A method for treating wastewater comprising subjecting a sulfate containing wastewater to Fe(III) iron dosing in an anaerobic bioreactor containing one or more of an iron reducing bacteria and one or more of a sulfate reducing bacteria, and one or more of a fermentative bacteria, and adjusting a dosage of the Fe(III) iron in the anaerobic bioreactor to achieve a Fe/Sulfate molar ratio that is equal to or greater than 0.50, and removing an effluent from the anaerobic bioreactor that is a treated wastewater. A wastewater treatment system is provided having a wastewater reservoir, a ferric iron solution reservoir, an anaerobic bioreactor, and an effluent reservoir.

Water treatment apparatus includes raw water special air mixing nozzles (7); filtering tank (5) housing filter layer (4) including two layers of upper layer (2) and lower layer (3), the upper layer including a filter medium with a smaller specific gravity and a larger particle size than a filter medium of the lower layer; a water collection pipe (13) removing filtered water and supplying reverse cleaning water to the filter layer during reverse cleaning; drainage trough (12); and upper layer cleaning apparatus (10), in which the upper layer cleaning apparatus includes upper layer cleaning pipe support member (17), upper layer cleaning water pipe (18), surface-cleaning special air mixing nozzles (19), air suction pipe (20), and horizontal air pipes (31 and 32) and the raw water special air mixing nozzles (7) are attached to raw water inflow tank (70) provided on a part of the drainage trough (12).

The subject invention provides compositions and methods for remediating and mitigating iron pollution. In preferred embodiments, a composition comprising an iron-capturing ingredient is contacted with an environment suffering from iron pollution in order to reduce the amount of iron in the environment.

An Aspergillus sp. DH4 with aerobic denitrification enhanced by an inorganic electron donor and its application are provided, which relates to the field of microbial technologies. The Aspergillus sp. DH4 is preserved at China Center for Type Culture Collection (CCTCC), a preservation address is Wuhan University, 299 Bayi Road, Wuchang District, Wuhan City, China, a preservation number is CCTCC NO: M20232690, and a preservation date is Dec. 27, 2023.

An Aspergillus sp. DH4 with aerobic denitrification enhanced by an inorganic electron donor and its application are provided, which relates to the field of microbial technologies. The Aspergillus sp. DH4 is preserved at China Center for Type Culture Collection (CCTCC), a preservation address is Wuhan University, 299 Bayi Road, Wuchang District, Wuhan City, China, a preservation number is CCTCC NO: M20232690, and a preservation date is Dec. 27, 2023.

In one aspect, oxidant is employed for enhancing Feammox activity. Briefly, a medium comprises an ammonium containing contaminant, an iron component, an oxidant, and a Feammox bacterium and/or enzyme thereof capable of oxidizing ammonium with reduction of Fe(II) to Fe(III), wherein the oxidant regenerates Fe(III) via Fe(II) oxidation. In some embodiments, the medium is soil and/or water.