On Uncertainties in Determination of Sediment Transport Rates in Coastal Regions

Battjes J. A., Janssen J. P. F. M. (1978) Energy loss and set-up due to breaking of random waves, Proc. 16th ICCE, Vol. I, 569-587.10.9753/icce.v16.32Search in Google Scholar

Battjes J. A., Stive M. J. F. (1985) Calibration and verification of a dissipation model for random breaking waves, Journal of Geophysical Research, 90 (C5), 9159-9167.10.1029/JC090iC05p09159Search in Google Scholar

Biegowski J. (2005) Dynamics of graded marine sediments in view of theory and experiment, PhD Thesis, IBW PAN Publishers, Gdansk, 123 pp. (in Polish).Search in Google Scholar

Fredsøe J. (1984) Turbulent boundary layer in combined wave-current motion, J. Hydraulic Eng., ASCE, 110 (HY8), 1103-1120.10.1061/(ASCE)0733-9429(1984)110:8(1103)Search in Google Scholar

Hsu T. W., Lan Y. J., Ostrowski R., Szmytkiewicz M. (2016) Wave Transformation in a Multi-Bar Surf Zone: Case Study of Lubiatowo (Poland), Archives of Hydro-Engineering and Environmental Mechanics, 63 (1), 19-34.10.1515/heem-2016-0002Search in Google Scholar

Kaczmarek L. M. (1999) Moveable Sea Bed Boundary Layer and Mechanics of Sediment Transport, DSc Thesis, IBW PAN, Gdansk, ISBN 83-85708-35-9, 209 pp.Search in Google Scholar

Kaczmarek L. M., Ostrowski R. (1996) BedloadUnder Asymmetric and IrregularWaves: TheoryVersus Laboratory Data, Archives of Hydro-Engineering and Environmental Mechanics, 43 (1-4), 21-42.Search in Google Scholar

Kaczmarek L. M., Ostrowski R. (2002) Modelling intensive near-bed sand transport under wave-current flow versus laboratory and field data, Coastal Engineering, Elsevier Science B.V., 45 (1), 1-18.10.1016/S0378-3839(01)00041-2Search in Google Scholar

Kaczmarek L. M., Biegowski J., Ostrowski R. (2004) Modelling cross-shore intensive sand transport and changes of bed grain size distribution versus field data, Coastal Engineering, Elsevier Science B.V., 51 (5-6), 501-529.10.1016/j.coastaleng.2004.05.007Search in Google Scholar

Nielsen P. (2009) Coastal and Estuarine Processes, Advanced Series on Ocean Engineering - Volume 29, World Scientific Publishing Co. Pte. Ltd., 343 pp.10.1142/7114Search in Google Scholar

Ostrowski R. (2004) Morphodynamics of a Multi-Bar Coastal Zone, DSc Thesis, IBWPAN Publishers, Gdansk, ISBN 83-85708-64-2, 163 pp.Search in Google Scholar

Ostrowski R., Stella M. (2016) Sediment Transport Beyond the Surf Zone Under Waves and Currents of the Non-Tidal Sea: Lubiatowo (Poland) Case Study, Archives of Hydro-Engineering and Environmental Mechanics, 63 (1), 3-17.10.1515/heem-2016-0005Search in Google Scholar

Ribberink J. S., Al-Salem A. (1994) Sediment transport in oscillatory boundary layers in cases of rippled beds and sheet flow, Journal Geoph. Res., 99 (C6), 12707-12727.10.1029/94JC00380Search in Google Scholar

Roelvink D., Reniers A. (2012) A Guide to Modeling Coastal Morphology, Advances in Coastal and Ocean Engineering, Volume 12, World Scientific Publishing Co. Pte. Ltd., 274 pp.10.1142/7712Search in Google Scholar

Shore Protection Manual (1984) US Army Coastal Eng. Research Center.Search in Google Scholar

Svendsen I. A. (1984) Mass flux and undertow in a surf zone, Coastal Engineering, Elsevier Science B.V., 8, 347-365.10.1016/0378-3839(84)90030-9Search in Google Scholar

Szmytkiewicz M. (1996) 2D velocity distributions in nearshore currents, Proc. Coastal Dynamics ’95, ASCE, New York, 366-376.Search in Google Scholar

Szmytkiewicz M. (2002a) Wave-induced currents in the coastal zone, IBW PAN Publishers, Gdansk, ISBN 83-85708-45-6, 235 pp. (in Polish).Search in Google Scholar

Szmytkiewicz M. (2002b) Quasi 3D model of wave-induced currents in coastal zone, Archives of Hydro-Engineering and Environmental Mechanics, 49 (1), 57-81.Search in Google Scholar

Van Rijn L. C. (1993) Principles of sediment transport in rivers, estuaries and coastal seas, Aqua Publications, Amsterdam, 614 pp.Search in Google Scholar

Van Rijn L. C., Walstra D. J. R., Grasmeijer B., Sutherland J., Pan S., Sierra J. P. (2003) The predictability of cross-shore bed evolution of sandy beaches at the time scale of storms and seasons using process-based Profile models, Coastal Engineering, Elsevier Science B.V., 47, 295-327.10.1016/S0378-3839(02)00120-5Search in Google Scholar