Jos M. H. Janssen scite author profile

The development of multiphase liquid-liquid morphologies during mixing at small Reynolds numbers has been modeled. The mixing process is divided into i) stretching of dispersed drops, ii) breakup of the liquid threads formed, and iii) coalescence of the final droplets upon collision. Rules and criteria of the distinct processes are presented and combined to a general 2-zone mixing model simplifying the flow field into a sequence of alternating "strong and weak zones." In a "strong zone," dispersed drops and threads are stretched unless their radius is too small: meanwhile, the stretching threads might break up into droplets. In the subsequent "weak zone," the remaining threads may disintegrate while any drops present may coalesce. After passing a number of zones, stretching, breakup, and coalescence lead to a dynamic equilibrium that could be considered as the "final" morphology. Using the 2-zone mixing model, the influence of material parameters and processing conditions on the morphology has been studied. Interestingly, increasing either viscosity (dispersed or continuous phase) yields a finer morphology due to the delay of thread breakup (allowing for further stretching) and suppression of coalescence.

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Emulsions: The Dynamics of Liquid–Liquid Mixing

Janssen

2006

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Mixing of Immiscible Liquids

Meijer¹,

Janssen²,

Anderson³

2009

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Comment on: Estimation of interfacial tension using shape evolution of short fibers

Elemans¹,

Janssen²

1990

Journal of Rheology

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Polymer Melt Mixing: Liquid–Liquid Mixing

Janssen¹

2001

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Jos M. H. Janssen

Dynamics of liquid‐liquid mixing: A 2‐zone model

Emulsions: The Dynamics of Liquid–Liquid Mixing

Mixing of Immiscible Liquids

Comment on: Estimation of interfacial tension using shape evolution of short fibers

Polymer Melt Mixing: Liquid–Liquid Mixing

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