Papers (P2):   Sand Transport in Rivers and Estuaries

Papers 1984a,b,c are the most cited papers of the ASCE-journal ever.

2007a; Van Rijn, L.C., United view of sediment transport by currents and waves I: Initiation of motion, Bed roughness and Bed load transport. Journal of Hydraulic Engineering, ASCE, Vol. 133, No. 6, p. 649-667

2007b; Van Rijn, L.C., United view of sediment transport by currents and waves II: Suspended transport  Journal of Hydraulic Engineering, ASCE, Vol. 133, No. 6, p. 668-689

2007c; Van Rijn, L.C., United view of sediment transport by currents and waves III: Graded Beds.
Journal of Hydraulic Engineering, ASCE, Vol. 133, No. 7, p. 761-775

2004; Samy Abdel-Fatah, A. Amin and L.C. van Rijn. Sand transport in the Nile River, Egypt.
Journal of Hydraulic Engineering, ASCE, Vol. 130, No. 6, p. 488-500.

2002; Kleinhans, M.G. and Van Rijn, L.C., Stochastic prediction of sediment transport in sand-gravel bed rivers. Journal of Hydraulic Engineering, ASCE, Vol. 128, No. 4, p. 412-425.

1995; Van Rijn, L.C., Laboratory, field and mathematical modelling of sand transport in rivers.
Invited lecture, colloquium IOWA University, IOWA, USA.

1994; Geweesh, M., and Van Rijn, L.C., Bed-load Sampling in Sand-bed Rivers.
Journal of Hydraulic Division, ASCE, Vol. 120, No. 12, p. 1364-1384.

1992; Van Rijn, L.C., and Geweesh, M., New Total Sediment-Load Sampler. Techn. Note.
Journal of Hydraulic Engineering, ASCE, Vol. 118, No. 12.

1991; Voogt, L., Van de Berg, R., and Van Rijn, L.C., Sediment Transport of fine Sands at high Velocities. Journal of Hydraulic Engineering, Vol. 117, No. 7, p. 869-890.

1990; Van Rijn, L.C., Van Rossum, H., and Termes, P., Field Verification of 2D and 3D suspended Sediment Models. Journal of Hydraulic Engineering, Vol. 116, no. 10.

1986a; Van Rijn, L.C., and Schaafsma, A., Evaluation of measuring instruments for suspended sediment, Int. Conference Measuring Techniques BMRA, London, United Kingdom.

1986b; Van Rijn, L.C., Mathematical modelling of suspended sediment in non-uniform flows, Journal of Hydraulic Engineering, ASCE, Vol. 112, no. 6.

1986c; Van Rijn, L.C., Application of sediment pick-up functions, Journal of Hydraulic Engineering, ASCE, Vol. 112, no 9, September.

1985; Van Rijn, L.C., Mathematical models for sediment concentration profiles in steady flow, Invited Lecture Euromech 192, Munich, West-Germany.

1984a; Van Rijn, L.C., Sediment Transport, Part I: Bed load transport, Journal of Hydraulic Engineering, ASCE, no 10.

1984b; Van Rijn, L.C., Sediment Transport, Part II: Suspended load transport, Journal of Hydraulic Engineering, ASCE, no 11.

1984c; Van Rijn, L.C., Sediment pick-up functions, Journal of Hydraulic Engineering, ASCE, no 10.

1983; Van Rijn, L.C., Sediment transportation in heavy sment-laden flows, second Int. Symp. River Sedimentation, Nanjing, China.

1981a; Van Rijn, L.C., Experience with straight flumes for movable bed experiments, IAHR Workshop on particle motion, Rapperswil, Switzerland.

1981b; Van Rijn, L.C., The development of concentration profiles in a steady, uniform flow without initial sediment load, IAHR workshop on particle motion, Rapperswil, Switzerland.

1981c; Van Rijn, L.C., The measurement of sediment concentrations in tidal conditions, IAHR Congress, New Delhi.

1979; Kerssens, P., Prins, A., and Van Rijn, L.C., Model for suspended sediment transport, Journal of the Hydraulics Division, Hy5, ASCE.

1977; Kerssens, P., Van Rijn, L.C., and Van Wijngaarden, N., Model for non-steady suspended sediment transport, IAHR Congress, Baden- Baden.