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De Blasio et al. 2004
De Blasio, F.V., Engvik, L., Harbitz, C.B. and Elverhøi, A. (2004). Hydroplaning and submarine debris flows. Journal of Geophysical Research 109: doi: 10.1029/2002JC001714. issn: 0148-0227.

Examination of submarine clastic deposits along the continental margins reveals the remnants of holocenic or older debris flows with run-out distances up to hundreds of kilometers. Laboratory experiments on subaqueous debris flows, where typically one tenth of a cubic meter of material is dropped down a flume, also show high velocities and long run-out distances compared to subaerial debris flows. Moreover, they show the tendency of the head of the flow to run out ahead of the rest of the body. The experiments reveal the possible clue to the mechanism of long run-out. This mechanism, called hydroplaning, begins as the dynamic pressure at the front of the debris flow becomes of the order of the pressure exerted by the weight of the sediment. In such conditions a layer of water can intrude under the sediment with a lubrication effect and a decrease in the resistance forces between the sediment and the seabed. A physical-mathematical model of hydroplaning is presented and investigated numerically. The model is applied to both laboratory- and field-scale debris flows. Agreement with laboratory experiments makes us confident in the extrapolation of our model to natural flows and shows that long run-out distances can be naturally attained.

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Abstract

Keywords
Marine Geology and Geophysics, Marine sediments—processes and transport, Oceanography, Physical, Sediment transport, Oceanography, General, Numerical modeling, debris flows, hydroplaning, submarine slides
Journal
Journal of Geophysical Research
http://www.agu.org/journals/jb/
Publisher
American Geophysical Union
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