Track B: Characterization and Remediation of PFAS
B4. Activated Carbon-Based PFAS Treatment Technologies
Title | Abstract PDF | Presentation PDF |
| Using Colloidal Activated Carbon to Reduce PFAS and PCE Concentrations in Groundwater to below Michigan’s Drinking Water Limits for over Four Years R. Moore and P. Lyman | View | View |
| Improving Activated Carbon Performance for In Situ A. Meservey, K. Manz, C. Liu, K. Pennell, M. Mitchek, and J. Wong | View | View |
| Large Full-Scale In Situ Remediation of Groundwater with High Concentrations of PFAS Using PlumeStopTM R.H. Mora, J. Cuthbertson, J. Buzzell, S. Krenz, R. Moore, K. Gaskill, and A. Kavanaugh | View | View |
| The In Situ Treatment of TCE and PFAS-Impacted Groundwater Using Anaerobic Bioremediation, Polylactate Ester, and Colloidal Activated Carbon R. McGregor and L. Benevenuto | View | View |
| Adsorbents Treatability Evaluation for PFAS Removal from Groundwater Infiltrating into a Chrome-Plating Facility Basement F. Barajas, N. Swiger, M. Van Der Eide, and B. Harding | View | View |
| Remediate PFAS-Impacted Soils Using Magnetic Activated Carbon (MAC) C.H. Shih, S.H. Yang, A. French, and K.H. Chu | View | |
| Biosorption Technology: PFAS Removal in Water by the Use of Novel Carbonaceous Materials M. Senofonte, R. Cuzzola, R. Remmani, C. Riccardi, G. Simonetti, and M. Petrangeli Papini | View | |
| Mobile Cleanout of AFFF and PFAS in Wastewater and Fire Suppression Systems Using the PerfluorAd Process D. Fleming, G. Knight, E. Crownover, and I. Godinez | View |