Effect of surfactants on the degradation of perfluorooctanoic acid (PFOA) by ultrasonic (US) treatment

Lin, Jo Chen; Hu, Ching Yao; Lo, Shang Lien

doi:10.1016/j.ultsonch.2015.07.007

Cited by 85 publications

(20 citation statements)

References 48 publications

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“…(ii) investigating ultrasound in combination with different chemicals to increase efficiency (i.e. O 3 , H 2 O 2 , Fenton's reagent, persulfate oxidant, surfactants, zero valent iron) (Lim et al, 2014;Hao et al, 2014;Lin et al, 2016;Prado et al, 2017);…”

Section: Sonolysis and Hydrodynamic Cavitationmentioning

confidence: 99%

Consolidated vs new advanced treatment methods for the removal of contaminants of emerging concern from urban wastewater

Rizzo

Malato

Antakyalı

et al. 2019

Science of The Total Environment

643

248

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Section: Sonolysis and Hydrodynamic Cavitationmentioning

confidence: 99%

Consolidated vs new advanced treatment methods for the removal of contaminants of emerging concern from urban wastewater

Rizzo

Malato

Antakyalı

et al. 2019

Science of The Total Environment

643

248

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show abstract

“…In addition to these techniques, other methods have been tested to treat PFAS contaminated water streams, although some of them still need to be assessed on a field-scale level or require harsh conditions and high doses of other reagents. Some examples are represented by electrochemical oxidation (with ozone, ammonium persulfate or hydrogen peroxide/Fenton reagent) [273][274][275], plasma treatment (high voltage electrical discharges generating free radical species) [276], sonolysis (mineralization through highfrequency ultrasound) [277] and foam fractionation (sequestration of PFAS into air or ozone bubbles formed at the air-water interface) [278].…”

Section: Remediation Technologies For Treatment Of Pfas-contaminated ...mentioning

confidence: 99%

PFAS Molecules: A Major Concern for the Human Health and the Environment

Panieri

Baralić

Đukić-Ćosić

et al. 2022

Toxics

221

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Per- and polyfluoroalkyl substances (PFAS) are a group of over 4700 heterogeneous compounds with amphipathic properties and exceptional stability to chemical and thermal degradation. The unique properties of PFAS compounds has been exploited for almost 60 years and has largely contributed to their wide applicability over a vast range of industrial, professional and non-professional uses. However, increasing evidence indicate that these compounds represent also a serious concern for both wildlife and human health as a result of their ubiquitous distribution, their extreme persistence and their bioaccumulative potential. In light of the adverse effects that have been already documented in biota and human populations or that might occur in absence of prompt interventions, the competent authorities in matter of health and environment protection, the industries as well as scientists are cooperating to identify the most appropriate regulatory measures, substitution plans and remediation technologies to mitigate PFAS impacts. In this review, starting from PFAS chemistry, uses and environmental fate, we summarize the current knowledge on PFAS occurrence in different environmental media and their effects on living organisms, with a particular emphasis on humans. Also, we describe present and provisional legislative measures in the European Union framework strategy to regulate PFAS manufacture, import and use as well as some of the most promising treatment technologies designed to remediate PFAS contamination in different environmental compartments.

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“…The approach investigated most extensively is sorption. A broad range of sorbents, such as activated carbon (AC), ion exchange resins, minerals, carbon nanotubes, biochar, and molecularly imprinted polymers have been tested for use in PFAS removal from different environmental media. − Besides sorption, other reported techniques, such as coagulation and flocculation, − membrane filtration, − chemical reactions, ,− and biodegradation − are still at different research stages.…”

Section: Introductionmentioning

confidence: 99%

Destruction of Perfluoroalkyl Acids Accumulated in Typha latifolia through Hydrothermal Liquefaction

Zhang

Cao

Subramanya

et al. 2020

ACS Sustainable Chem. Eng.

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To investigate whether hydrothermal liquefaction (HTL) could degrade perfluoroalkyl acids (PFAAs) accumulated in plant biomass, we first evaluated degradation of individual and mixed PFAAs in pure aqueous solutions. It was found that all five perfluorocarboxylic acids (PFCAs) were removed completely after 2 h at 300 °C. Three perfluorosulfonic acids (PFSAs) had removal efficiencies of less than 20%. With the amendment of KOH, however, the removal of PFSAs by HTL increased significantly to 85.9 ± 1.2%. HTL also removed PFAAs accumulated in common cattails (Typha latifolia). Regarding PFCAs, nearly 100% disappearance after HTL was observed. Specific to perfluorooctanesulfonic acid (PFOS), one of the PFSAs, the removal of this compound in roots was 98.4%. For shoots, it was 49.7%. These promising results point to the need for further investigation so that HTL can be optimized to handle biomass of plants used for phytoremediation of PFAS.

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Effect of surfactants on the degradation of perfluorooctanoic acid (PFOA) by ultrasonic (US) treatment

Cited by 85 publications

References 48 publications

Consolidated vs new advanced treatment methods for the removal of contaminants of emerging concern from urban wastewater

Consolidated vs new advanced treatment methods for the removal of contaminants of emerging concern from urban wastewater

PFAS Molecules: A Major Concern for the Human Health and the Environment

Destruction of Perfluoroalkyl Acids Accumulated in Typha latifolia through Hydrothermal Liquefaction

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