Showing 50 publications by Ton van den Bremer
Surface gravity wave-induced drift of floating objects in the diffraction regime
Xiao Q, Calvert R, Yan SQ, Adcock TAA & van den Bremer TS (2024), Journal of Fluid Mechanics, 980
BibTeX
@article{surfacegravityw-2024/2,
title={Surface gravity wave-induced drift of floating objects in the diffraction regime},
author={Xiao Q, Calvert R, Yan SQ, Adcock TAA & van den Bremer TS},
journal={Journal of Fluid Mechanics},
volume={980},
number={A27},
publisher={Cambridge University Press},
year = "2024"
}
The influence of spectral bandwidth and shape on deep-water wave breaking onset
Mcallister ML, Pizzo N, Draycott S & Van Den Bremer TS (2023), Journal of Fluid Mechanics, 974
BibTeX
@article{theinfluenceofs-2023/10,
title={The influence of spectral bandwidth and shape on deep-water wave breaking onset},
author={Mcallister ML, Pizzo N, Draycott S & Van Den Bremer TS},
journal={Journal of Fluid Mechanics},
volume={974},
year = "2023"
}
The influence of spectral bandwidth and shape on deep-water wave breaking onset
Mcallister M, Pizzo N, Draycott S & Van Den Bremer T (2023), Journal of Fluid Mechanics, 974
BibTeX
@article{theinfluenceofs-2023/10,
title={The influence of spectral bandwidth and shape on deep-water wave breaking onset},
author={Mcallister M, Pizzo N, Draycott S & Van Den Bremer T},
journal={Journal of Fluid Mechanics},
volume={974},
number={A14},
publisher={Cambridge University Press},
year = "2023"
}
Stochastic particle transport by deep-water irregular breaking waves
Eeltink D, Calvert R, Swagemakers JE, Xiao Q & van den Bremer TS (2023), Journal of Fluid Mechanics, 971, 1-26
BibTeX
@article{stochasticparti-2023/9,
title={Stochastic particle transport by deep-water irregular breaking waves},
author={Eeltink D, Calvert R, Swagemakers JE, Xiao Q & van den Bremer TS},
journal={Journal of Fluid Mechanics},
volume={971},
number={A38},
pages={1-26},
publisher={Cambridge University Press },
year = "2023"
}
Stochastic particle transport by deep-water irregular breaking waves
Eeltink D, Calvert R, Swagemakers JE, Xiao Q & Van Den Bremer TS (2023), Journal of Fluid Mechanics, 971
BibTeX
@article{stochasticparti-2023/9,
title={Stochastic particle transport by deep-water irregular breaking waves},
author={Eeltink D, Calvert R, Swagemakers JE, Xiao Q & Van Den Bremer TS},
journal={Journal of Fluid Mechanics},
volume={971},
year = "2023"
}
The influence of directional spreading on rogue waves triggered by abrupt depth transitions
Tang T, Moss C, Draycott S, Bingham H, Van Den Bremer T et al. (2023), Journal of Fluid Mechanics, 972
BibTeX
@article{theinfluenceofd-2023/9,
title={The influence of directional spreading on rogue waves triggered by abrupt depth transitions},
author={Tang T, Moss C, Draycott S, Bingham H, Van Den Bremer T et al.},
journal={Journal of Fluid Mechanics},
volume={972},
number={R2},
publisher={Cambridge University Press},
year = "2023"
}
Fluid dynamics challenges in predicting plastic pollution transport in the ocean: A perspective
Sutherland BR, DiBenedetto M, Kaminski A & van den Bremer T (2023), Physical Review Fluids, 8(7), 070701
BibTeX
@misc{fluiddynamicsch-2023/7,
title={Fluid dynamics challenges in predicting plastic pollution transport in the ocean: A perspective},
author={Sutherland BR, DiBenedetto M, Kaminski A & van den Bremer T},
year = "2023"
}
Numerical Simulation of the Wave-Induced Drift of Disc-Shaped Floating Plastic Debris
Westerkamp D, Rakotonirina AD, Sainte-Rose B & van den Bremer T (2023)
BibTeX
@inproceedings{numericalsimula-2023/6,
title={Numerical Simulation of the Wave-Induced Drift of Disc-Shaped Floating Plastic Debris},
author={Westerkamp D, Rakotonirina AD, Sainte-Rose B & van den Bremer T},
booktitle={Volume 7: CFD & FSI},
year = "2023"
}
Comparison of breaking models in envelope-based surface gravity wave evolution equations
Liu Y, Eeltink D, Tang T, Barratt D, Li Y et al. (2023), Physical Review Fluids, 8
BibTeX
@article{comparisonofbre-2023/5,
title={Comparison of breaking models in envelope-based surface gravity wave evolution equations},
author={Liu Y, Eeltink D, Tang T, Barratt D, Li Y et al.},
journal={Physical Review Fluids},
volume={8},
number={054803},
publisher={American Physical Society},
year = "2023"
}
The laminar seabed thermal boundary layer forced by propagating and standing free-surface waves
Michele S, Borthwick A & Van Den Bremer T (2023), Journal of Fluid Mechanics, 956
BibTeX
@article{thelaminarseabe-2023/2,
title={The laminar seabed thermal boundary layer forced by propagating and standing free-surface waves},
author={Michele S, Borthwick A & Van Den Bremer T},
journal={Journal of Fluid Mechanics},
volume={956},
year = "2023"
}
The laminar seabed thermal boundary layer forced by propagating and standing free-surface waves
Michele S, Borthwick AGL & Van Den Bremer T (2023), Journal of Fluid Mechanics, 956
BibTeX
@article{thelaminarseabe-2023/1,
title={The laminar seabed thermal boundary layer forced by propagating and standing free-surface waves},
author={Michele S, Borthwick AGL & Van Den Bremer T},
journal={Journal of Fluid Mechanics},
volume={956 },
number={A11},
publisher={Cambridge University Press},
year = "2023"
}
NUMERICAL SIMULATION OF THE WAVE-INDUCED DRIFT OF DISC-SHAPED FLOATING PLASTIC DEBRIS
Westerkamp D, Rakotonirina AD, Sainte-Rose B & van den Bremer T (2023), Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE, 7
BibTeX
@inproceedings{numericalsimula-2023/1,
title={NUMERICAL SIMULATION OF THE WAVE-INDUCED DRIFT OF DISC-SHAPED FLOATING PLASTIC DEBRIS},
author={Westerkamp D, Rakotonirina AD, Sainte-Rose B & van den Bremer T},
year = "2023"
}
Comparison of breaking models in envelope-based surface gravity wave evolution equations
Liu Y, Eeltink D, Tang T, Barratt D, Li Y et al. (2023), PHYSICAL REVIEW FLUIDS, 8(5)
BibTeX
@article{comparisonofbre-2023/,
title={Comparison of breaking models in envelope-based surface gravity wave evolution equations},
author={Liu Y, Eeltink D, Tang T, Barratt D, Li Y et al.},
journal={PHYSICAL REVIEW FLUIDS},
volume={8},
number={ARTN 054803},
year = "2023"
}
Fluid dynamics challenges in predicting plastic pollution transport in the ocean: A perspective
Sutherland BR, DiBenedetto M, Kaminski A & van den Bremer T (2023), PHYSICAL REVIEW FLUIDS, 8(7)
BibTeX
@misc{fluiddynamicsch-2023/,
title={Fluid dynamics challenges in predicting plastic pollution transport in the ocean: A perspective},
author={Sutherland BR, DiBenedetto M, Kaminski A & van den Bremer T},
year = "2023"
}
The influence of directional spreading on rogue waves triggered by abrupt depth transitions
Tang T, Moss C, Draycott S, Bingham HB, van den Bremer TS et al. (2023), JOURNAL OF FLUID MECHANICS, 972
BibTeX
@article{theinfluenceofd-2023/,
title={The influence of directional spreading on rogue waves triggered by abrupt depth transitions},
author={Tang T, Moss C, Draycott S, Bingham HB, van den Bremer TS et al.},
journal={JOURNAL OF FLUID MECHANICS},
volume={972},
number={ARTN R2},
year = "2023"
}
Implications of second-order wave generation for physical modelling of force and run-up on a vertical wall using wave groups
Mortimer W, Calvert R, Antonini A, Greaves D, Raby A et al. (2022), Coastal Engineering, 180
BibTeX
@article{implicationsofs-2022/12,
title={Implications of second-order wave generation for physical modelling of force and run-up on a vertical wall using wave groups},
author={Mortimer W, Calvert R, Antonini A, Greaves D, Raby A et al.},
journal={Coastal Engineering},
volume={180},
number={104259},
publisher={Elsevier},
year = "2022"
}
The impact of removing the high-frequency spectral tail on rogue wave statistics
Tang T, Barratt D, Bingham HB, van den Bremer TS & Adcock TAA (2022), Journal of Fluid Mechanics, 953
BibTeX
@article{theimpactofremo-2022/12,
title={The impact of removing the high-frequency spectral tail on rogue wave statistics},
author={Tang T, Barratt D, Bingham HB, van den Bremer TS & Adcock TAA},
journal={Journal of Fluid Mechanics},
volume={953},
number={A9},
publisher={Cambridge University Press},
year = "2022"
}
Wave loads on ocean infrastructure increase as a result of waves passing over abrupt depth transitions
Li Z, Tang T, Li Y, Draycott S, Van Den Bremer T et al. (2022), Journal of Ocean Engineering and Marine Energy, 9(2), 309-317
BibTeX
@article{waveloadsonocea-2022/11,
title={Wave loads on ocean infrastructure increase as a result of waves passing over abrupt depth transitions},
author={Li Z, Tang T, Li Y, Draycott S, Van Den Bremer T et al.},
journal={Journal of Ocean Engineering and Marine Energy},
volume={9},
pages={309-317},
publisher={Springer Nature},
year = "2022"
}
The impact of the spectral tail on the evolution of the kurtosis of random seas
Barratt D, van den Bremer T & Adcock T (2022), Journal of Offshore Mechanics and Arctic Engineering, 144(6)
BibTeX
@article{theimpactofthes-2022/10,
title={The impact of the spectral tail on the evolution of the kurtosis of random seas},
author={Barratt D, van den Bremer T & Adcock T},
journal={Journal of Offshore Mechanics and Arctic Engineering},
volume={144},
number={061702},
publisher={American Society of Mechanical Engineers},
year = "2022"
}
The role of the unsteady surface wave-driven Ekman–Stokes flow in the accumulation of floating marine litter
Cunningham H, Higgins C & van den Bremer T (2022), JGR Oceans, 127(6)
BibTeX
@article{theroleoftheuns-2022/6,
title={The role of the unsteady surface wave-driven Ekman–Stokes flow in the accumulation of floating marine litter},
author={Cunningham H, Higgins C & van den Bremer T},
journal={JGR Oceans},
volume={127},
number={e2021JC018106},
publisher={Wiley},
year = "2022"
}
On Rogue Waves Generated by Abrupt Depth Transitions
Li Z, Tang T, Draycott S, Li Y, van den Bremer T et al. (2022)
BibTeX
@inproceedings{onroguewavesgen-2022/6,
title={On Rogue Waves Generated by Abrupt Depth Transitions},
author={Li Z, Tang T, Draycott S, Li Y, van den Bremer T et al.},
booktitle={Volume 5B: Ocean Engineering; Honoring Symposium for Professor Günther F. Clauss on Hydrodynamics and Ocean Engineering},
year = "2022"
}
The Impact of the Spectral Tail on the Kurtosis of Random Seas
Barratt D, van den Bremer TS & Adcock TAA (2022)
BibTeX
@inproceedings{theimpactofthes-2022/6,
title={The Impact of the Spectral Tail on the Kurtosis of Random Seas},
author={Barratt D, van den Bremer TS & Adcock TAA},
booktitle={Volume 5B: Ocean Engineering; Honoring Symposium for Professor Günther F. Clauss on Hydrodynamics and Ocean Engineering},
year = "2022"
}
Numerical Simulation of the Wave-Induced Drift of Floating Marine Plastic Debris Modeled as Discrete Particles
Sainte-Rose B, Rakotonirina AD, van den Bremer T & Pham Y (2022)
BibTeX
@inproceedings{numericalsimula-2022/6,
title={Numerical Simulation of the Wave-Induced Drift of Floating Marine Plastic Debris Modeled as Discrete Particles},
author={Sainte-Rose B, Rakotonirina AD, van den Bremer T & Pham Y},
booktitle={Volume 7: CFD and FSI},
year = "2022"
}
Nonlinear wave evolution with data-driven breaking
Eeltink D, Branger H, Luneau C, He Y, Kasparian J et al. (2022), Nature Communications, 13
BibTeX
@article{nonlinearwaveev-2022/4,
title={Nonlinear wave evolution with data-driven breaking},
author={Eeltink D, Branger H, Luneau C, He Y, Kasparian J et al.},
journal={Nature Communications},
volume={13},
number={2343},
publisher={Springer Nature},
year = "2022"
}
Correct generation of the bound set-down for surface gravity wave groups in laboratory experiments of intermediate to shallow depth
Mortimer W, Raby A, Antonini A, Greaves D & van den Bremer TS (2022), Coastal Engineering, 174
BibTeX
@article{correctgenerati-2022/3,
title={Correct generation of the bound set-down for surface gravity wave groups in laboratory experiments of intermediate to shallow depth},
author={Mortimer W, Raby A, Antonini A, Greaves D & van den Bremer TS},
journal={Coastal Engineering},
volume={174},
number={104121},
publisher={Elsevier},
year = "2022"
}
The effects of smoothing length on the onset of wave breaking in Smoothed Particle Hydrodynamics (SPH) simulations of highly directionally spread waves
Van Den Bremer T (2022), Computational Particle Mechanics, 9, 1031-1047
BibTeX
@article{theeffectsofsmo-2022/2,
title={The effects of smoothing length on the onset of wave breaking in Smoothed Particle Hydrodynamics (SPH) simulations of highly directionally spread waves},
author={Van Den Bremer T},
journal={Computational Particle Mechanics},
volume={9},
pages={1031-1047},
publisher={Springer},
year = "2022"
}
Wave breaking and jet formation on axisymmetric surface gravity waves
McAllister M, Draycott S, Davey T, Yang Y, Adcock T et al. (2022), Journal of Fluid Mechanics, 935
BibTeX
@article{wavebreakingand-2022/1,
title={Wave breaking and jet formation on axisymmetric surface gravity waves},
author={McAllister M, Draycott S, Davey T, Yang Y, Adcock T et al.},
journal={Journal of Fluid Mechanics},
volume={935},
number={A5},
publisher={Cambridge University Press},
year = "2022"
}
Harmonic-induced wave breaking due to abrupt depth transitions: an experimental and numerical study
Draycott S, Li Y, Stansby P, Adcock TAA & van den Bremer T (2021), Coastal Engineering, 171
BibTeX
@article{harmonicinduced-2021/11,
title={Harmonic-induced wave breaking due to abrupt depth transitions: an experimental and numerical study},
author={Draycott S, Li Y, Stansby P, Adcock TAA & van den Bremer T},
journal={Coastal Engineering},
volume={171},
number={104041},
publisher={Elsevier},
year = "2021"
}
The risk-adjusted carbon price
van den Bremer T & van der Ploeg F (2021), American Economic Review, 111(9), 2782-2810
BibTeX
@article{theriskadjusted-2021/8,
title={The risk-adjusted carbon price},
author={van den Bremer T & van der Ploeg F},
journal={American Economic Review},
volume={111},
pages={2782-2810},
publisher={American Economic Association},
year = "2021"
}
Highly directionally spread, overturning breaking waves modelled with Smoothed Particle Hydrodynamics: a case study involving the Draupner wave
Kanehira T, McAllister M, Draycott S, Nakashima T, Taniguchi N et al. (2021), Ocean Modelling, 164
BibTeX
@article{highlydirection-2021/6,
title={Highly directionally spread, overturning breaking waves modelled with Smoothed Particle Hydrodynamics: a case study involving the Draupner wave},
author={Kanehira T, McAllister M, Draycott S, Nakashima T, Taniguchi N et al.},
journal={Ocean Modelling},
volume={164},
number={101822},
publisher={Elsevier},
year = "2021"
}
MNLS simulations of surface wave groups with directional spreading in deep and finite depth waters
Barratt D, van den Bremer T & Adcock T (2021), Journal of Ocean Engineering and Marine Energy, 7(3), 261-275
BibTeX
@article{mnlssimulations-2021/6,
title={MNLS simulations of surface wave groups with directional spreading in deep and finite depth waters},
author={Barratt D, van den Bremer T & Adcock T},
journal={Journal of Ocean Engineering and Marine Energy},
volume={7},
pages={261-275},
publisher={Springer},
year = "2021"
}
Surface wavepackets subject to an abrupt depth change. Part 1. Second-order theory
Li Y, Zheng Y, Lin Z, Adcock T & Van Den Bremer T (2021), Journal of Fluid Mechanics, 915
BibTeX
@article{surfacewavepack-2021/5,
title={Surface wavepackets subject to an abrupt depth change. Part 1. Second-order theory},
author={Li Y, Zheng Y, Lin Z, Adcock T & Van Den Bremer T},
journal={Journal of Fluid Mechanics},
volume={915},
number={A71},
publisher={Cambridge University Press},
year = "2021"
}
Why rogue waves occur atop abrupt depth transitions
Li Y, Draycott S, Zheng Y, Lin Z, Adcock TAA et al. (2021), Journal of Fluid Mechanics, 919
BibTeX
@article{whyroguewavesoc-2021/5,
title={Why rogue waves occur atop abrupt depth transitions},
author={Li Y, Draycott S, Zheng Y, Lin Z, Adcock TAA et al.},
journal={Journal of Fluid Mechanics},
volume={919},
number={R5},
publisher={Cambridge University Press},
year = "2021"
}
Anomalous wave statistics following sudden depth transitions: application of an alternative Boussinesq-type formulation
Bonar PAJ, Fitzgerald C, Lin Z, Van Den Bremer T, Adcock T et al. (2021), Journal of Ocean Engineering and Marine Energy, 7, 145-155
BibTeX
@article{anomalouswavest-2021/4,
title={Anomalous wave statistics following sudden depth transitions: application of an alternative Boussinesq-type formulation},
author={Bonar PAJ, Fitzgerald C, Lin Z, Van Den Bremer T, Adcock T et al.},
journal={Journal of Ocean Engineering and Marine Energy},
volume={7},
pages={145-155},
publisher={Springer},
year = "2021"
}
Propagation and overturning of three-dimensional Boussinesq wavepackets with rotation
Gervais AD, Ede Q, Swaters GE, Sutherland B & Van Den Bremer T (2021), Physical Review Fluids, 6
BibTeX
@article{propagationando-2021/4,
title={Propagation and overturning of three-dimensional Boussinesq wavepackets with rotation},
author={Gervais AD, Ede Q, Swaters GE, Sutherland B & Van Den Bremer T},
journal={Physical Review Fluids},
volume={6},
number={044801},
publisher={American Physical Society},
year = "2021"
}
Surface wavepackets subject to an abrupt depth change. Part II: experimental analysis
Li Y, Draycott S, Adcock T & Van Den Bremer T (2021), Journal of Fluid Mechanics, 915
BibTeX
@article{surfacewavepack-2021/3,
title={Surface wavepackets subject to an abrupt depth change. Part II: experimental analysis},
author={Li Y, Draycott S, Adcock T & Van Den Bremer T},
journal={Journal of Fluid Mechanics},
volume={915},
number={A72},
publisher={Cambridge University Press},
year = "2021"
}
A mechanism for the increased wave-induced drift of floating marine litter
Calvert R, McAllister M, Whittaker C, Raby A, Borthwick A et al. (2021), Journal of Fluid Mechanics, 915
BibTeX
@article{amechanismforth-2021/3,
title={A mechanism for the increased wave-induced drift of floating marine litter},
author={Calvert R, McAllister M, Whittaker C, Raby A, Borthwick A et al.},
journal={Journal of Fluid Mechanics},
volume={915},
number={A73},
publisher={Cambridge University Press},
year = "2021"
}
Spatial evolution of the kurtosis of steep unidirectional random waves
Tang T, Xu W, Barratt D, Bingham HB, Li Y et al. (2020), Journal of Fluid Mechanics, 908
BibTeX
@article{spatialevolutio-2020/12,
title={Spatial evolution of the kurtosis of steep unidirectional random waves},
author={Tang T, Xu W, Barratt D, Bingham HB, Li Y et al.},
journal={Journal of Fluid Mechanics},
volume={908},
number={A3},
publisher={Cambridge University Press},
year = "2020"
}
Linearization of the wave spectrum: A comparison of methods
Barratt D, Bingham HB, Taylor PH, Van Den Bremer TS & Adcock T (2020), ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering
BibTeX
@inproceedings{linearizationof-2020/12,
title={Linearization of the wave spectrum: A comparison of methods},
author={Barratt D, Bingham HB, Taylor PH, Van Den Bremer TS & Adcock T},
booktitle={39th International Conference on Ocean, Offshore and Arctic Engineering},
year = "2020"
}
Rapid spectral evolution of steep surface wave groups with directional spreading
Barratt D, Bingham H, Taylor P, Van Den Bremer TS & Adcock T (2020), Journal of Fluid Mechanics, 907
BibTeX
@article{rapidspectralev-2020/11,
title={Rapid spectral evolution of steep surface wave groups with directional spreading},
author={Barratt D, Bingham H, Taylor P, Van Den Bremer TS & Adcock T},
journal={Journal of Fluid Mechanics},
volume={907},
number={A30},
publisher={Cambridge University Press},
year = "2020"
}
Two-dimensional rogue waves on zero background in a Benney-Roskes model
Lijuan G, Jingsong H, Lihong W, Cheng Y, Frantzeskakis D et al. (2020), Physical Review Research, 2(3)
BibTeX
@article{twodimensionalr-2020/9,
title={Two-dimensional rogue waves on zero background in a Benney-Roskes model},
author={Lijuan G, Jingsong H, Lihong W, Cheng Y, Frantzeskakis D et al.},
journal={Physical Review Research},
volume={2},
number={033376 },
publisher={American Physical Society},
year = "2020"
}
Unsteady Ekman-Stokes dynamics: implications for surface-wave induced drift of floating marine litter
Vanneste J, Higgins C & Van Den Bremer T (2020), Geophysical Research Letters, 47(18)
BibTeX
@article{unsteadyekmanst-2020/9,
title={Unsteady Ekman-Stokes dynamics: implications for surface-wave induced drift of floating marine litter},
author={Vanneste J, Higgins C & Van Den Bremer T},
journal={Geophysical Research Letters},
volume={47},
number={e2020GL089189},
publisher={American Geophysical Union},
year = "2020"
}
Numerical Recreation of the Draupner Wave in Crossing Wave Systems Using Smoothed Particle Hydrodynamics
Kanehira T, McAllister ML, Draycott S, Nakashima T, Taniguchi N et al. (2020)
BibTeX
@inproceedings{numericalrecrea-2020/8,
title={Numerical Recreation of the Draupner Wave in Crossing Wave Systems Using Smoothed Particle Hydrodynamics},
author={Kanehira T, McAllister ML, Draycott S, Nakashima T, Taniguchi N et al.},
booktitle={Volume 8: CFD and FSI},
year = "2020"
}
Fully nonlinear simulations of unidirectional extreme waves provoked by strong depth transitions: the effect of slope
Zheng Y, Lin Z, Li Y, Li Y, Adcock T et al. (2020), Physical Review Fluids, 5
BibTeX
@article{fullynonlinears-2020/6,
title={Fully nonlinear simulations of unidirectional extreme waves provoked by strong depth transitions: the effect of slope},
author={Zheng Y, Lin Z, Li Y, Li Y, Adcock T et al.},
journal={Physical Review Fluids},
volume={5},
number={064804},
publisher={American Physical Society},
year = "2020"
}
Flows induced by Coriolis-influenced vertically propagating two-dimensional internal gravity wavepackets
Sutherland BR, Reeves W & Van Den Bremer T (2020), Physical Review Fluids, 5(6)
BibTeX
@article{flowsinducedbyc-2020/6,
title={Flows induced by Coriolis-influenced vertically propagating two-dimensional internal gravity wavepackets},
author={Sutherland BR, Reeves W & Van Den Bremer T},
journal={Physical Review Fluids},
volume={5},
number={064805},
publisher={American Physical Society},
year = "2020"
}
Effects of an abrupt depth change on weakly nonlinear surface gravity waves: deterministic and stochastic analysis
Li Y, Draycott S, Zheng Y, Adcock TAA, Lin Z et al. (2020), EGU General Assembly 2020
BibTeX
@article{effectsofanabru-2020/5,
title={Effects of an abrupt depth change on weakly nonlinear surface gravity waves: deterministic and stochastic analysis},
author={Li Y, Draycott S, Zheng Y, Adcock TAA, Lin Z et al.},
journal={EGU General Assembly 2020},
number={7468},
publisher={Copernicus GmbH},
year = "2020"
}
On the rapid spectral evolution of steep wave groups with directional spreading at intermediate depths
Barratt D, Bingham HB, Taylor P, van den Bremer T & Adcock TAA (2020), Proceedings of the EGU General Assembly 2020
BibTeX
@article{ontherapidspect-2020/5,
title={On the rapid spectral evolution of steep wave groups with directional spreading at intermediate depths},
author={Barratt D, Bingham HB, Taylor P, van den Bremer T & Adcock TAA},
journal={Proceedings of the EGU General Assembly 2020},
publisher={Copernicus GmbH},
year = "2020"
}
The physical oceanography of the transport of floating marine debris
van Sebille E, Aliani S, Law KL & van den Bremer T (2020), Environmental Research Letters, 15(2), 023003
BibTeX
@article{thephysicalocea-2020/2,
title={The physical oceanography of the transport of floating marine debris},
author={van Sebille E, Aliani S, Law KL & van den Bremer T},
journal={Environmental Research Letters},
volume={15},
pages={023003},
publisher={IOP Publishing},
year = "2020"
}
The effect of bed roughness uncertainty on tidal stream power estimates for the Pentland Firth
Van Den Bremer T, Kreitmair MJ, Borthwick AGLB, Adcock TAAA & Draper S (2020), Royal Society Open Science, 7(1)
BibTeX
@article{theeffectofbedr-2020/1,
title={The effect of bed roughness uncertainty on tidal stream power estimates for the Pentland Firth},
author={Van Den Bremer T, Kreitmair MJ, Borthwick AGLB, Adcock TAAA & Draper S},
journal={Royal Society Open Science},
volume={7},
number={191127},
publisher={Royal Society},
year = "2020"
}
Unsteady hydrodynamics of a full-scale tidal turbine
Scarlett GT, Sellar B, van den Bremer T & Viola IM (2020), Proceedings of the 6th European Conference on Computational Mechanics: Solids, Structures and Coupled Problems, ECCM 2018 and 7th European Conference on Computational Fluid Dynamics, ECFD 2018, 1163-1176
BibTeX
@inproceedings{unsteadyhydrody-2020/1,
title={Unsteady hydrodynamics of a full-scale tidal turbine},
author={Scarlett GT, Sellar B, van den Bremer T & Viola IM},
pages={1163-1176},
year = "2020"
}