The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of reaction in a three-phase gas-inducing stirred slurry reactor. For the Pd-catalyzed glucose oxidation reaction at mass transport-limited conditions, the experimental reaction rate is higher for lyophobic 3% Pd/C catalyst than for lyophilic 3% Pd/SiO2 catalyst. This is attributed to a higher particle-to-bubble adhesion (PBA) of the Pd/C catalyst. The interfacial catalyst concentration is quantified by a PBA equilibrium parameter in a PBA isotherm. The classical resistances-in-series "GLS model" cannot describe the overall reaction rate. An additional gas-to-solid "GS model" is presented with a gas-to-solid mass transfer coefficient to describe...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
A model is presented to describe mass-transfer enhancement in slurry reactors by catalyst particles ...
A model is presented to describe mass-transfer enhancement in slurry reactors by catalyst particles ...
A model is presented to describe mass-transfer enhancement in slurry reactors by catalyst particles ...
This paper investigates the influence of the catalyst support type on mass transport and reaction ra...
This paper investigates the influence of the catalyst support type on mass transport and reaction ra...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
The adhesion of catalyst particles to the gas–liquid interface significantly influences the rate of ...
A model is presented to describe mass-transfer enhancement in slurry reactors by catalyst particles ...
A model is presented to describe mass-transfer enhancement in slurry reactors by catalyst particles ...
A model is presented to describe mass-transfer enhancement in slurry reactors by catalyst particles ...
This paper investigates the influence of the catalyst support type on mass transport and reaction ra...
This paper investigates the influence of the catalyst support type on mass transport and reaction ra...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liq. (G-L) mass transfer i...
This paper postulates four possible mechanisms for the enhancement of gas-liquid (G-L) mass transfer...