Reprint

Advanced Oxidation Processes for Emerging Contaminant Removal

Edited by
February 2023
298 pages
  • ISBN978-3-0365-6611-5 (Hardback)
  • ISBN978-3-0365-6610-8 (PDF)

This book is a reprint of the Special Issue Advanced Oxidation Processes for Emerging Contaminant Removal that was published in

Biology & Life Sciences
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Public Health & Healthcare
Summary

This Special Issue includes manuscripts on mechanistic understanding, development, and implementation of advanced oxidation processes (AOPs) for the removal of contaminants of emerging concern in water and wastewater treatment. The main goal was successfully achieved under the joint effort of authors, anonymous reviewers, and editorial managers. In total, one review and 15 research papers are included in the Special Issue. These are mainly focused on catalyst synthesis, reactor design, treatment performance, kinetic modeling, reaction mechanisms, and by-product formation during electrochemical, photocatalytic, plasma, persulfate, chlorine, ozone-based, and Fenton-related AOPs at different scales. This Special Issue has received attention from researchers from different parts of the world such as Argentina, Brazil, Canada, China, Germany, India, Mexico, and the USA. The guest editors are happy to see that all papers presented are innovative and meaningful, and hope that this Special Issue can promote mechanistic understanding and engineering applications of AOPs for the removal of contaminants of emerging concern in water.

Format
  • Hardback
License
© by the authors
Keywords
advanced oxidation processes; discharge plasma; reactive species; environmental remediation; combination system; degradation mechanism; emerging contaminant; photocatalysis; TiO2 doped; discarded metal waste; sol–gel; RhB degradation; heterogeneous catalyst; copper–magnesium oxide/carbon nitride composite; PMS activation; photocatalysis; micro-pollutant treatment; titanium dioxide; reactor design; energy per order; immobilized catalyst; boron-doped diamond electrodes; per and polyfluorinated alkyl substances; chemical oxidation; 14C-labeled PFOA; UV/PDS; micropollutants; radical contribution rates; kinetic models; degradation pathways; acrylic fiber manufacturing wastewater; Fenton reaction; advanced oxidation method; degradation mechanism; anodic oxidation; BTEX; groundwater pollution; electrochemical oxidation; sustainable development goals; azo dyes; Methyl Orange; novel plasma reactor; oxidized degradation; plasma technology; response surface methodology (RSM); heterogeneous electro-Fenton; composite catalyst; Rhodamine B dye; textile wastewater; biodegradability; advanced oxidation processes; pharmaceuticals; metal–organic framework; adsorption; performance; catalytic ozonation; atrazine; CeO2; mesoporous; photocatalysis; emerging contaminant; intrinsic kinetics; packed bed; UV-LEDs; Monte Carlo; BPA degradation; photo-Fenton; nanocomposite catalysts; bisphenol A mineralization; solar photo-Fenton; medium pressure UV/chlorine; advanced oxidation process; disinfection by-products; benzene derivatives; bromide (Br); electro-hybrid ozonation–coagulation (E-HOC); laundry wastewater; hydroxyl radical; microplastic; surfactant; advanced oxidation; concern; contaminant; electrochemical; emerging; hydroxyl radical; oxidation; ozonation; persulfate; photocatalysis; radical; UV; chlorine; UV/chlorine; Fenton; plasma; water