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Görtler vortices on an oscillating cylinder. Canals and Pawlak, Physics of Fluids, Gallery of Fluid Motion 2008
Research in the Environmental Fluid Dynamics Lab (EFD Lab; PI: G. Pawlak Tejada) addresses engineering and oceanographic fluid flow problems, with a focus on coastal ocean physics. Our work examines the role of flow structure in turbulent mixing and mass transport in environmental flows at scales ranging from islands, headlands and continental shelves (kilometers) to coral reefs and kelp forests (meters) to wave boundary layers (centimeters).
Research methods combine lab experiments and numerical modeling with field-based observations to address topics that span interaction of flow with biological systems, surface and internal waves, and air-sea and sediment/water-column exchange processes.
Research directions also extend to development of ocean instrumentation, wave energy and autonomous vehicle technologies and applications and lab experimental methods.
Latest publications:
Park M., Chen A. E., Cervera-Torralba J., Tolley M. T., Pawlak G., 2026. Bioinspired flow sensor enables underwater robots to estimate motion and detect flow structure. Science Advances, accepted.
Tan, S., Rogers, J. S., Fringer, O. B., Pawlak, G., Chang, Y., & Davis, K. A. (2026). Energetics of internal solitary waves interacting with a conical island. Journal of Geophysical Research: Oceans, 131, e2025JC023684.
Walker, H., Tolley, M.T. and Pawlak, G., 2026. Modeling and validation of a small heave plate wave energy converter. Ocean Engineering, 349, p.124115.
Peretz, O., Walker, H., Aracri, S., Di Blasi, D., Cowen, E.A., Pawlak, G. and Shepherd, R.F., 2026. Modular, scalable, and resilient soft wave energy harvester. Device.
Rogers, J.S., Tan, S., Davis, K.A., Pawlak, G. and Fringer, O.B., 2025. Climate‐driven stratification intensifies internal wave cooling on a shallow island reef. Geophysical Research Letters, 52(14), p.e2025GL115458.
Okun, K., Desai, A., Parnell, P.E., Masunaga, E., Lucas, A.J., Lerczak, J. and Pawlak, G., 2025. Semidiurnal inner shelf flow in the Southern California Bight. Journal of Geophysical Research: Oceans, 130(5), p.e2024JC021591.
Sunken Barrier, Palau
West Mahe, Seychelles
For more information contact:
pawlak AT ucsd DOT edu
Department of Mechanical and Aerospace Engineering / Scripps Institution of Oceanography
University of California San Diego
La Jolla, California 92093-0411
Phone: 858-534-2343
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