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Thomas J. van Veelen
Thomas J. van Veelen
Verified email at utwente.nl - Homepage
Title
Cited by
Cited by
Year
Experimental study on vegetation flexibility as control parameter for wave damping and velocity structure
TJ van Veelen, TP Fairchild, DE Reeve, H Karunarathna
Coastal Engineering, 2020
1242020
Modelling wave attenuation by quasi-flexible coastal vegetation
TJ van Veelen, H Karunarathna, DE Reeve
Coastal Engineering 164, 103820, 2021
562021
Computational Modelling of the Impacts of Saltmarsh Management Interventions on Hydrodynamics of a Small Macro-Tidal Estuary
WG Bennett, TJ van Veelen, F T, JN Griffin, H Karunarathna
Journal of Marine Science and Engineering 8 (5), 373, 2020
192020
Process-based modelling of bank-breaking mechanisms of tidal sandbanks
TJ van Veelen, PC Roos, SJMH Hulscher
Continental shelf research 167, 139-152, 2018
132018
Computational Modelling of the Impact of Salt Marsh Management Interventions on Coastal Flooding
WG Bennett, TP Fairchild, TJ van Veelen, JN Griffin
32019
Saltmarsh vegetation alters tidal hydrodynamics of small estuaries
WG Bennett, JM Horrillo-Caraballo, TP Fairchild, TJ van Veelen, ...
Applied Ocean Research 138, 103678, 2023
22023
Computational Modelling of the Coastal Protection Function of Salt Marshes with Flexible Vegetation Cover
TJ van Veelen
Swansea University, 2020
12020
On shapes and breaks: modelling the transient evolution of tidal sandbanks
TJ van Veelen, PC Roos, SJMH Hulscher
MARID VI, 239-242, 2019
12019
Sensitivity of estuary hydrodynamics to vegetation parameterisation
TJ van Veelen, H Karunarathna, TPF Bennett, DE Reeve
4th IMA International Conference On Flood Risk, 2019
12019
How Artificial Salt Marsh Vegetation Reduces The Threshold For Sediment Resuspension In Wave-Current Flows
T VAN VEELEN, H NEPF, S HULSCHER, BAS BORSJE
CoastLab 2024: Physical Modelling in Coastal Engineering and Science, 2024
2024
Modeling the cross‐sectional dynamics of tidal sandbanks in sediment‐scarce conditions
TJ van Veelen, PC Roos, S Hulscher
Journal of Geophysical Research: Earth Surface 129 (4), e2023JF007308, 2024
2024
Flume experiments of vegetation-induced sediment resuspension under combined wave-current flows
T van Veelen, HM Nepf, SJMH Hulscher, BW Borsje
NCK Days 2024, 2024
2024
The Role of Vegetation Flexibility in Wave Attenuation
TJ van Veelen, DE Reeve, H Karunarathna
Hydrodynamics of Wave-Vegetation Interactions, 121-141, 2024
2024
Flume experiments of sediment resuspension in wetland vegetation under wave-current conditions
TJ van Veelen, HM Nepf, SJMH Hulscher, BW Borsje
AGU Fall Meeting San Francisco: Wide. Open. Science, 2023
2023
Understanding sediment deposition in salt marsh vegetation through flume experiments with wave-current conditions
TJ van Veelen, HM Nepf, SJMH Hulscher, BW Borsje
13th River, Coastal and Estuarine Morphodynamics Symposium, RCEM 2023, 95, 2023
2023
Unravelling sediment deposition in pioneer salt marshes through flume experiments
TJ van Veelen, H Nepf, SJMH Hulscher, BW Borsje
NCK-days 2023, 2023
2023
On elevation and migration: a model for sandbank dynamics in sediment-scarce seas
TJ van Veelen, PC Roos, SJMH Hulscher
7th Marine and River Dune Dynamics, MARID 2023, 321-325, 2023
2023
Corrigendum to “Modelling wave attenuation by quasi-flexible coastal vegetation”[Coast. Eng. 164 (2021) 103820]
TJ Van Veelen, H Karunarathna, DE Reeve
Coastal engineering 176, 104165, 2022
2022
Sediment scarcity: modelling the morphodynamics of sandbanks when sand is limited
TJ van Veelen, PC Roos, SJMH Hulscher
39th IAHR World Congress 2022: From snow to sea, 2022
2022
Sandbanks on non-erodible layers: Grow or go?
TJ van Veelen, PC Roos, S Hulscher
NCK Days 2022, 2022
2022
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Articles 1–20