Water Treatment Plant Prototype with pH Control Modeled on Fuzzy Logic for Removing Arsenic Using Fe(VI) and Fe(III)

Water Treatment Plant Prototype with pH Control Modeled on Fuzzy Logic for Removing Arsenic Using Fe(VI) and Fe(III)

This study proposes a fuzzy control strategy embedded in a Siemens IoT2040 gateway developed for removing inorganic arsenic from synthetic underground water in a treatment plant prototype. The prototype is used to dose a constant flow of Fe(VI) to maintain an oxide-reduction potential to guarantee t...

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Veröffentlicht in:Water (Basel) 2020-10, Vol.12 (10), p.2834
Hauptverfasser: Larroca, Fabricio Paredes, Olschewski, Erich Saettone, Quino-Favero, Javier, Huamaní, Jimmy Rosales, Castillo Sequera, José Luis
Format: Artikel
Sprache:eng
Schlagworte:
Arsenates
Arsenic
Arsenic removal
Arsenite
By products
Control algorithms
Drinking water
Endangered & extinct species
Fuzzy logic
Groundwater
Iron
Oxidation
Pollutant removal
Water treatment
Water treatment plants
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Beschreibung
Zusammenfassung:This study proposes a fuzzy control strategy embedded in a Siemens IoT2040 gateway developed for removing inorganic arsenic from synthetic underground water in a treatment plant prototype. The prototype is used to dose a constant flow of Fe(VI) to maintain an oxide-reduction potential to guarantee the oxidation of arsenite into arsenate, while the fuzzy logic embedded in the IoT control manages the addition of Fe(III) to achieve a proper pH adjustment and efficient arsenate removal. The tests used synthetic Bangladesh groundwater enriched with 200 µg/L of arsenite and 200 µg/L of arsenate. The results revealed that the plant prototype yielded an effective treatment of the water. Arsenate was decreased to an average value of 6.66 µg/L and, the arsenite concentration decreased to 1.01 µg/L or less. These values were lower than the limit of 10 µg/L deemed by the World Health Organization as safe for human consumption.
ISSN:2073-4441
2073-4441
DOI:10.3390/w12102834