Addition of a magnetite layer onto a polysulfone water treatment membrane to enhance virus removal

Raciny, I.; Zodrow, Katherine R.; Li, D.; Li, Q.; Alvarez, Pedro J. J.

doi:10.2166/wst.2011.551

Cited by 14 publications

(4 citation statements)

References 44 publications

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“…Various techniques as well are employed to facilitate the formation of the dynamic layer. These encompass methods such as immersion (Armendáriz-Ontiveros et al, 2020), dip-coating (Kyesmen et al, 2021;Parshetti & Doong, 2012), permeation drag (Usman et al, 2021;Raciny et al, 2011) and interfacial polymerization (IP) (Al-Hobaib et al, 2016), among others.…”

Section: Iron-containing Dynamic Membranesmentioning

confidence: 99%

Overview of Iron-Coated Dynamic Membrane for Water Treatment

Idriss,

Isah,

Lawan

et al. 2024

amplitudo

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The increasing global demand for clean and potable water has prompted the exploration of innovative water treatment technologies. Pre-deposited dynamic membrane systems, a novel approach in wastewater treatment, have gained attention due to their versatility and effectiveness. This mini-review focuses on the application of iron oxide-based dynamic membranes in water treatment processes. It discusses the impact, formation, properties, and various water treatment applications of iron oxide dynamic membranes, highlighting their potential to revolutionize the field of sustainable water treatment.

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Section: Iron-containing Dynamic Membranesmentioning

confidence: 99%

Overview of Iron-Coated Dynamic Membrane for Water Treatment

Idriss,

Isah,

Lawan

et al. 2024

amplitudo

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“… Polo et al (2015) Polysulfone membrane coated with magnetite Bacteriophage MS2 Coating with magnetite improves treatment performance up to 99.99% in the Log 4 region. Raciny et al (2011) Advanced bardenpho as a secondary treatment in a water plant Pepper mild mottle virus, Aichi virus, noroviruses, enterovirus, sapovirus, rotavirus, adenovirus and polyomaviruses When the advanced bardenpho was used as a secondary treatment in a water treatment plant, most pathogenic viruses were removed and it compared better to the conventional process. Schmitz et al (2016) Activated carbon modified with silver and copper oxide nanoparticles Bacteriophage T4 The modified porous media was able to achieve virus reduction in the region of Log 3.…”

Section: Management and Mitigation Strategiesmentioning

confidence: 99%

Assessment of socioeconomic inequality based on virus-contaminated water usage in developing countries: A review

Adelodun

Ajibade

Ighalo

et al. 2021

Environmental Research

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Water is an essential resource required for various human activities such as drinking, cooking, and other recreational activities. While developed nations have made significant improvement in providing adequate quality water and sanitation devoid of virus contaminations to a significant percentage of the residences, many of the developing countries are still lacking in these regards, leading to many death cases among the vulnerable due to ingestion of virus-contaminated water and other waterborne pathogens. However, the recent global pandemic of COVID-19 seems to have changed the paradigm by reawakening the importance of water quality and sanitation, and focusing more attention on the pervasive effect of the use of virus-contaminated water as it can be a potential driver for the spread of the virus and other waterborne diseases, especially in developing nations that are characterized by low socioeconomic development. Therefore, this review assessed the socioeconomic inequalities related to the usage of virus-contaminated water and other waterborne pathogens in developing countries. The socioeconomic factors attributed to the various waterborne diseases due to the use of virus-contaminated water in many developing countries are poverty, the standard of living, access to health care facilities, age, gender, and level of education. Some mitigation strategies to address the viral contamination of water sources are therefore proposed, while future scope and recommendations on tackling the essential issues related to socioeconomic inequality in developing nations are highlighted.

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“…A key point to consider when designing novel filtration methods is the design of filter coating methods in order to lower the required energy for filtration, as well as regenerate the adsorption surfaces [36]. Hence, filters have also been successfully modified with materials such as magnetite, silver, magnesium oxide and hydrophilic polymers [35][36][37][38]. Ceramic water filters which are based on size exclusion have becoming a point-of-use method of contaminant filtration for household use.…”

Section: Adsorbent Filtration Materialsmentioning

confidence: 99%