J. Boissonade scite author profile

Experimental studies of the formation of Turing patterns in the (chlorine dioxide, iodine, malonic acid) reaction are performed in a spatial open gel disk reactor where all the input species are fed onto one side by a continuous stirred tank reactor. This setup is shown to fit the pool-chemical approximation used in most theoretical approaches. Nonequilibrium phase diagrams are established as a function of concentrations in the input flows. In agreement with theoretical predictions, the location of the transition from uniform steady states to Turing patterns is found to be almost independent of the concentrations of the complexing agent which controls the effective diffusion of activatory species. Extensive analytical and numerical calculations in two and three dimensions are performed on the basis of the Lengyel-Ra ´bai-Epstein kinetic model and its two-variable reduction. This particular experimental configuration is shown to minimize the problems encountered with more commonly used versions of spatial open reactors. In standard conditions, the quantitative agreement with the experiments is excellent in regard to the sketchiness of the model. Finally, we discuss the role of boundary conditions and comment on problems they raise in the use of one-side-fed open spatial reactors.

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J. Boissonade

Experimental evidence of a sustained standing Turing-type nonequilibrium chemical pattern

Transitions from bistability to limit cycle oscillations. Theoretical analysis and experimental evidence in an open chemical system

Turing-type chemical patterns in the chlorite-iodide-malonic acid reaction

Experimental Studies and Quantitative Modeling of Turing Patterns in the (Chlorine Dioxide, Iodine, Malonic Acid) Reaction

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