How tides and waves enhance aeolian sediment transport at the sand motor mega-nourishment

Conference object English OPEN
Hoonhout, B.M.; Luijendijk, A.P.; Velhorst, R.L.C.; de Vries, S.; Roelvink, J.A.; Aagaard, T.; Deigaard, R.; Fuhrman, D.;
(2017)
  • Subject: numerical modelling | sediment transport | coasts and climate | dunes and ecomorphology | hydrodynamics | morphodynamics

Expanding knowledge concerning the close entanglement between subtidal and subaerial processes in coastal environments initiated the development of the open-source Windsurf modeling framework that enables us to simulate<br/>multi-fraction sediment transport due to subti... View more
  • References (28)
    28 references, page 1 of 3

    Aagaard, T. (2014). Sediment supply to beaches: Cross-shore sand transport on the lower shoreface. Journal of Geophy sical Research, 119(4):913-926. doi:10.1002/2013JF003041. 2013JF003041.

    Arens, S. M. (1996). Patterns of sand transport on vegetated foredunes. Geomorphology, 17:339-350.

    Bagnold, R. (1937). The transport of sand by wind. Geographical journal, pages 409- 438.

    Barchyn, T. E., Martin, R. L., Kok, J. F., and Hugenholtz, C. H. (2014). Fundamental mismatches between measureme nts and models in aeolian sediment transport prediction: The role of small-scale variability. Aeolian Research, 15:2 45-251. doi:10.1016/j.aeolia.2014.07.002.

    Bauer, B. O., Davidson-Arnott, R. G. D., Hesp, P. A., Namikas, S. L., Ollerhead, J., and Walker, I. J. (2009). Aeolian s ediment transport on a beach: Surface moisture, wind fetch, and mean transport. Geomorphology, 105:106-116. do i:10.1016/j.geomorph.2008.02.016.

    Belly, P. Y. (1964). Sand movement by wind. Technical Report 1, U.S. Army Corps of Engineers CERC, Vicksburg, MS. 38 pp.

    Borsje, B. W., van Wesenbeeck, B. K., Dekker, F., Paalvast, P., Bouma, T. J., van Katwijk, M. M., and de Vries, M. B. (2011). How ecological engineering can serve in coastal protection. Ecological Engineering, 37(2):113-122. doi:10 .1016/j.ecoleng.2010.11.027.

    Cheng, H., Liu, C., Zou, X., Li, J., He, J., Liu, B., Wu, Y., Kang, L., and Fang, Y. (2015). Aeolian creeping mass of dif ferent grain sizes over sand beds of varying length. Journal of Geophysical Research. doi:10.1002/2014JF003367. 2014JF003367.

    Darke, I. and McKenna Neuman, C. (2008). Field study of beach water content as a guide to wind erosion potential. Jo urnal of Coastal Research, 24(5):1200-1208. doi:10.2112/00-000.1.

    Davidson-Arnott, R. G. D. and Bauer, B. O. (2009). Aeolian sediment transport on a beach: Thresholds, intermittency, and high frequency variability. Geomorphology, 105:117-126. doi:10.1016/j.geomorph.2008.02.018.

  • Related Research Results (2)
    Inferred by OpenAIRE
    dataset
    aeolis-models: AeoLiS models v2.0 (2016)
    73%
    software
    Aeolis-Python: Aeolis V1.1 (2016)
    73%
  • Related Organizations (1)
  • Metrics
Share - Bookmark

  • Download from
    TU Delft Repository via NARCIS (Conference object, 2017)
  • Funded by
  • Cite this publication