Evaluation of photosynthetic light integration by microalgae in a pilot-scale raceway reactor

•Light regime of cells in real outdoor raceway reactors has been determined.•Light times of 0.5–3.6 s and dark times of 6–20 s were determined.•At these times the cells are adapted to local instead of average irradiance.•Current design of raceway doesn’t allow to optimize the light utilization. The...

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Bibliographic Details
Published in:Bioresource technology 2019-05, Vol.280, p.404-411
Main Authors: Barceló-Villalobos, M., Fernández-del Olmo, P., Guzmán, J.L., Fernández-Sevilla, J.M., Acién Fernández, F.G.
Format: Article
Language:English
Subjects:
Biomass production
cell movement
CFD
fluid mechanics
Light frequency
light intensity
Microalgae
photoperiod
photosynthesis
Raceway
technology
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Summary:•Light regime of cells in real outdoor raceway reactors has been determined.•Light times of 0.5–3.6 s and dark times of 6–20 s were determined.•At these times the cells are adapted to local instead of average irradiance.•Current design of raceway doesn’t allow to optimize the light utilization. The improvement of photosynthetic efficiency in a 100 m2 raceway reactor by enhancement of light regime to which the cells are exposed is here reported. From Computational Fluid Dynamics it was calculated that the light exposure times ranged from 0.4 to 3.6 s while the exposure times to darkness were much longer, from 6 to 21 s. It was demonstrated that these times are too long for light integration, the cells fully adapting to local irradiances. This phenomenon was validated in the real outdoor raceway at different seasons. Simulations allows to confirm that if total light integration is achieved biomass productivity can increase up to 40 g/m2·day compared to 29 g/m2·day obtained considering local adaptation, which is close to the experimental value of 25 g/m2·day. This paper provides clear evidence of microalgae cell adaptation to local irradiance because of the unfavourable cell movement pattern in raceway reactors.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2019.02.032