化工进展ChemicalIndustryandEngineeringProgress2023年第42卷第3期氧化还原介体介导厌氧氨氧化生物脱氮的研究进展赵星程,贾方旭,蒋伟彧,陈佳熠,刘晨雨,姚宏(北京交通大学环境学院,水中典型污染物控制与水质保障北京重点实验室,北京100044)摘要:厌氧氨氧化(anaerobicammoniumoxidation,Anammox)工艺被认为是一种高效经济且环境友好的生物脱氮技术,是传统生物脱氮工艺的理想替代。然而,该工艺的核心微生物——厌氧氨氧化菌(AnAOB)生长速度缓慢,导致反应器启动时间长,限制了该工艺的实际应用与推广。因此,如何提高AnAOB活性,进一步缩短反应器启动时间成为亟待解决的问题。氧化还原介体(redoxmediator,RMs)作为电子载体,通过加速电子传递过程,可增强AnAOB脱氮酶活性和代谢性能,从而提高整体脱氮效果。本文围绕RMs在强化Anammox性能中的作用进行讨论,介绍了RMs的特性、种类及其基本原理,从Anammox性能、胞外聚合物产量、脱氮酶活性及功能菌丰度等方面综述了RMs对Anammox过程的影响,并对其潜在的机理进行了分析和总结,以期为今后的实际应用提供理论依据和参考价值。关键词:厌氧氨氧化;氧化还原介体;生物脱氮;工艺强化;电子传递中图分类号:X703.5文献标志码:A文章编号:1000-6613(2023)03-1606-12Redoxmediators-mediatedanaerobicammoniumoxidationprocessforbiologicalnitrogenremoval:areviewZHAOXingcheng,JIAFangxu,JIANGWeiyu,CHENJiayi,LIUChenyu,YAOHong(BeijingKeyLaboratoryofAqueousTypicalPollutantsControlandWaterQualitySafeguard,SchoolofEnvironment,BeijingJiaotongUniversity,Beijing100044,China)Abstract:Anaerobicammoniumoxidation(Anammox)processisconsideredasanefficient,economicalandenvironmentallyfriendlybiologicalnitrogenremovaltechnology,whichisanidealalternativetotheconventionalbiologicalnitrogenremovalprocess.However,anaerobicammoniaoxidizingbacteria(AnAOB),asthefunctionalmicrobesinAnammoxprocess,hasslowgrowthrate,resultinginalongreactorstart-uptime,whichhindersthepracticalapplicationandpromotionoftheprocess.Therefore,itisurgenttoenhancetheAnAOBactivityandfurtherreducethereactorstart-uptime.Redoxmediators(RMs),aselectroncarriers,canenhancetheactivityandmetabolicperformanceofAnAOBnitrogen-convertingenzymesbyacceleratin...
