Paper:
Experimental Study on the Fluid Mud Transportation Under Currents with Fluctuating Water Surface
Chunrong Liu*,†, Wenyu Yang*, Bo Wu*, and Huhe Aode**
*School of Civil Engineering and architecture, Xiamen University of Technology
Xiamen, Fujian 361024, China
†Corresponding author,
**Institute of Mechanics, Chinese Academy of Sciences, Beijing, China
- [1] T. Tomita, T. Arikawa, and T. Asai, “Damage in Ports due the 2011 off the Pacific Coast of Tohoku Earthquake Tsunami,” J. of Disater Research, Vol.8, No.4, pp. 594-604, 2013.
- [2] J.F Li, X.N. Wan, Q. He, M. Ying, and L.Q. Shi, “Hutchinson S.M. In-Situ observation of fluid mud in the north passage of Yangtze Estuary,” China. China Ocean Engineering, Vol.18, No.1, pp. 149-156, 2004.
- [3] L.C. Sun, “Research on hydrological and siltation problems of Tianjin port,” The Ocean Engineering, Vol.21, No.1, pp. 78-86, 2003 (in Chinese).
- [4] X. Zhou and J. Wang, “The wave attenuation on mud bed,” The Ocean Engineering, Vol.12, No.3, pp. 54-64, 1994 (in Chinese).
- [5] Z.D. Zhao, “Review and prospects on the interaction between waves and mud bottom,” The Ocean Engineering, Vol.9, No.2, pp. 33-40, 1991 (in Chinese).
- [6] Z.D. Cao, “Characteristics of fluid mud motion under waves,” Waterway ports, No.2, pp. 8-14, 1987.
- [7] Q. Chen, “A study on fluid mud flow under the action of gravity and effect of flowing water and interfacial stability,” J. of Tianjin University, No.24, pp. 31-52, 1965 (in Chinese).
- [8] Z.D. Zhao, “The fluid mud transport under wave,” Marine Science Bulletin, pp. 65-74, 1982.
- [9] Z.D. Cao, “Research of fluid mud characteristics,” Waterway ports, No.1, pp. 34-40, 1992.
- [10] H.G. Gade, “Effect of a non-grid, impermeable bottom on plane surface waves in shallow water,” J. Mar. Res., No.16, pp. 61-82, 1958.
- [11] R. A. Dalrymple, “Waves over soft muds: a two-layer fluid mud,” American Meteorological society, pp. 1121-1131, 1978.
- [12] C.C. Mei and K.F. Liu, “A binghan-plastic model for a muddy seabed under long waves,” J. of Geophysical Reseach, Vol.92, No.13, pp. 14581-14594, 1987.
- [13] G.R. Dou, “Incipient motion of coarse and fine sediment,” J. Of Sediment Research, No.6, pp. 1-13, 1999.
- [14] T. V. Kessel and C. Kranenbug, “Gravity current of fluid mud on sloping bed,” J. of Hydraulic Engineering, Vol.122, No.12, pp. 710-717, 1996.
- [15] R. Hong and Y.l. Ying, “Research of fluid mud staring velocity under current,” J. of Hydraulic, Vol.8, No.8, pp. 49-55, 1988.
- [16] C. Tang, “Research of sediment incipient motion,” J. of Hydraulic, No.2, pp. 1-12, 1963.
- [17] C. Balmforth, “A consistent thin-layer theory for Bingham plastics,” J. of Non-Newtonian Fluid Mechanics, No.84, pp. 65-81, 1999.
- [18] M.R. Chowdhury and F.Y. Testilk, “aboratory testing of mathematical models for high-concentration fluid mud turbidity currents,” Ocean Engineering, No.38, pp. 256-270, 2011.
- [19] Z.D. Zhao and L. Jiang, “Study on the interaction between waves and mud bottom,” The Ocean Engineering, No.3, pp. 321-328, 1989.
- [20] J. M. Becker, “Pattern formation on the interface of two-layer fluid: bi-viscous lower layer,” Wave Motion, No.34, pp. 431-452, 2001.
- [21] C.O. Ng and S-C. Fu, “On the propagation of two-dimensional viscous density current under surface waves,” Physics of fluid, Vol.14, No.3, pp. 970-984, 2002.
- [22] C.O. Ng, “Mass Transport in A Layer of Power-law Fluid Forced by Periodic Surface Pressure,” Wave Motion, Vol.39, pp. 241-259, 2004.
- [23] P. Traykovski and W. R. Geyer, “The role of wave-induced density-driven fluid mud flows for cross-shelf transport on the Eelriver continental shelf,” Continental Shelf Research, No.20, pp. 113-2140, 2000.
- [24] P. Puig and A. S. Ogston, “Shelf-to-canyon sediment-transport processes on the Eel continental margin (northern California),” Marine Geology, No.193, pp. 129-149, 2003.
- [25] Z.D Zhao and J.J. Lian, “Interaction among waves, current, and mud: numerical and laboratory studies,” Advances in Water Resources, No.29, pp. 1731-1744, 2006.
- [26] A. Huhe and Z.H. Huang, “Experimental study of rheology of Hangzhou Bay mud. Int. report IMCAS STR-94021,” Institute of Mechanics, Chinese Academy of Sciences, 1994 (in Chinese).
- [27] Z.H. Huang and A. Huhe, “A laboratory study of rheological properties of mudflows in Hangzhou Bay, China,” Int. J. of Sediment Research, Vol.24, pp. 409-423, 2009.
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