Emerging and Nanomaterial Contaminants in Wastewater

<p>Part 1: General Overview<br>1. What are the current emerging contaminants, types of nanomaterials, synthesis processes and reactors development?<br>2. An overview of treatment technologies for the removal of emerging and nanomaterial contaminants from municipal and industrial wastewater</p> <p>Part 2: Green Technology<br>3. Transport and fate of the emerging compounds and their by-products in water environment, and their toxicity level: removal by natural process of flocculation, agglomeration, precipitation, colloid formation and sedimentation<br>4. Long-term performance and feasibility of using constructed wetlands for treatment of emerging and nanomaterial (ENM) contaminants in municipal and industrial wastewater<br>5. Synthesis of biosorbents from natural/agricultural wastes and sustainable green technology for treatment of metallic nanoparticles in municipal and industrial wastewater</p> <p>Part 3: Individual Processes<br>6. Comparison of different nano processes and natural adsorbents such as red mud, steel slag, fly ashes and industrial waste for treating wastewaters laden with metallic nanomaterial contaminants<br>7.  Composite membranes for removal of emerging organic pollutants and potentially toxic metals from wastewater<br>8. Advanced oxidation methods such as UV, Ozonation and Fenton Oxidation for the removal of emerging organic contaminants from wastewater<br>9. Destruction of recalcitrant nanomaterials contaminants in industrial wastewater<br>10. Removal of emerging pollutants from water through adsorption onto carbon-based materials<br>11. Nanomaterial-based treatment technologies for remediation of emerging organic pollutants and heavy metals in wastewater</p> <p>Part 4: Combined Processes<br>12. Membrane bioreactor and nanofiltration hybrid system for treatment of municipal and industrial wastewater: performance assessment and hydrodynamic analysis<br>13. Treatment of nanomaterial contaminants in industrial and municipal wastewater by conventional filtration, nanofiltration and reverse osmosis membrane techniques<br>14. Different polymer-based nanosized engineering material adsorbents and catalyst for treating wastewaters containing inorganic and organic nanomaterial contaminants<br>15. Treatment of nanomaterial contaminants in wastewater by solar photocatalysis using low TiO2 concentrations, hydrogen peroxide, ferrate(VI) or nanoporous ZnO<br>16. Combined electrochemical advanced oxidation and enzymatic process for treatment of wastewater containing emerging organic contaminants</p> <p>Part 5: Conclusion<br>17. Case studies focusing on the most successful advanced methods/approach for the treatment of nanomaterials in wastewater<br>18. Removal of emerging contaminates from wastewater through individual and combination of different methods: comparative removal efficiency</p>