Tingxiang Chu scite author profile

Design of deflectors or barriers to slow or stop snow avalanche debris in the runout zone requires estimates of runup height. In this paper, experimental data on runup of dense, dry granular flows in a flume are presented. The data are then compared with two one-dimensional theoretical equations for runup estimation: (1) a formulation based on following the leading edge of the flow up the barrier and (2) the traditional method adapted from equations presented by A. Voellmy for describing the centre of mass of the avalanche. The results show that the leading-edge model more closely matches the experimental results and, in field applications, the leading-edge model is expected to provide higher and, therefore, more conservative runup estimates. Key words : avalanche run-up, granular flows, avalanche defences, runout zone.

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Experimental study on premixed flame propagation of hydrogen/methane/air deflagration in closed ducts

Zheng

et al. 2017

International Journal of Hydrogen Energy

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Tingxiang Chu

Experimental research on inhibition performances of the sand-suspended colloid for coal spontaneous combustion

Imidazolium based ionic liquids affecting functional groups and oxidation properties of bituminous coal

Plastic behavior of composites and porous media under isotropic stress

Experiments on granular flows to predict avalanche runup

Experimental study on premixed flame propagation of hydrogen/methane/air deflagration in closed ducts

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