Energy Dissipation of Debris Flows over Stepped Gradients and Erodible Beds in Open Channel

Li Pu; Hu Kaiheng; Zhao Jinheng

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Energy Dissipation of Debris Flows over Stepped Gradients and Erodible Beds in Open Channel

机译：碎片的能量耗散在开放通道中流过阶梯式梯度和可蚀刻床

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Energy of debris flows in steep mountainous channels is mostly consumed by erosion, collision, and hydraulic jumps due to abrupt topographic changes. In this study, flume experiments were performed to study the energy dissipation of debris flows over stepped gradients and erodible beds. A power law relationship between the depth-averaged velocity and flow depth was used to calculate the kinetic energy of debris flows. The experimental data indicate that the energy loss of entrainment per unit volume of bed sediment has an approximately linear relationship with transition angle and porosity. The net resistance coefficient also demonstrates more energy dissipation when debris flows move downward on slopes with a greater gradient change.

机译：由于突然的地形变化，泥石山频道中的碎片能量在陡峭的山区渠道中流动，而且液压跳跃。在该研究中，进行了水果实验，以研究碎片流动在阶梯式梯度和可蚀刻床上的碎片流动。深度平均速度和流动深度之间的电力法关系用于计算碎片流动的动能。实验数据表明，每单位体积的床沉积物夹带的能量损失具有与过渡角和孔隙率的大致线性关系。当碎片流动在具有更大梯度变化的斜坡上向下移动时，净电阻系数也显示出更多的能量耗散。

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来源
《Journal of Hydraulic Engineering》 |2020年第7期|06020008.1-06020008.10|共10页
作者
Li Pu; Hu Kaiheng; Zhao Jinheng;
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作者单位

Northwest Univ State Key Lab Continental Dynam Dept Geol Xian 710069 Shanxi Peoples R China;

Chinese Acad Sci Key Lab Mt Hazards & Earth Surface Proc Chengdu 610041 Sichuan Peoples R China|Chinese Acad Sci Inst Mt Hazards & Environm Chengdu 610041 Sichuan Peoples R China|Minist Water Conservancy & Power Chengdu 610041 Sichuan Peoples R China;

Elect Power Co Training Ctr Dept Water Hydropower & Construct Engn Chengdu 610072 Sichuan Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Energy dissipation; Debris flow; Erodible bed; Entrainment; Velocity profile; Stepped gradient;

机译：能量耗散;碎片流动;可蚀刻的床;夹带;速度概况;阶梯梯度;

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专利

1. Experimental study of debris-flow entrainment over stepped-gradient beds incorporating bed sediment porosity [J] . Li Pu, Wang Jiading, Hu Kaiheng, Engineering Geology . 2020,第1期

机译：渗流梯度覆盖床沉积物孔隙率的泥石流夹带的实验研究
2. Effect of excess pore pressure on the long runout of debris flows over low gradient channels: A case study of the Dongyuege debris flow in Nu River, China [J] . Zhou Zhen-Hua, Ren Zhe, Wang Kun, Geomorphology . 2018,第MAY1期

机译：过高孔隙压力对低坡度渠道长期泥石流的影响-以怒江东岳泥石流为例
3. Two-dimensional simulation of debris flows in erodible channels [J] . Aronne Armanini, Luigi Fraccarollo, Giorgio Rosatti Computers & geosciences . 2009,第5期

机译：侵蚀通道中泥石流的二维模拟
4. Study of the Effect of the Rate Flow and the Slope of the Channel on the Energy Dissipation in the Stepped Channels: Proposing an Empirical Models [C] . Gafsi Mostefa, Boutassouna Kheira, Djehiche Abdelkader International Conference on Sustainable Design, Engineering and Construction . 2015

机译：速率流量与通道斜率对阶梯通道耗散效果的研究：提出经验模型
5. Eroding Uncertainty: Towards Understanding Flows Interacting with Mobile Sediment Beds Using Grain-Resolving Simulations [D] . Biegert, Edward Kristopher. 2018

机译：侵蚀不确定性：使用颗粒解析模拟了解与流动沉积床相互作用的流量
6. Sediment transport capacity of concentrated flows on steep loessial slope with erodible beds [O] . Hai Xiao, Gang Liu, Puling Liu, -1

机译：黄土坡陡带易蚀床层集中流的输沙能力
7. Study of the Effect of the Rate Flow and the Slope of the Channel on the Energy Dissipation in the Stepped Channels: Proposing an Empirical Models [O] . Mostefa Gafsi, Kheira Boutassouna, Abdelkader Djehiche, 2015

机译：速率流和通道斜率对阶梯状通道耗能的影响研究：提出一个经验模型

Energy Dissipation of Debris Flows over Stepped Gradients and Erodible Beds in Open Channel

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