Villermaux–Dushman Test of Micromixing Characterization Revisited: Kinetic Effects of Acid Choice and Ionic Strength

Guichardon, Pierrette; Baqueiro, Carlos; Ibaseta, Nelson

doi:10.1021/acs.iecr.1c03208

Cited by 17 publications

(14 citation statements)

References 40 publications

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“…The effects of incomplete dissociation of sulfuric acid in micromixing experiments have been discussed by other authors, ,,,− , and can be observed in Figure a,b. Using equivalent proton concentrations and assuming the acids to be fully dissociated, one would expect the same final product distribution.…”

Section: Resultsmentioning

confidence: 63%

“…This is very likely due to the incomplete dissociation of sulfuric acid and the sulfate ions acting as a weak base. Furthermore, the revised model from Guichardon and Ibaseta shows an increase on the reaction rate coefficient with increasing ionic strength, and overestimates the reaction rate coefficient as much as 2 orders of magnitude at higher values of ionic strength as discussed by Wenzel et al It is inferred that the revised model must include additional modeling of the dissociation equilibrium, presumably in the form presented by Baqueiro et al…”

Section: Resultsmentioning

confidence: 93%

“…In 2016, a revision of the kinetics took place by Guichardon and Ibaseta, acknowledging the above-mentioned effect. The revision indicated that the second dissociation of the acid should be included in the model, and an updated model for the reaction rate coefficient was presented.…”

Section: Introductionmentioning

confidence: 97%

See 2 more Smart Citations

Alternative Kinetic Model of the Iodide–Iodate Reaction for Its Use in Micromixing Investigations

Martĺnez

Haase²,

Assirelli³

et al. 2020

Ind. Eng. Chem. Res.

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The Villermaux–Dushman method, one of the most extensively used test reaction systems for micromixing characterization, has been widely criticized for years due to uncertainties regarding the incomplete dissociation of sulfuric acid and the proposed kinetic study by Guichardon et al. In this work, a renewed study of the kinetics of the iodide–iodate reaction is presented, using perchloric acid to avoid issues concerning incomplete acid dissociation. The experimental results are in good agreement with the fifth-order rate law for the iodide–iodate reaction. The reaction rate coefficient strongly depends on the ionic strength and can be modeled with a Davies-like equation. When implemented in the incorporation model, the kinetic model presented in this study can be used to estimate micromixing times that are in line with the theoretical engulfment time. This is observed in two different reactors with low and high intensities of mixing: an unbaffled stirred vessel and a rotor–stator spinning disk reactor. The results from the latter are also compared with the second Bourne reaction, giving very similar micromixing times. The kinetic model presented in this study in combination with strong monoprotic acids is suggested as an alternative to characterize micromixing behavior.

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Section: Resultsmentioning

confidence: 63%

Section: Resultsmentioning

confidence: 93%

See 1 more Smart Citation

Alternative Kinetic Model of the Iodide–Iodate Reaction for Its Use in Micromixing Investigations

Martĺnez

Haase²,

Assirelli³

et al. 2020

Ind. Eng. Chem. Res.

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show abstract

“…Originally, the reaction was carried out with sulfuric acid in a borate buffer . As it was recognized that sulfuric acid cannot be regarded as fully dissociated, perchloric acid was proposed as a proton donor. − Moreover, the borate buffer was substituted with a phosphate buffer since boric acid is classified as toxic for reproduction by the European Union’s Classification, Labelling and Packaging (CLP) Regulation and the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH). , However, in experiments with identical setups, lower triiodide absorbances were measured in a phosphate buffer than in a borate buffer. , Since phosphoric acid is a polyprotic acid, both HPO 4 2– and H 2 PO 4 – could take part in the acid–base reaction, resulting in lower triiodide concentrations. In recent micromixing time calculations using the incorporation model, it was unclear to which extent HPO 4 2– and H 2 PO 4 – take part in the neutralization reaction .…”

Section: Introductionmentioning

confidence: 99%

“…They concluded that the best accordance between both reaction rate constants is obtained with the results of Marshall for ionic strengths up to 1 mol L −1 , although the extended Debye−Huckel relation still provided a good agreement. 10 Nevertheless, the dependency of the ionic strength of the second dissociation constant of sulfuric acid complicates the usage of sulfuric acid, which is why perchloric acid was suggested as a proton donor for the Villermaux−Dushman reaction. Comparable micromixing experiments with sulfuric acid as the proton donor led to smaller triiodide concentrations than with perchloric acid.…”

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confidence: 99%

Progress in Buffer Choice for the Villermaux–Dushman Reaction

Arian

Pauer

2022

Ind. Eng. Chem. Res.

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TRIS [tris(hydroxymethyl)aminomethane] is proposed as a new buffer with the advantages of being nontoxic and having only one conjugated acid. Moreover, it is well-established in biochemical applications, has good solubility in water (550 g/L), and is reasonably priced. Comparable micromixing experiments in a TRIS buffer and a borate buffer led to similar segregation indices with respective micromixing times. Furthermore, TRIS was successfully transferred to experiments in viscous glycerin−water solution. Comparable micromixing experiments with sulfuric acid in TRIS highlight the importance of including the ionic strength dependency of the second dissociation constant of sulfuric acid to obtain similar micromixing times. Micromixing experiments become thereby independent of the acid choice. The application and limitation of the phosphate buffer were investigated in more detail where comparable experiments have shown that HPO 4 2− is the only species to be considered in micromixing time calculations when the HPO 4 2− /H 2 PO 4 − ratio is over 20. It is shown whether and how the effect of the ionic strength on the pK a2 value of phosphoric acid should be considered when micromixing experiments are conducted in a phosphate buffer as it is close to the dismutation pH* of iodine.

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A novel highly sensitive test reaction for micromixing: Acid‐base neutralization and alkaline hydrolysis of ethyl oxalate

Huang,

Duan,

Feng

et al. 2024

AIChE Journal

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Micromixing in chemical reactors can be characterized through test reactions that are sensitive to mixing. A new pair of parallel competitive reactions, including acid–base neutralization and diethyl oxalate hydrolysis, is proposed in this work. It has clear principles and high sensitivity to micromixing with quantitative accuracy and operational simplicity. The measurement results obtained from stopped‐flow spectra show that the alkaline hydrolysis of diethyl oxalate follows second‐order kinetics, and the rate constant conforms to the Arrhenius equation k2 = 2.331 × 108 exp(−26.92 × 103/RT) (L/mol/s). The estimated half‐life of hydrolysis is approximately 3 × 10−4 s under the selected concentration combinations, which provides significant advantages for the micromixing assessment in the strong turbulent fluid environment. In the same stirred tank, the critical feed time of new test reaction is shorter than that of the Villermaux–Dushman reaction. Overall, this work provides practical ideas for screening other desired esters for fast hydrolysis to construct more test reactions for micromixing.

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Villermaux–Dushman Test of Micromixing Characterization Revisited: Kinetic Effects of Acid Choice and Ionic Strength

Cited by 17 publications

References 40 publications

Alternative Kinetic Model of the Iodide–Iodate Reaction for Its Use in Micromixing Investigations

Alternative Kinetic Model of the Iodide–Iodate Reaction for Its Use in Micromixing Investigations

Progress in Buffer Choice for the Villermaux–Dushman Reaction

A novel highly sensitive test reaction for micromixing: Acid‐base neutralization and alkaline hydrolysis of ethyl oxalate

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