Industrial Applications of Advanced Oxidation Technologies: Past and Future

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 diffic...

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Bibliographic Details
Other Authors:	Hodaifa, Gassan (Editor), Borja, Rafael (Editor), Albqmi, Mha (Editor)
Format:	Electronic Book Chapter
Language:	English
Published:	Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:	Research & information: general Environmental economics Pollution control 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 water splitting 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 Ti3C2Tx photo-fenton BiVO4 Prussian blue cocatalyst water purification photocatalytic concrete ZnO nanostructures seedless method bimetallic catalysts copper heterogeneous catalysis iron photo-Fenton photoelectrochemical toxicity environment photocatalyst TiO2 g-C3N4 heterostructure formaldehyde degradation aluminium-substituted zinc ferrite samarium-doped spinel ferrite H2O2/UV-Vis modelling and optimization of photocatalytic process wood flour biochar peroxydisulfate bisphenol A Fe3O4 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 sol-gel TiO2 film degradation products
Online Access:	DOAB: download the publication DOAB: description of the publication
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MARC


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245	1	0	\|a Industrial Applications of Advanced Oxidation Technologies: Past and Future
260			\|a Basel \|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2023
300			\|a 1 electronic resource (422 p.)
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337			\|a computer \|b c \|2 rdamedia
338			\|a online resource \|b cr \|2 rdacarrier
506	0		\|a Open Access \|2 star \|f Unrestricted online access
520			\|a 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.
540			\|a Creative Commons \|f https://creativecommons.org/licenses/by/4.0/ \|2 cc \|4 https://creativecommons.org/licenses/by/4.0/
546			\|a English
650		7	\|a Research & information: general \|2 bicssc
650		7	\|a Environmental economics \|2 bicssc
650		7	\|a Pollution control \|2 bicssc
653			\|a N2O decomposition
653			\|a Fe-Ce-Al mixed oxide
653			\|a oxygen mobility
653			\|a metallic glasses
653			\|a oily wastewater
653			\|a activation
653			\|a catalytic degradation
653			\|a ultrasound/chlorine process
653			\|a reactive chlorine species (RCS)
653			\|a Allura Red AC (ARAC)
653			\|a degradation
653			\|a synergy
653			\|a dyes degradation
653			\|a non-metal-doped titania
653			\|a photocatalysis
653			\|a parameters
653			\|a wastewater treatment
653			\|a semiconductors
653			\|a chalcogenides
653			\|a photocatalysts
653			\|a water splitting
653			\|a rhodamine B degradation
653			\|a sepiolite nanofibers
653			\|a catalyst support
653			\|a WS2 nanosheets
653			\|a micropollutants
653			\|a TiO2 films
653			\|a TiO2/CNT nanocomposites
653			\|a photocatalysis kinetics
653			\|a AgI
653			\|a supramolecular material
653			\|a photocatalytic degradation (PDT)
653			\|a tetracycline (TC)
653			\|a catalyst
653			\|a photocatalytic CO2 reduction
653			\|a active sites
653			\|a controllable exfoliation
653			\|a Ti3C2Tx
653			\|a photo-fenton
653			\|a BiVO4
653			\|a Prussian blue
653			\|a cocatalyst
653			\|a water purification
653			\|a photocatalytic concrete
653			\|a ZnO nanostructures
653			\|a seedless method
653			\|a bimetallic catalysts
653			\|a copper
653			\|a heterogeneous catalysis
653			\|a iron
653			\|a photo-Fenton
653			\|a photoelectrochemical
653			\|a toxicity
653			\|a environment
653			\|a photocatalyst
653			\|a TiO2
653			\|a g-C3N4
653			\|a heterostructure
653			\|a formaldehyde degradation
653			\|a aluminium-substituted zinc ferrite
653			\|a samarium-doped spinel ferrite
653			\|a H2O2/UV-Vis
653			\|a modelling and optimization of photocatalytic process
653			\|a wood flour
653			\|a biochar
653			\|a peroxydisulfate
653			\|a bisphenol A
653			\|a Fe3O4
653			\|a catalytic ozonation
653			\|a homogenous catalysts
653			\|a heterogeneous catalysts
653			\|a water treatment
653			\|a VOSviewer
653			\|a reaction mechanism
653			\|a reactive azo dye
653			\|a surfactant-assisted synthesis
653			\|a electrode morphology
653			\|a advanced oxidation processes
653			\|a lead dioxide
653			\|a energy efficiency
653			\|a copper nanohybrid
653			\|a citrate functionalized CuO
653			\|a nano-medicine
653			\|a S. hominis infection control
653			\|a photodynamic therapy
653			\|a supramolecular chemistry
653			\|a cavitins
653			\|a biomimetics
653			\|a metalloenzymes
653			\|a metallocavitins
653			\|a methane
653			\|a memantine
653			\|a hydrolysis
653			\|a photolysis
653			\|a sorption
653			\|a sol-gel TiO2 film
653			\|a degradation products
856	4	0	\|a www.oapen.org \|u https://mdpi.com/books/pdfview/book/7672 \|7 0 \|z DOAB: download the publication
856	4	0	\|a www.oapen.org \|u https://directory.doabooks.org/handle/20.500.12854/112546 \|7 0 \|z DOAB: description of the publication

Industrial Applications of Advanced Oxidation Technologies: Past and Future

MARC

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