Removal of hydrogen sulfide (HS) can be achieved using the sustainable biological desulfurization process, where HS is converted to elemental sulfur using sulfide-oxidizing bacteria (SOB). A dual-bioreactor process was recently developed where an anaerobic (sulfidic) bioreactor was used between the absorber column and micro-oxic bioreactor. In the absorber column and sulfidic bioreactor, polysulfides (S) are formed due to the chemical equilibrium between HS and sulfur (S). S is thought to be the intermediate for SOB to produce sulfur via HS oxidation. In this study, we quantify S, determine their chain-length distribution under high HS loading rates, and elucidate the relationship between biomass and the observed biological removal of sulfides under anaerobic conditions. A linear relationship was observed between S concentration and HS loading rates at a constant biomass concentration. Increasing biomass concentrations resulted in a lower measured S concentration at similar HS loading rates in the sulfidic bioreactor. S of chain length 6 (S) showed a substantial decrease at higher biomass concentrations. Identifying S concentrations and their chain lengths as a function of biomass concentration and the sulfide loading rate is key in understanding and controlling sulfide uptake by the SOB. This knowledge will contribute to a better understanding of how to reach and maintain a high selectivity for S formation in the dual-reactor biological desulfurization process.
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| http://dx.doi.org/10.1021/acs.est.3c03017 | DOI Listing |
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