Using Phycocyanin as Spectral Converter on the Growth Parameters and Lipid Content of the Green Microalga Chlorella sp. in a Double Layer Flat Panel Photobioreactor.

The focus of this research is spectral shifting of light using phycocyanin solution extracted from the blue-green microalga Spirulina platensis in order to increase biomass productivity of the green microalga Chlorella sp. Also, lipid and chlorophyll content of the green alga was investigated. With regard to the shift of the spectrum with the phycocyanin solution, a double layer flat panel photobioreactor and two different spectral shifting strategies were used. In each strategy, the effect of two different concentrations of the solution was investigated. In the first strategy, the light passes through the chamber containing the solution and then enters the microalga culture chamber. In the second strategy, the light first enters the culture chamber and then enters the chamber containing phycocyanin pigment. The results showed that the use of phycocyanin pigment by both strategies increased the biomass productivity (P) and the specific growth rate (μmax) with a significant difference compared to the control system; the increase in P for first strategy was up to about 69%. Moreover, the use of phycocyanin solution with a lower concentration had a greater effect on the increase of total chlorophyll content; however, the solution with a higher concentration was more successful in the production of cell lipid content. Using the phycocyanin solution as spectral converter in a double layer flat panel photobioreactor increased the biomass productivity and chlorophyll content.