Contact-free infrared OD measurement for online monitoring of parallel stirred-tank bioreactors up to high cell densities

Miniaturized stirred-tank bioreactor systems provide a scalable platform for high-throughput bioprocess development. Online measurement of process variables is a major demand to enable efficient process monitoring and control in parallel operated bioreactors. One miniaturized laser light source and two photodiodes were placed around a cylindrical disposable bioreactor made of polystyrene for individual and contact-free measurement of optical density (OD). One photodiode was positioned at an angle of 28 degrees to the laser for measuring the scattered light, a second photodiode was positioned face to face with the laser for measuring the transmitted light. Miniaturized lasers with wavelengths of 650 nm (orange), 780 nm (NIR) and 850 nm (IR) were evaluated. The best results were achieved with a laser emitting at 850 nm. Both signals (scattered and transmitted light) were influenced by the stirrer speed (usually constant) and the microorganisms under study. After individual calibration, online OD monitoring of pH-controlled fed-batch processes was successfully shown with Escherichia coli, Corynebacterium glutamicum, and Trichosporon oleaginosus. Online OD measurements based on the transmitted light signals showed low standard deviation at low cell densities, whereas scattered light signals were more accurate at higher cell densities. Correlations were reliable up to cell dry weight concentrations of 46 g L-1 in stirred-tank bioreactors on a milliliter scale.