A Numerical Investigation of Pressure-Induced Storm Surges Over the Continental Shelf

Abstract

Abstract A nonlinear, two-layer model of pressure-induced surges at the ocean edge is developed. The bottom topography is taken to approximate the continental shelf and continental slope region. The Coriolis parameter is held constant, mixing between layers is assumed negligible, and friction is not explicitly included. An “infinite ocean” offshore boundary condition is approximated by a viscous absorbing region. Attention is confined to disturbances which are uniform along-shore but which allow along-shore flow. The six dependent variables (two velocity components in each layer, the elevation of the free surface, and the interface between layers) are integrated using a modified Lax-Wendroff system. The characteristics of the numerical scheme are investigated both theoretically and in a series of numerical test cases. The response of the system is forced by a moving pressure disturbance approximating the low pressure region of a uniform along-shore storm. Variations in storm speed, layer thickness and str...