Urban and Industrial Wastewater Disinfection and Decontamination by Advanced Oxidation Processes (AOPs) Current Issues and Future Trends
Urban and Industrial Wastewater Disinfection and Decontamination by Advanced Oxidation Processes (AOPs) Current Issues and Future Trends
- Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
- 1 online resource (208 p.)
Open Access
The papers selected for publication in the Special Issue "Urban and industrial wastewater disinfection and decontamination by Advanced Oxidation Processes (AOPs): current issues and future trends" and published in this book, include topics related with (waste)water treatment and its reuse, disinfection, and pollutant degradation, advancing the know-how of the topics or assessing their integration into the new age of the circular economy of water. Likewise, aspects such as modeling of degradation processes and new materials synthesis were published, aiming to improve, optimize and predict the efficacy of the existing or the novel treatment processes. Moreover, pilot plant operation and large-scale processes were featured, assessing the feasibility of these new treatment methods in real world applications. Overall, the Special Issue and this book present innovative solutions on the field of water and wastewater treatment, with a view on the future technologies that will form the next advances of the field.
Creative Commons
English
9783036511122 9783036511139 books978-3-0365-1113-9
10.3390/books978-3-0365-1113-9 doi
Technology: general issues
advanced oxidation advanced oxidation process antibiotics biological contaminants chemical oxygen demand circular economy computer-based learning cytotoxicity E.coli inactivation elimination routes emerging pollutants flower-like Bi2WO6 fresh urine graphene oxide heterogeneous photocatalysis hexacyanoferrate hydrothermal method kinetic modeling membrane technology micropollutants mining n/a pharmaceutical degradation photocatalysis photoreactor design pollution processes selectivity reactive oxygen species (ROS) removal efficiency slurry reactor solar disinfection solar photocatalysis substances recovery sustainable development goals theoretical analysis tin oxide TiO2 titanium dioxide ultrasound UV-LED wastewater wastewater reuse water contaminants water pollution water treatment zero energy zero waste
Open Access
The papers selected for publication in the Special Issue "Urban and industrial wastewater disinfection and decontamination by Advanced Oxidation Processes (AOPs): current issues and future trends" and published in this book, include topics related with (waste)water treatment and its reuse, disinfection, and pollutant degradation, advancing the know-how of the topics or assessing their integration into the new age of the circular economy of water. Likewise, aspects such as modeling of degradation processes and new materials synthesis were published, aiming to improve, optimize and predict the efficacy of the existing or the novel treatment processes. Moreover, pilot plant operation and large-scale processes were featured, assessing the feasibility of these new treatment methods in real world applications. Overall, the Special Issue and this book present innovative solutions on the field of water and wastewater treatment, with a view on the future technologies that will form the next advances of the field.
Creative Commons
English
9783036511122 9783036511139 books978-3-0365-1113-9
10.3390/books978-3-0365-1113-9 doi
Technology: general issues
advanced oxidation advanced oxidation process antibiotics biological contaminants chemical oxygen demand circular economy computer-based learning cytotoxicity E.coli inactivation elimination routes emerging pollutants flower-like Bi2WO6 fresh urine graphene oxide heterogeneous photocatalysis hexacyanoferrate hydrothermal method kinetic modeling membrane technology micropollutants mining n/a pharmaceutical degradation photocatalysis photoreactor design pollution processes selectivity reactive oxygen species (ROS) removal efficiency slurry reactor solar disinfection solar photocatalysis substances recovery sustainable development goals theoretical analysis tin oxide TiO2 titanium dioxide ultrasound UV-LED wastewater wastewater reuse water contaminants water pollution water treatment zero energy zero waste