2021
DOI: 10.1021/acsestwater.1c00222
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Critical Factors Affecting the Level of Dissolved Manganese in Different Raw Water and its Removal at Water Treatment Plants

Abstract: Dissolved Mn concentration fluctuates a lot in source water, which presents a challenge for water treatment. It is crucial to identify the critical factors affecting the dissolved Mn level in source water and select appropriate treatment strategies for dissolved Mn removal. This study investigated four groups of water sources and water treatment plants (WTPs) and tracked Mn from water sources to WTPs. Results showed that the bottom sediments and porewater of both reservoirs and rivers all contained plentiful M… Show more

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Cited by 6 publications
(2 citation statements)
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“…Common oxidants used are oxygen, chlorine dioxide, ozone, and permanganate. , It is well known that Mn­(II) can precipitate in well-oxygenated water, however, the process is slow at circumneutral pH and may require a longer residence time or stronger oxidants to facilitate a quicker removal . Additional water quality parameters, such as DOC or reactive metals like Fe, that could inhibit Mn oxidation, must also be considered . Once the precipitation occurs, the suspended Mn­(III/IV) oxides must be removed via filtration.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Common oxidants used are oxygen, chlorine dioxide, ozone, and permanganate. , It is well known that Mn­(II) can precipitate in well-oxygenated water, however, the process is slow at circumneutral pH and may require a longer residence time or stronger oxidants to facilitate a quicker removal . Additional water quality parameters, such as DOC or reactive metals like Fe, that could inhibit Mn oxidation, must also be considered . Once the precipitation occurs, the suspended Mn­(III/IV) oxides must be removed via filtration.…”
Section: Discussionmentioning
confidence: 99%
“… 60 Additional water quality parameters, such as DOC or reactive metals like Fe, that could inhibit Mn oxidation, must also be considered. 61 Once the precipitation occurs, the suspended Mn(III/IV) oxides must be removed via filtration. Conventional media filtration is often sufficient to remove the suspended particles, but if direct oxidation results in the formation of ultrafine particles, membrane microfiltration or ultrafiltration may be required.…”
Section: Discussionmentioning
confidence: 99%