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http://dx.doi.org/10.9713/kcer.2021.59.2.276

Oxygen Transfer Rate from Liquid Free Surface in Reciprocally Shaking Vessel  

Koh, Seung-Tae (Industry-Academy Cooperation Foundation of Dongyang University)
Publication Information
Korean Chemical Engineering Research / v.59, no.2, 2021 , pp. 276-280 More about this Journal
Abstract
The oxygen transfer rate at the liquid surface of the reciprocally shaking vessel was studied. The required power of the reciprocally shaking vessel was not proportional to the shaking frequency, unlike the rotational shaking vessel, and the liquid level suddenly fluctuated greatly at a certain frequency as the flow pattern in the vessel was a left and right wave flow different from that of the rotational shaking that has a rotational flow. The effect of the shaking frequency on the required power in the reciprocally shaking vessel was very complex, such as less power required than the rotational shaking vessel when the shaking frequency is more than 3 s-1, but the required power for the range of the generated rotational flow in the reciprocally shaking vessel could be correlated with the equation that was reported for the rotational shaking vessel. The kLa (mass transfer capacity coefficient) in the reciprocally shaking vessel also increased in a complex pattern because the required power for shaking was not consumed in a simple pattern, unlike kLa in the rotational shaking vessel, which increases linearly with increasing frequency. The kLa of the reciprocally shaking vessel was larger than the kLa of the rotational shaking vessel, and as the kLa value increased, the difference between them increased sharply. As a result, the oxygen transfer rate in the reciprocal motion was greater than that of the rotational motion, and could be correlated with the required power per unit volume.
Keywords
Reciprocal shaking; Liquid free surface; Oxygen transfer rate; Shaking frequency; Power consumption;
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