheme
MA Gjennestad, A Gruber, KY Lervåg, Ø Johansen, Å Ervik, M Hammer, ...
Journal of Computational Physics 348, 1-22, 2017
102017
Thermodynamic stability of droplets, bubbles and thick films in open and closed pores
MA Gjennestad, Ø Wilhelmsen
Fluid Phase Equilibria 505, 112351, 2020
92020
Rheology of high-capillary number two-phase flow in porous media
S Sinha, MA Gjennestad, M Vassvik, M Winkler, A Hansen, EG Flekkøy
Frontiers in Physics 7, 65, 2019
82019
Modeling of Heat Transfer in Two-Phase Flow Using the Level-Set Method
MA Gjennestad
Department of Physics, Norwegian University of Science and Technology, 2013
72013
A dynamic network simulator for immiscible two-phase flow in porous media
S Sinha, MA Gjennestad, M Vassvik, A Hansen
arXiv preprint arXiv:1907.12842, 2019
62019
Thermodynamically consistent modeling of gas flow and adsorption in porous media
MA Gjennestad, Ø Wilhelmsen
International Journal of Heat and Mass Transfer 226, 125462, 2024
22024
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Articles 1–20