Irradiation-assisted electrochemical processes for the removal of persistent organic pollutants from wastewater

Vidales, María J. Martín de; Sáez, Cristina; Pérez, J.F.; Cotillas, Salvador; Llanos, Javier; Cañizares, Pablo

doi:10.1007/s10800-015-0825-0

Cited by 48 publications

(44 citation statements)

References 45 publications

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“…In order to clarify this point, Figure 6 compares the synergistic effect (estimated according to equation 14) of the electro-irradiated treatment of AMX and AMP solutions and of other compounds previously studied in the literature [32,51] under similar operation conditions. In light of the obtained results, it can be said that although irradiation by UV light or US generates SO 4 and Cl species, and also promotes the formation of OH, this is not reflected in an improvement of the degradation process.…”

Section: Resultsmentioning

confidence: 99%

The Role of Mediated Oxidation on the Electro-irradiated Treatment of Amoxicillin and Ampicillin Polluted Wastewater

et al. 2018

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In this work, the electrolysis, photoelectrolysis and sonoelectrolysis with diamond electrodes of amoxicillin (AMX) and ampicillin (AMP) solutions were studied in the context of the search for technologies capable of removing antibiotics from liquid wastes. Single-irradiation processes (sonolysis and photolysis) were also evaluated for comparison. Results showed that AMX and AMP are completely degraded and mineralized by electrolysis in both chloride and sulfate media, although the efficiency is higher in the presence of chloride. The effect of the current density on mineralization efficiency is not relevant and this may be related to the role of mediated oxidation. Irradiation by ultraviolet light or ultrasound (US) waves does not produce a synergistic effect on the mineralization of AMX and AMP solutions. This indicates that the massive formation of radicals during the combined processes can favor their recombination to form stable and less reactive species.

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Section: Resultsmentioning

confidence: 99%

The Role of Mediated Oxidation on the Electro-irradiated Treatment of Amoxicillin and Ampicillin Polluted Wastewater

et al. 2018

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“…Adewuyi and Khan (2012) provided a framework model for robust and rigorous development of sonochemical systems and reactors (Adewuyi and Khan 2012). Effective mineralisation of POPs, however, depends on the combination of ultrasonicator with other AOPs (de Vidales et al 2015).…”

Section: Cavitationmentioning

confidence: 99%

Treatment of persistent organic pollutants in wastewater using hydrodynamic cavitation in synergy with advanced oxidation process

Badmus

Tijani

Massima

et al. 2018

Environ Sci Pollut Res

102

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Persistent organic pollutants (POPs) are very tenacious wastewater contaminants. The consequences of their existence have been acknowledged for negatively affecting the ecosystem with specific impact upon endocrine disruption and hormonal diseases in humans. Their recalcitrance and circumvention of nearly all the known wastewater treatment procedures are also well documented. The reported successes of POPs treatment using various advanced technologies are not without setbacks such as low degradation efficiency, generation of toxic intermediates, massive sludge production, and high energy expenditure and operational cost. However, advanced oxidation processes (AOPs) have recently recorded successes in the treatment of POPs in wastewater. AOPs are technologies which involve the generation of OH radicals for the purpose of oxidising recalcitrant organic contaminants to their inert end products. This review provides information on the existence of POPs and their effects on humans. Besides, the merits and demerits of various advanced treatment technologies as well as the synergistic efficiency of combined AOPs in the treatment of wastewater containing POPs was reported. A concise review of recently published studies on successful treatment of POPs in wastewater using hydrodynamic cavitation technology in combination with other advanced oxidation processes is presented with the highlight of direction for future research focus.

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“…Active anodes such as mixed metal oxide (MMO) electrode showed low capability to directly degrade organic pollutants, while non‐active anodes such as boron‐doped diamond (BDD) exhibited higher ability to destroy recalcitrant contaminants due to its higher overpotential for oxygen evolution . Besides, common electrolytes including phosphate, chloride, and sulfate have been usually used to generate • OH, ozone, chlorine, ferrate, and other oxidants during electrochemical oxidation processes . In this study, MMO (IrO 2 /Ta 2 O 5 /Ti) electrodes were used to in situ generate the active chlorine in the presence of NaCl electrolytes.…”

Section: Introductionmentioning

confidence: 99%

“…–. The literature indicated that the combination of UV photolysis and single electrolysis oxidation can help promote the generation of hydroxyl radicals and the removal efficiency over the expected separate contributions . In this respect, UV photolysis can be used to expand the applicability of electrolysis processes and destroy the organic contaminants in water.…”

Section: Introductionmentioning

confidence: 99%

Degradation of Atenolol with Electrochemical Oxidation at Mixed Metal Oxide Electrodes Assisted by UV Photolysis

Zhu

Dong

Zhou

2018

CLEAN Soil Air Water

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Electrochemical oxidation has drawn considerable research attention for the destruction of organic contaminants. This study utilizes the combination of electrolysis and the UV photolysis process to degrade the β‐blocker atenolol (ATL). The results show that the combination of electrolysis and UV photolysis is superior to a single process alone based on the removal rates of ATL and electrical efficiency per order (EE/O). In situ electrogenerated chlorine is confirmed to be responsible for ATL degradation with NaCl electrolytes, and mixed metal oxide (MMO) anodes play a more significant role in the generation of active chlorine than platinum (Pt) anodes. Moreover, reactive species (hydroxyl radical •OH and chlorine radical •Cl) mainly contributed to ATL degradation during the photo‐electrolysis process. Increasing the concentration of NaCl electrolytes and applied current densities can enhance the ATL degradation. Finally, major intermediate products are identified, and a possible degradation pathway of ATL is proposed during the photo‐electrolysis processes. This study demonstrate that the photo‐electrolysis process can be considered as a potential technology for the destruction of pharmaceutical pollutants in water.

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Irradiation-assisted electrochemical processes for the removal of persistent organic pollutants from wastewater

Cited by 48 publications

References 45 publications

The Role of Mediated Oxidation on the Electro-irradiated Treatment of Amoxicillin and Ampicillin Polluted Wastewater

The Role of Mediated Oxidation on the Electro-irradiated Treatment of Amoxicillin and Ampicillin Polluted Wastewater

Treatment of persistent organic pollutants in wastewater using hydrodynamic cavitation in synergy with advanced oxidation process

Degradation of Atenolol with Electrochemical Oxidation at Mixed Metal Oxide Electrodes Assisted by UV Photolysis

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