Industrial Applications of Advanced Oxidation Technologies: Past and Future

doi:10.3390/books978-3-0365-8192-7

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Industrial Applications of Advanced Oxidation Technologies: Past and Future

Edited by

July 2023

422 pages

ISBN978-3-0365-8193-4 (Hardback)
ISBN978-3-0365-8192-7 (PDF)

https://doi.org/10.3390/books978-3-0365-8192-7

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This book is a reprint of the Special Issue Industrial Applications of Advanced Oxidation Technologies: Past and Future that was published in

Chemistry & Materials Science

Engineering

Summary

The use of Advanced Oxidation Technologies (AOTs) for wastewater treatment is an important area of research which has not yet been fully exploited at an industrial level and has significant potential in the disposal of many industrial effluents. In particular, this includes effluents that are difficult to treat by conventional biological treatment processes. This reprint covers the latest advances in the field of wastewater treatment by Advanced Oxidation Technologies, with a focus on treatments based on photolysis, TiO₂/solar light, ozone/ultraviolet irradiation, oxidant/ultraviolet irradiation, oxidant/catalyst/ultraviolet irradiation, high-energy electron beam irradiation (E-beam), sonication/photocatalysis, etc.

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Keywords

N₂O decomposition; Fe-Ce-Al mixed oxide; oxygen mobility; metallic glasses; oily wastewater; activation; catalytic degradation; ultrasound/chlorine process; reactive chlorine species (RCS); Allura Red AC (ARAC); degradation; synergy; dyes degradation; non-metal-doped titania; photocatalysis; parameters; wastewater treatment; semiconductors; chalcogenides; photocatalysts; photocatalysis; water splitting; photocatalysis; rhodamine B degradation; sepiolite nanofibers; catalyst support; WS₂ nanosheets; micropollutants; TiO₂ films; TiO₂/CNT nanocomposites; photocatalysis kinetics; AgI; supramolecular material; photocatalytic degradation (PDT); tetracycline (TC); catalyst; photocatalytic CO₂ reduction; active sites; controllable exfoliation; Ti₃C₂T_x; photocatalysis; photo-fenton; BiVO₄; Prussian blue; cocatalyst; water purification; photocatalytic concrete; ZnO nanostructures; seedless method; water purification; photocatalysis; bimetallic catalysts; copper; heterogeneous catalysis; iron; photo-Fenton; degradation; photoelectrochemical; toxicity; environment; photocatalyst; TiO₂; g-C₃N₄; heterostructure; formaldehyde degradation; aluminium-substituted zinc ferrite; samarium-doped spinel ferrite; H₂O₂/UV-Vis; wastewater treatment; modelling and optimization of photocatalytic process; wood flour; biochar; peroxydisulfate; bisphenol A; Fe₃O₄; activation; catalytic ozonation; homogenous catalysts; heterogeneous catalysts; water treatment; VOSviewer; reaction mechanism; reactive azo dye; surfactant-assisted synthesis; electrode morphology; advanced oxidation processes; lead dioxide; energy efficiency; copper nanohybrid; citrate functionalized CuO; nano-medicine; S. hominis infection control; photodynamic therapy; supramolecular chemistry; cavitins; biomimetics; metalloenzymes; metallocavitins; methane; memantine; hydrolysis; photolysis; sorption; photocatalysis; sol-gel TiO₂ film; degradation products; toxicity