REFERENCES
S. M. Antsyferov, “On the mechanism of formation of sand waves,” Meteorol. Gidrol., No. 3 (1969).
S. M. Antsyferov and A. S. Efremov, “Predictive analysis of the existence and parametrization of sand ripples generated by sea turbulence,” Geomorfologiya, No. 4 (1996).
S. M. Antsyferov and I. G. Kantarzhi, “A near-bottom boundary condition for the concentrational analysis of alluvial deposits carried by waves and flows,” Okeanologiya, 40(4) (2000).
I. Gizheevski, V. Dachev, Z. Prushak, P. Ronevich, S. Rudovski, and G. Chapovski, “Bottom-dwelling microorganisms and their relation to hydrodynamic processes. Coastal processes of a tideless sea. Results of the Lyubyatovo-76 International Experiment,” in: Prace Institute Budownictwa Wodnego PAN, Gdansk, No. 5 (1978).
H. S. Znamenskaya, Hydraulic Modeling of Fluvial Processes [in Russian], Gidrometeoizdat, St. Petersburg (1992).
R. D. Kos'yan, “Ripples: formation and occurrence of in the turbulent coastal zone of water bodies,” Vodnye Resursy, No. 1 (1987).
I. I. Levi, Studies of Hydraulic Phenomena [in Russian], Énergiya, Moscow (1967).
S. I. Pilyaev and F. V. Morozov, “A study of sea turbulence using three-dimensional models of the port,” in: Water-Handling Facilities, Ports, and Port Structures [in Russian], Izd. MGSU, Moscow (1999).
B. A. Shulyak, Wave Physics on the Surface of Granular and Fluid Media [in Russian], Nauka, Moscow (1971)
J. R. L. Allen, Sedimentary Structures: Their Character and Physical Basis, Elsevier, Amsterdam (1982).
W. R. Dupre, “Reconstruction of paleo-wave conditions during the Late Pleistocene from marine terrace deposits? Monterey Bay, California,” Mar. Geol., 60(1/4) (1984).
A. Kaneko, “Oscillation sand ripples in viscous fluids,” Jap. Soc. Civ. Eng., 307 (1981).
R. D. Kos'yan, N. V. Pykhov, and B. L. Edge, Coastal Processes in Tideless Seas, ASCE Press, Reston (VA) (2000).
L. C. Van Rijn, Principles of Sediment Transport in Rivers, Estuaries and Coastal Seas, Aqua Publications, Amsterdam (1993).
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Antsyferov, S.M., Pilyaev, S.I. & Rogachko, S.I. A Washout Model-Based Method for Studying the Dynamic Regime in the Vicinity of Marine Hydraulic Structures. Power Technology and Engineering 36, 327–330 (2002). https://doi.org/10.1023/A:1023222522927
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DOI: https://doi.org/10.1023/A:1023222522927