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Heterotrophic Nitrification–Aerobic Denitrification by Bacillus sp. L2: Mechanism of Denitrification and Strain Immobilization

Qiang Li, Yuehui He, Boyan Wang, Nanhai Weng, Lei Zhang, Kaichun Wang, Fengrong Tian, Mingsheng Lyu, Shujun Wang

2024Water17 citationsDOIOpen Access PDF

Abstract

The biological denitrification of low-C/N wastewater is a great challenge in treatment plants due to the lack of microorganisms with heterotrophic nitrification–aerobic denitrification (HN-AD) abilities. In this study, Bacillus sp. L2 was isolated from aeration tank water samples using a nitrification medium and screened for its ability to perform HN-AD in low-C/N wastewater. The strain showed a maximum NH4+-N removal rate of 98.37% under low-C/N conditions. In the presence of a mixed N source, strain L2 was capable of completely removing NH4+-N within 24 h. Furthermore, optimal nitrogen removal conditions for strain L2 were found to be C/N = 9, pH = 9, and sodium acetate as the C source. Under optimal conditions, the strain was able to maintain a high NH4+-N removal rate under 0–3% salinity and an NH4+-N concentration of 200 mg/L or less. The denitrification pathways of strain L2 were NH4+→NH2OH→NO2−(↔NO3−)→NO→N2O→N2 and NH4+→NH2OH→NO→N2O→N2. Furthermore, semi-continuous wastewater treatment was conducted using immobilized technology, which resulted in more than 82% NH4+-N removal after three cycles of reuse. This study demonstrates the great potential of Bacillus sp. L2 in wastewater treatment applications.

Topics & Concepts

Aerobic denitrificationDenitrificationNitrificationWastewaterHeterotrophAerationStrain (injury)ChemistrySalinityEnvironmental chemistrySewage treatmentMicroorganismNitrogenEnvironmental engineeringMicrobiologyBacteriaBiologyEcologyEnvironmental scienceDenitrifying bacteriaOrganic chemistryAnatomyGeneticsWastewater Treatment and Nitrogen RemovalMicrobial Community Ecology and PhysiologyMicrobial Fuel Cells and Bioremediation
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