Plaster of Paris containing zero valent iron particles: Designing a permeable reactive barrier, used for remediation of 4-nitroaniline pollution

Abstract: Permeable reactive barrier (PRB) containing zero valent iron (ZVI), plaster and additives to make a porous composite structure, was tested to remove an organic nitro compound as model pollutant. An aqueous solution of 4-nitroaniline (PNA) was passed through a porous plaster column and chemical degradation quantified by UV-Vis spectroscopy. PNA was reduced to p-phenylenediamine and the rate of the reduction was strongly related to ZVI amount, pollutant volume, and the contact rate with the metal particles. The … Show more

“…It is also more economical and does not require additional treatment. Previous studies have extensively studied the use of zero-valent iron in wastewater treatment, showcasing its effectiveness in treating difficult wastewater, such as that contaminated with arsenic, phenol, dyes, and nitrate-eutrophicated water [8,15,16]. In recent years, nanometer zero-valent iron (nZVI) has gained attention due to its finer particle size, larger specific surface area, higher reactivity, and easy oxidization.…”

“…Despite these drawbacks, the iron reduction method remains a popular choice as it does not have any specific environ-mental requirements other than pH regulation. Currently, there are several improvement measures that have been proposed, suggesting that using zero-valent iron with auxiliary methods to remove nitrate from water is an emerging research area [14][15][16].…”

Water Purification Using Active Charcoal with Microbes and Chelated Iron Soaked into Its Micropores

“…It is also more economical and does not require additional treatment. Previous studies have extensively studied the use of zero-valent iron in wastewater treatment, showcasing its effectiveness in treating difficult wastewater, such as that contaminated with arsenic, phenol, dyes, and nitrate-eutrophicated water [8,15,16]. In recent years, nanometer zero-valent iron (nZVI) has gained attention due to its finer particle size, larger specific surface area, higher reactivity, and easy oxidization.…”

“…Despite these drawbacks, the iron reduction method remains a popular choice as it does not have any specific environ-mental requirements other than pH regulation. Currently, there are several improvement measures that have been proposed, suggesting that using zero-valent iron with auxiliary methods to remove nitrate from water is an emerging research area [14][15][16].…”

Water Purification Using Active Charcoal with Microbes and Chelated Iron Soaked into Its Micropores