Solitary Wave Evolution Over a Gradual Slope with Turbulent Friction

Abstract

A solitary wave of amplitude a evolving in water of depth d over a bottom of gradual slope δ and turbulent friction coefficient C_f is found to have the asymptotic (as d ↓0) relative amplitude a/d = α₁ = 15α/4C_f α₁<α_b where α_b, is the relative amplitude above which breaking occurs. It is argued that an initially sinusoidal wave of sufficiently small amplitude evolves over a shoaling bottom into a periodic sequence of solitary waves with relative amplitude α₁. This prediction is supported by observations (Wells, 1978) of the evolution of swell over mud flats.