Export directly to RefWorks

TY  - BOOK
ID  - 145099221
TI  - Application of Advanced Oxidation Processes
AU  - Colina-Márquez, Jose
AU  - Bustillo-Lecompte, Ciro
AU  - Rehmann, Lars
PY  - 2020
PB  - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - History of engineering & technology
KW  - polycyclic musks
KW  - degradation mechanism
KW  - UV/chlorine advanced oxidation process
KW  - water treatment
KW  - UV-LED
KW  - photoreactors
KW  - mining wastewater
KW  - cyanide
KW  - metal removal
KW  - photocatalysis
KW  - TiO2 nanotubes
KW  - emerging contaminants
KW  - paracetamol
KW  - pH
KW  - heating oxidation
KW  - surface/interface properties
KW  - floatability
KW  - induction time
KW  - bubble-particle wrap angle
KW  - cow manure
KW  - chemical activation process
KW  - activated carbon
KW  - pore property
KW  - cationic pollutant
KW  - adsorption performance
KW  - nano zero-valent iron
KW  - borohydride reduction method
KW  - wastewater treatment
KW  - iron nanopowders
KW  - lead ions
KW  - biological processes
KW  - electrochemical processes
KW  - oxidation processes
KW  - petroleum
KW  - phenols
KW  - sulfides
KW  - ethyl violet
KW  - Mn-doped Fe/rGO nanocomposites
KW  - mesoporous materials
KW  - artificial intelligence
KW  - gradient boosted regression trees
KW  - total dissolved nitrogen
KW  - digestion method
KW  - digestion efficiency
KW  - intensification
KW  - ozone
KW  - electrolyzed water
KW  - foodborne pathogens
KW  - sanitization
KW  - advace oxitadion processes (AOP)
KW  - electro-oxidation
KW  - ferrate ion
KW  - BBR dye
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:145099221
AB  - The increasingly stricter standards for effluent discharge and the decreasing availability of freshwater resources worldwide have made the development of advanced wastewater treatment technologies necessary. Advanced oxidation processes (AOPs) are becoming an attractive alternative and a complementary treatment option to conventional methods. AOPs are used to improve the biodegradability of wastewaters containing non-biodegradable organics. Besides, AOPs may inactivate pathogenic microorganisms without adding additional chemicals to the water during disinfection, avoiding the formation of hazardous by-products. This Special Issue of Processes aims to cover recent progress and novel trends in the field of AOPs, including UV/H2O2, O3, sulphate-radical oxidation, nanotechnology in AOPs, heterogeneous photocatalysis, sonolysis, Fenton, photo-Fenton, electrochemical oxidation, and related oxidation processes. The topics to be addressed in this Special Issue of Processes may also include the application of AOPs at various scales (laboratory, pilot, or industrial scale), the degradation of emerging contaminants in water and wastewater and pollutants in the gas phase, the quantification of toxicicy in residuals, the development of novel catalytic materials and of hybrid processes, including the combination of AOPs with other technologies, process intensification, and the use of photo-electrochemical processes for energy production.
ER  -