Innovative and Hybrid Advanced Oxidation Processes for Water Treatment

Capture the future of water purification with Innovative and Hybrid Advanced Oxidation Processes for Water Treatment by Oualid Hamdaoui. This authoritative guide delivers clear, science-backed solutions for removing micropollutants, pathogens, and persistent organics using cutting-edge Advanced Oxidation Processes (AOPs) and hybrid systems.

Inside, readers will find accessible explanations of mechanisms—UV, ozone, photocatalysis, Fenton and electrochemical methods—paired with pragmatic chapters on reactor design, kinetic modelling, scale-up, and pilot-to-full-scale implementation. Case studies bridge theory and practice, showing real-world performance in municipal plants, industrial effluents, and water-stressed regions. Practical comparisons highlight energy use, cost-effectiveness, and regulatory compliance for potable and reclaimed water applications.

Engineered for researchers, environmental engineers, plant operators, and policy makers, this book emphasizes sustainable, high-efficiency treatment strategies that address emerging contaminants and stricter water quality standards. Whether you’re optimizing an existing treatment train or evaluating hybrid AOPs for industrial wastewater, the book supplies actionable insights that improve process resilience and lifecycle economics.

Global in perspective yet relevant to regional challenges—especially water-scarce and industrial zones—this volume helps professionals design robust solutions adaptable to local infrastructure and regulatory landscapes.

Equip your library with a forward-looking reference that blends rigorous science and practical guidance. Order Innovative and Hybrid Advanced Oxidation Processes for Water Treatment today to advance your projects, stay ahead of regulatory shifts, and deliver safer, cleaner water.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.