Abstract
Abstract. Moraine dam collapse is one of the causes of glacial lake outburst floods. Available models seek to predict both moraine breach formation and lake outflow. The models depend on hydraulic, erosion, and geotechnical parameters that are mostly unknown or uncertain. This paper estimates the outflow hydrograph caused by a potential erosive collapse of the moraine dam of Lake Palcacocha in Peru and quantifies the uncertainty of the results. The overall aim is to provide a simple yet hydraulically robust approach for calculating the expected outflow hydrographs that is useful for risk assessment studies. To estimate the peak outflow and failure time of the hydrograph, we assessed several available empirical equations based on lake and moraine geometries; each equation has defined confidence intervals for peak flow predictions. Complete outflow hydrographs for each peak flow condition were modeled using a hydraulic simulation model calibrated to match the peak flows estimated with the empirical equations. Failure time and peak flow differences between the simulations, and the corresponding empirical equations were used as error parameters. Along with an expected hydrograph, lower and upper bound hydrographs were calculated for Lake Palcacocha, representing the confidence interval of the results. The approach has several advantages: first, it is simple and robust. Second, it evaluates the capability of empirical equations to reproduce the conditions of the lake and moraine dam. Third, this approach accounts for uncertainty in the hydrographs estimations, which makes it appropriate for risk management studies.
Highlights
Flood risk downstream of a natural dam depends on the capability of the dam to hold the impounded water
We propose that the best empirical model for a given site produces results that best match those of hydraulic simulations
A new approach has been presented for extending prior empirical models that provide only peak flows and failure times for a dam break
Summary
Flood risk downstream of a natural dam depends on the capability of the dam to hold the impounded water. That capability can be exceeded due to overtopping wave events; catastrophic collapse of the dam induced by either structural failure or accelerating erosive processes; or by a successive combination of both phenomena in a two-phase outburst flood (Kershaw et al, 2005). Knowing a priori the hydrograph for a potential glacial lake outburst flood (GLOF) would be useful for risk analysis and mitigation, but it is not clear the level of detail required to have a reasonable approximation. In this paper we focus on estimating the hydrograph for potential erosive failure of a moraine-dammed glacial lake. Wherever human lives and economic damages are at risk because of a GLOF, predicting the failure of a moraine dam is relevant. On the other hand, overestimating their magnitude might create an atmosphere of fear in communities that, otherwise, depend on water resources
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