Potato Peel Waste as a Valuable Substrate for Biomass and H₂ Production by Green Algae

Abstract

Green algae have great potential for waste utilization, as they can efficiently harness sunlight energy, making them promising for large-scale applications in green biotechnology. Potato peel waste (PWW), rich in carbohydrates, organic acids, amino acids, vitamins, and trace elements, presents a promising substrate for sustainable biofuel production. This study aimed to study biomass and hydrogen (H₂) production by green algae Chlorella vulgaris Pa-023 and Parachlorella kessleri MDC6524, cultivated in PPW-containing media. Culture of green algae (Algae Collection, Microbial Depository Center, NAS, Armenia) were grown under aerobic conditions upon illumination. Cultivation of algae in PWW-containing media resulted in significant increases of biomass yield: 35% for C. vulgaris and 60% for P. kessleri, compared to control culture grown in Tamiya medium. Moreover, algae cultivated in PWW media also exhibited higher levels of photosynthetic pigments (total carotenoids, chlorophylls a and b), indicating enhanced photosynthetic activity. The H₂ yields of C. vulgaris and P. kessleri were 1.7-fold and 3.5-fold higher, respectively, in comparison with culture, cultivated in Tamiya medium, highlighting P. kessleri as the more efficient H₂ producer under the tested conditions. The addition of diuron, a specific inhibitor of photosystem II (PS II), led to a 60% inhibition of H₂ yield, indicating a PS II-dependent route of H₂ evolution. These findings demonstrate that PPW is a valuable and cost-effective feedstock for biomass and H₂ production. Using green algae for waste management not only helps reduce waste, but also supports biomass production for green energy generation. This dual benefit enhances algae value, especially in addressing current global environmental challenges.