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A large number of submarine landslides with different scales have been identified in the canyon area of the submarine pipeline route of Liwan 3-1 gas field. There is still much chance that submarine sl...  相似文献   
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Using 3·5 kHz high-resolution seismic data, gravity cores and side-scan sonar imagery, the flow behaviour of submarine, glacigenic debris flows on the Bear Island Trough Mouth Fan, western Barents Sea was studied. During their downslope movement, the sediments within the uppermost part of the debris flows (<3 m) are inferred to have been deformed as a result of the shear stress at the debris–water interface. Thus, the uppermost part of the flow did not move downslope as a rigid plug. If present, a rigid part of the flow was located at least some metres below the surface. At c . 1000 to at least 1600 m water depth, the debris flows eroded and probably incorporated substrate debris. Further downslope, the debris flows moved passively over substrate sediments. The hypothesis of hydroplaning of the debris flow front may explain why the debris flows moved across the lower fan without affecting the underlying sediments. Detailed morphological information from the surface of one of the debris flow deposits reveals arcuate ridges. These features were probably formed by flow surge. Hydroplaning of the debris flow front may also explain the formation of flow surge. The long runout distance of some of the large debris flows could be due to accretion of material to the base of the debris flow, thereby increasing in volume during flow, and/or to hydroplaning suppressing deceleration of the flow.  相似文献   
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ABSTRACT

In this paper, a series of mini-drum centrifuge experiments on motion of submarine debris flow, which are able to correctly reproduce the self-weight stresses and gravity-dependent processes, are presented. These tests were performed using artificial submarine clay with high water content, from 93 to 149%. The extremely low shear strength made the debris material behave as idealistic lubricating material when it was deposited, resulting in a linear relationship between water content and runout distance of strongly coherent debris flow. On the other hand, the dilation of the flow body and hydroplaning was observed for weakly coherent debris flow, which further increased the mobility of flow body. A densimetric Froude number Frd was used to indicate the threshold of hydroplaning, which occurs if the Frd is greater than 0.2. Finally, two simple analytical models based on prototype debris flow under 1?g condition was used to validate the experiment results, which further prove the effects of soft marine clay on the high mobility of submarine debris flow. On the other hand, when the water content exceeded 120%, the experiment results deviated from the analytical solution due to the effects of hydroplaning.  相似文献   
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无水滑的水下泥石流运动速度的实验研究   总被引:1,自引:1,他引:1       下载免费PDF全文
余斌 《水科学进展》2007,18(5):641-647
水下泥石流阻力与陆面中泥石流运动阻力的不同点在于上表面的掺混阻力和剪切阻力。由一系列的室内无水滑的水下泥石流和陆面泥石流实验研究得出:水下泥石流运动速度与相同条件下陆面泥石流运动速度之比随不同性质的泥石流,如粘性和稀性泥石流,由于其屈服应力的巨大差别,有很大的不同。由实验得到的由泥石流体的容重和量纲为一的泥石流屈服应力表达的水下无水滑泥石流运动速度和陆面泥石流运动速度用于无水滑水下泥石流运动速度计算较好。  相似文献   
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