CR-07-1:References

From CIRPwiki

Jump to navigation Jump to search

The printable version is no longer supported and may have rendering errors. Please update your browser bookmarks and please use the default browser print function instead.

References

Abou-Seida, M. M. 1965. Bed load function due to wave action. Hydraulics Engineering Laboratory Technical Report HEL-2-11. Berkeley, CA: University of California.

Ahilan, R. V., and J. F. A. Sleath. 1987. Sediment transport in oscillatory flow over flat beds. Journal of Hydraulic Engineering 113(3):308-322.

Ahmed, A. S., and S. Sato. 2003. A sheet-flow transport model for asymmetric oscillatory flow: Part I: Uniform grain size sediments. Coastal Engineering Journal 45(3):321-337.

Al Salem, A. A. 1993. Sediment transport in oscillatory boundary layers under sheet flow conditions. PhD dissertation. The Netherlands: Delft Hydraulics.

Anderson, A. G. 1942. Distribution of suspended sediment in a natural stream. Transactions American Geophysical Union 23(2):678-683.

Antsyferov, S. M., T. Basinski, and N. V. Pykhov. 1983. Measurements of coastal suspended sediment concentrations. Coastal Engineering 7(2):145-166.

Antunes Do Carmo, J. S., A. Temperville, and F. J. Seabra-Santos. 2003. Bottom friction and time-dependent shear stress for wave-current interaction. Journal of Hydraulic Research 41(1):27-37.

Asano, T. 1992. Observations of granular-fluid mixture under an oscillatory sheet flow. Proceedings 23^rd 'Coastal Engineering Conference, ASCE, 1,896-1,909.

Bagnold, R. A. 1966. An approach to the sediment transport problem from general physics. Professional Paper 422-I. Washington, DC: U.S. Geological Survey.

Bailard, J. A. 1981. An energetic total load sediment transport model for a plane sloping beach. Journal of Geophysical Research 86(C11):10,938-10,954.

Bailard, J. A., and D. L. Inman. 1981. An energetics bed load model for a plane sloping beach: Local transport. Journal of Geophysical Research 86(C3):2,035-2,043.

Barton, J. R., and P. N. Lin. 1955. A study of the sediment transport in alluvial channels. Technical Report 55 JRBZ. Fort Collins, CO: Civil Engineering Department, Colorado College, U.S.A.

Bayram, A., B. Camenen, and M. Larson. 2003. Equivalent roughness under sheet flow conditions. Proceedings Coastal Sediments '03, ASCE (CDROM).

Bayram, A., M. Larson, H. C. Miller, and N. C. Kraus. 2001. Cross-shore distribution of longshore sediment transport: Comparison between predictive formulas and field measurements. Coastal Engineering 44(2):79-99.

Bijker, E. W. 1967. Some considerations about scales for coastal models with movable bed. Technical Report 50. The Netherlands: Delft Hydraulics Laboratory.

Bijker, E. W. 1968. Littoral drift as function of waves and current. Proceedings 11^th 'Coastal Engineering Conference, ASCE, 415-435.

Bosman, J. 1982. Concentration distribution under waves and current. Technical Report M1875. The Netherlands: Coastal Engineering Department, Delft University of Technology, (in Dutch).

Boussinesq, J. 1872. Theorie des ondes et des remous qui se propagent le long d'un canal rectangulaire horizontal. Journal Mathematique Pure et Applique 2(17):55-108.

Bowen, A. J. 1980. Simple models of nearshore sedimentation, beach profiles and longshore bars. In The Coastline of Canada, S. B. McCann (ed.), Geological Survey of Canada, Paper 80-10, 1-11.

Brownlie, W. R. 1981. Compilation of alluvial channel data: laboratory and field. Technical Report KH-R-43B. Pasadena, CA: California Institute of Technology, U.S.A.

Buttolph, A. M., C. W. Reed, N. C. Kraus, N. Ono, M. Larson, B. Camenen, H. Hanson, T. Wamsley, and A. K. Zundel. 2006. Two-dimensional depth-averaged circulation model CMS-M2D: Version 3.0, Report 2: Sediment transport and morphology change. Coastal and Hydraulics Laboratory Technical Report ERDC/CHL TR-06-9. Vicksburg, MS: U.S. Army EngineerResearch and Development Center, U.S.A.

Camenen, B. 2002. Modelisation numerique du transport sedimentaire sur une plage sableuse. Unpublished PhD thesis. Grenoble, France: Universite Joseph Fourier.

Camenen, B. 2007. Simple and general formula for the settling velocity of particles. Journal of Hydraulic Engineering 133(2): 229-233.

Camenen, B., A. Bayram, and M. Larson. 2006. Equivalent roughness height for plane bed under steady flow. Journal of Hydraulic Engineering 132(11):1,146-1,158.

Camenen, B., and P. Larroudé. 2003. Comparison of sediment transport formulae for a coastal environment. Coastal Engineering 48(2):111-132.

Camenen, B., and M. Larson. 2005a. Bed-load transport under steady and oscillatory flow. Proceedings Coastal Dynamics 05', ASCE (CDROM).

Camenen, B., and M. Larson. 2005b. A general formula for non-cohesive bed load sediment transport. Estuarine, Coastal, and Shelf Science 63(1-2):249-260.

Camenen, B., and M. Larson. 2006. Phase lag effects in sheet flow transport. Coastal Engineering 53(5/6):531-542.

Camenen, B., and M. Larson. 2007. A suspended load sediment transport formula for the nearshore. Journal of Coastal Research, in press.

Camenen, B., M. Larson, and T. Yamashita. 2005. A suspended load formula for the nearshore. Proceedings 52^nd 'Japanese Coastal Engineering Conference, JSCE, 381-385 (in Japanese).

Chan, K. W., M. H. I. Baird, and G. F. Round. 1972. Behaviour of beds of dense particles in a horizontally oscillating liquid. Proceedings Royal Society of London A(330):537-559.

Cheng, N.-S. 2002. Exponential formula for bed load transport. Journal of Hydraulic Engineering 128(10):942-946.

Chung, D. H., B. T. Grasmeijer, and L. C. Van Rijn. 2000. Wave-related suspended sand transport in ripple regime. Proceedings 27^th 'Coastal Engineering Conference, ASCE, 2,836-2,849.

Clubb, G. 2001. Experimental study of vortex ripples in full-scale sinusoidal and asymmetric ﬂows. Unpublished PhD dissertation. United Kingdom: Aberdeen University.

Coleman, N. L. 1970. Flume studies of the sediment transfer coefficient. Water Resources Research 6(3):801-809.

Coleman, N. L. 1981. Velocity profiles with suspended sediment. Journal of Hydraulic Research 19(3):211-229.

Coles, D. 1956. The law of the wake in the turbulent boundary layer. Journal of Fluid Mechanics 1(Part 2):191-226.

Culbertson, J. K., C. H. Scott, and J. P. Bennet. 1972. Alluvial-channel data from Rio Grande conveyance channel, New Mexico, 1965-69. Technical Report 562-J, 49 pp. Washington, DC: U.S. Geological Survey, Professional Paper.

Dally, W. R., and R. G. Dean. 1984. Suspended sediment transport and beach profile evolution. Journal of Waterways, Port, Coastal and Ocean Engineering 110(1):15-33.

Damgaard, J. S., R. L. Soulsby, A. H. Peet, and S. Wright. 2003. Sand transport on steeply sloping plane and rippled beds. Journal of Hydraulic Engineering 129(9):706-719.

Davies, A. G. 1990. Modelling of the vertical distribution of suspended sediment in combined wave-current flow. Proceedings 5^th 'International Conference on the Physics of Estuaries and Coastal Seas. Gregynog: University of Wales.

Davies, A. G., J. S. Ribberink, A. Temperville, and J. A. Zyserman, J. 1997. Comparisons between sediment transport models and observations made in wave and current flows above plane beds. Coastal Engineering 31(1-4):163-198.

Davies, A. G., R. L. Soulsby, and H. L. King. 1988. A numerical model of the combined wave and current boundary layer. Journal of Geophysical Research 93(C1):491-508.

Dette, H., and K. Uliczka. 1986. Velocity and sediment concentration fields across surf zones. Proceedings 20^th 'Coastal Engineering Conference, ASCE, 1,062-1,076.

Dibajnia, M. 1991. Study on nonlinear effects in beach processes. Unpublished PhD thesis. Japan: University of Tokyo.

Dibajnia, M. 1995. Sheet flow transport formula extended and applied to horizontal plane problems. Coastal Engineering in Japan 38(2):178-194.

Dibajnia, M., and A. Watanabe. 1992. Sheet flow under nonlinear waves and currents. Proceedings 23^rd 'Coastal Engineering Conference, ASCE, 2,015-2,029.

Dibajnia, M., T. Moriya, and A. Watanabe. 2001. A representative wave model for estimation of nearshore local transport rate. Coastal Engineering Journal 43(1):1-38.

Dohmen-Janssen, C. M. 1999. Grain size influence on sediment transport in oscillatory sheet flow, phase-lags and mobile-bed effects. Unpublished PhD dissertation. The Netherlands: Delft University of Technology.

Dohmen-Janssen, C. M., and D. M. Hanes. 2002. Sheet flow dynamics under monochromatic nonbreaking waves. Journal of Geophysical Research 107(C10):13:1-13:21.

Dohmen-Janssen, C. M., D. Kroekenstoel, D. M. Hanes, and J. S. Ribberink. 2002. Phase lags in oscillatory sheet flow: Experiments and bed load modeling. Coastal Engineering 46(1):61-87.

Drake, T. G., and J. Calantoni. 2001. Discrete particle model for sheet flow sediment transport in the nearshore. Journal of Geophysical Research 106(C9):19,859-19,868.

DuToit, C. G., and J. F. A. Sleath. 1981. Velocity measurements close to rippled beds in oscillatory flow. Journal of Fluid Mechanics 112:71-96.

Einstein, H. A. 1950. The bed-load function for sediment transportation in open channel flows. Technical Report 1026. Washington, DC: U.S. Department of Agriculture, Technical Bulletin, U.S.A.

Engelund, F., and J. Fredsøe. 1976. A sediment transport model for straight channel. Nordic Hydrology 7(5):293-306.

Engelund, F., and E. Hansen. 1972. A Monograph on sediment transport in alluvial streams. Copenhagen: Technical Press Education.

Falques, A., and H. E. De Swart. 1998. Coastal morphodynamics. Technical Report, Institute of Marine, and Atmospheric Research, Utrecht, EG/MASTY Advanced Study Course. The Netherlalnds: Renesse.

Fredsøe, J. 1984. Turbulent boundary layer in wave-current motion. Journal of Hydraulic Engineering 110(8):1,103-1,120.

Fredsøe, J., O. H. Andersen, and S. Silberg. 1985. Distribution of suspended sediment in large waves. Journal of Waterways, Port, Coastal and Ocean Engineering 111(6):1,041-1,059.

Fredsøe, J., and R. Deigaard. 1994. Mechanics of coastal sediment transport. Vol. 3, Advanced Series on Ocean Engineering, World Scientiﬁc Publication.

Frijlink, H. C. 1952. Discussion des formules de debit solide de Kalinske, Einstein et Meyer-Peter and Müller compte tenue des mesures recentes de transport dans les rivieres Nederlandaises. 2^nd 'Journal Hydraulique, Societe Hydraulique de France, 98-103.

Gailani, J. Z., and J. S. Smith. 2000. Analysis of sediment transport processes, mouth of Columbia River. Coastal and Hydraulics Laboratory unpublished manuscript. Vicksburg, MS: U.S. Army Engineer Research and Development Center.

Gilbert, G. K. 1914. The transportation of debris by running water. Technical Report 86, U.S. Geological Survey, Professional Paper.

Grant, W. D., and O. S. Madsen. 1979. Combined wave and current interaction with a rough bottom. Journal of Geophysical Research 84(C4):1,797-1,808.

Grant, W. D., and O. S. Madsen. 1982. Movable bed roughness in unsteady oscillatory flow. Journal of Geophysical Research 87(C1):469-481.

Grasmeijer, B. 2002. Process-based cross-shore modelling of barred beaches. Unpublished PhD dissertation. The Netherlands: Utrecht University, Utrecht.

Green, M. O., T. J. Dolphin, A. Swales, and C. E. Vincent. 1999. Transport of mixed-size sediments in a tidal channel. Proceedings Coastal Sediments '99, ASCE, 644-658.

Hanson, H., and B. Camenen. 2007. Closed form solution for threshold velocity for initiation of sediment motion under waves. Proceedings Coastal Sediments '07, ASCE, 15-27.

Havinga, F. J. 1992. Sediment concentrations and sediment transport in case of irregular non-breaking waves with a current. Technical report, Coastal Engineering Department. The Netherlands: Delft University of Technology, Delft.

Hayakawa, N., G. Tsujimoto, and H. Hashimoto. 1983. Velocity distribution and suspended sediment concentration over large scale ripples. Coastal Engineering in Japan 26:91-100.

Homma, M., K. Horikawa, and R. Kajima. 1965. A study of suspended sediment due to wave action. Coastal Engineering in Japan 8:85-103.

Horikawa, K., A. Watanabe, and S. Katori. 1982. Sediment transport under sheet flow conditions. Proceedings 18^th 'Coastal Engineering Conference, ASCE, 1,335-1,352.

Huynh-Thanh, S., and A. Temperville. 1991. A numerical model of the rough turbulent boundary layer in combined wave and current interaction. In "Sand transport in rivers estuaries and the sea," Euromech 262:141-148.

Jenkins, J. T., and D. M. Hanes. 1998. A sheared layer of colliding grains driven from above by a turbulent fluid. Journal of Fluid Mechanics 370:29-52.

Jonsson. I. G. 1966. Wave boundary layers and friction factors. Proceedings 10^th 'Coastal Engineering Conference, ASCE, 127-148.

Kajiura, K. 1968. A model of the bottom boundary layer in water waves. Bulletin of the Earthquake Research Institute 46:75-123.

Kalkanis, G. 1964. Transportation of bed material due to wave action. Technical Memorandum 2. Washington, DC: Coastal Engineering Research Center, U.S. Army Corps of Engineers.

Kim, H. 2004. Effective form roughness of ripples for waves. Journal of Coastal Research 20(3):731-738.

King, D. B. 1991. Studies in oscillatory flow bed load sediment transport. Unpublished PhD dissertation. San Diego, CA: University of California.

Komar, P. D., and M. C. Miller. 1975. The initiation of oscillatory ripple marks and the development of plane-bed at high shear stresses under waves. Journal of Sedimentary Petrology 45(3):697-703.

Kosyan, R. D. 1985. Vertical distribution of suspended sediment concentrations sea-wards of the breaking zone. Coastal Engineering 9(2):171-187.

Kraus, N. C., and M. Larson. 2001. Mathematical model for rapid estimation of infilling and sand bypassing at inlet entrance channels. Coastal and Hydraulics Laboratory Technical Note CHETN-IV-35. Vicksburg, MS: U.S. Army Engineer Research and Development Center, USA.

Kroon, A. 1991. Suspended-sediment concentrations in a barred nearshore zone. Proceedings Coastal Sediments '91, ASCE, 328-341.

Larson, M. 1995. Model for decay of random waves in surf zone. Journal of Waterways, Port, Coastal and Ocean Engineering 121(1):1-12.

Laursen, E. M. 1958. The total sediment load of streams. Journal of Hydraulic Engineering 84(1):1-36.

Lees, B. J. 1981. Relationship between eddy viscosity of sea water and eddy diffusivity of suspended sediments. Geo-Marine Letters 1:249-254.

Li, L., and M. Sawamoto. 1995. Experiments on sediment transport in sheet-flow regime under oscillatory flow. Coastal Engineering in Japan 38(2):157-178.

Madsen, O. S. 1991. Mechanics of cohesionless sediment transport in coastal waters. Proceedings Coastal Sediments '91, ASCE, 15-27.

Madsen, O. S. 1993. Sediment transport outside the surf zone. Coastal Engineering Research Center, unpublished report. Vicksburg, MS: U.S. Army Engineer Waterways Experiment Station, USA.

Madsen, O. S., and W. D. Grant. 1976. Sediment transport in the coastal environment. Technical Report 209. Cambridge, MA: Massachusetts Institute of Technology, USA.

Madsen, O. S., Y. Tajima, and B. A. Ebersole. 2003. Longshore sediment transport: a realistic order-of-magnitude estimate. Proceedings Coastal Sediments '03, ASCE (CDROM).

Manohar, M. 1955. Mechanics of bottom sediment movement due to wave action. Beach Erosion Board Technical Memorandum 75. Washington, DC: U.S. Army Corps of Engineers.

Meyer-Peter, E., and R. Müller. 1948. Formulas for bed-load transport. 2^nd 'Meeting of the International Association of Hydraulic Structures Research, 39-64. Stockholm, Sweden.

Migniot, C. 1977. Action des courants, de la houleet duvent sur les sediments. La Houille Blanche 1:9-47.

Miller, H. C. 1998. Comparison of storm longshore transport rates to predictions. Proceedings 26^th 'International Coastal Engineering Conference, ASCE, 2,954-2,967.

Miller, H. C. 1999. Field measurements of longshore sediment transport during storm. Coastal Engineering 36(4):301-321.

Nakato, T., F. A. Locher, J. R. Glover, and J. F. Kennedy. 1977. Wave entrainment of sediment from rippled beds. Journal of Waterways, Port, Coastal and Ocean Engineering 103:83-100.

Nielsen, P. 1979. Some basic concepts of wave sediment transport. Technical report, 160 pp. Denmark: Institute of Hydrodynamics and Hydraulic Engineering (ISVA), Technical University of Denmark.

Nielsen P. 1981. Dynamics and geometry of wave-generated ripples. Jurnal of Geophysical Research 86(C7):6,467-6,472.

Nielsen, P. 1984. Field measurements of time-averaged suspended sediment concentrations under waves. Coastal Engineering 8(1):51-72.

Nielsen, P. 1986. Suspended sediment concentrations under waves. Coastal Engineering 10(1):23-31.

Nielsen, P. 1992. Coastal bottom boundary layers and sediment transport. Vol. 4 of Advanced Series on Ocean Engineering, World Scientific Publication.

Nikora, V. I, and G. M. Smart. 1997. Turbulence characteristics of New Zealand gravel-bed rivers. Journal of Hydraulic Engineering 123(9):764-773.

Nnadi, F. N., and K. C. Wilson. 1992. Motion of contact-load particles at high shear stress. Journal of Hydraulic Engineering 118(12):1,670-1,684.

Ogston, A. S., and R. W. Sternberg. 2002. Effect of wave breaking on sediment eddy diffusivity, suspended-sediment, and longshore sediment flux profiles in the surf zone. Continental Shelf Research 22(4):633-655.

Peters, K. 2000. Morphodynamics in the surf zone of sandy coasts. Unpublished PhD dissertation. Germany: Technical University of Braunschweig (in German).

Rattanapitikon, W., and T. Shibayama. 2000. Simple model for undertow profile. Coastal Engineering Journal 42(1):1-30.

Raudkivi, A. J. 1998. Loose boundary hydraulics. Balkema. The Netherlands: Rotterdam.

Ribberink, J. S. 1998. Bed-load transport for steady flows and unsteady oscillatory flows. Coastal Engineering 34(1):59-82.

Ribberink, J. S., and A. A. Al Salem. 1994. Sediment transport in oscillatory boundary layers in cases of rippled beds and sheet flow. Journal of Geophysical Research 99(C6):707-727.

Ribberink, J. S., and Z. Chen. 1993. Sediment transport of fine sand under asymmetric oscillatory flow. Report H840 (Part VII). The Netherlands: Delft Hydraulics.

Richardson, J. F., and W. N. Zaki. 1954. Sedimentation and fluidisation: Part I. Transactions Institution of Chemical Engineers 32:35-53.

Rose, C. P., and P. D. Thorne. 2001. Measurements of suspended sediment transport parameters in a tidal estuary. Continental Shelf Research 21(15):1,551-1,575.

Rouse, H. 1938. Experiments on the mechanics of sediment suspension. Proceedings 5^th 'International Congress for Applied Mechanics Proceedings 55. New York: Wiley & Sons.

Rowe, P. N. 1987. A convenient empirical equation for estimation of the Richardson-Zaki exponent. Chemical Engineering Science 42:2,795-2,796.

Sato, S. 1987. Oscillatory boundary layer flow and sand movement over ripples. Unpublished PhD dissertation. Tokyo, Japan: University of Tokyo.

Sawamoto, M., and T. Yamashita. 1986. Sediment transport rate due to wave action. Journal of Hydroscience and Hydraulic Engineering 4(1):1-15.

Scott, G. H., and H. D. Stephens. 1966. Special sediment investigation, Mississippi River at St Louis, Missouri, 1961-1963. Technical Report 1819-J. Washington, DC: Geological Survey Water-Supply Paper.

Shibayama, T., and K. Horikawa. 1982. Sediment transport and beach transformation. Proceedings 18^th 'Coastal Engineering Conference, ASCE, 1,509-1,522.

Shields, A. 1936. Anwendung der Ähnlichkeitsmechanik und der Turbulenzforschung auf die Geshiebebewegung. Preussische Versuchsanstalt fur Wasserbau und Schiffbau. Heft 26, 5-24.

Skafel, M. G., and B. G. Krishnappan. 1984. Suspended sediment distribution in wave field. Journal of Waterways, Port, Coastal and Ocean Engineering 110(2):215-230.

Sleath, J. F. A. 1978. Measurements of bedload in oscillatory glow. Journal of Waterways, Port, Coastal and Ocean Engineering 10(4):291-307.

Sleath, J. F. A. 1982. The suspension of sand by waves. Journal of Hydraulic Research 20(5):439-451.

Smart, G. M. 1984. Sediment transport formula for steep channels. Journal of Hydraulic Engineering 111(3):267-276.

Smart, G. M. 1999. Turbulent velocity profiles and boundary shear in gravel bed rivers. Journal of Hydraulic Engineering 125(2):106-116.

Smith, J. D., and McLean, S. R. 1977. Spatially averaged flow over a wavy surface. Journal of Geophysical Research 82(12):1,735-1,746.

Soulsby, R. L. 1997. Dynamics of marine sands, a manual for practical applications. H. R. Wallingford, UK: Thomas Telford.

Soulsby, R. L., L. Hamm, G. Klopman, D. Myrhaug, R. R. Simons, and G. P. Thomas. 1993. Wave-current interaction within and outside the boundary layer. Coastal Engineering 21(1-3):41-69.

Soulsby, R. L. and R. J. S. Whitehouse 2005a. Prediction of ripple properties in shelf seas. Mark 1 Predictor. HR Wallingford Report TR150, February. Wallingford, UK.

Soulsby, R. L., and R. S. Whitehouse. 1997. Threshold of sediment motion in coastal environment. Proceedings Conference on Pacific Coasts and Ports, 149-154. Christchurch, New Zealand: University of Canterbury.

Soulsby, R. L. and R. J. S. Whitehouse 2005b. Prediction of ripple properties in shelf seas. Mark 2 Predictor for time evolution. HR Wallingford Report TR154, December. Wallingford, UK.

Staub, C., I. G. Jonsson, and I. A. Svendsen. 1984. Variation of sediment suspension in oscillatory flow. Proceedings 19^th 'Coastal Engineering Conference, ASCE, 2,310-2,321.

Steetzel, H. J. 1984. Sediment suspension in an oscillating water motion close to the sand bed. Technical report, Coastal Engineering Department. Delft, The Netherlands: Delft University of Technology, Delft (in Dutch).

Steetzel, H. J. 1985. Model tests of scour near the toe of dune revetments. Technical Report M2051-Il, Coastal Engineering Department. Delft, The Netherlands: Delft University of Technology, Delft (in Dutch).

Stive, M. J. F. 1984. Energy dissipation in waves breaking on gentle beaches. Coastal Engineering 8(2):99-127.

Stokes, G. G. 1851. On the effect of internal friction of fluids on the motion of pendulums. Transactions of Cambridge Philosophical Society IX:8-106.

Sumer, B. M., and R. Deigaard. 1981. Particle motions near the bottom in turbulent flow in an open channel (Part 2). Journal of Fluid Mechanics 109:311-337.

Svendsen, I. A. 1984. Mass flux and undertow in the surf zone. Coastal Engineering 8(4):347-365.

Svendsen, I. A., and J. B. Hansen. 1988. Cross-shore currents in surf-zone modeling. Coastal Engineering 12:23-42.

Swart, D. H. 1974. Offshore sediment transport and equilibrium beach profiles. Technical report. Delft, The Netherlands: Delft Hydraulics Laboratory.

Trowbridge, J., and O. S. Madsen. 1984a. Turbulent wave boundary layers, 1: Model formulation and first-order solution. Journal of Geophysical Research 89(C5):7,989-7,997.

Trowbridge, J., and O. S. Madsen. 1984b. Turbulent wave boundary layers, 2: Second-order theory and mass transport. Journal of Geophysical Research 89(C5):7,999-8,007.

Van der Velden, E. 1986. Sediment suspension in an oscillating water motion close to the sand bed. Technical report, Coastal Engineering Department. Delft, The Netherlands: Delft University of Technology (in Dutch).

Van der Werf, J. J., and J. S. Ribberink. 2004. Wave-induced sediment transport processes in the ripple regime. Proceedings 29^th 'Coastal Engineering Conference, ASCE, 1,741-1,753.

Van Rijn, L. C. 1984a. Sediment transport: Part I: Bed load transport. Journal of Hydraulic Engineering 110(10):1,431-1,456.

Van Rijn, L. C. 1984b. Sediment transport: Part II: Suspended load transport. Journal of Hydraulic Engineering 110(11):1,613-1,641.

Van Rijn, L. C. 1984c. Sediment transport: Part III: Bed form sand alluvial roughness. Journal of Hydraulic Engineering 110(12):1,733-1,754.

Van Rijn, L. C. 1989. Handbook of sediment transport by currents and waves. Technical Report H461. The Hague: Delft Hydraulics Laboratory.

Van Rijn, L. C. 1993. Principles of sediment transport in rivers, estuaries and coastal seas. The Netherlands: Aqua Publications.

Van Rijn, L. C., A. G. Davies, J. Van der Graff, and J. S. Ribberink (eds.). 2001. SEDMOC: Sediment transport modelling in marine coastal environments. The Netherlands: Aqua Publications, Amsterdam.

Van Rijn, L. C., and G. L. Tan. 1985. Sutrench-model: Two-dimensional vertical mathematical model for sedimentation in dredges channels and trenches by currents and waves. Technical report. The Hague: Delft Hydraulics Laboratory.

Vanoni, V. A. 1946. Transportation of suspended sediment by water. Transactions American Society of Civil Engineers III:67-133.

Voogt, L., L. C. Van Rijn, and J. H. Van den Berg. 1991. Sediment transport of fine sand at high velocities. Journal of Hydraulic Engineering 117(7):869-890.

Voulgaris, G., and M. B. Collins, M. 2000. Sediment resuspension on beaches: Response to breaking waves. Marine Geology 167(1-2):167-187.

Wang, P., B. A. Ebersole, and E. R. Smith. 2002. Longshore sand transport - initial results from large-scale sediment transport facility. Coastal and Hydraulics Laboratory Technical Note CHETN-II-46. Vicksburg, Mississippi: U.S. Army Engineer Research and Development Center, USA.

Watanabe, A. 1982. Numerical models of nearshore currents and beach deformation. Coastal Engineering in Japan 25:147-161.

Watanabe, A. 1989. Numerical models of nearshore currents and beach deformation. Coastal Engineering 12(4):371-379.

Watanabe, A., and M. Isobe. 1990. Sand transport rate under wave-current action. Proceedings 22^nd 'Coastal Engineering Conference, ASCE, 2,495-2,506.

Watanabe, A., and M. Isobe. 1992. Total rate and distribution of longshore sand transport. Proceedings 23^rd 'Coastal Engineering, ASCE, 2,528-2,541.

Whitehouse, R. S. 1995. Observations of the boundary layer characteristics and the suspension of sand at a tidal site. Continental Shelf Research 15(13):1,549-1,567.

Willis, G. P., N. L. Coleman, and W. M. Ellis. 1972. Laboratory study of transport of fine sand. Journal of Hydraulic Engineering 98(3):801-816.

Wilson, K. C. 1966. Bed-load transport at high shear stress. Journal of Hydraulic Engineering 92(11):49-59.

Wilson, K. C. 1989a. Friction of wave induced sheet flow. Coastal Engineering 12(4):371-379.

Wilson, K. C. 1989b. Mobile bed friction at high shear stress. Journal of Hydraulic Engineering 115(6):825-830.

Yalin, M. S. 1977. Mechanics of Sediment Transport. Pergamon Press, Oxford, 2nd edition.

You, Z.-J. 1999. The inception of sheet flow in oscillatory sheet flow. Technical Note, Ocean Engineering 26(3):277-285.

Yu, Y., R.W. Sternberg, and R. A. Beach. 1993. Kinematics of breaking wave and associated suspended sediment in the nearshore zone. Continental Shelf Research 13(11):1,219-1,242.

Zala Flores, N., and J. F. A. Sleath. 1998. Mobile layer in oscillatory sheet flow. Journal of Geophysical Research 106(C6):12,783-12,793.

Zyserman, J. A., and J. Fredsøe. 1994. Data analysis is of bed concentration of suspended sediment. Journal of Hydraulic Research 120(9):1,021-1,042.

Chapter 6 - Conclusions

Table of Contents

Retrieved from "https://cirpwiki.info/index.php?title=CR-07-1:References&oldid=8591"

Publication