Abstract
Stirred bubble column are widely used in chemical and allied processes industries. Stirred bubble column reactor promotes significant liquid hold-up and long liquid residence time. It is used when a large mass transfer area and high mass transfer coefficient in both phases are desired. These columns can operate continuously with a concurrent and counter current phase flow where high interfacial areas between phases are possible with low investment cost. An experimental work was undertaken to focus the effect of various parameters like Height to Diameter ratio (H/D), Gas flow rate and Speed of the stirrer (N) on mass transfer coefficient in stirred bubble column reactor. For this purpose, experiments were conducted in 0.14 m i.d column having 2 m height. The column with ring sparger having 67% active area is used as sparger for dispersing the dispersed phase into the continuous phase. For the optimized sparger plate, the effect of various parameters on mass transfer coefficient was studied based on CO2 –absorption Technique.
Highlights
D.Devakumar (Corresponding author) Assistant Professor, Department of Mechanical Engineering Excel College of Engineering and Technology, Komarapalayam
The effect of mass transfer coefficient was studied for stirred bubble column
It can be seen that mass transfer coefficient increases with decrease in Height to Diameter ratio (H/D) ratio
Summary
Bubble columns are widely used in the chemical industry, where heterogeneous gas -liquid (or) gas- solid reaction take place, in which the liquid phase controls mass transfer process due to relative insolubility of gases (Lye et al, 2001). To design a bubble column as a reactor, Studies like fractional holdup, mixing time and mass transfer characteristics are needed It consists of 0.14 m i.d in diameter and 2 m in height.
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