| [1] | 王刚, 高会杰, 孙丹凤, 等. 厌氧氨氧化技术在废水脱氮领域的应用进展[J]. 化工环保. 2020, 40(2): 111-117. |
| [2] | 谢军祥, 姜滢, 常尧枫, 等. 城镇生活污水厌氧氨氧化处理的研究进展[J]. 化工进展. 2020, 39(10): 4175-4184. |
| [3] | ZHAO Z C, XIE G J, LIU B F, et al. A review of quorum sensing improving partial nitritation-anammox process: Functions, mechanisms and prospects[J]. The Science of the total environment, 2021, 765: 142703 |
| [4] | WANG Y M, LIN Z Y, HE L, et al. Simultaneous partial nitrification, anammox and denitrification (SNAD) process for nitrogen and refractory organic compounds removal from mature landfill leachate: Performance and metagenome-based microbial ecology[J]. Bioresource Technology, 2019, 294: 122166 |
| [5] | CAO Y, LOOSDRECHT M C, DAIGGER G T. Mainstream partial nitritation-anammox in municipal wastewater treatment: status, bottlenecks, and further studies[J]. Applied Microbiology and Biotechnology, 2017, 101(4): 1365-1383 |
| [6] | LACKNER S, GILBERT E M, VLAEMINCK S E, et al. Full-scale partial nitritation/anammox experiences–An application survey[J]. Water Research, 2014, 55: 292-303 |
| [7] | CONNAN R, DABERT P, MOYA-ESPINOSA M, et al. Coupling of partial nitritation and anammox in two- and one-stage systems: Process operation, N2O emission and microbial community[J]. Journal of Cleaner Production, 2018, 203: 559-573 |
| [8] | WEISSENBACHER N, TAKACS I, MURTHY S, et al. Gaseous nitrogen and carbon emissions from a full-scale deammonification plant[J]. Water Environment Research, 2010, 82(2): 169-175 |
| [9] | JOSS A, SALZGEBER D, EUGSTER J, et al. Full-scale nitrogen removal from digester liquid with partial nitritation and anammox in one SBR[J]. Environmental Science & Technology, 2009, 43(14): 5301-5306 |
| [10] | KAMPSCHREUR M J, POLDERMANS R, KLEEREBEZEM R, et al. Emission of nitrous oxide and nitric oxide from a full-scale single-stage nitritation-anammox reactor[J]. Water Science and Technology, 2009, 60(12): 3211-3217 |
| [11] | KAMPSCHREUR M J, STAR W R L, WIELDERS H A, et al. Dynamics of nitric oxide and nitrous oxide emission during full-scale reject water treatment[J]. Water Research, 2008, 42(3): 812-826 |
| [12] | DESLOOVER J, CLIPPELEIR H, BOECKX P, et al. Floc-based sequential partial nitritation and anammox at full scale with contrasting N2O emissions[J]. Water Research, 2011, 45(9): 2811-2821 |
| [13] | LIU Y, NIU Q G, WANG S P, et al. Upgrading of the symbiosis of Nitrosomanas and anammox bacteria in a novel single-stage partial nitritation-anammox system: Nitrogen removal potential and Microbial characterization[J]. Bioresource Technology, 2017, 244: 463-472 |
| [14] | WANG X L, GAO D W. The transformation from anammox granules to deammonification granules in micro-aerobic system by facilitating indigenous ammonia oxidizing bacteria[J]. Bioresource Technology, 2018, 250: 439-448 |
| [15] | CHEN R, JI J Y, CHEN Y J, et al. Successful operation performance and syntrophic micro-granule in partial nitritation and anammox reactor treating low-strength ammonia wastewater[J]. Water Research, 2019, 155: 288-299 |
| [16] | VÁZQUEZ-PADÍN J R, FERNÁNDEZ I, MORALES N, et al. Autotrophic nitrogen removal at low temperature[J]. Water Science and Technology, 2011, 63(6): 1282-1288 |
| [17] | VLAEMINCK S E, CLIPPELEIR H, VERSTRAETE W. Microbial resource management of one-stage partial nitritation/anammox[J]. Microbial Biotechnology, 2012, 5(3): 433-448 |
| [18] | 韩晓宇, 孙延芳, 张树军, 等. 进水氨氮浓度对两种污泥系统CANON工艺的冲击影响[J]. 哈尔滨工业大学学报. 2018, 50(2): 40-45. |
| [19] | TOMASZEWSKI M, CEMA G, ZIEMBIŃSKA-BUCZYŃSKA A. Influence of temperature and pH on the anammox process: A review and meta-analysis[J]. Chemosphere, 2017, 182: 203-214 |
| [20] | JOSS A, SALZGEBER D, EUGSTER J, et al. Full-Scale Nitrogen Removal from Digester Liquid with Partial Nitritation and Anammox in One SBR[J]. Environmental Science & Technology, 2009, 43(14): 5301-5306 |
| [21] | OSHIKI M, SHIMOKAWA M, FUJII N, et al. Physiological characteristics of the anaerobic ammonium-oxidizing bacterium ‘Candidatus Brocadia sinica’[J]. Microbiology, 2011, 157(6): 1706-1713 |
| [22] | JAROSZYNSKI L W, OLESZKIEWICZ J A. Autotrophic ammonium removal from reject water: partial nitrification and anammox in one-reactor versus two-reactor systems[J]. Environmental Technology, 2011, 32(3-4): 289-294 |
| [23] | SCHRAA O, ROSENTHAL A, WADE M J, et al. Assessment of aeration control strategies for biofilm-based partial nitritation/anammox systems[J]. Water Science and Technology, 2020, 81(8):1757-1765 |
| [24] | De CLIPPELEIR H, VLAEMINCK S E, De WILDE F, et al. One-stage partial nitritation/anammox at 15 °C on pretreated sewage: feasibility demonstration at lab-scale[J]. Applied Microbiology and Biotechnology, 2013, 97(23): 10199-10210 |
| [25] | PÉREZ J, LOTTI T, KLEEREBEZEM R, et al. Outcompeting nitrite-oxidizing bacteria in single-stage nitrogen removal in sewage treatment plants: A model-based study[J]. Water Research, 2014, 66: 208-218 |
| [26] | ÇELEN-ERDEM İ, KURT E S, BOZÇELIK B, et al. Upflow packed bed Anammox reactor used in two-stage deammonification of sludge digester effluent[J]. Water Science and Technology, 2018, 78(9): 1843-1851 |
| [27] | GUO Y, XIE C L, CHEN Y J, et al. Achieving superior nitrogen removal performance in low-strength ammonium wastewater treatment by cultivating concentrated, highly dispersive, and easily settleable granule sludge in a one-stage partial nitritation/anammox-HAP reactor[J]. Water Research, 2021, 200: 117217 |
| [28] | WANG L, ZHENG P, CHEN T T, et al. Performance of autotrophic nitrogen removal in the granular sludge bed reactor[J]. Bioresource Technology, 2012, 123: 78-85 |
| [29] | WANG S P, LIU Y, NIU Q G, et al. Nitrogen removal performance and loading capacity of a novel single-stage nitritation-anammox system with syntrophic micro-granules[J]. Bioresource Technology, 2017, 236: 119-128 |
| [30] | LI X J, SUNG S. Development of the combined nitritation-anammox process in an upflow anaerobic sludge blanket (UASB) reactor with anammox granules[J]. Chemical Engineering Journal, 2015, 281: 837-843 |
| [31] | QIAN F Y, GEBREYESUS A T, WANG J F, et al. Single-stage autotrophic nitrogen removal process at high loading rate: granular reactor performance, kinetics, and microbial characterization[J]. Applied Microbiology and Biotechnology, 2018, 102(5): 2379-2389 |
| [32] | LIU W R, WANG Q, SHEN Y L, et al. Enhancing the in-situ enrichment of anammox bacteria in aerobic granules to achieve high-rate CANON at low temperatures[J]. Chemosphere, 2021, 278: 130395 |
| [33] | LIU T, MA B, CHEN X M, et al. Evaluation of mainstream nitrogen removal by simultaneous partial nitrification, anammox and denitrification (SNAD) process in a granule-based reactor[J]. Chemical Engineering Journal, 2017, 327: 973-981 |
| [34] | LI J L, PENG Y Z, ZHANG L, et al. Improving efficiency and stability of anammox through sequentially coupling nitritation and denitritation in a single-stage bioreactor[J]. Environmental Science & Technology, 2020, 54(17): 10859-10867 |
| [35] | VLAEMINCK S E, TERADA A, SMETS B F, et al. Aggregate size and architecture determine microbial activity balance for one-stage partial nitritation and anammox[J]. Applied and Environmental Microbiology, 2010, 76(3): 900-909 |
| [36] | WANG L, ZHENG P, XING Y T, et al. Effect of particle size on the performance of autotrophic nitrogen removal in the granular sludge bed reactor and microbiological mechanisms[J]. Bioresource Technology, 2014, 157: 240-246 |
| [37] | REN Y H, LI D, LI X K, et al. High-rate nitrogen removal and microbial community of an up-flow anammox reactor with ceramics as biomass carrier[J]. Chemosphere, 2014, 113: 125-131 |
| [38] | WANG X, WANG T, YUAN L Z, et al. One-step start-up and subsequent operation of CANON process in a fixed-bed reactor by inoculating mixture of partial nitrification and Anammox sludge[J]. Chemosphere, 2021, 275: 130075 |
| [39] | GONG Z, YANG F L, LIU S T, et al. Feasibility of a membrane-aerated biofilm reactor to achieve single-stage autotrophic nitrogen removal based on Anammox[J]. Chemosphere, 2007, 69(5): 776-784 |
| [40] | 武文君, 刘秀红, 崔斌, 等. 溶解氧对Anammox滤池内功能菌群及活性的影响[J]. 中国环境科学. 2021, 41(3): 1415-1421. |
| [41] | JIANG H, PENG Y Z, LI X Y, et al. Advanced nitrogen removal from mature landfill leachate via partial nitrification-Anammox biofilm reactor (PNABR) driven by high dissolved oxygen (DO): Protection mechanism of aerobic biofilm[J]. Bioresource Technology, 2020, 306: 123119 |
| [42] | WINKLER M K H, KLEEREBEZEM R, KUENEN J G, et al. Segregation of biomass in cyclic anaerobic/aerobic granular sludge allows the enrichment of anaerobic ammonium oxidizing bacteria at low temperatures[J]. Environmental Science & Technology, 2011, 45(17): 7330-7337 |
| [43] | VANGSGAARD A K, MAURICIO-IGLESIAS M, GERNAEY K V, et al. Sensitivity analysis of autotrophic N removal by a granule based bioreactor: Influence of mass transfer versus microbial kinetics[J]. Bioresource Technology, 2012, 123: 230-241 |
| [44] | 杨庆, 周桐, 刘秀红, 等. 常温下接种回流污泥实现BAF一体化自养脱氮工艺[J]. 化工学报. 2017, 68(5): 2081-2088. |
| [45] | AUGUSTO M R, CAMILOTI P R, SOUZA T S O D. Fast start-up of the single-stage nitrogen removal using anammox and partial nitritation (SNAP) from conventional activated sludge in a membrane-aerated biofilm reactor[J]. Bioresource Technology, 2018, 266: 151-157 |
| [46] | CHEN H, LIU S T, YANG F L, et al. The development of simultaneous partial nitrification, ANAMMOX and denitrification (SNAD) process in a single reactor for nitrogen removal[J]. Bioresource Technology, 2009, 100(4): 1548-1554 |
| [47] | 薛嘉俊, 张绍青, 张立秋, 等. 火山岩填料曝气生物滤池的SNAD工艺启动特性及功能菌丰度演替[J]. 环境科学. 2020, 41(6): 2796-2804. |
| [48] | ZHANG Z P, ADAV S S, SHOW K, et al. Characteristics of rapidly formed hydrogen-producing granules and biofilms[J]. Biotechnology and Bioengineering, 2008, 101(5): 926-936 |
| [49] | PENG L, LIU Y W, NI B J. Nitrous oxide production in completely autotrophic nitrogen removal biofilm process: A simulation study[J]. Chemical Engineering Journal, 2016, 287: 217-224 |
| [50] | TERADA A, YAMAMOTO T, IGARASHI R, et al. Feasibility of a membrane-aerated biofilm reactor to achieve controllable nitrification[J]. Biochemical Engineering Journal, 2006, 28(2): 123-130 |
| [51] | LIU T, QUAN X, LI D. Evaluations of biofilm thickness and dissolved oxygen on single stage anammox process in an up-flow biological aerated filter[J]. Biochemical Engineering Journal, 2017, 119: 20-26 |
| [52] | STAR W R L, ABMA W R, BLOMMERS D, et al. Startup of reactors for anoxic ammonium oxidation: Experiences from the first full-scale anammox reactor in Rotterdam[J]. Water Research, 2007, 41(18): 4149-4163 |
| [53] | GILBERT E M, AGRAWAL S, SCHWARTZ T, et al. Comparing different reactor configurations for Partial Nitritation/Anammox at low temperatures[J]. Water Research, 2015, 81: 92-100 |
| [54] | PÉREZ J, PICIOREANU C,LOOSDRECHT M. Modeling biofilm and floc diffusion processes based on analytical solution of reaction-diffusion equations[J]. Water Research, 2005, 39(7): 1311-1323 |
| [55] | WINKLER M K H, KLEEREBEZEM R, LOOSDRECHT M C M. Integration of anammox into the aerobic granular sludge process for main stream wastewater treatment at ambient temperatures[J]. Water Research, 2012, 46(1): 136-144 |
| [56] | LI J L, PENG Y Z, ZHANG Q, et al. Rapid enrichment of anammox bacteria linked to floc aggregates in a single-stage partial nitritation-anammox process: Providing the initial carrier and anaerobic microenvironment[J]. Water Research, 2021, 191: 116807 |
| [57] | MIAO Y Y, ZHANG L, YANG Y D, et al. Start-up of single-stage partial nitrification-anammox process treating low-strength swage and its restoration from nitrate accumulation[J]. Bioresource Technology, 2016, 218: 771-779 |
| [58] | CHU Z R, WANG K, LI X K, et al. Microbial characterization of aggregates within a one-stage nitritation–anammox system using high-throughput amplicon sequencing[J]. Chemical Engineering Journal, 2015, 262: 41-48 |
| [59] | LAURENI M, WEISSBRODT D G, VILLEZ K, et al. Biomass segregation between biofilm and flocs improves the control of nitrite-oxidizing bacteria in mainstream partial nitritation and anammox processes[J]. Water Research, 2019, 154: 104-116 |
| [60] | YANG S H, PENG Y Z, ZHANG L, et al. Autotrophic nitrogen removal in an integrated fixed-biofilm activated sludge (IFAS) reactor: Anammox bacteria enriched in the flocs have been overlooked[J]. Bioresource Technology, 2019, 288: 121512 |
| [61] | ZHANG L, ZHANG S J, PENG Y Z, et al. Nitrogen removal performance and microbial distribution in pilot- and full-scale integrated fixed-biofilm activated sludge reactors based on nitritation-anammox process[J]. Bioresource Technology, 2015, 196: 448-453 |
| [62] | ANJALI G, SABUMON P C. Development of simultaneous partial nitrification, anammox and denitrification (SNAD) in a non-aerated SBR[J]. International Biodeterioration & Biodegradation, 2017, 119: 43-55 |
| [63] | WANG C, LIU S T, XU X C, et al. Achieving mainstream nitrogen removal through simultaneous partial nitrification, anammox and denitrification process in an integrated fixed film activated sludge reactor[J]. Chemosphere, 2018, 203: 457-466 |