The mass transfer performance has been tested for gas-liquid flow in a new tubular reactor system, the oscillating mesotube (OMT), which features the oscillatory movement of fluid across a series of smooth constrictions located periodically along the vertical 4.4 mm internal diameter tube. The effect of the fluid oscillations (frequency,f, and center-to-peak amplitude, x(0), in the range of 0-20 s(-1) and 0-3 mm, respectively) on the overall volumetric mass transfer coefficient (k(L)a) has been tested by measuring the oxygen saturation levels with a fiber-optical microprobe (oxygen micro-optrode), and a mathematical model has been produced to describe the oxygen mass transport in the OMT. The oxygen mass transfer rates were about I order of...
Liquid phase mass transfer rates kLS for the absorption of oxygen in tap water and in aqueous ionic ...
Oxygen gas-liquid mass transfer coefficient was measured in a gas-induced pulsating flow bubble colu...
Oxygen mass transfer from air to the liquid phase in bioreactors with aerobic cultures has long been...
In the present work the superficial gas velocities ( u G ) and the oscillatory conditions (frequency...
The experimental study of gas dispersion in a vertical periodically, constricted, oscillatory meso-t...
This work aims at characterizing bubble size distribution and its control in a small-scale, constric...
An extensive use in chemistry, biological and pharmaceutical laboratories is envisaged for a novel c...
A novel continuous small-scale reactor based on the oscillatory flow technology (Harvey et al 2001)...
In this paper, we present an experimental study on mass transfer of oxygen into water in an oscillat...
n the present work, it is studied for the first time the use of an oscillatory flow reactor provided...
Meso-technologies are currently triggering a paradigm change in the design of chemical and biochemi...
In bioprocesses, the microorganisms growth is ruled by physical, chemical, and biological conditions...
Overall liquid side volumetric mass transfer coefficient kLa was determined experimentally for co-cu...
Gas–liquid mass transfer was investigated around Taylor bubbles flowing in a long, in-plane, spirals...
Accurate experimental oxygen mass transfer coefficient, a measure of how quickly oxygen travels from...
Liquid phase mass transfer rates kLS for the absorption of oxygen in tap water and in aqueous ionic ...
Oxygen gas-liquid mass transfer coefficient was measured in a gas-induced pulsating flow bubble colu...
Oxygen mass transfer from air to the liquid phase in bioreactors with aerobic cultures has long been...
In the present work the superficial gas velocities ( u G ) and the oscillatory conditions (frequency...
The experimental study of gas dispersion in a vertical periodically, constricted, oscillatory meso-t...
This work aims at characterizing bubble size distribution and its control in a small-scale, constric...
An extensive use in chemistry, biological and pharmaceutical laboratories is envisaged for a novel c...
A novel continuous small-scale reactor based on the oscillatory flow technology (Harvey et al 2001)...
In this paper, we present an experimental study on mass transfer of oxygen into water in an oscillat...
n the present work, it is studied for the first time the use of an oscillatory flow reactor provided...
Meso-technologies are currently triggering a paradigm change in the design of chemical and biochemi...
In bioprocesses, the microorganisms growth is ruled by physical, chemical, and biological conditions...
Overall liquid side volumetric mass transfer coefficient kLa was determined experimentally for co-cu...
Gas–liquid mass transfer was investigated around Taylor bubbles flowing in a long, in-plane, spirals...
Accurate experimental oxygen mass transfer coefficient, a measure of how quickly oxygen travels from...
Liquid phase mass transfer rates kLS for the absorption of oxygen in tap water and in aqueous ionic ...
Oxygen gas-liquid mass transfer coefficient was measured in a gas-induced pulsating flow bubble colu...
Oxygen mass transfer from air to the liquid phase in bioreactors with aerobic cultures has long been...