Add to ORKGFerric (Fe3+) salt dosing is an efficient sulfide control strategy in the sewer network, with potential for multiple benefits including phosphorus removal in the biological reactors and sulfide emission control in the anaerobic digesters of wastewater treatment plant (WWTP). This paper extends the knowledge on the benefit of iron dosing by exploring its impact on the fate of organic micropollutants (MPs) in the wastewater using sewer reactors simulating a rising main sewer pipe. The sulfide produced by the sewer biofilms reacted with Fe3+ forming black colored iron sulfide (FeS). Among the selected MPs, morphine, methadone, and atenolol had \u3e90% initial rapid removal within 5 min of ferric dosing in the sewer reactor. The ultimate remova...
Iron and aluminium based coagulants are used in enormous amounts and play an essential role in urban...
Reusing waterworks aluminium (Al)- or iron (Fe)-sludge instead of chemical coagulants such as Al- or...
Summarization: In the present study, the use of trivalent iron (Fe3+), added as ferric chloride (FeC...
Ferric (Fe3+) salt dosing is an efficient sulfide control strategy in the sewer network, with potent...
Ferric (Fe) salt dosing is an efficient sulfide control strategy in the sewer network, with potentia...
Ferric (Fe3+) salt dosing is an efficient sulfide control strategy in the sewer network, with potent...
© 2020 Elsevier Ltd This study demonstrates the full scale application of iron dosing in a metropoli...
The addition of iron salts to mitigate sulfide-related odour and corrosion in sewers is widely appli...
Discharging drinking water treatment sludge (DWTS) to sewers could be an efficient waste management ...
Dosage of iron salt is the most commonly used method for sulfide control in sewer networks but incur...
Chemical phosphorus (P) removal during aerobic wastewater treatment induced by iron salt addition in...
The addition of ferrous salts is a commonly used strategy for sulfide control in sewer networks. The...
The addition of iron salts to sewers for sulfide control has a significant impact on downstream wast...
For the control of sulfide and methane in sewers, it is favorable to reduce their production rather ...
2019 Elsevier Ltd The use of coagulants and flocculants in the water and wastewater industry is pred...
Iron and aluminium based coagulants are used in enormous amounts and play an essential role in urban...
Reusing waterworks aluminium (Al)- or iron (Fe)-sludge instead of chemical coagulants such as Al- or...
Summarization: In the present study, the use of trivalent iron (Fe3+), added as ferric chloride (FeC...
Ferric (Fe3+) salt dosing is an efficient sulfide control strategy in the sewer network, with potent...
Ferric (Fe) salt dosing is an efficient sulfide control strategy in the sewer network, with potentia...
Ferric (Fe3+) salt dosing is an efficient sulfide control strategy in the sewer network, with potent...
© 2020 Elsevier Ltd This study demonstrates the full scale application of iron dosing in a metropoli...
The addition of iron salts to mitigate sulfide-related odour and corrosion in sewers is widely appli...
Discharging drinking water treatment sludge (DWTS) to sewers could be an efficient waste management ...
Dosage of iron salt is the most commonly used method for sulfide control in sewer networks but incur...
Chemical phosphorus (P) removal during aerobic wastewater treatment induced by iron salt addition in...
The addition of ferrous salts is a commonly used strategy for sulfide control in sewer networks. The...
The addition of iron salts to sewers for sulfide control has a significant impact on downstream wast...
For the control of sulfide and methane in sewers, it is favorable to reduce their production rather ...
2019 Elsevier Ltd The use of coagulants and flocculants in the water and wastewater industry is pred...
Iron and aluminium based coagulants are used in enormous amounts and play an essential role in urban...
Reusing waterworks aluminium (Al)- or iron (Fe)-sludge instead of chemical coagulants such as Al- or...
Summarization: In the present study, the use of trivalent iron (Fe3+), added as ferric chloride (FeC...