New insight and enhancement mechanisms for Feammox process by electron shuttles in wastewater treatment-A systematic review

Ammonium oxidation coupled to Fe(III) reduction (Feammox) is a newly discovered iron-nitrogen cycle process of microbial catalyzed NH4+ oxidation coupled with iron reduction. Fe(III) often exists in the form of insoluble iron minerals resulting in reduced microbial availability and low efficiency of Feammox. Electron shuttles(ESs) can be reversibly oxidized and reduced which has the potential to improve Feammox efficiency. This review summarizes the discovery process, electron transfer mechanism, influencing factors and driven microorganisms of Feammox, ang expounds the possibility and potential mechanism of ESs to enhance Feammox efficiency. Based on an in-depth analysis of the current research situation of Feammox for nitrogen removal, the knowledge gaps and future research directions including how to apply ESs enhanced Feammox to promote nitrogen removal in practical wastewater treatment have been highlighted. This review can provide new ideas for the engineering application research of Feammox and strong theoretical support for its development.

Automated summary

This review summarizes the discovery process, electron transfer mechanism, influencing factors and driven microorganisms of the newly discovered iron-nitrogen cycle process of microbial catalyzed NH4+ oxidation coupled with iron reduction (Feammox), and expounds the possibility and potential mechanism of Electron shuttles (ESs) to enhance Feammox efficiency. It highlights the current research situation of Feammox for nitrogen removal and future research directions, including how to apply ESs enhanced Feammox to promote nitrogen removal in practical wastewater treatment. This review provides new ideas for the engineering application research of Feammox and strong theoretical support for its development.