Simulation of the production process of Aspergillus niger single cell protein base on un-structured kinetic models
Subject Areas : Applied MicrobiologyFatemeh Ardestani 1 , Roxana Kasebkar 2
1 - Assistant Professor, Department of Chemical Engineering, Qaemshahr branch, Islamic Azad University, Qaemshahr, Iran.
2 - M.Sc., Department of Chemical Engineering, Shahrood branch, Islamic Azad University, Shahrood, Iran.
Keywords: Aspergillus niger, Single cell protein, Un-structured models,
Abstract :
Background & Objectives: Design of the production of single cell proteins depends on definition of the growth template of the producer microorganisms. This study was aimed to evaluate the production of Aspergillus niger single cell protein and simulation of cell biomass production based on several un-structured models. Materials & Methods: In this experimental study, the fermentative process of single cell protein production was conducted in batch submerged culture with optimum culture medium formulation at 250C, pH 6 and 300 rpm for 200 h in an incubator shaker. At the end of process, the content of shaker flasks was used to analysis glucose concentration, cell dry weight and protein content in cell biomass. Results: The result simulation by Monod, Moser and Logistic models showed 92% 63% and 83% similarity, respectively. Increase in the pH from 3.5 to 6 caused 71% enhancement in protein content in cell biomass. However, pH more than 6 led to decrease in the cell biomass protein content and this values reached to 29% a pH 7. Increases in the initial glucose concentration from 10 to 50 g. L-1 did not show considerable effects on the cell biomass protein content. Cell biomass protein content of the media containing 50 g. L-1 initial glucose was only 5.67% more than the medium contained of 10 g. L-1 initial glucose. Conclusion: The Monod kinetic model was proposed as a suitable model to simulate A. niger behaviour. Furthermore, pH of the media affects cell biomass protein content. However, initial glucose concentration in the media did not show significant effects on the cell biomass protein content.