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Chris's research focuses on understanding the role of fluid turbulence in environmental processes and applications. He has previously worked on (1) marine outfall designs for treated domestic wastewater and brine discharges from desalination plants, (2) accidental oil spills modeling for disaster management (e.g. 2010 Deep Horizon spill in Gulf of Mexico), and (3) the role of large fluid density gradients in shaping turbulent flows as seen in inertial confinement fusion. His work combines experiments, theories, and mathematical modeling to develop simplified, yet physics-based, engineering predictive models to aid in management-level decisions. His current research interests focus on how turbulence mediates (1) mass transport and exchange in coastal vegetation and forest canopy, (2) mixing and flow structures in hyporheic zone (the porous soil layer between a river and deep groundwater), and (3) mixing in stratified water bodies.
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Physics of Fluidsno. 8 (2022)
Bulletin of the American Physical Society (2020)
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