Industrial Applications of Advanced Oxidation Technologies: Past and Future

• Format: eBook
• Language: English
• Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
• Subjects: Environmental economics; Pollution control; Research and information: general; activation; active sites; advanced oxidation processes; AgI; Allura Red AC (ARAC); aluminium-substituted zinc ferrite; bimetallic catalysts; biochar; biomimetics; bisphenol A; BiVO4; catalyst; catalyst support; catalytic degradation; catalytic ozonation; cavitins; chalcogenides; citrate functionalized CuO; cocatalyst; controllable exfoliation; copper; copper nanohybrid; degradation; degradation products; dyes degradation; electrode morphology; energy efficiency; environment; Fe-Ce-Al mixed oxide; Fe3O4; formaldehyde degradation; g-C3N4; H2O2/UV-Vis; heterogeneous catalysis; heterogeneous catalysts; heterostructure; homogenous catalysts; hydrolysis; iron; lead dioxide; memantine; metallic glasses; metallocavitins; metalloenzymes; methane; micropollutants; modelling and optimization of photocatalytic process; N2O decomposition; nano-medicine; non-metal-doped titania; oily wastewater; oxygen mobility; parameters; peroxydisulfate; photo-fenton; photo-Fenton; photocatalysis; photocatalysis kinetics; photocatalyst; photocatalysts; photocatalytic CO2 reduction; photocatalytic concrete; photocatalytic degradation (PDT); photodynamic therapy; photoelectrochemical; photolysis; Prussian blue; reaction mechanism; reactive azo dye; reactive chlorine species (RCS); rhodamine B degradation; S. hominis infection control; samarium-doped spinel ferrite; seedless method; semiconductors; sepiolite nanofibers; sol-gel TiO2 film; sorption; supramolecular chemistry; supramolecular material; surfactant-assisted synthesis; synergy; tetracycline (TC); Ti3C2Tx; TiO2; TiO2 films; TiO2/CNT nanocomposites; toxicity; ultrasound/chlorine process; VOSviewer; wastewater treatment; water purification; water splitting; water treatment; wood flour; WS2 nanosheets; ZnO nanostructures
• Online Access: Open Access: DOAB: description of the publication; Open Access: DOAB, download the publication

 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.