Abstract
New approaches in process monitoring during industrial fermentations are not only limited to classical pH, dO2 and offgas analysis, but use different in situ and online sensors based on different physical principles to determine biomass, product quality, lysis and far more. One of the very important approaches is the in situ accessibility of viable cell concentration (VCC). This knowledge provides increased efficiency in monitoring and controlling strategies during cultivations. Electrochemical impedance spectroscopy—EIS—is used to monitor biomass in a fermentation of E. coli BL21(DE3), producing a recombinant protein using a fed batch-based approach. Increases in the double layer capacitance (Cdl), determined at frequencies below 1 kHz, are proportional to the increase of biomass in the batch and fed batch phase, monitored in offline and online modes for different cultivations. A good correlation of Cdl with cell density is found and in order to get an appropriate verification of this method, different state-of-the-art biomass measurements are performed and compared. Since measurements in this frequency range are largely determined by the double layer region between the electrode and media, rather minor interferences with process parameters (aeration, stirring) are to be expected. It is shown that impedance spectroscopy at low frequencies is a powerful tool for cultivation monitoring.
Highlights
Microbial cultivations play a key role in many different fields such as food, drug and bulk chemical production as well as in waste to value concepts [1]
A prototype online probe was designed and built. With this easy-to-rebuild probe we show an excellent correlation between double layer capacitance and viable cell concentration which allows online cell concentration monitoring with high accuracy over a very broad cell concentration (1 g/L to 40 g/L investigated in this study)
Within this study we developed a method to estimate viable cell concentration by measuring low frequency electrochemical impedance spectra during cultivation
Summary
Microbial cultivations play a key role in many different fields such as food, drug and bulk chemical production as well as in waste to value concepts [1] Process monitoring such as pH, dO2 , offgas analysis and biomass measurements are state of the art in today’s industrial cultivations to guarantee product quality and safety. In industrial processes, produced biomass estimation and closed loop control can be established through soft sensor applications [2]. These control systems are dependent on atline detection systems such as high performance liquid chromatography for metabolite measurements.
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