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Response Surface Methodology Applied to Cyanobacterial EPS Production: Steps and Statistical Validations

Filipa Rodrigues, Ivana Mendonça, Marisa Faria, Ricardo Gomes, Juan Luis Gómez‐Pinchetti, Artur Ferreira, Nereida Cordeiro

2024Processes9 citationsDOIOpen Access PDF

Abstract

Understanding the impact of variables involved in soluble-extracellular polymeric substance (S-EPS) production processes is crucial for reducing production costs and enhancing sustainability. Response surface methodology (RSM) provides essential tools that assist in developing predicted interactions among process variables for both industrial and non-industrial applications. The present study offers a simple and systematic demonstration of RSM capabilities, focusing on maximizing efficiency and minimizing production costs of S-EPS produced by Cyanocohniella rudolphia. RSM was employed to (1) design the production setup; (2) fit the collected data into a second-order polynomial model; (3) statistically evaluate the model’s validity and the significance of the involved variables; and (4) identify and optimize production variables to enhance output and reduce costs. Focused on four key variables, each at three levels, RSM designed 25 distinct S-EPS production conditions, each with three replicates. Statistical analysis identified the most significant variables affecting S-EPS production as the culture medium/wet biomass ratio, production days, and nitrogen concentration. The model’s validation demonstrated a strong correlation between the predicted and experimental values, with S-EPS production ranging from 70.46 to 228.65 mg/L and a maximum variation of 11.6%. This study demonstrates the effectiveness of RSM in optimizing S-EPS production, with the developed model showing a strong correlation between the variables and the response. The RSM model offers a promising approach for the bioprocessing industry, enhancing productivity and efficiency, minimizing costs, and leading to sustainable, cost-effective practices.

Topics & Concepts

Response surface methodologyBioprocessProduction (economics)Biochemical engineeringComputer scienceMathematicsProcess engineeringStatisticsEngineeringChemical engineeringMacroeconomicsEconomicsWastewater Treatment and Nitrogen RemovalAlgal biology and biofuel production3D Printing in Biomedical Research