Add to ORKGIron-based disinfection has been promoted as a potential low-cost, low-byproduct means of virus mitigation. This research is the first to establish that virus inactivation due to ferrous iron is impacted both by the extent of iron oxidation (from ferrous to ferric iron) and the rate of iron oxidation. Log inactivation of bacteriophages increased linearly with ferrous iron concentration at low doses (\u3c 3 mg/L Fe), but higher doses limited disinfection, likely due to floc formation. The rate of iron oxidation was controlled by independently varying pH and dissolved oxygen concentration. Bacteriophage inactivation increased with the inverse of ferrous oxidation rate, suggesting that slower iron oxidation rates allow better contact between v...
Laboratory studies were performed to determine if the addition of iron oxides throughout biosand fil...
This study demonstrated that the bacteria could adsorb Fe3+ and reduce Fe3+ to Fe2+. Iron had signif...
Iron is an essential micronutrient for phytoplankton metabolism that limits growth in many regions o...
Iron-based disinfection has been promoted as a potential low-cost, low-byproduct means of virus miti...
Emerging water treatment technologies using ferrous and zero-valent iron show promising virus mitiga...
Electrochemical water treatment is gaining increasing popularity due to its wide range of potential ...
The proliferative capability of many invasive pathogens is limited by the bioavailability of iron. P...
Electrochemical ferrous iron (Fe2+) wastewater treatment is gaining momentum for treating municipal ...
Iron(VI) and iron(V), known as ferrates, are powerful oxidants and their reactions with pollutants a...
Due to the quick growth in human population and subsequently a high rate of urbanization, fresh wate...
Ferrate (Fe(VI)) has high potentials as a multi-purpose water treatment chemical acting as an oxidan...
Control of toxic or carcinogenic disinfection byproduct (DBP) formation in drinking water is critica...
In a global context of ever increasing population, climate change, and freshwater quality deteriorat...
Bacteriophages are viruses that attack and usually kill bacteria. Their appearance in the industrial...
Iron electrocoagulation (Fe-EC) is a low-cost process in which Fe(II) generated from an Fe(0) anode ...
Laboratory studies were performed to determine if the addition of iron oxides throughout biosand fil...
This study demonstrated that the bacteria could adsorb Fe3+ and reduce Fe3+ to Fe2+. Iron had signif...
Iron is an essential micronutrient for phytoplankton metabolism that limits growth in many regions o...
Iron-based disinfection has been promoted as a potential low-cost, low-byproduct means of virus miti...
Emerging water treatment technologies using ferrous and zero-valent iron show promising virus mitiga...
Electrochemical water treatment is gaining increasing popularity due to its wide range of potential ...
The proliferative capability of many invasive pathogens is limited by the bioavailability of iron. P...
Electrochemical ferrous iron (Fe2+) wastewater treatment is gaining momentum for treating municipal ...
Iron(VI) and iron(V), known as ferrates, are powerful oxidants and their reactions with pollutants a...
Due to the quick growth in human population and subsequently a high rate of urbanization, fresh wate...
Ferrate (Fe(VI)) has high potentials as a multi-purpose water treatment chemical acting as an oxidan...
Control of toxic or carcinogenic disinfection byproduct (DBP) formation in drinking water is critica...
In a global context of ever increasing population, climate change, and freshwater quality deteriorat...
Bacteriophages are viruses that attack and usually kill bacteria. Their appearance in the industrial...
Iron electrocoagulation (Fe-EC) is a low-cost process in which Fe(II) generated from an Fe(0) anode ...
Laboratory studies were performed to determine if the addition of iron oxides throughout biosand fil...
This study demonstrated that the bacteria could adsorb Fe3+ and reduce Fe3+ to Fe2+. Iron had signif...
Iron is an essential micronutrient for phytoplankton metabolism that limits growth in many regions o...