Mercury removal from flue gas using nitrate as an electron acceptor in a membrane biofilm reactor

Mercury (Hg-0) is a hazardous air pollutant for its toxicity, and bioaccumulation. This study reported that membrane biofilm reactor achieved mercury removal from flue gas using nitrate as the electron acceptor. Hg-0 removal efficiency was up to 88.7% in 280 days of operation. Oxygen content in flue gas affected mercury redox reactions, mercury biooxidation and microbial methylation. The biological mercury oxidation increased with the increase of oxygen concentration (2%-17%), methylation of mercury reduced with the increase of oxygen concentration. The dominant bacteria at oxygen concentration of 2%, 6%, 17%, 21% were Halomonas, Anaerobacillus, Halomonas and Pseudomonas, respectively. The addition of ferrous sulfide could immobilize Hg2+ effectively, and make both Hg2+ and MeHg transform into HgS-like substances, which could achieve the inhibition effect of methylation, and promote conversion of mercury. The dominant bacteria changed from Halomonas to Planctopirus after FeS addition. Nitrate drives mercury oxidation through katE, katG, nar, nir, nor, and nos for Hg-0 removal in flue gas.

Automated summary

The study revealed that a membrane biofilm reactor using nitrate as the electron acceptor achieved effective mercury removal from flue gas, with a removal efficiency of up to 88.7%. Oxygen content in the flue gas influenced mercury redox reactions, biological oxidation, and microbial methylation. Addition of ferrous sulfide promoted mercury transformation and inhibited methylation, leading to a change in dominant bacteria from Halomonas to Planctopirus. Nitrate drove mercury oxidation through various enzymes for Hg-0 removal in flue gas.