Title of article
Travelling waves in a reaction-diffusion model for electrodeposition Original Research Article
Author/Authors
Benedetto Bozzini، نويسنده , , Deborah Lacitignola، نويسنده , , Ivonne Sgura، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
18
From page
1027
To page
1044
Abstract
In this paper we consider an analytical and numerical study of a reaction-diffusion system for describing the formation of transition front waves in some electrodeposition (ECD) experiments. Towards this aim, a model accounting for the coupling between morphology and composition of one chemical species adsorbed at the surface of the growing cathode is addressed. Through a phase-space analysis we prove the existence of travelling waves, moving with specific wave speed. The numerical approximation of the PDE system is performed by the Method of Lines (MOL) based on high order space semi-discretization by means of the Extended Central Difference Formulae (D2ECDF) introduced in [1]. First of all, to show the advantage of the proposed schemes, we solve the well-known Fisher scalar equation, focusing on the accurate approximation of the wave profile and of its speed. Hence, we provide numerical simulations for the electrochemical reaction-diffusion system and we show that the results obtained are qualitatively in good agreement with experiments for the electrodeposition of Au–Cu alloys.
Keywords
Method of lines , Fisher equation , Travelling waves , High order finite difference schemes , Electrochemical modeling
Journal title
Mathematics and Computers in Simulation
Serial Year
2011
Journal title
Mathematics and Computers in Simulation
Record number
855065
Link To Document