The use of metallurgical waste for heterogeneous photo Fenton-Like treatment of cosmetic effluent

Andrade, Pryscilla Martins de; Dufrayer, Carlos Rafael; Ionashiro, E. Y.; Brito, Núbia Natália de

doi:10.1016/j.jece.2020.104148

Cited by 20 publications

(8 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The analysis of the residue indicated that about 11% of the mass of the organic materials was still adsorbed onto the residue. The FTIR analysis of the solid sample indicated that the adsorbed organic compound is potentially paraffin, which matches the type of effluent released by the cosmetics industry (de Andrade et al 2020 ).…”

Section: Cosmetic Treatment Technologiesmentioning

confidence: 74%

Cosmetic wastewater treatment technologies: a review

Gkika

Mitropoulos

Lambropoulou

et al. 2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

Over the past three decades, environmental concerns about the water pollution have been raised on societal and industrial levels. The presence of pollutants stemming from cosmetic products has been documented in wastewater streams outflowing from industrial as well as wastewater treatment plants. To this end, a series of consistent measures should be taken to prevent emerging contaminants of water resources. This need has driven the development of technologies, in an attempt to mitigate their impact on the environment. This work offers a thorough review of existing knowledge on cosmetic wastewater treatment approaches, including, coagulation, dissolved air flotation, adsorption, activated sludge, biodegradation, constructed wetlands, and advanced oxidation processes. Various studies have already documented the appearance of cosmetics in samples retrieved from wastewater treatment plants (WWTPs), which have definitely promoted our comprehension of the path of cosmetics within the treatment cycle; however, there are still multiple blanks to our knowledge. All treatments have, without exception, their own limitations, not only cost-wise, but also in terms of being feasible, effective, practical, reliable, and environmentally friendly. Graphical abstract

show abstract

Section: Cosmetic Treatment Technologiesmentioning

confidence: 74%

Cosmetic wastewater treatment technologies: a review

Gkika

Mitropoulos

Lambropoulou

et al. 2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

show abstract

“…In the most recently published articles in the portfolio, it was possible to verify that researchers have been investigating new materials that can be combined with catalysts of recognized quality in the photocatalytic treatment of compounds and wastes in order to enhance the process (De Andrade et al., 2020; Grassi et al., 2020; Singh & Garg., 2020).…”

Section: Resultsmentioning

confidence: 99%

Heterogeneous alternative catalysts: A bibliometric and systematic evaluation of their application in solar photocatalytic processes

Cahino

Rocha

Vidal

et al. 2022

Environmental Quality Mgmt

View full text Add to dashboard Cite

The present study sought to objectively demonstrate how a researcher can, in a structured way, select relevant articles about alternative heterogeneous catalysts in photocatalytic processes. Therefore, the ProKnow-C (Knowledge Development Process -Constructivist) method was used to systematize the results found, with the application bibliometric and systematic analysis techniques for the evaluation of the results. The search string adopted as criteria was: solar photocatalysis AND heterogeneous catalysts OR alternative catalysts AND effluents. The databases were Web of Science, Science Direct and Scopus. The final bibliographic portfolio obtained for the research theme was made up of 19 articles. It was possible to verify advances in the number of publications on the theme over the evaluated period, with the Journal of Photochemistry and Photobiology A: Chemistry standing out in the final portfolio.Evaluating each article in the portfolio individually, it was possible to verify that most studies use combinations of catalysts already reported to create an alternative material to those already investigated in the literature. Those that use waste as catalysts chose to source this material from treatment plants and the steel industry. Around 58% of the papers used hydrogen peroxide in their processes, while 42% chose not to use it.Finally, approximately 63% of the papers in the portfolio used synthetic effluent in their processes, while the rest (37% of the research) chose to use real effluent. The results obtained in this research by applying the method can contribute to studies related to heterogeneous photocatalysis by alternative means over the years.

show abstract

“…Fenton's reagent removes or degrades a wide variety of contaminants in an aqueous solution either alone or in combination with other processes. Fenton process was successfully used in textile (Arslan-Alaton et al, 2007;Liu et al, 2007;Nadeem et al, 2020), pharmaceutical (Martıńez et al, 2003;Molina et al, 2020), dyeing (Gulkaya et al, 2006;Wang, 2008;Salgado et al, 2020), olive oil mills (Rivas et al, 2001;Beltrań-Heredia et al, 2001;RuÃz-Delgado et al, 2020), oil (Sivagami et al, 2019;Gamaralalage et al, 2019), and cosmetics industries (Bautista et al, 2007;De Andrade et al, 2020), as well as in the reduction of polynuclear aromatic hydrocarbons (Beltrań et al, 1998;Singa et al, 2021), the treatment of brines (Rivas et al, 2003), the degradation of phenol and bisphenols (Carriazo et al, 2005;Zulfiqar et al, 2021), the treatment of effluent from herbicides and pesticides production industry (Sangami and Manu, 2017;Zhao and Zhang, 2021), the treatment of landfill leachates (Tejera et al, 2021;Filho et al, 2021), the degradation of recalcitrant oil spill components anthracene and pyrene (Sekar and DiChristina, 2017;RuÃz-Delgado et al, 2020), the inactivation of Escherichia coli K12 (Rivas et al, 2001), the treatment of recalcitrant industrial wastewater (Cai et al, 2021), and the treatment of high-molecular-weight melanoidin molecules (Raji et al, 2021). More details about Fenton technology for the treatment of recalcitrant organic molecules in several industries can be checked out in our recently published book chapter (Hamd and Dutta, 2020).…”

Section: Application Of Aops For Degradation Of Microplasticsmentioning

confidence: 99%

Recent Advances in Photocatalytic Removal of Microplastics: Mechanisms, Kinetic Degradation, and Reactor Design

Hamd

Daher

Tofa³

et al. 2022

Front. Mar. Sci.

View full text Add to dashboard Cite

Plastic products are used in almost all aspects of our daily life. Due to their low cost, portability, durability, and resistance to degradation, these products are affecting the health of the environment and biota on a global scale. Thus, the removal and mineralization of microplastics is an important challenge in the 21st century. Advanced oxidation processes (AOPs) have recently been identified as a viable treatment technique for tackling recalcitrant organic molecules and polymers. However, information on kinetic degradation mechanisms and photocatalytic reactor design is insufficient. This review discusses the fundamentals of photocatalysis and photo-Fenton processes in addition to the photocatalytic degradation mechanisms. We also introduce different characterization techniques of the major microplastic pollutants such as PE, PP, PVC, PS, PMMA, and PA66. In addition, a detailed overview of the major existing photocatalytic plants and the scaling-up methods of photoreactors are discussed.

show abstract

The use of metallurgical waste for heterogeneous photo Fenton-Like treatment of cosmetic effluent

Cited by 20 publications

References 39 publications

Cosmetic wastewater treatment technologies: a review

Cosmetic wastewater treatment technologies: a review

Heterogeneous alternative catalysts: A bibliometric and systematic evaluation of their application in solar photocatalytic processes

Recent Advances in Photocatalytic Removal of Microplastics: Mechanisms, Kinetic Degradation, and Reactor Design

Contact Info

Product

Resources

About