Lars Erik Holmedal
Lars Erik Holmedal
Professor, Department of Marine Technology, NTNU
Verified email at ntnu.no
TitleCited byYear
Numerical simulation of flow around a smooth circular cylinder at very high Reynolds numbers
MC Ong, T Utnes, LE Holmedal, D Myrhaug, B Pettersen
Marine Structures 22 (2), 142-153, 2009
962009
The sea bed boundary layer under random waves plus current
LE Holmedal, D Myrhaug, H Rue
Continental Shelf Research 23 (7), 717-750, 2003
682003
Bottom friction in random waves plus current flow
D Myrhaug, LE Holmedal, RR Simons, RD MacIver
Coastal engineering 43 (2), 75-92, 2001
642001
Numerical simulation of flow around a circular cylinder close to a flat seabed at high Reynolds numbers using ak–ε model
MC Ong, T Utnes, LE Holmedal, D Myrhaug, B Pettersen
Coastal Engineering 57 (10), 931-947, 2010
622010
Boundary layer flow and net sediment transport beneath asymmetrical waves
LE Holmedal, D Myrhaug
Continental Shelf Research 26 (2), 252-268, 2006
492006
Wave-induced steady streaming, mass transport and net sediment transport in rough turbulent ocean bottom boundary layers
LE Holmedal, D Myrhaug
Continental Shelf Research 29 (7), 911-926, 2009
482009
Sediment suspension under sheet flow conditions beneath random waves plus current
LE Holmedal, D Myrhaug, KJ Eidsvik
Continental Shelf Research 24 (17), 2065-2091, 2004
292004
Seabed shear stresses under irregular waves plus current from Monte Carlo simulations of parameterized models
LE Holmedal, D Myrhaug, H Rue
Coastal engineering 39 (2-4), 123-147, 2000
252000
Bed friction in combined wave-current flows
R Simons, D Myrhaug, L Thais, G Chapalain, LE Holmedal, R MacIver
Coastal Engineering 2000, 216-226, 2001
232001
Nonlinear random wave-induced drag force on a vegetation field
D Myrhaug, LE Holmedal, MC Ong
Coastal Engineering 56 (3), 371-376, 2009
162009
Drag force on a vegetation field due to long-crested and short-crested nonlinear random waves
D Myrhaug, LE Holmedal
Coastal Engineering 58 (6), 562-566, 2011
152011
Wave run-up on slender circular cylindrical foundations for offshore wind turbines in nonlinear random waves
D Myrhaug, LE Holmedal
Coastal Engineering 57 (6), 567-574, 2010
142010
Mobile layer thickness in sheet flow beneath random waves
D Myrhaug, LE Holmedal
Coastal engineering 54 (8), 577-585, 2007
142007
Stokes drift estimation for deep water waves based on short-term variation of wave conditions
D Myrhaug, H Wang, LE Holmedal
Coastal Engineering 88, 27-32, 2014
122014
The seabed boundary layer beneath waves opposing and following a current
LE Holmedal, J Johari, D Myrhaug
Continental Shelf Research 65, 27-44, 2013
122013
Combined tidal and wind driven flows and bedload transport over a flat bottom
LE Holmedal, D Myrhaug
Ocean modelling 68, 37-56, 2013
122013
Bottom friction and erosion beneath long-crested and short-crested nonlinear random waves
D Myrhaug, LE Holmedal
Ocean Engineering 38 (17-18), 2015-2022, 2011
122011
Numerical simulation of flow around a marine pipeline close to the seabed
MC Ong, T Utnes, LE Holmedal, D Myrhaug, B Pettersen
Coastal Engineering 2008: (In 5 Volumes), 2730-2742, 2009
122009
Wave-induced current for long-crested and short-crested random waves
D Myrhaug, LE Holmedal
Ocean Engineering 81, 105-110, 2014
92014
Near-Bed Flow Mechanisms Around a Circular Marine Pipeline Close to a Flat Seabed in the Subcritical Flow Regime Using a k-ɛ Model
MC Ong, T Utnes, L Erik, D Myrhaug, B Pettersen
Journal of Offshore Mechanics and Arctic Engineering 134 (2), 021803, 2012
92012
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