Coupled diffusion in aqueous citric acid + calcium citrate solutions

Coupled diffusion in aqueous citric acid + calcium citrate solutions

•Binary mutual diffusion coefficients of aqueous citric acid and aqueous calcium citrate.•Ternary mutual diffusion coefficients of aqueous citric acid plus calcium citrate solutions.•Coupled diffusion as indicated by cross-diffusion coefficients. Taylor dispersion is used to measure ternary mutual d...

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Bibliographic Details
Published in:The Journal of chemical thermodynamics Vol. 131; pp. 314 - 321
Main Authors: Rodrigo, M. Melia, Ribeiro, Ana C.F., Verissimo, Luis M.P., Esteso, Miguel A., Leaist, Derek G.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-04-2019
Subjects:
Calcium citrate
Citric acid
Coupled diffusion
Fick equations
Ion association
Nernst-Planck equations
Fick equations
Nernst-Planck equations
Coupled diffusion
Calcium citrate
Citric acid
Ion association
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Summary:•Binary mutual diffusion coefficients of aqueous citric acid and aqueous calcium citrate.•Ternary mutual diffusion coefficients of aqueous citric acid plus calcium citrate solutions.•Coupled diffusion as indicated by cross-diffusion coefficients. Taylor dispersion is used to measure ternary mutual diffusion in aqueous citric acid(1) + calcium citrate(2) solutions at 25 °C. Main diffusion coefficients D11 and D22 reach values 25% to 60% larger than the respective binary diffusion coefficients of aqueous citric acid and calcium citrate. Of additional interest, cross-coefficient D12 is large and negative, indicating that each mole of diffusing calcium citrate counter-transports up to two moles of citric acid. Nernst-Planck (NP) equations are used to relate the fluxes of the citric acid and calcium citrate components to the fluxes of the solution species: molecular citric acid (H3Cit) and its dissociation products (H+, H2Cit−, HCit2− and Cit3− ions), Ca2+ ions, and calcium complexes produced by ion association (CaCit−, CaHCit, CaH2Cit+). The NP analysis identifies key roles in the coupled diffusion of citric acid and calcium citrate played by ion association and by ion migration in the electric field generated by hydrogen-ion concentration gradients.
ISSN:0021-9614
1096-3626
DOI:10.1016/j.jct.2018.11.003