Algal growth in photo-bioreactors: Impact of illumination strategy and nutrient availability

Abstract

The objectives of this study were to first identify illumination strategies which support long term sustainable algal growth in photo-bioreactors, and second to address contradictions in literature regarding the algal nutrient uptake behavior under a sustainable growth regime. Experiments were conducted at different light intensities with continuous illumination and intermittent illumination of 12-h light and dark periods. Sustainable algal growth was characterized with algal specific chlorophyll-a content of more than ∼ 20mgg−1. Experiments were also conducted to address contradictions in literature regarding Droop versus Monod formulations for nutrient uptake, and representation of growth limiting factors using Liebig’s law of the minimum versus the multiplicative rule. Intermittent illumination of 12-h light and dark periods at a light intensity of 246μmolm−2s−1 was found to be the most optimal strategy for sustainable algal-growth. It was further concluded that the impact of several growth limiting factors on algal growth could be best described by the Liebig’s law of the minimum with Droop’s formulation rather than multiplicative rule and Monod formulation.