Article ID Journal Published Year Pages File Type
154988 Chemical Engineering Science 2014 7 Pages PDF
Abstract

•The mixing behavior in a magnetic mixer is investigated using the RTD approach.•This paper discusses a method to compute the information degree of mixing as a measure of mixing performance.•It is observed that mixing of liquid phase increases with the increase in the magnetic field strength and the flow rate.

Mixing behavior in a magnetic mixer is investigated using an experimental approach. The concept of the residence time distribution (RTD) was applied to characterize a mixing process under the action of a rotating magnetic field (RMF). The main idea of the proposed approach is the utilization of experimental RTD measurements to determine the information entropy. This paper discusses a method to compute an information degree of mixing as a measure of mixing performance for a continuous flow system. The quality of mixing in the tested equipment is analyzed by means of a proposed mixing capacity. Different operating conditions with respect to liquid flow rates and a magnetic field strength are used to study corresponding effects on a recommended parameter. It is observed that mixing capacity increases with increasing magnetic field strength. This mixing parameter is analytically described as a function of operating flow rates and the applied magnetic field.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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