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The Benefit of Measures of Energy Dissipation and Erosion Reduction by Falling Water in Gully Head of Dry Hot Valley

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ã€Authorã€‘ ZHANG Baojun;WU Han;XIONG Donghong;Key Laboratory of Mountain Disasters and Surface Processes,Chinese Academy of Sciences;Chengdu Institute of Mountain Disasters and Environment,Ministry of Water Resources/Chinese Academy of Sciences;

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ã€Abstractã€‘ Gully head is the most active part of gully development in dry-hot valley area of the lower reaches of Jinsha River,having the characteristics of "steep falling-sill,large terrain drop,large drop energy and severe runoff erosion". How to effectively reduce the energy of gully head drop and reduce erosion and sediment yield is the key of active gully head control in dry-hot valley. Through energy dissipation test under various treatments,it is found out that the design of plunge pool can effectively reduce the energy of water drop energy of gully head,energy dissipation rate is over 92% and its size is related to the height of water drop,discharge flow,filling material and depth of plunge pool.The energy dissipation rate increases with the increase of drop height,discharge and depth of plunge pool and the energy dissipation effect of soft Heteropogon contortus material is better than that of cobblestone. In the process of falling water at the head of gulley,it will cause violent collision and friction with the underlying surface and dissipate a lot of energy. To build a plunge pool at the bottom of gully head falling-sill can avoid the direct effect of water drop dissipation energy on soil and slow down the development of erosion process of the head of gulley.Comparing with no filling,the filling of energy dissipation material can reduce the erosion and sediment yield by 49.6% to 89.2% and the average reduction is 74.2%.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ 5drop heightï¼› plunge poolï¼› energy dissipation rateï¼› gully headï¼› dry-hot valleyï¼›

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The Benefit of Measures of Energy Dissipation and Erosion Reduction by Falling Water in Gully Head of Dry Hot Valley

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