RESEARCH PROGRESS ON EFFECT OF ORGANIC MATTERS ON ANAMMOX REACTION
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摘要: ANAMMOX是一种新兴经济节能的生物脱氮技术,与经典的硝化反硝化脱氮相比,具有占地面积较小,无须曝气节约能耗等优点。有机物是实际废水中普遍存在的污染物,其存在会对ANAMMOX产生影响。通过梳理近年来国内外有关有机物对ANAMMOX影响的研究概况,归纳了有机物在促进和抑制ANAMMOX进程两方面的原因和机制,同时阐述了通过降低进水负荷、调节基质亚硝态氮浓度和投加物质解除有机物对厌氧氨氧化反应抑制的方法,以期为实现大规模ANAMMOX工艺脱氮提供一定的理论依据。Abstract: ANAMMOX is a new economic and energy-saving biological nitrogen removal technology. Compared with the classical nitrification and denitrification, ANAMMOX has the advantages of small occupied area, no aeration and energy saving. Organic matter is one of the common pollutants in actual wastewater. The existence of organic matter will affect ANAMMOX.The reasons and mechanisms of organic matter in promoting and inhibiting ANAMMOX process are summarized by combing the research situation of organic matter's influence on ANAMMOX at home and abroad in recent years, meanwhile, the methods of relieving the inhibition of anaerobic ammonium oxidation by organic matter by reducing influent load, adjusting substrate nitrite nitrogen concentration and adding substances, in order to provide a theoretical basis for realizing high nitrogen removal performance of large-scale ANAMMOX process.
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Key words:
- ANAMMOX /
- organic matter /
- nitrogen removal rate /
- disinhibition
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[1] MULDER A,GRAAF A A V D,ROBERTSON L A,et al.Anaerobic ammonium oxidation discovered in a denitrifying fluidized bed reactor[J].FEMS Microbiology Ecology,1995,16:177-184. [2] 刘兰,明语真,吕爱萍,等.厌氧氨氧化细菌的研究进展[J].微生物学报,2021,61(4):969-986. [3] DU R,CAO S K,LI B K,et al.Synergy of partial-denitrification and anammox in continuously fed upflow sludge blanket reactor for simultaneous nitrate and ammonia removal at room temperature[J].Bioresource Technology,2019,274:386-394. [4] 李亚峰,于燿滏,杨嗣靖,等.HRT、DO和有机物对厌氧氨氧化脱氮性能的影响研究[J].工业水处理,2020,40(8):27-31. [5] 宋成康,王亚宜,韩海成,等.温度降低对厌氧氨氧化脱氮效能及污泥胞外聚合物的影响[J].中国环境科学,2016,36(7):2006-2013. [6] 李柏林,黄睿,王恒,等.长、短期低温下单级自养脱氮系统的性能恢复与强化[J].武汉理工大学学报,2019,41(1):83-89. [7] 付昆明,付巢,李慧,等.主流厌氧氨氧化工艺的运行优化及其微生物的群落变迁[J].环境科学,2018,39(12):5596-5604. [8] 王静,郝建安,张爱君,等.厌氧氨氧化反应研究进展[J].水处理技术,2014,40(3):1-4. [9] 张永辉,彭永臻,曾立云,等.常温低基质厌氧氨氧化ASBR反应器的快速启动[J].工业水处理,2017,37(2):43-47. [10] 李冬,刘名扬,张杰,等.厌氧氨氧化颗粒污泥的长期保藏及快速活性恢复[J].环境科学,2021,42(6):2957-2965. [11] 闫荣,雷欣,慕玉洁,等.后续碳源强化ANAMMOX-MFC系统脱氮产电调控策略[J/OL].环境工程:1-9. [12] 董堃,苑宇杭,陈宇超,等.膜生物反应器中厌氧氨氧化的启动研究[J].水处理技术,2020,46(5):87-91. [13] 吕恺,王康舟,姚雪薇,等.基于氨氮、硝氮及乙酸条件下Anammox菌的培养[J].中国环境科学,2020,40(10):4348-4353. [14] 宋壮壮,吕爽,刘哲,等.厌氧氨氧化耦合反硝化工艺的启动及微生物群落变化特征[J].环境科学,2019,40(11):5057-5065. [15] 马艳红,赵智超,安芳娇,等.不同COD浓度下低基质厌氧氨氧化的启动特征[J].环境科学,2019,40(5):2317-2325. [16] 夏凡,任龙飞.新型厌氧氨氧化工艺在高含氮废水处理中的应用[J].水处理技术,2020,46(9):19-23. [17] 傅金祥,童颖,于鹏飞,等.有机物对厌氧氨氧化的双向影响及抑制解除[J].工业水处理,2014,34(7):19-22. [18] 魏凡凯,王昕竹,吴鹏,等.碳源对厌氧氨氧化菌活性影响的研究进展[J].工业水处理,2019,39(6):7-12. [19] 马艳红,秦彦荣,陈永志.厌氧氨氧化生物脱氮技术研究[J].兰州交通大学学报,2020,39(4):119-125. [20] 王闯,赵鑫宇,邓守鸿.厌氧氨氧化工艺的机理及研究进展[J].建筑与预算,2019 (5):56-60. [21] BI Z,TAKEKAWA M,PARK G,et al.Effects of the C/N ratio and bacterial populations on nitrogen removal in the simultaneous anammox and heterotrophic denitrification process:mathematic modeling and batch experiments[J].Chemical Engineering Journal,2015,280:606-613. [22] 吕永涛,陈祯,吴红亚,等.有机物浓度对厌氧氨氧化脱氮性能影响试验研究[J].环境工程学报,2009,3(7):1189-1192. [23] BIN M,QIAN W,YUAN C,et al.Achieving mainstream nitrogen removal through coupling anammox with denitratation[J].Environmental Science & Technology,2017,51(15):8405-8413. [24] 赖杨岚,周少奇.厌氧氨氧化与反硝化的协同作用特性研究[J].中国给水排水,2010,26(13):6-10. [25] 高大文,侯国凤,陶彧,等.厌氧氨氧化菌代谢有机物研究[J].哈尔滨工业大学学报,2012,44(2):89-93. [26] KUENEN J G.Anammox bacteria:from discovery to application[J].Nature Reviews Microbiology,2008,6:320-326. [27] DIDEM G,ANA D,BORAN K,et al.Propionate oxidation by and methanol inhibition of anaerobic ammonium-oxidizing bacteria[J].Applied and Environmental Microbiology,2005,71(2):1066-1071. [28] RATTRAY J E,GEENEVASEN J A,VAN NIFTRIK L,et al.Carbon isotope-labelling experiments indicate that ladderane lipids of anammox bacteria are synthesized by a previously undescribed,novel pathway[J].FEMS Microbiol Lett,2009,292(1):115-122. [29] BORAN K,LAURA V N,JAYNE R,et al.Candidatus ‘Brocadia fulgida’:an autofluorescent anaerobic ammonium oxidizing bacterium[J].FEMS Microbiology Ecology,2008,63:46-55. [30] 杨军锋.有机物对ANAMMMOX工艺脱氮效能的影响研究进展[J].辽宁化工,2016,45(3):368-370. [31] 操沈彬,王淑莹,吴程程,等.有机物对厌氧氨氧化系统的冲击影响[J].中国环境科学,2013,33(12):2164-2169. [32] CHAMCHOI N,NITISORAVUT S,SCHMIDT J E.Inactivation of ANAMMOX communities under concurrent operation of anaerobic ammonium oxidation (ANAMMOX) and denitrification[J].Bioresource Technology,2008,99:3331-3336. [33] NI S Q,NI J Y,HU D L,et al.Effect of organic matter on the performance of granular anammox process[J].Bioresource Technology,2012,110:701-705. [34] LI Y,HUANG Z,RUAN W,et al.ANAMMOX performance,granulation,and microbial response under COD disturbance[J].Journal of Chemical Technology & Biotechnology,2015,90:139-148. [35] 管勇杰,于德爽,李津,等.有机碳源作用下厌氧氨氧化系统的脱氮效能[J].环境科学,2017,38(2):654-664. [36] WEIQIANG Z,PEIYU Z,HUIYU D,et al.Effect of carbon source on nitrogen removal in anaerobic ammonium oxidation (anammox) process[J].Journal of Bioscience and Bioengineering,2017,123(4):497-504. [37] 鲍林林,赵建国,李晓凯,等.常温低基质下pH值和有机物对厌氧氨氧化的影响[J].中国给水排水,2012,28(13):38-42. [38] HUANG X L,GAO D W,TAO Y,et al.C2/C3 fatty acid stress on anammox consortia dominated by Candidatus Jettenia asiatica[J].Chemical Engineering Journal,2014,253:402-407. [39] 杨朋兵,李祥,黄勇,等.苯酚对厌氧氨氧化污泥脱氮效能长短期影响[J].环境科学,2015,36(10):3771-3777. [40] ISAKA K,SUWA Y,KIMURA Y,et al.Anaerobic ammonium oxidation (anammox) irreversibly inhibited by methanol[J].Applied Microbiology and Biotechnology,2008,81:379-385. [41] 郑平,吴明生,金仁村.有机物对ANAMMOX反应器运行性能的影响[J].环境科学学报,2006,(7):1087-1092. [42] 苗蕾,王凯,王淑莹,等.垃圾渗滤液中有机物对其厌氧氨氧化的影响[J].东南大学学报,2014,44(5):999-1004. [43] 童颖.有机物对厌氧氨氧化双向影响及抑制解除[D].沈阳:沈阳建筑大学,2014. [44] 丁帮璟,徐梦珊,李丹丹,等.不同菜地土壤的铁氨氧化脱氮过程探究[J].中国环境科学,2020,40(8):3506-3511. [45] 王海月,彭玲,毛念佳,等.三价铁对有机物存在下厌氧氨氧化脱氮的影响[J].中国环境科学,2021,41(4):1672-1680. [46] 唐崇俭.厌氧氨氧化工艺特性与控制技术的研究[D].杭州:浙江大学,2011.
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