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Abstract
With the advantages of a simple structure and rapid construction, the rigid netting barrier (RNB) exerts a good obstruction effect on granular flow and is a common engineering measure used to prevent geological disasters in the form of granular flows. However, due to the limitations of current measuring and testing techniques, it is difficult to obtain an accurate measurement of the granular flow velocity and the impact force of granular flow on the mesh structures that are of primary concern in the design of protective structures. To study the characteristics of the obstruction process of RNBs toward granular flow, a typical impact experiment involving granular flow was numerically simulated by the discrete element method, and the correctness and effectiveness of the calculation method were also verified. On this basis, the discrete element method was applied to simulate the obstruction process affecting granular flow under different RNB setting conditions, and the calculation results clearly present the phenomena that occur during the obstruction process of RNBs toward granular flow, such as “run‐up,” “overflow,” “passing‐through,” and “grain‐size segregation.” By analyzing the effects of these phenomena on the obstruction efficiency and the time history of the forces acting on the RNB, the rational setting of an RNB was further discussed. This study can provide a reference for the engineering application of RNB.
Highlights
With the advantages of a simple structure and rapid construction, the rigid netting barrier (RNB) exerts a good obstruction effect on granular flow and is a common engineering measure used to prevent geological disasters in the form of granular flows
At the same time, considering the direct and important influence of the masses of grains that have not been obstructed by the RNB in the downstream, the obstruction efficiency is defined in this study as the ratio of the mass of the grains obstructed by the RNB relative to the total mass of the grains sliding from the source area
It was found that there are several points that should be given attention when designing an RNB. (i) e position setting affects the time history of the forces acting on the RNB and the obstruction efficiency
Summary
With the advantages of a simple structure and rapid construction, the rigid netting barrier (RNB) exerts a good obstruction effect on granular flow and is a common engineering measure used to prevent geological disasters in the form of granular flows. To study the characteristics of the obstruction process of RNBs toward granular flow, a typical impact experiment involving granular flow was numerically simulated by the discrete element method, and the correctness and effectiveness of the calculation method were verified. Erefore, it is necessary to study in depth the impact of granular flows, the obstruction effect of barriers, and the structural design and rational layout of prevention and control measures. Erefore, the study of the interaction between granular materials and the barriers under different barrier setting conditions is of great significance for more effective control structure design [12,13,14]. Several large-scale experiments [15] have been carried out to monitor the impact of granular flows
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