Ammonium removal efficiency of biochar-based heterotrophic nitrifying bacteria immobilization body in water solution

In order to explore the performance of biochar-based microbial immobilization body in ammonium removal from water and potential mechanisms, a strain of heterotrophic nitrifying bacteria (HNB) was isolated from activated sludge, and the biochemical and molecular biological identification of HNB was carried out. Moreover, HNO3-, Mg2+ -, NaOH-, and NaOH+Mg2+-modified rice husk-derived biochars were prepared. Then all the five kinds of biochars, induding the original biochar, were used as carriers of HNB to remove NH4+ -N from water. Results showed that HNB was dassified as Pseudomonas, and the 72-h NH4+ -N removal ratio of the free bacteria reached 80.24%. Compared with biochar itself, biochar-based HNB immobilization body showed a much stronger ability to remove NH4+ -N, especially for NaOH- and NaOH+Mg2+ -modified biochars. At the initial NH4 (+) -N concentration of 100 mg/L and biochar addition dose of 10 g/L, NH4+ -N removal ratio of NaOH- and NaOH+Mg2+ -modified biochar-based HNB immobilization bodies reached 57.78% and 58.35% after 5 h, and reached 88.66% and 90.93% after 48 h respectively, which were obviously higher than the original, HNO3- and Mg2+ -modified biochar-based HNB immobilization bodies. The phenomenon resulted from significantly higher bacteria adsorption ability of NaOH- and NaOH+Mg2+-modified biochars, which reached 773.75 and 941.17 nmol P/g biochar, respectively.

Automated summary

This study explored the performance of biochar-based microbial immobilization body in ammonium removal, identifying HNB as Pseudomonas and finding that NaOH- and NaOH+Mg2+-modified biochars had the highest NH4+ -N removal efficiency due to their significantly higher bacteria adsorption ability.