Exact Analytical Solution of Viscous Korteweg-de Vries Equation for Water Waves

S. G. Sajjadi, T. A. Smith, Timothy Smith

Research output: Contribution to journalArticlepeer-review

Abstract

<div class="line" id="line-7"> The evolution of a solitary wave with very weak nonlinearity which was originally investigated by Miles [4] is revisited. The solution for a one-dimensional gravity wave in a water of uniform depth is considered. This leads to finding the solution to a Korteweg-de Vries (KdV) equation in which the nonlinear term is small. Also considered is the asymptotic solution of the linearized KdV equation both analytically and numerically. As in Miles [4], the asymptotic solution of the KdV equation for both linear and weakly nonlinear case is found using the method of inverse-scattering theory. Additionally investigated is the analytical solution of viscous-KdV equation which reveals the formation of the Peregrine soliton that decays to the initial <img src="http://www.pphmj.com/admin/tinymce_uploads/mar45evolut3.gif"/> soliton and eventually growing back to a narrower and higher amplitude bifurcated Peregrine-type soliton.</div>
Original languageAmerican English
JournalAdvances and Applications in Fluid Mechanics
Volume19
DOIs
StatePublished - Apr 2016

Keywords

  • viscous KdV
  • exact solution
  • solitons
  • water waves

Disciplines

  • Mechanical Engineering
  • Mathematics

Cite this