Open AccessOptimal Homogenization of Perfusion Flows in Microfluidic Bio-Reactors: A Numerical Study
Author(s) -
Fridolin Okkels,
Martin Dufva,
Henrik Bruus
Publication year - 2011
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0014574
Subject(s) - homogenization (climate) , microfluidics , bioreactor , parametric statistics , optimal design , homogeneous , biological system , parametric design , process engineering , mechanics , computer science , materials science , mathematics , chemistry , nanotechnology , physics , thermodynamics , engineering , biology , biodiversity , ecology , statistics , organic chemistry , machine learning
In recent years, the interest in small-scale bio-reactors has increased dramatically. To ensure homogeneous conditions within the complete area of perfused microfluidic bio-reactors, we develop a general design of a continually feed bio-reactor with uniform perfusion flow. This is achieved by introducing a specific type of perfusion inlet to the reaction area. The geometry of these inlets are found using the methods of topology optimization and shape optimization. The results are compared with two different analytic models, from which a general parametric description of the design is obtained and tested numerically. Such a parametric description will generally be beneficial for the design of a broad range of microfluidic bioreactors used for, e.g., cell culturing and analysis and in feeding bio-arrays.
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