Asian Journal of Bio Science

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Effect of Aeration and Agitation on Volumetric Oxygen Transfer in Pichia pastoris Culture System


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1 P.G. Department of Biotechnology, Udaya School of Engineering, Kanyakumari (T.N.), India
     

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The oxygen mass transfer coefficient (KLa) often serves to compare the efficiency of bioreactors and their mixing devices as well as being an important scale up factor. In submerged fermentation, four methods are available to estimate the overall oxygen mass transfer coefficient. Each method provides a distinct estimation of the value of KLa. Dynamic gassing out method was used to obtain a more probable value of KLa during the fermentation in 5L fermentor with Pichia pastoris. The aeration and agitation were varied to study the effect on KLa. Results showed that the KLa value increased with increase in agitation and aeration. While working in 5L fermentor with Pichia pastoris the maximum KLa value of 441.36 was obtained when the agitator speed 300 RPM and aeration 1.5 vvm was maintained. This shows that the volumetric oxygen transfer rate varies in variation with aeration and agitation and not based on organism used. The optimum conditions of agitation and aeration to achieve maximum KLa for a given microorganism depends on its shear sensitive nature.

Keywords

KLa, Pichia pastoris, Aeration, Agitation, Dissolved Oxygen.
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  • Effect of Aeration and Agitation on Volumetric Oxygen Transfer in Pichia pastoris Culture System

Abstract Views: 301  |  PDF Views: 0

Authors

S. Anto Jeya Dayalan
P.G. Department of Biotechnology, Udaya School of Engineering, Kanyakumari (T.N.), India
N. Edison
P.G. Department of Biotechnology, Udaya School of Engineering, Kanyakumari (T.N.), India
S. Prakash
P.G. Department of Biotechnology, Udaya School of Engineering, Kanyakumari (T.N.), India

Abstract


The oxygen mass transfer coefficient (KLa) often serves to compare the efficiency of bioreactors and their mixing devices as well as being an important scale up factor. In submerged fermentation, four methods are available to estimate the overall oxygen mass transfer coefficient. Each method provides a distinct estimation of the value of KLa. Dynamic gassing out method was used to obtain a more probable value of KLa during the fermentation in 5L fermentor with Pichia pastoris. The aeration and agitation were varied to study the effect on KLa. Results showed that the KLa value increased with increase in agitation and aeration. While working in 5L fermentor with Pichia pastoris the maximum KLa value of 441.36 was obtained when the agitator speed 300 RPM and aeration 1.5 vvm was maintained. This shows that the volumetric oxygen transfer rate varies in variation with aeration and agitation and not based on organism used. The optimum conditions of agitation and aeration to achieve maximum KLa for a given microorganism depends on its shear sensitive nature.

Keywords


KLa, Pichia pastoris, Aeration, Agitation, Dissolved Oxygen.