Journal
PHYSICAL REVIEW E
Volume 64, Issue 4, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevE.64.046307
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The problem of front propagation in flowing media is addressed for laminar velocity fields in two dimensions. Three representative cases are discussed: stationary cellular flow, stationary shear flow, and percolating flow. Production terms of Fisher-Kolmogorov-Petrovskii-Piskunov type and of Arrhenius type are considered under the assumption of no feedback of the concentration on the velocity. Numerical simulations of advection-reaction-diffusion equations have been performed by an algorithm based on discrete-time maps. The results show a generic enhancement of the speed of front propagation by the underlying flow. For small molecular diffusivity, the front speed V-f depends on the typical flow velocity U as a power law with an exponent,depending on the topological properties of the flow, and on the ratio of reactive and advective time scales. For open-streamline flows we find always V-f similar to U, whereas for cellular flows we observe V-f similar to U-1/4 for fast advection and V-f similar to U-3/4 for slow advection.
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