Add to ORKGTo obtain insight into transport phenomena in gas/liquid/solid catalytic microsystems, a theoretical model was developed to study heat and mass transfer at the microscale in such multiphase systems. In particular, systems were investigated in which the gaseous products nucleate and grow as microbubbles on the catalytic surface, whereas the reactants are dissolved in a liquid phase. A microfluidic platform providing spatial control on the bubble nucleation was designed and fabricated and applied to experimentally study the influence of bubbles on transport phenomena. The observations were compared with our theoretical model
A thermal bubble actuated, nozzle-diffuser pumping system is demonstrated by the combination of seve...
Knowledge of gas dispersion and mass exchange between the bubble and the emulsion phases is essentia...
Fluid convection and mixing induced by bubble-propelled tubular microengines are characterized using...
Gas-liquid-solid reactive flows are encountered in many industrial processes. While the transport of...
Precise manipulation of minute volumes of fluids is at the heart of microfluidics and opens up an ex...
In heterogeneous catalysis, the creation of gaseous products as bubbles in a liquid phase on the cat...
ABSTRACT: Fluid convection and mixing induced by bubble-propelled tubular microengines are character...
Microchannels have great potential in intensification of gas-liquid-liquid reactions involving react...
[[abstract]]This work investigates the growth and detachment of chemically formed micro-bubbles on m...
Understanding of mass transfer in gas-liquid slug flow is imperative to design and optimize micro-re...
The formation, growth and detachment of gas bubbles on electrodes are omnipresent in electrolysis an...
A variety of gas-liquid microchannel reactors have been developed so far, using different contacting...
Bubble column reactors basically consist of a vertical cylinder filled by a liquid phase in which a ...
A variety of gas-liquid microchannel reactors have been developed so far, using different contacting...
We show that when a small amount of heat is added close to a liquid−vapor interface of a captive gas...
A thermal bubble actuated, nozzle-diffuser pumping system is demonstrated by the combination of seve...
Knowledge of gas dispersion and mass exchange between the bubble and the emulsion phases is essentia...
Fluid convection and mixing induced by bubble-propelled tubular microengines are characterized using...
Gas-liquid-solid reactive flows are encountered in many industrial processes. While the transport of...
Precise manipulation of minute volumes of fluids is at the heart of microfluidics and opens up an ex...
In heterogeneous catalysis, the creation of gaseous products as bubbles in a liquid phase on the cat...
ABSTRACT: Fluid convection and mixing induced by bubble-propelled tubular microengines are character...
Microchannels have great potential in intensification of gas-liquid-liquid reactions involving react...
[[abstract]]This work investigates the growth and detachment of chemically formed micro-bubbles on m...
Understanding of mass transfer in gas-liquid slug flow is imperative to design and optimize micro-re...
The formation, growth and detachment of gas bubbles on electrodes are omnipresent in electrolysis an...
A variety of gas-liquid microchannel reactors have been developed so far, using different contacting...
Bubble column reactors basically consist of a vertical cylinder filled by a liquid phase in which a ...
A variety of gas-liquid microchannel reactors have been developed so far, using different contacting...
We show that when a small amount of heat is added close to a liquid−vapor interface of a captive gas...
A thermal bubble actuated, nozzle-diffuser pumping system is demonstrated by the combination of seve...
Knowledge of gas dispersion and mass exchange between the bubble and the emulsion phases is essentia...
Fluid convection and mixing induced by bubble-propelled tubular microengines are characterized using...