Feasibility of S-rich streams valorization through a two-step biosulfur production process.

A bioscrubbing process named SONOVA has been developed, tested and assessed herein to valorize flue gases containing SO. The process consists in a first scrubbing stage, to absorb and oxidize SO to sulfate, followed by a two-step biological stage. It consists of (1) an up-flow anaerobic sludge (UASB) reactor to reduce sulfate to sulfide with crude glycerol and (2) a continuous stirred tank reactor (CSTR) to partially oxidize sulfide to elemental sulfur (S). SONOVA integrates the reutilization of resources, using the effluent of the biological stage as a sorbent agent and the residual heat of flue gases to dry the product. S is then obtained as a value-added product, which nowadays is produced from fossil fuels. In this research, SO concentrations up to 4000 ppm were absorbed in 2 s of gas contact time in the spray-scrubber with removal efficiencies above 80%. The UASB reduced up to 9.3 kg S-Sulfate m d with sulfide productivities of 6 kg S m d at an hydraulic retention time (HRT) as low as 2 h. Finally, CSTR was fed with the UASB effluent and operated at HRT ranging from 12 h to 4 h without biomass wash-out. Sulfide was fully oxidized to S with a productivity of 2.3 kg S m d at the lowest HRT tested. Overall, this research has explored not only maximum capabilities of each SONOVA stage but has also assessed the interactions between the different units, which opens up the possibility of recovering S from harmful SO emissions, optimizing resources utilization and costs.