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Advanced Oxidation Process-Based Integrated and Hybrid Technologies for Degradation of Pharmaceuticals and Personal Care Products

Editat de Amit K. Thakur, Rahul Kumar, Nadeem A Khan, Afzal Husain Khan, Ravi Shankar, Md. Nahid Pervez
en Limba Engleză Paperback – iul 2025
Advanced Oxidation Process-based Integrated and Hybrid Technologies for Degradation of Pharmaceuticals and Personal Care Products addresses PPCP removal from wastewater by the recent application of AOP-based hybrid techniques. Technological advancement of AOPs and AOP-based hybrid methods are discussed and will highlight the perspectives on fundamental and technological advancements in AOP and AOP-based hybrid methods for PPCPs removal from wastewater. A detailed cost analysis of different AOP-based hybrid techniques is examined to help readers formulate guidelines to transform the wastewater treatment process from lab scale to pilot/industrial scale.


  • Covers the application of advanced oxidation processes (AOPs) and AOP-based integrated and hybrid methods for Pharmaceuticals and Personal Care Products (PPCPs) degradation and removal from wastewater
  • Discusses cost estimation and energy consumption of individual and integrated treatments
  • Considers the AOP-based integrated and hybrid treatments toward the sustainable zero-liquid discharge
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Specificații

ISBN-13: 9780443218873
ISBN-10: 0443218870
Pagini: 510
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE

Cuprins

1. Pharmaceuticals and Personal care Products as Contaminants of Emerging Concern, sources, nature and possible health effects
2. Recent advances and innovation in the application of AOPs for Pharmaceuticals and Personal care Products degradation
3. Recent advances in the use of biological treatment methods for PPCPs degradation from water and wastewater
4. AOP based hospital wastewater treatments: current status and future perspectives
5. Adsorption systems for the PPCPs removal from wastewater
6. Membrane systems for the PPCPs removal from wastewater
7. Ultrasound-assisted degradation of PPCPs from wastewater
8. Hybrid treatment technologies for PPCPs degradation from industrial wastewater: evaluation and challenges
9. Adsorption-Membrane hybrid system for pharmaceutical degradation
10. Advanced materials for the removal of PPCPs from real wastewater
11. Design approach for sustainable integrated and hybrid wastewater techniques
12. PPCPs in wastewater: Kinetics and Thermodynamic analysis
13. AOP-Membrane bioreactor hybrid approach for the removal of PPCPs
14. Antibiotics degradation by AOP-based hybrid methods.
15. Removal of PPCPs using integrated Adsorption/AOP systems
16. Integrated and Hybrid AOP-Membrane systems for PPCPs degradation
17. Membrane fouling Control using integrated AOP-membrane systems
18. Integrated and Hybrid AOP-Biological systems for PPCPs degradation
19. Electrochemical-based hybrid methods for the treatment of PPCPs in drinking water
20. Cost Estimation and Energy consumption of AOPs and AOP-based integrated and hybrid systems
21. Low-cost Materials in the Photocatalytic Treatment of PPCPs
22. Nanomaterials integrated hybrid treatments of PPCPs
23. Sustainable herbal pharmaceutical wastewater treatment with energy recovery
24. Water and Wastewater resources management in the pharmaceutical industries
25. Recent advancements in pharmaceutical wastewater treatment: A Techno-Economic and environmental feasibility
26. Future prospect and concluding remarks