Coupling biogas upgrading with biopolymers accumulation through cyanobacteria CO2fixation

Biogas, primarily composed of carbon dioxide (CO2) and methane, requires upgrading to biomethane by removing the CO2 to improve its usability, making it suitable for direct injection into gas grid and serving as a renewable alternative to fossil-derived methane. This study investigates the potential of the recently isolated cyanobacterial strain Synechocystis sp. B12, selected for its robustness and tolerance to high light intensity, in biogas upgrading. Synechocystis sp. B12 demonstrated exceptional tolerance to high CO2 concentrations as in the biogas, utilising it for photosynthetic growth without any detrimental effects from CH4 or other contaminants. This establishes it as a promising candidate for biogas upgrading applications. The strain successfully fixed over 99 % of the CO2 present both in synthetic gas mixture and industrial biogas. Moreover, Synechocystis sp. B12 converted the captured CO2 into polyhydroxybutyrate, a biodegradable bioplastic compound, achieving productivities of approximately 80 mg L-1. This approach provides the dual advantage of enhancing biogas quality while simultaneously transforming CO2 into valuable bioproducts.