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Design of an airlift loop bioreactor and pilot scales studies with fluidic oscillator induced microbubbles for growth of a microalgae Dunaliella salina

William B. Zimmerman, Mohammad Zandi, H.C. Hemaka Bandulasena, Václav Tesař, D. James Gilmour and Kezhen Ying

Applied Energy, 2011, vol. 88, issue 10, 3357-3369

Abstract: This study was conducted to test the feasibility of growing microalgae on steel plant exhaust gas, generated from the combustion of offgases from steel processing, which has a high CO2 content. Two field trials of batch algal biomass growth, mediated by microbubble transfer processes in an airlift loop bioreactor showed only steady growth of biomass with 100% survival rate. The gas analysis of CO2 uptake in the 2200L bioreactor showed a specific uptake rate of 0.1g/L/h, an average 14% of the CO2 available in the exhaust gas with a 23% composition of CO2. This uptake led to a steady production of chlorophyll and total lipid constituency in the bioreactor, and an accelerating exponential growth rate of biomass, with a top doubling time of 1.8days. The gas analysis also showed anti-correlation of CO2 uptake and O2 production, which along with the apparent stripping of the O2 to the equilibrium level by the microbubbles, strongly suggests that the bioreactor is not mass transfer limited, nor O2 inhibited. Removing O2 inhibition results in high growth rates and high density of biomass.

Keywords: Nanobubbles; Microbubbles; Nonlinear wave dynamics; Microfluidics; Microalgae; Airlift loop bioreactor (search for similar items in EconPapers)
Date: 2011
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (2)

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DOI: 10.1016/j.apenergy.2011.02.013

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