Abstract
Abstract. Development and simulation of synthetic hurricane tracks is a common methodology used to estimate hurricane hazards in the absence of empirical coastal surge and wave observations. Such methods typically rely on numerical models to translate stochastically generated hurricane wind and pressure forcing into coastal surge and wave estimates. The model output uncertainty associated with selection of appropriate model parameters must therefore be addressed. The computational overburden of probabilistic surge hazard estimates is exacerbated by the high dimensionality of numerical surge and wave models. We present a model parameter sensitivity analysis of the Delft3D model for the simulation of hazards posed by Hurricane Bob (1991) utilizing three theoretical wind distributions (NWS23, modified Rankine, and Holland). The sensitive model parameters (of 11 total considered) include wind drag, the depth-induced breaking γB, and the bottom roughness. Several parameters show no sensitivity (threshold depth, eddy viscosity, wave triad parameters, and depth-induced breaking αB) and can therefore be excluded to reduce the computational overburden of probabilistic surge hazard estimates. The sensitive model parameters also demonstrate a large number of interactions between parameters and a nonlinear model response. While model outputs showed sensitivity to several parameters, the ability of these parameters to act as tuning parameters for calibration is somewhat limited as proper model calibration is strongly reliant on accurate wind and pressure forcing data. A comparison of the model performance with forcings from the different wind models is also presented.
Highlights
We present a parameter sensitivity analysis of the Delft3D computer model under extreme storm conditions using Hurricane Bob (1993) as the underlying event
It has been previously shown that the wave setup can have some effect on storm surge predictions (Weaver and Slinn, 2004); these results demonstrate that the parameterization of the wave model does not play a significant role in predicting the peak surge elevation
In the present study we have used a sensitivity analysis methodology that is suited for models with large computational overburden to determine the model parameter sensitivities for the case of hurricane-induced storm surges
Summary
We present a parameter sensitivity analysis of the Delft3D computer model under extreme storm conditions using Hurricane Bob (1993) as the underlying event. The analysis allows for an evaluation of the model’s ability to reproduce observed values of water surface elevation and wave height which are relevant for storm surge hazard predictions. Walton (2000) provides a thorough review and discussion of these methods. The accuracy of this hazard analysis approach relies heavily on having an extensive continuous record of storm surges and waves. In many locations records of coastal surges exist only for durations much shorter than the return periods of interest. This shortfall of necessary data makes the development of hazard estimates of infrequent surges through this methodology unreliable
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