In situ adsorption of itaconic acid from fermentations of Ustilago cynodontis improves bioprocess efficiency

Author:

Pastoors Johannes,Deitert Alexander,Michel Carina,Günster Karsten,Finger Maurice,Hofstede Jordy,Deischter Jeff,Biselli Andreas,Viell Jörn,Palkovits Regina,Jupke Andreas,Büchs Jochen

Abstract

Abstract Background Reducing the costs of biorefinery processes is a crucial step in replacing petrochemical products by sustainable, biotechnological alternatives. Substrate costs and downstream processing present large potential for improvement of cost efficiency. The implementation of in situ adsorption as an energy-efficient product recovery method can reduce costs in both areas. While selective product separation is possible at ambient conditions, yield-limiting effects, as for example product inhibition, can be reduced in an integrated process. Results An in situ adsorption process was integrated into the production of itaconic acid with Ustilago cynodontis IAmax, as an example of a promising biorefinery process. A suitable feed strategy was developed to enable efficient production and selective recovery of itaconic acid by maintaining optimal glucose concentrations. Online monitoring via Raman spectroscopy was implemented to enable a first process control and understand the interactions of metabolites with the adsorbent. In the final, integrated bioprocess, yield, titre, and space–time yield of the fermentation process were increased to values of 0.41 gIA/gGlucose, 126.5 gIA/L and 0.52 gIA/L/h. This corresponds to an increase of up to 30% in comparison to the first extended batch experiment without in situ product removal. Itaconic acid was recovered with a purity of at least 95% and high concentrations above 300 g/L in the eluate. Conclusion Integration of product separation via adsorption into the bioprocess was successfully conducted and improved the efficiency of itaconic acid production. Raman spectroscopy was proven to be a reliable tool for online monitoring of various metabolites and facilitated design and validation of the complex separation and feed process. The general process concept can be transferred to the production of various similar bioproducts, expanding the tool kit for design of innovative biorefinery processes.

Funder

Bundesministerium für Bildung und Forschung

RWTH Aachen University

Publisher

Springer Science and Business Media LLC

Subject

Management, Monitoring, Policy and Law,Energy (miscellaneous),Applied Microbiology and Biotechnology,Renewable Energy, Sustainability and the Environment,Biotechnology

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