Chapter 1. Case Studies with Tertiary Treatment -- 1.1. Limited urban use, irrigation of non-food or processed crops -- 1.1.1. Irrigation -- 1.1.2. Industrial reuse and recycling -- 1.1.3. Urban non-drinking water -- 1.1.4. Storage -- 1.2. Nosedo plant (Milan, Italy): irrigation -- 1.3. The Hermitage station (Reunion Island) -- 1.3.1. Pollutant loads -- 1.3.2. Tertiary filtration -- 1.3.3. UV disinfection -- 1.3.4. Educational aspect -- 1.4. The Barcelona plant (Spain): regeneration of wetlands, irrigation -- 1.5. Ajman (United Arab Emirates): irrigation and non-drinkable urban use -- 1.6. Al Wathba treatment plant (Abu Dhabi): recreational areas, green spaces, industries -- 1.7. Burj Khalifa lake (Dubai): reuse wastewater for a recreational area -- 1.7.1. Treatment plant dimensions -- 1.8. Darling Quarter (Sydney, Australia): wastewater reuse in a neighborhood -- 1.9. References -- Chapter 2. Micropollutants -- 2.1. Introduction -- 2.2. Pesticides -- 2.3. Pharmaceuticals and industrial residues -- 2.4. Technologies for removing pesticides and emerging micropollutants -- 2.4.1. Conventional oxidizers: chlorine, hypochlorite and chlorine dioxide -- 2.4.2. Advanced chemical oxidation -- 2.4.3. Activated carbon adsorption -- 2.4.4. Ozone/activated carbon combination -- 2.5. References -- Chapter 3. Microfiltration and Ultrafiltration Membranes -- 3.1. Operating principle and mechanisms -- 3.1.1. Pressurized membranes -- 3.1.2. Submerged membranes -- 3.1.3. Filtration mode: frontal/tangential -- 3.2. Sizing parameters -- 3.2.1. Membrane selection -- 3.2.2. Cleaning in place -- 3.3. Microfiltration and ultrafiltration applied to wastewater treatment -- 3.3.1. Turbidity and TSS -- 3.3.2. Dissolved organic carbon -- 3.3.3. Energy consumption -- 3.4. Improved secondary treatment: membrane bioreactors -- 3.4.1. Suppliers of microfiltration membranes used in MBRs -- 3.4.2. Performance -- 3.5. Membrane layout in the reuse process -- 3.6. Hybrid process: combining chemical processes with MF/UF membranes -- 3.7. Conclusion -- 3.8. References -- Chapter 4. Reverse Osmosis -- 4.1. Membranes -- 4.1.1. Materials -- 4.2. Principles of operation and separation -- 4.3. Wastewater treatment with reverse osmosis membranes -- 4.3.1. Parameters to consider when designing a treatment system -- 4.3.2. Sizing parameters -- 4.3.3. Post-treatment for drinking water supply -- 4.3.4. Disinfection downstream of membranes -- 4.4. Reverse osmosis in the wastewater reuse process -- 4.5. Performance -- 4.5.1. Pesticides -- 4.5.2. Drugs -- 4.5.3. Microorganisms -- 4.5.4. Water losses and energy consumption of membrane processes for water reuse -- 4.6. Conclusion -- 4.7. References -- Chapter 5. Applications for Drinking Water, Specific Industrial Water and Groundwater Recharge -- 5.1. Windhoek: drinking water, specific industries and groundwater recharge -- 5.2. The Durban plant (South Africa) -- 5.2.1. For industrial use requiring rigorous quality -- 5.2.2. The wastewater reuse plant -- 5.2.3. Tertiary treatment sizing -- 5.2.4. Conclusion -- 5.3. Kranji (Singapore): irrigation, indirect drinking water, specific industries -- 5.3.1. Sizing the Kranji plant -- 5.3.2. Performance -- 5.3.3. Conclusion -- 5.4. Illawarra (Australia): application, ocean protection, irrigation and industry -- 5.4.1. Characteristics of wastewater treatment plants. -- 5.4.2. Treatment processes -- 5.4.3. Conclusion -- 5.5. Honolulu: irrigation and industrial applications -- 5.6. Gerringong and Gerroa (Australia): controlled irrigation and beach protection applications -- 5.6.1. Treatment process and guarantees -- 5.6.2. Microfiltration workshop -- 5.6.3. Conclusion -- 5.7. Playgrounds and leisure parks (France) -- 5.8. References -- Chapter 6. What Does the Future Hold for Wastewater Reuse? -- 6.1. Challenges and prospects -- 6.2. What about drinking water? -- 6.3. Wastewater: Is it a real alternative? -- 6.4. References -- Index.