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Journal Abstract Search

119 related items for PubMed ID: 36403846

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  • 4. [Inhibitory Effect of Phenol on Phosphorus Removal Performance of an EBPR System].
    Ma J, Wang J, Yu XJ, Zhou M, Li GY, Sun HW.
    Huan Jing Ke Xue; 2018 Aug 08; 39(8):3775-3781. PubMed ID: 29998686
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  • 5. Diclofenac inhibited the biological phosphorus removal: Performance and mechanism.
    Zhao J, Xin M, Zhang J, Sun Y, Luo S, Wang H, Wang Y, Bi X.
    Chemosphere; 2020 Mar 08; 243():125380. PubMed ID: 31760293
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  • 6. High-temperature EBPR process: the performance, analysis of PAOs and GAOs and the fine-scale population study of Candidatus "Accumulibacter phosphatis".
    Ong YH, Chua ASM, Fukushima T, Ngoh GC, Shoji T, Michinaka A.
    Water Res; 2014 Nov 01; 64():102-112. PubMed ID: 25046374
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  • 7. [Startup, stable operation and process failure of EBPR system under the low temperature and low dissolved oxygen condition].
    Ma J, Li L, Yu XJ, Wei XF, Liu JL.
    Huan Jing Ke Xue; 2015 Feb 01; 36(2):597-603. PubMed ID: 26031088
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  • 8. Side-stream enhanced biological phosphorus removal (S2EBPR) process improves system performance - A full-scale comparative study.
    Wang D, Tooker NB, Srinivasan V, Li G, Fernandez LA, Schauer P, Menniti A, Maher C, Bott CB, Dombrowski P, Barnard JL, Onnis-Hayden A, Gu AZ.
    Water Res; 2019 Dec 15; 167():115109. PubMed ID: 31585384
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  • 9. Species of phosphorus in the extracellular polymeric substances of EBPR sludge.
    Zhang HL, Fang W, Wang YP, Sheng GP, Xia CW, Zeng RJ, Yu HQ.
    Bioresour Technol; 2013 Aug 15; 142():714-8. PubMed ID: 23751808
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  • 10. Biological phosphorus removal and its microbial community in a modified full-scale activated sludge system under dry and wet weather dynamics.
    Brown P, Ikuma K, Ong SK.
    Water Res; 2022 Jun 15; 217():118338. PubMed ID: 35397371
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  • 11. Characteristics of enhanced biological phosphorus removal (EBPR) process under the combined actions of intracellular and extracellular polyphosphate.
    Long XY, Tang R, Wang T, Tao GJ, Wang JY, Zhou HW, Xue M, Yu YP.
    Chemosphere; 2021 Sep 15; 279():130912. PubMed ID: 34134440
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  • 13. Roles of extracellular polymeric substances in enhanced biological phosphorus removal process.
    Li WW, Zhang HL, Sheng GP, Yu HQ.
    Water Res; 2015 Dec 01; 86():85-95. PubMed ID: 26143588
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  • 14. Functional bacteria and process metabolism of the Denitrifying Sulfur conversion-associated Enhanced Biological Phosphorus Removal (DS-EBPR) system: An investigation by operating the system from deterioration to restoration.
    Guo G, Wu D, Hao T, Mackey HR, Wei L, Wang H, Chen G.
    Water Res; 2016 May 15; 95():289-99. PubMed ID: 27010789
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  • 15. Strategies to attenuate ciprofloxacin inhibition on enhanced biological phosphorus removal from wastewater and its recoverability.
    Wang R, Lou J, Cai J.
    J Environ Manage; 2024 Mar 15; 354():120456. PubMed ID: 38412731
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  • 16. Flocs in disguise? High granule abundance found in continuous-flow activated sludge treatment plants.
    Wei SP, Stensel HD, Nguyen Quoc B, Stahl DA, Huang X, Lee PH, Winkler MH.
    Water Res; 2020 Jul 15; 179():115865. PubMed ID: 32388048
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  • 17. Effect of Mn2+ on the phosphorus removal and bioflocculation under anoxic condition.
    Xu X, Zhang L, Zhang X, Guan X, Wei D.
    J Environ Sci (China); 2022 May 15; 115():37-46. PubMed ID: 34969464
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  • 18. A comparative study of the bacterial community in denitrifying and traditional enhanced biological phosphorus removal processes.
    Lv XM, Shao MF, Li CL, Li J, Gao XL, Sun FY.
    Microbes Environ; 2014 Sep 17; 29(3):261-8. PubMed ID: 24964811
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  • 19. [Effect of Temperature on PAO Activity and Substrate Competition].
    Zhang L, Peng DC, Chang D.
    Huan Jing Ke Xue; 2017 Jun 08; 38(6):2429-2434. PubMed ID: 29965362
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