Solar spectral conversion for improving the photosynthetic activity in algae reactors

Sustainable biomass production is expected to be one of the major supporting pillars for future energy supply, as well as for renewable material provision. Algal beds represent an exciting resource for biomass/biofuel, fine chemicals and CO 2 storage. Similar to other solar energy harvesting techniques, the efficiency of algal photosynthesis depends on the spectral overlap between solar irradiation and chloroplast absorption. Here we demonstrate that spectral conversion can be employed to significantly improve biomass growth and oxygen production rate in closed-cycle algae reactors. For this purpose, we adapt a photoluminescent phosphor of the type Ca 0.59 Sr 0.40 Eu 0.01 S, which enables efficient conversion of the green part of the incoming spectrum into red light to better match the Q y peak of chlorophyll b . Integration of a Ca 0.59 Sr 0.40 Eu 0.01 S backlight converter into a flat panel algae reactor filled with Haematococcus pluvialis as a model species results in significantly increased photosynthetic activity and algae reproduction rate. Algae beds are a promising resource for bio-energy and gas production, but their productivity is often limited by solar energy harvesting efficiency. Wondraczek et al . promote algal growth by using photoluminescent phosphor, which shifts the light spectrum to better match the algal adsorption band.