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Journal Abstract Search

259 related items for PubMed ID: 32460268

  • 21. Interrelation between sulphur and conductive materials and its impact on ammonium and organic pollutants removal in electroactive wetlands.
    Srivastava P, Abbassi R, Yadav AK, Garaniya V, Lewis T, Zhao Y, Aminabhavi T.
    J Hazard Mater; 2021 Oct 05; 419():126417. PubMed ID: 34174621
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  • 22. Effect of vegetation type on treatment performance and bioelectric production of constructed wetland modules combined with microbial fuel cell (CW-MFC) treating synthetic wastewater.
    Saz Ç, Türe C, Türker OC, Yakar A.
    Environ Sci Pollut Res Int; 2018 Mar 05; 25(9):8777-8792. PubMed ID: 29327193
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  • 23. The race between classical microbial fuel cells, sediment-microbial fuel cells, plant-microbial fuel cells, and constructed wetlands-microbial fuel cells: Applications and technology readiness level.
    Gupta S, Patro A, Mittal Y, Dwivedi S, Saket P, Panja R, Saeed T, Martínez F, Yadav AK.
    Sci Total Environ; 2023 Jun 25; 879():162757. PubMed ID: 36931518
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  • 24. Bioenergy generation and simultaneous nitrate and phosphorus removal in a pyrite-based constructed wetland-microbial fuel cell.
    Ge X, Cao X, Song X, Wang Y, Si Z, Zhao Y, Wang W, Tesfahunegn AA.
    Bioresour Technol; 2020 Jan 25; 296():122350. PubMed ID: 31744666
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  • 26. A taxonomy of design factors in constructed wetland-microbial fuel cell performance: A review.
    Ebrahimi A, Sivakumar M, McLauchlan C.
    J Environ Manage; 2021 Aug 01; 291():112723. PubMed ID: 33940362
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  • 28. Bioenergy generation and nitrogen removal in a novel ecological-microbial fuel cell.
    Liu S, Feng X, Xue H, Qiu D, Huang Z, Wang N.
    Chemosphere; 2021 Sep 01; 278():130450. PubMed ID: 33838413
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  • 29. Hybrid system up-flow constructed wetland integrated with microbial fuel cell for simultaneous wastewater treatment and electricity generation.
    Oon YL, Ong SA, Ho LN, Wong YS, Oon YS, Lehl HK, Thung WE.
    Bioresour Technol; 2015 Jun 01; 186():270-275. PubMed ID: 25836035
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  • 32. Electrode and azo dye decolorization performance in microbial-fuel-cell-coupled constructed wetlands with different electrode size during long-term wastewater treatment.
    Fang Z, Cao X, Li X, Wang H, Li X.
    Bioresour Technol; 2017 Aug 01; 238():450-460. PubMed ID: 28463809
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  • 33. Curbing per- and polyfluoroalkyl substances (PFASs): First investigation in a constructed wetland-microbial fuel cell system.
    Ji B, Zhao Y, Yang Y, Li Q, Man Y, Dai Y, Fu J, Wei T, Tai Y, Zhang X.
    Water Res; 2023 Feb 15; 230():119530. PubMed ID: 36577258
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  • 35. Electricity production from Azo dye wastewater using a microbial fuel cell coupled constructed wetland operating under different operating conditions.
    Fang Z, Song HL, Cang N, Li XN.
    Biosens Bioelectron; 2015 Jun 15; 68():135-141. PubMed ID: 25562740
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  • 36. Recycled utilization of ryegrass litter in constructed wetland coupled microbial fuel cell for carbon-limited wastewater treatment.
    Tao Z, Jing Z, Tao M, Chen R.
    Chemosphere; 2022 Sep 15; 302():134882. PubMed ID: 35551945
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  • 40. Contaminants removal and bacterial activity enhancement along the flow path of constructed wetland microbial fuel cells.
    Hartl M, Bedoya-Ríos DF, Fernández-Gatell M, Rousseau DPL, Du Laing G, Garfí M, Puigagut J.
    Sci Total Environ; 2019 Feb 20; 652():1195-1208. PubMed ID: 30586806
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