CEE Ph.D. Defense Announcement: Release, Transport and Fate of Per- and Polyfluoroalkyl Substances (PFAS) in Urban Watersheds
Esther Cookson, Ph.D. Candidate
UC Irvine, 2025
Professor Russell Detwiler
Abstract: Extensive use of per- and polyfluoroalkyl substances (PFAS) has led to widespread contamination and risks to water resources. Mitigating human health impacts from PFAS exposure requires reliable predictions of their environmental mass loading, transport and fate, which are complicated by their diverse sources and complex interactions with soil, water and air-water interfaces. This dissertation advances understanding of PFAS in urban watersheds by (1) characterizing historical releases from global wastewater treatment plants, (2) uncovering contamination and hysteretic adsorption of PFAS in urban floodplain sediments, and (3) integrating these insights with hydrologic records to model long-term PFAS transport and fate.
Share
Upcoming Events
-
CBE 298 Seminar: Dynamically Tunable Visible and IR Structural Colors
-
MSE 298 Seminar: Improving Coherence In Superconducting Qubits For Quantum Computing
-
EECS Seminar: Evaluating Generative AI in Healthcare
-
CEE Seminar: Machine Learning and Neural Networks for Porous Media and Materials - From Fluid Flow, Transport and Deformation to Learning the Governing Equations for Datasets
-
MSE 298 Seminar: Electrical Transitions in High Entropy Oxides