Theme 1: Advanced Drinking Water Treatment for Emerging Contaminants |
1.1 Application of Membrane Processes - R.C. Andrews(Toronto), Huck (Waterloo), Peldszus (Waterloo) |
1.2 Advanced oxidation processes to destroy emerging contaminants – R. Hofmann (Toronto ), C. Metcalfe (Trent) |
1.3 Use of Quantitative Structure-Property Relationships (QSPR) to predict removal by adsorption and advanced oxidation - R.C. Andrews (Toronto), P. Huck (Waterloo), S. Peldszus (Waterloo) |
1.4 Minimizing nitrosamines and their precursors - S.A. Andews (Toronto) |
Theme 2. Risk Assessment of Emerging Contaminants in Aquatic Environments |
2.1 Strategies for Evaluating Risk Assessment - McBean (Guelph), Servos (Waterloo) |
2.2 Application of PhATE Model - E. McBean (Guelph), W. Parker (Waterloo), M. Servos (Waterloo) |
2.3 Nanomaterials as Emerging Contaminants- C. Metcalfe (Trent) |
Theme 3. Source Characterization and Control of Emerging Contaminant Discharges to Water |
3.1 Source Identification of ECs in Municipal Wastewater – C. Metcalfe (Trent), W. Parker (Waterloo) & Slawson (Laurier) |
Theme 4: Fate and Control of Emerging Contaminants in Current and Next-Generation Wastewater Treatment Systems |
4.1 Full Scale Optimization of Existing Facilities - P. Huck (Waterloo), C. Metcalfe (Trent), S. Peldszus (Waterloo) |
4.2 IFAS Processes - Parker (Waterloo) |
4.3 MBR Processes – H. Zhou (Guelph) |
4.4 Lagoons and Tertiary Wetlands - R. Legge (Waterloo), W. Parker (Waterloo), D. Rudolph (Waterloo), R. Slawson (Laurier), B. Warner (Waterloo) |
4.5 Digestion of Wastewater Treatment Sludges - W. Parker (Waterloo), R. Slawson (Laurier) |
4.6 Conventional and Alternative Septic Systems - C. Ptacek (Waterloo) |
4.7 Fate Modeling – W. Parker (Waterloo |