Storm surge events have the potential to cause devastating damage to coastal communities. The magnitude of their impacts highlights the need for increased accuracy and real-time forecasting and predictability of storm surge. In this study, we assess two meteorological forcing configurations to hindcast the storm surge of Hurricane Sandy, and ultimately support the improvement of storm surge forecasts. The Weather Research and Forecasting (WRF) model is coupled to the ADvanced CIRCulation Model (ADCIRC) to determine water elevations. We perform four coupled simulations and compare storm surge estimates resulting from the use of a parametric vortex model and a full-physics atmospheric model. One simulation is forced with track-based meteorolo...
The Sea, Lake, and Overland Surges from Hurricanes (SLOSH) model is the operational storm surge mode...
The National Weather Service (NWS) has developed a hurricane storm surge model called SLOSH (Sea, La...
An evaluation of the effect of bottom friction, wind drag coefficient, and meteorological forcing is...
Storm surge events have the potential to cause devastating damage to coastal communities. The magnit...
Storm surge represents a major threat for coastal communities in the United States, accounting for 5...
Storm surge and overland flooding can be predicted with computational models at high levels of resol...
Storm-surge and wave models are routinely used to assess the impact of hurricanes/cyclones for emerg...
Numerical simulations of the storm tide that flooded the US Atlantic coastline during Hurricane Sand...
This paper describes storm surge simulations made for Sandy (2012) for the Metropolitan New York (NY...
Abstract Storm surge caused by tropical cyclones can cause overland flooding and lead to loss of li...
We assess the suitability of ECMWF Integrated Forecasting System (IFS) data for the global modeling...
A coupled ADCIRC+SWAN model was forced with parametric and global wind products from NHC and ECMWF d...
Damage due to hurricane storm surges remains a serious concern for coastal zones. As the world’s coa...
Storm surges are abnormal coastal sea level events caused by meteorological conditions such as tropi...
We assess the suitability of ECMWF Integrated Forecasting System (IFS) data for the global modeling ...
The Sea, Lake, and Overland Surges from Hurricanes (SLOSH) model is the operational storm surge mode...
The National Weather Service (NWS) has developed a hurricane storm surge model called SLOSH (Sea, La...
An evaluation of the effect of bottom friction, wind drag coefficient, and meteorological forcing is...
Storm surge events have the potential to cause devastating damage to coastal communities. The magnit...
Storm surge represents a major threat for coastal communities in the United States, accounting for 5...
Storm surge and overland flooding can be predicted with computational models at high levels of resol...
Storm-surge and wave models are routinely used to assess the impact of hurricanes/cyclones for emerg...
Numerical simulations of the storm tide that flooded the US Atlantic coastline during Hurricane Sand...
This paper describes storm surge simulations made for Sandy (2012) for the Metropolitan New York (NY...
Abstract Storm surge caused by tropical cyclones can cause overland flooding and lead to loss of li...
We assess the suitability of ECMWF Integrated Forecasting System (IFS) data for the global modeling...
A coupled ADCIRC+SWAN model was forced with parametric and global wind products from NHC and ECMWF d...
Damage due to hurricane storm surges remains a serious concern for coastal zones. As the world’s coa...
Storm surges are abnormal coastal sea level events caused by meteorological conditions such as tropi...
We assess the suitability of ECMWF Integrated Forecasting System (IFS) data for the global modeling ...
The Sea, Lake, and Overland Surges from Hurricanes (SLOSH) model is the operational storm surge mode...
The National Weather Service (NWS) has developed a hurricane storm surge model called SLOSH (Sea, La...
An evaluation of the effect of bottom friction, wind drag coefficient, and meteorological forcing is...