Interaction of Tsunamis with the Hawaiian Islands Calculated by a Finite-Element Numerical Model

Abstract A finite-element numerical model is used to determine the interaction of tsunamis with the Hawaiian Islands. The model employs a finite-element grid which telescopes from a large cell size in the deep ocean to a very small size in shallow coastal waters and covers a region which includes the eight major islands of the Hawaiian Islands. The numerical model solves the problem of tsunami propagation from the deep ocean to the coasts of these islands. Although time periodic motion is assumed in the solution, the interaction of an arbitrary tsunami waveform with the islands can easily be determined within the framework of a linear theory by superposition. The deep-ocean waveforms of the 1960 and 1964 Alaskan tsunamis are determined for use as input to verify the finite-element model by employing a finite-difference numerical model which assumes as an initial condition that the uplift movement of the sea floor in the source region during an earthquake is instantaneous and results in a water surface ele...