Reference | Type of wastewater | Anode-cathode | Removal efficiency |
Warren, R et al. (2018) | Metals | Fe-Fe | Fe (99.17%), Mn (99.97%), |
Naraghi et al. (2018) | Reactive dyes | Fe-Fe | 96% (Color) |
P. Mahammedrafi, et al. (2018) | Fluoride ions | Fe-Fe | 91% fluoride ions |
Francisco, P et al. (2017) | Whey acids | Al-Fe, graphite and Ti/RuO2 | 79% - 49% contaminants |
LiR et al. (2017) | Landfill Leachate | Al-Al | 99% - 91% |
Bejjany, B et al. (2017) | Internal loop airlift | Al-Al | 70% - 87% energy consumption |
Hariraj, S. et al. (2017) | Removal of suspended solids and metals from synthetic water | Al-Al | 76.6%, and reduced rates of 99%, 59.2%, and 82.1%, for Cu, Cr, and Zn |
Shobhan, M. et al. (2017) | Textile mill | (SS-Ti)-(Al-Ti) | 90% - 78% (Color) |
Seyed Ali et al. (2017) | Remazol Black B Dye | Al-Al, Fe-Fe | 99% - 91% (Color) |
Maghanga, J. et al. (2017) | Reactive Black 5 | SS-SS | 99.4% (Color) |
Jorge, V et al. (2017) | Palm Oil Mill, Paint Wastewater | Fe-Fe | 65% and 76% Total Suspended and Dissolved Solids |
Alimohammadi, M et al. (2017) | Natural organic matter | Al-Al, Fe-Fe | 100% (Color) |
Abubaker T et al. (2017) | Tannery | aluminum nanoparticles | 98.98%, 90.6%, 70.40%, 99.9% and 88.3% of Turbidity, COD, TDS, Chromium and Sulphide |
Joseph, T. et al. (2017) | Abattoir | Fe-Fe | 93% (Color) |
Nasser, G .et al. (2017) | Herbicide oxyfluorfen, COD | Fe-Fe., S.S-S.S, Fe-Fe | (98.5% - 90%, 99.2% - 85%, 96.1% - 70.5% (Color, COD) |
Manoel É et al. (2016) | Dye yellow Sirius | Al-Al | 95% (Color) |
Murat Eyvaz (2016) | Brewing industry | Al-Al, Fe-Fe |
|
Vidal, J et al. (2016) | Acid Black 194 | Fe-Fe | 100% (Color) |
Anmoldeep, S et al. (2016) | Brilliant Green, Bromo blue and Brilliant blue | Fe-Fe | 100% (Color) |