Thomas Lykke Andersen
Thomas Lykke Andersen
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Innovative rubble mound breakwaters for overtopping wave energy conversion
D Vicinanza, P Contestabile, JQH Nørgaard, TL Andersen
Coastal Engineering 88, 154-170, 2014
Beach response to wave energy converter farms acting as coastal defence
E Mendoza, R Silva, B Zanuttigh, E Angelelli, TL Andersen, L Martinelli, ...
Coastal Engineering 87, 97-111, 2014
Wave loadings acting on innovative rubble mound breakwater for overtopping wave energy conversion
P Contestabile, C Iuppa, E Di Lauro, L Cavallaro, TL Andersen, ...
Coastal Engineering 122, 60-74, 2017
Upgrade of coastal defence structures against increased loadings caused by climate change: A first methodological approach
HF Burcharth, TL Andersen, JL Lara
Coastal Engineering 87, 112-121, 2014
Wave loadings acting on overtopping breakwater for energy conversion
D Vicinanza, JH Nørgaard, P Contestabile, TL Andersen
Journal of Coastal Research, 1669-1674, 2013
Wave run-up on slender piles in design conditions—Model tests and design rules for offshore wind
TL Andersen, P Frigaard, ML Damsgaard, L De Vos
Coastal Engineering 58 (4), 281-289, 2011
A new active absorption system and its performance to linear and non-linear waves
TL Andersen, M Clavero, P Frigaard, M Losada, JI Puyol
Coastal Engineering 114, 47-60, 2016
Wave loads on rubble mound breakwater crown walls in deep and shallow water wave conditions
JQH Nørgaard, TL Andersen, HF Burcharth
Coastal Engineering 80, 137-147, 2013
Three-dimensional investigations of wave overtopping on rubble mound structures
TL Andersen, HF Burcharth
Coastal Engineering 56 (2), 180-189, 2009
Distribution of individual wave overtopping volumes in shallow water wave conditions
JQH Nørgaard, TL Andersen, HF Burcharth
Coastal Engineering 83, 15-23, 2014
A new formula for front slope recession of berm breakwaters
TL Andersen, HF Burcharth
Coastal engineering 57 (4), 359-374, 2010
Estimation of incident and reflected wave trains in highly nonlinear two-dimensional irregular waves
M Røge Eldrup, T Lykke Andersen
Journal of Waterway, Port, Coastal, and Ocean Engineering 145 (1), 04018038, 2019
Hydraulic Response of Rubble Mound Breakwaters: scale effects-berm breakwaters
T Lykke Andersen
Aalborg University, 2006
Estimation of incident and reflected components in highly nonlinear regular waves
TL Andersen, MR Eldrup, P Frigaard
Coastal Engineering 119, 51-64, 2017
Experimental study of the development of scour and backfilling
PA Hartvig, JMC Thomsen, P Frigaard, TL Andersen
Coastal Engineering Journal 52 (02), 157-194, 2010
Investigation of wave transmission from a floating wave dragon wave energy converter
JH Nørgaard, TL Andersen
ISOPE International Ocean and Polar Engineering Conference, ISOPE-I-12-066, 2012
Applicability of nonlinear wavemaker theory
MR Eldrup, T Lykke Andersen
Journal of Marine Science and Engineering 7 (1), 14, 2019
Comparison of new large and small scale overtopping tests for rubble mound breakwaters
TL Andersen, HF Burcharth, X Gironella
Coastal Engineering 58 (4), 351-373, 2011
AquaBuOY-the offshore wave energy converter numerical modeling and optimization
A Weinstein, G Fredrikson, L Claeson, J Forsberg, MJ Parks, K Nielsen, ...
Oceans 2003. Celebrating the Past... Teaming Toward the Future (IEEE Cat. No …, 2003
Hydraulic response of rubble mound breakwaters: scale effects-berm breakwaters
TL Andersen
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