Experimental study on Marangoni effect induced by heat and mass transfer

D'Aubeterre, A.; Silva, R. Da; Aguilera, María Eugenia

doi:10.1016/j.icheatmasstransfer.2004.06.012

Cited by 33 publications

(32 citation statements)

References 10 publications

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“…To guarantee system instability, Ma must be larger than a critical value that is specific for each solvent/ nonsolvent system [109,110]. In the particular case where the surface tension gradient is caused by concentration gradients, the Marangoni number can be defined as follows [111]:…”

Section: Solvent Displacement Techniquementioning

confidence: 99%

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Influence of process and formulation parameters on the formation of submicron particles by solvent displacement and emulsification–diffusion methods

Mora-Huertas¹,

Fessi²,

Elaı̈ssari³

2011

Advances in Colloid and Interface Science

231

222

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Section: Solvent Displacement Techniquementioning

confidence: 99%

“…As in the solvent displacement technique, the intensity of interfacial tension gradients can be estimated by the Marangoni number, but in this case thermal Ma is defined by the expression [111]:…”

Section: Mechanical Mechanismmentioning

confidence: 99%

Influence of process and formulation parameters on the formation of submicron particles by solvent displacement and emulsification–diffusion methods

Mora-Huertas¹,

Fessi²,

Elaı̈ssari³

2011

Advances in Colloid and Interface Science

231

222

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“…Marangoni effect is responsible for many common occurrences, such as the "tears of wine" [3] and superspreading of solution [4], and it also plays a crucial role in several industrial processes such as the floating-zone process for crystal growth [5]. For these reasons, the Marangoni effect has been studied extensively, because deeper understanding of Marangoni flow is important in progressing research and improving industrial applications [6][7].…”

Section: Introductionmentioning

confidence: 99%

Marangoni-driven micromotor in liquid medium

Hendarto

Gianchandani

2011

2011 16th International Solid-State Sensors, Actuators and Microsystems Conference

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Marangoni flow, the flow of liquids induced by a temperature gradient at a liquid-gas interface, can be utilized in microfluidic actuation. In this paper, we describe the rotary motion, by Marangoni flow, of a micromotor made of stainless steel immersed in a thin layer of liquid. A 128-pixel heater array is suspended 500 m above the liquid of height 2 mm. By applying 1 W to each of the four heaters directly above the four rotor blades, a temperature gradient of 0.8 K/mm is created at the surface. A rotor of diameter 4.1 mm with a blade angle of 34° experiences a maximum torque of 5.6 pN.m and takes 28 sec to make a complete rotation in a liquid with viscosity 5 cSt. The speed of rotation is affected by the blade angle of the rotor, temperature gradient of liquid surface and liquid viscosity.

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“…Even though the Marangoni convection has been investigated in many low temperature liquids, such as sodium nitrate [3], acetone [4], and hydrocarbons [5], it is still difficult to get its image during melt crystal growth at high temperature experimentally. Only some numerical simulations [6,7] dealt with Marangoni flow at high temperature.…”

Section: Introductionmentioning

confidence: 99%

Effect of surface tension‐driven flow on BaB₂O₄ crystal growth from high temperature melt‐solution

Pan

Jin

Liu

et al. 2008

Cryst. Res. Technol.

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The surface tension driven-flow in BaB 2 O 4 (BBO) melt-solution is visualized by differential interference microscope coupled with Schlieren technique, and the streamline of the steady thermocapillary convection is found to be in form of an axially symmetric pattern. Based on the observation of BBO crystal rotation caused by the convective vortex, the widths of interfacial concentration, heat and momentum boundary layer are calculated. The effect of thermocapillary convection on boundary layer thickness is also investigated. Results show that the width of boundary layer decreases linearly with the increasing of dimensionless Marangoni number.

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Experimental study on Marangoni effect induced by heat and mass transfer

Cited by 33 publications

References 10 publications

Influence of process and formulation parameters on the formation of submicron particles by solvent displacement and emulsification–diffusion methods

Influence of process and formulation parameters on the formation of submicron particles by solvent displacement and emulsification–diffusion methods

Marangoni-driven micromotor in liquid medium

Effect of surface tension‐driven flow on BaB₂O₄ crystal growth from high temperature melt‐solution

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Experimental study on Marangoni effect induced by heat and mass transfer

Cited by 33 publications

References 10 publications

Influence of process and formulation parameters on the formation of submicron particles by solvent displacement and emulsification–diffusion methods

Influence of process and formulation parameters on the formation of submicron particles by solvent displacement and emulsification–diffusion methods

Marangoni-driven micromotor in liquid medium

Effect of surface tension‐driven flow on BaB2O4 crystal growth from high temperature melt‐solution

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Product

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Effect of surface tension‐driven flow on BaB₂O₄ crystal growth from high temperature melt‐solution