A review on the photoelectro-Fenton process as efficient electrochemical advanced oxidation for wastewater remediation. Treatment with UV light, sunlight, and coupling with conventional and other photo-assisted advanced technologies
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Abstract
<p class="first" id="d4116731e51">Wastewaters containing recalcitrant and toxic organic
pollutants are scarcely decontaminated
in conventional wastewater facilities. Then, there is an urgent challenge the development
of powerful oxidation processes to ensure their organic removal in order to preserve
the water quality in the environment. This review presents the recent development
of an electrochemical advanced oxidation process (EAOP) like the photoelectro-Fenton
(PEF) process, covering the period 2010-2019, as an effective treatment for wastewater
remediation. The high oxidation ability of this photo-assisted Fenton-based EAOP is
due to the combination of in situ generated hydroxyl radicals and the photolytic action
of UV or sunlight irradiation over the treated wastewater. Firstly, the fundamentals
and characteristics of the PEF process are described to understand the role of oxidizing
agents. Further, the properties of the homogeneous PEF process with iron catalyst
and UV irradiation and the benefit of sunlight in the homogeneous solar PEF one (SPEF)
are discussed, supported with examples over their application to the degradation and
mineralization of synthetic solutions of industrial chemicals, herbicides, dyes and
pharmaceuticals, as well as real wastewaters. Novel heterogeneous PEF processes involving
solid iron catalysts or iron-modified cathodes are subsequently detailed. Finally,
the oxidation power of hybrid processes including photocatalysis/PEF, solar photocatalysis/SPEF,
photoelectrocatalysis/PEF and solar photoelectrocatalysis/SPEF, followed by that of
sequential processes like electrocoagulation/PEF and biological oxidation coupled
to SPEF, are analyzed.
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