Henrik Bredmose
Henrik Bredmose
Associate professor
Verified email at - Homepage
Cited by
Cited by
A computational method for sharp interface advection
J Roenby, H Bredmose, H Jasak
Royal Society open science 3 (11), 160405, 2016
IEA wind TCP task 37: definition of the IEA 15-megawatt offshore reference wind turbine
E Gaertner, J Rinker, L Sethuraman, F Zahle, B Anderson, GE Barter, ...
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2020
Violent breaking wave impacts. Part 1: Results from large-scale regular wave tests on vertical and sloping walls
GN Bullock, C Obhrai, DH Peregrine, H Bredmose
Coastal Engineering 54 (8), 602-617, 2007
Forcing of a bottom-mounted circular cylinder by steep regular water waves at finite depth
BT Paulsen, H Bredmose, HB Bingham, NG Jacobsen
Journal of fluid mechanics 755, 1-34, 2014
An efficient domain decomposition strategy for wave loads on surface piercing circular cylinders
BT Paulsen, H Bredmose, HB Bingham
Coastal Engineering 86, 57-76, 2014
Violent breaking wave impacts. Part 2: modelling the effect of air
H Bredmose, DH Peregrine, GN Bullock
Journal of Fluid Mechanics 641, 389-430, 2009
Breaking wave impacts on offshore wind turbine foundations: focused wave groups and CFD
H Bredmose, NG Jacobsen
International Conference on Offshore Mechanics and Arctic Engineering 49118 …, 2010
Experimental investigation and numerical modelling of steep forced water waves
H Bredmose, M Brocchini, DH Peregrine, L Thais
Journal of Fluid Mechanics 490, 217-249, 2003
Definition of the IEA wind 15-megawatt offshore reference wind turbine
E Gaertner, J Rinker, L Sethuraman, F Zahle, B Anderson, G Barter, ...
National Renewable Energy Laboratory, 2020
Violent breaking wave impacts. Part 3. Effects of scale and aeration
H Bredmose, GN Bullock, AJ Hogg
Journal of Fluid Mechanics 765, 82-113, 2015
An efficient frequency-domain model for quick load analysis of floating offshore wind turbines
A Pegalajar-Jurado, M Borg, H Bredmose
Wind Energy Science 3 (2), 693-712, 2018
The Triple Spar campaign: Model tests of a 10MW floating wind turbine with waves, wind and pitch control
H Bredmose, F Lemmer, M Borg, A Pegalajar-Jurado, RF Mikkelsen, ...
Energy procedia 137, 58-76, 2017
A new volume-of-fluid method in OpenFOAM
J Roenby, BE Larsen, H Bredmose, H Jasak
Marine vi: Proceedings of the vi international conference on computational …, 2017
Extreme wave forces and wave run-up on offshore wind turbine foundations
ED Christensen, H Bredmose, EA Hansen
Proceedings of Copenhagen Offshore Wind, 1-10, 2005
Improved tank test procedures for scaled floating offshore wind turbines
K Müller, F Sandner, H Bredmose, J Azcona, A Manjock, R Pereira
Grand challenges in the design, manufacture, and operation of future wind turbine systems
P Veers, CL Bottasso, L Manuel, J Naughton, L Pao, J Paquette, ...
Wind Energy Science 8 (7), 1071-1131, 2023
State-of-the-art model for the LIFES50+ OO-Star Wind Floater Semi 10MW floating wind turbine
A Pegalajar-Jurado, H Bredmose, M Borg, JG Straume, T Landbø, ...
Journal of Physics: Conference Series 1104 (1), 012024, 2018
The influence of fully nonlinear wave forces on aero-hydro-elastic calculations of monopile wind turbines
S Schløer, H Bredmose, HB Bingham
Marine Structures 50, 162-188, 2016
Water wave impact on walls and the role of air
DH Peregrine, H Bredmose, G Bullock, C Obrhai, G Müller, G Wolters
Coastal Engineering 2004: (In 4 Volumes), 4005-4017, 2005
The ideal flip-through impact: experimental and numerical investigation
H Bredmose, A Hunt-Raby, R Jayaratne, GN Bullock
Journal of engineering mathematics 67, 115-136, 2010
The system can't perform the operation now. Try again later.
Articles 1–20