@misc{nam_modelling_nonlinear_2019, 
author={Nam, P., Staneva, J., Thao, N., Larson, M., Hoan, L.},
title={Modelling Nonlinear Near-Bed Orbital Velocity in theShallow Water},
year={2019},
howpublished = {conference paper: ;},
doi = {https://doi.org/10.18451/978-3-939230-64-9_073},
abstract = {A model  for  nonlinear  near-bed  orbital  velocity  in  shallow  water  was  developed.  The  equations proposed by Isobe and Horikawa (1982) to calculate the near-bed peak onshore and offshore orbital velocities in the nearshore were modified in order to achieve more accurate predictions. Based on  field  data  from  Egmond  Beach  in  the  Netherlands,  the  correction  coefficient  and  maximum  skewness were determined as functions of the Ursell number. The model was validated against several different   data   sets   collected during small-scale   laboratory   experiments at Delft   University   of   Technology,  large-s cale  laboratory  experiments in  the  Delta  flume  of  Delft  Hydraulics,  and  field  campaigns at   Egmond   beach.   The   validation   showed   that   the   model   reproduced well   the   measurements from both the laboratory and the field.},
note = {Online available at: \url{https://doi.org/10.18451/978-3-939230-64-9_073} (DOI). Nam, P.; Staneva, J.; Thao, N.; Larson, M.; Hoan, L.: Modelling Nonlinear Near-Bed Orbital Velocity in theShallow Water. In: Goseberg, N.; Schlurmann, T. (Ed.): Coastal Structures 2019. Karlsruhe: Bundesanstalt fürWasserbau. 2019. 732-740. DOI: 10.18451/978-3-939230-64-9_073}}