Litcius/Paper detail

Sensitivity and identifiability of rheological parameters in debris flow modeling

Gerardo Zegers, Pablo A. Mendoza, Álex Garcés, Santiago Montserrat

2020Natural hazards and earth system sciences33 citationsDOIOpen Access PDF

Abstract

Abstract. Over the past decades, several numerical models have been developed to understand, simulate and predict debris flow events. Typically, these models simplify the complex interactions between water and solids using a single-phase approach and different rheological models to represent flow resistance. In this study, we perform a sensitivity analysis on the parameters of a debris flow numerical model (FLO-2D) for a suite of relevant variables (i.e., maximum flood area, maximum flow velocity, maximum height and deposit volume). Our aims are to (i) examine the degree of model overparameterization and (ii) assess the effectiveness of observational constraints to improve parameter identifiability. We use the Distributed Evaluation of Local Sensitivity Analysis (DELSA) method, which is a hybrid local–global technique. Specifically, we analyze two creeks in northern Chile (∼29∘ S, 70∘ W) that were affected by debris flows on 25 March 2015. Our results show that SD (surface detention) and β1 (a parameter related to viscosity) provide the largest sensitivities. Further, our results demonstrate that equifinality is present in FLO-2D and that the final deposited volume and maximum flood area contain considerable information to identify model parameters.

Topics & Concepts

IdentifiabilitySensitivity (control systems)Debris flowFlood mythFlow (mathematics)Environmental scienceRheologyEquifinalityGeologyDebrisComputer scienceHydrology (agriculture)MathematicsGeotechnical engineeringStatisticsMeteorologyGeographyEngineeringGeometryPhysicsThermodynamicsArchaeologyElectronic engineeringArtificial intelligenceLandslides and related hazardsSoil and Unsaturated FlowGroundwater flow and contamination studies