An integrated method for rapid estimation of the valley incision by debris flows

Valley incision by debris flow is an important process in creating and maintaining the topography of a valley, in addition to explaining the significant growth of the magnitudes of debris flow hazards. In this paper, we introduce a semi-empirical method to quantitatively estimate the valley incision...

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Bibliographic Details
Published in:Engineering geology 2018-01, Vol.232, p.34-45
Main Authors: Han, Zheng, Wang, Weidong, Li, Yange, Huang, Jianling, Su, Bin, Tang, Chuan, Chen, Guangqi, Qu, Xia
Format: Article
Language:English
Subjects:
Cross-section
Debris flow
Erosion
Hydrograph
Integrated method
Valley incision
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Summary:Valley incision by debris flow is an important process in creating and maintaining the topography of a valley, in addition to explaining the significant growth of the magnitudes of debris flow hazards. In this paper, we introduce a semi-empirical method to quantitatively estimate the valley incision process by debris flows over complex bed surface. We first reproduce natural bed surface across the valley by a polyline, and use a hydrograph of discharge versus time to represent the temporal variation of debris flow process. The presented method subsequently predicts the debris flow behavior over an irregular bed surface. A dynamic erosion law considers the solved debris flow behavior and estimates an instantaneous erosion rate. Finally, the accumulative incision depth of bed sediment is calculated, reshaping the initial bed surface across the valley. The presented method is simple and therefore notably beneficial for practical work. The performance of the proposed method has been tested using two case study applications. Results demonstrate that the presented method estimates comparable incision depth as revealed in the in-situ survey and the numerical simulation. •A quantitative method for predicting valley incision by debris flow is introduced.•Velocity distribution of debris flow across the valley can be analyzed.•A dynamic erosion law is incorporated to estimate instantaneous erosion rate.•The performance of the proposed method has been tested by two cases.
ISSN:0013-7952
1872-6917
DOI:10.1016/j.enggeo.2017.11.007