Track B: Characterization and Remediation of PFAS
B4. Activated Carbon-Based PFAS Treatment Technologies




Abstract PDFPresentation 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
Improving Activated Carbon Performance for In Situ
A. Meservey, K. Manz, C. Liu, K. Pennell, M. Mitchek, and J. Wong
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
The In Situ Treatment of TCE and PFAS-Impacted Groundwater Using Anaerobic Bioremediation, Polylactate Ester, and Colloidal Activated Carbon
R. McGregor and L. Benevenuto
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
Remediate PFAS-Impacted Soils Using Magnetic Activated Carbon (MAC)
C.H. Shih, S.H. Yang, A. French, and K.H. Chu
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
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