Search results for "Double emulsion"

showing 3 items of 3 documents

Active mixing inside double emulsion segments in continuous flow

2015

Fast mixing is essential for many microfluidic applications, especially for flow at low Reynolds numbers. A capillary tube-in-tube coaxial flow setup in combination with a glass microreactor was used to produce immiscible multiphase segments. These double emulsion segments are composed of an organic solvent as the shell (outer) phase and a completely fluorinated liquid (Fluorinert® FC-40) as the core (inner) phase. Due to the higher density of the core droplets, they are responsive to changing their position to the force of gravity (g-force). By gently shaking or jiggling the reactor, the core drop flows very fast in the direction of the g-field without leaving the shell organic phase segme…

Fluid Flow and Transfer ProcessesPhase boundarybusiness.industryCapillary actionChemistryDrop (liquid)Organic ChemistryMicrofluidicsAnalytical chemistryReynolds numberMechanicsComputational fluid dynamicssegmented flowsymbols.namesakeg-forceChemistry (miscellaneous)symbolsactive mixingcontinuous flowdroplet circulationdouble emulsionCoaxialMicroreactorbusiness
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Enhanced [4+2] cycloadditions by solvophobic effects and gravity-induced mixing in core-shell droplets

2017

A new way to perform reactions in core—shell double emulsions is reported herein. The phase boundaries of the threephase droplet flow were used to pressurize the reactants in the shell liquid, enhancing the reaction rate of a cycloaddition greatly in comparison to known methods. As key parameters, solvophobic effects and precise control over the droplet sizes were used to exploit a reaction with a negative volume of activation. The internal pressure of the reaction solution was regulated purely by the thickness of the shell liquid without adding additional reagents. Additionally, the reaction performed better when the core droplet was used to stir the shell droplet, considerably improving t…

Fluid Flow and Transfer Processes010405 organic chemistryChemistryOrganic ChemistryMixing (process engineering)Shell (structure)double emulsions010402 general chemistrymicroreactor01 natural sciences0104 chemical sciencesPhysics::Fluid DynamicsReaction rateChemistry (miscellaneous)Chemical physicsPhase (matter)Mass transferReagentPhysics::Atomic and Molecular Clustersactive mixingOrganic chemistryMicroreactorSolvophobichydrophobic effectcycloaddition
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Synthesis of low density foam shells for inertial confinement fusion experiments

2011

This work deals with the fabrication process of low density foam shells and the sharp control of their shape (diameter, thickness, density, sphericity, non-concentricity). During this PhD we focused on the non-concentricity criterion which has to be lower than 1%. The shells are synthesized using a microencapsulation process leading to a double emulsion and followed by a thermal polymerization at 60°C. According to the literature, three major parameters, the density of the three phases, the deformations of the shells along the process and the kinetics of the polymerization have a direct influence on the shells non-concentricity. The results obtained showed that when the density gap between …

PhotopolymerizationNon-concentricityDensityEmulsion double[ PHYS.COND.CM-GEN ] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]DispersionMicroballonDouble emulsionTrimethylolpropane trimethacrylate[CHIM.OTHE] Chemical Sciences/OtherRadical polymerizationPolymerisation radicalaire[ CHIM.OTHE ] Chemical Sciences/OtherShellNon-concentricitéDensité[CHIM.OTHE]Chemical Sciences/OtherMicroencapsulationPhotopolymérisation
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