Numerical Simulation and Analysis of Debris Flow Prevention Engineering Effects in Strong Earthquake Area

Tang Hai; Tang Chuan; Chen Ming; Wang Xiaodi; Luo Yuting

doi:10.13961/j.cnki.stbctb.2019.04.031

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Numerical Simulation and Analysis of Debris Flow Prevention Engineering Effects in Strong Earthquake Area

- Numerical Simulation and Analysis of Debris Flow Prevention Engineering Effects in Strong Earthquake Area
- Bulletin of Soiland Water Conservation Vol. 39, Issue 4, Pages: 196-201(2019)
- 作者机构：
  
  成都理工大学地质灾害防治与地质环境保护国家重点实验室,四川,成都,610059
- 作者简介：
- 基金信息：
- DOI：10.13961/j.cnki.stbctb.2019.04.031
  CLC： P642.23
- Published：2019
- 稿件说明：
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Tang Hai, Tang Chuan, Chen Ming, et al. Numerical Simulation and Analysis of Debris Flow Prevention Engineering Effects in Strong Earthquake Area[J]. Bulletin of Soiland Water Conservation, 2019, 39(4): 196-201.
DOI：

Tang Hai, Tang Chuan, Chen Ming, et al. Numerical Simulation and Analysis of Debris Flow Prevention Engineering Effects in Strong Earthquake Area[J]. Bulletin of Soiland Water Conservation, 2019, 39(4): 196-201. DOI： 10.13961/j.cnki.stbctb.2019.04.031.

摘要

[目的]对汶川地震后修建的大量泥石流防治工程的效果进行数值模拟分析，以便为泥石流研究和防治提供科学借鉴。[方法]采用FLO-2D软件，以2010年都江堰市龙池镇黄央沟"8·13"泥石流为典型实例，结合雨量数据、数字地形数据及泥石流的各项流变参数，模拟在不同的降雨频率下泥石流的运动过程和堆积范围，对泥石流的防治工程效果进行分析评价。[结果]在有防治工程条件下，当降雨频率P=5%时，泥石流的冲出量减小11.39倍，堆积范围减小6.14倍；当降雨频率P=2%时，泥石流的冲出量减小4.18倍，堆积范围减小2.7倍，治理工程取得了一定的防治效果，但两种降雨频率下仍有固体物质冲出沟口。[结论]相比于自然条件泥石流的冲出量和冲出规模得到了一定的控制，已有的治理工程有利于整个沟域泥石流的防治，但存在设计库容偏小的问题，今后的泥石流防治中还要加强监测预警等减灾措施。

Abstract

[Objective] After the Wenchuan earthquake

a large number of debris flow prevention engineering were constructed. The numerical simulation of the effects of debris flow prevention engineering in strong earthquake areas was analyzed to provide a scientific reference for the study and prevention of debris flow.[Methods] Using FLO-2D software

this paper simulates the movement process and accumulation range of debris flow under different rainfall frequencies

and analyzes and evaluates the effects of debris flow in the prevention and control project

combining rainfall data

digital elevation model(DEM) and rheological parameters of debris flow

taking the "8·13" debris flow in Huangyang gully

Longchi Town

Dujiangyan City in 2010 as a typical example.[Results] Under the condition of prevention engineering

when the rainfall frequency P=5%

the discharge volume of debris flow decreased by 11.39 times and the accumulation range decreased by 6.14 times; when the rainfall frequency P=2%

the discharge volume of debris flow decreased by 4.18 times and the accumulation range was reduced by 2.7 times. The prevention engineering achieved certain control effects

but solid matter still rushed out of the ditch at the two rainfall frequencies.[Conclusion] Compared with the natural conditions

the volume and size of the rushing out of the debris flow significantly reduced. The prevention engineering is conducive to the prevention and control of the debris flow in the gully. However

there will have the possibility of solid matter rushing out of the ditch

due to the small capacity of the reservoir. Therefore

hazard mitigation measures such as monitoring and early warning systems need to be strengthened in the further governance of debris flows.

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references

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