Adam Bigaj scite author profile

Adam Bigaj

2Publications

34Citation Statements Received

113Citation Statements Given

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Université Libre de Bruxelles

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Chemo-hydrodynamic pulsations in simple batch A + B → C systems

Budroni

Polo

Upadhyay

et al. 2021

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Spatio-temporal oscillations can be induced under batch conditions with ubiquitous bimolecular reactions in the absence of any nonlinear chemical feedback, thanks to an active interplay between the chemical process and chemically driven hydrodynamic flows. When two reactants A and B, initially separated in space, react upon diffusive contact, they can power convective flows by inducing a localized variation of surface tension and density at the mixing interface. These flows feedback with the reaction-diffusion dynamics, bearing damped or sustained spatio-temporal oscillations of the concentrations and flow field. By means of numerical simulations, we detail the mechanism underlying these chemohydrodynamic oscillations and classify the main dynamical scenarios in the relevant space drawn by parameters Δ M and Δ R, which rule the surface tension- and buoyancy-driven contributions to convection, respectively. The reactor height is found to play a critical role in the control of the dynamics. The analysis reveals the intimate nature of these oscillatory phenomena and the hierarchy among the different phenomena at play: oscillations are essentially hydrodynamic and the chemical process features the localized trigger for Marangoni flows unstable toward oscillatory instabilities. The characteristic size of Marangoni convective rolls mainly determines the critical conditions and properties of the oscillations, which can be further tuned or suppressed by the buoyancy competition. We finally discuss the possible experimental implementation of such a class of chemo-hydrodynamic oscillator and its implications in fundamental and applied terms.

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Marangoni-vs.buoyancy-driven flows: competition for spatio-temporal oscillations in A + B → C systems

Bigaj

Budroni

Vodopivec

et al. 2023

Phys. Chem. Chem. Phys.

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Adam Bigaj

Chemo-hydrodynamic pulsations in simple batch A + B → C systems

Marangoni-vs.buoyancy-driven flows: competition for spatio-temporal oscillations in A + B → C systems

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