ANAMMOX菌铁自养反硝化工艺的稳定性

在非严格厌氧的连续流反应器中,通过调节进水pH、外加一定浓度的Fe~(2+)以及定期更换新鲜铁粉这3种运行方式探讨维持厌氧氨氧化(ANAMMOX)菌利用零价铁去除硝酸盐反应体系长期稳定运行的适宜条件.结果表明,随着反应进行、受零价铁表面钝化的影响,该体系硝酸盐去除率逐渐下降,反应器难以持续运行.在一定范围内降低进水pH(5～7),或者额外投加一定量的Fe~(2+)对改善该反应体系的稳定性效果不显著.通过定期更换新鲜铁粉的方式,可以有效提高硝酸盐去除率、增强反应器稳定性.相比对照组可稳定运行7 d,实验组可至少稳定运行60 d,硝酸盐平均去除率提高22. 23%.因此,采取适宜措施保证体系内有足够具有活性的零价铁、消除零价铁钝化的不利影响,是ANAMMOX菌利用零价铁去除硝酸盐反应体系高效、稳定运行的关键.

Stability of ZVI-dependent Autotrophic Denitrification by ANAMMOX Bacteria

Fe⁰-dependent autotrophic denitrification mediated by anaerobic ammonia oxidation (ANAMMOX) bacteria was carried out in continuous flow reactors under non-strict anaerobic conditions. Three strategies, including adjusting the influent pH, adding Fe²⁺, and regular renewal with fresh iron powder, were used to investigate the appropriate conditions to maintain the long-term stability of this process. The results showed that the nitrate removal efficiency declined due to Fe⁰ passivation over time, and this ultimately led to the reaction becoming unsustainable. Neither reducing the influent pH (within the pH range 5-7) nor adding a quantity of Fe²⁺ had an obvious effects on the sustainability of this process. Instead, the nitrate removal efficiency and the sustainability of the reactor was enhanced significantly by regular renewal with fresh Fe⁰ powder. Compared with the control group (with a 7-day stable operation), the experimental setup was run steadily for at least 60 days, and the average nitrate removal efficiency was increased by 22.23%. Consequently, maintaining an adequate amount of activated Fe⁰ and eliminating the adverse effects of Fe⁰ passivation are vital for the sustainable operation of Fe⁰-dependent autotrophic denitrification as mediated by ANAMMOX bacteria.