Reaction-diffusion dynamics: Confrontation between theory and experiment in a microfluidic reactor

Charles N. Baroud; Fridolin Okkels; Laure Ménétrier; Patrick Tabeling

doi:10.1103/PhysRevE.67.060104

Reaction-diffusion dynamics: Confrontation between theory and experiment in a microfluidic reactor

Charles N. Baroud
, Fridolin Okkels
, Laure Ménétrier
, Patrick Tabeling

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We confront, quantitatively, the theoretical description of the reaction-diffusion process of a second-order reaction to experiment. The reaction at work is [Formula presented] a fluorescent tracer for calcium. The reactor is a T-shaped microchannel, [Formula presented] deep, [Formula presented] wide, and 2 cm long. The experimental measurements are compared with the two-dimensional numerical simulation of the reaction-diffusion equations. We find good agreement between theory and experiment. From this study, one may propose a method of measurement of various quantities, such as the kinetic rate of the reaction, in conditions yet inaccessible to conventional methods.

langue originale	Anglais
Pages (de - à)	4
Nombre de pages	1
journal	Physical Review E
Volume	67
Numéro de publication	6
Les DOIs	https://doi.org/10.1103/PhysRevE.67.060104
état	Publié - 1 janv. 2003

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10.1103/PhysRevE.67.060104

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abstract = "We confront, quantitatively, the theoretical description of the reaction-diffusion process of a second-order reaction to experiment. The reaction at work is [Formula presented] a fluorescent tracer for calcium. The reactor is a T-shaped microchannel, [Formula presented] deep, [Formula presented] wide, and 2 cm long. The experimental measurements are compared with the two-dimensional numerical simulation of the reaction-diffusion equations. We find good agreement between theory and experiment. From this study, one may propose a method of measurement of various quantities, such as the kinetic rate of the reaction, in conditions yet inaccessible to conventional methods.",

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AU - Baroud, Charles N.

AU - Okkels, Fridolin

AU - Ménétrier, Laure

AU - Tabeling, Patrick

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N2 - We confront, quantitatively, the theoretical description of the reaction-diffusion process of a second-order reaction to experiment. The reaction at work is [Formula presented] a fluorescent tracer for calcium. The reactor is a T-shaped microchannel, [Formula presented] deep, [Formula presented] wide, and 2 cm long. The experimental measurements are compared with the two-dimensional numerical simulation of the reaction-diffusion equations. We find good agreement between theory and experiment. From this study, one may propose a method of measurement of various quantities, such as the kinetic rate of the reaction, in conditions yet inaccessible to conventional methods.

AB - We confront, quantitatively, the theoretical description of the reaction-diffusion process of a second-order reaction to experiment. The reaction at work is [Formula presented] a fluorescent tracer for calcium. The reactor is a T-shaped microchannel, [Formula presented] deep, [Formula presented] wide, and 2 cm long. The experimental measurements are compared with the two-dimensional numerical simulation of the reaction-diffusion equations. We find good agreement between theory and experiment. From this study, one may propose a method of measurement of various quantities, such as the kinetic rate of the reaction, in conditions yet inaccessible to conventional methods.

UR - https://www.scopus.com/pages/publications/85022112545

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DO - 10.1103/PhysRevE.67.060104

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VL - 67

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JO - Physical Review E

JF - Physical Review E

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ER -

Reaction-diffusion dynamics: Confrontation between theory and experiment in a microfluidic reactor

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