Fotis Sotiropoulos


Fotis Sotiropoulos is a Greek-born American engineering professor and researcher known for his contributions in computational fluid dynamics for river hydrodynamics, renewable energy, biomedical and biological applications. He currently serves as the dean of the College of Engineering and Applied Sciences at Stony Brook University, a position he has held since October 15, 2015.

Biography

Born and raised in Athens, Greece, Sotiropoulos earned his Diploma in mechanical engineering from the National Technical University of Athens in Greece. In 1987 he moved to the United States to pursue his graduate studies. He received a M.S. degree in aerospace engineering from the Pennsylvania State University and a Ph.D. in aerospace engineering and engineering mechanics from the University of Cincinnati. From 1991 to 1995 he was a postdoctoral associate and assistant research scientist at the University of Iowa Institute for Hydraulic Research in Iowa City, IA.

Career

Fotis Sotiropoulos serves as dean of the College of Engineering and Applied Sciences and SUNY Distinguished Professor of Civil Engineering at Stony Brook University, since October 15, 2015. Prior to that, Sotiropoulos served as the director of the St. Anthony Falls Laboratory, the founding director of the EOLOS wind energy research field station, and the James L. Record Professor of Civil, Environmental and Geo-Engineering at the University of Minnesota, Twin Cities. Prior to that, he was on the faculty of the School of Civil and Environmental Engineering at the Georgia Institute of Technology, with a joint appointment in the G. W. Woodruff School of Mechanical Engineering.

Awards

2019: American Geophysical Union Hydrology Days Borland Lecture in Hydraulics
2018: Fellow of the American Society of Mechanical Engineers
2017: State University of New York Distinguished Professor
2017: American Society of Civil Engineers Hunter-Rouse Hydraulic Engineering Award “For generating a quantum leap forward in the development and application of computational fluid dynamics for waterways.”
2014: Sackler Distinguished Lecturer, The Mortimer and Raymond Sackler Institute of Advanced Studies, Tel Aviv University, Israel
2011: APS/DF Gallery of Fluid Motion Contest Winner, American Physical Society, 64st APS/DFD meeting, Baltimore, Maryland. Video entry: “Vortex formation and instability in the left ventricle”
2009: Fellow of the American Physical Society :For seminal contributions in vortex dynamics, flow-structure interactions, and chaotic dynamics in civil, mechanical and biomedical applications.”
2009: APS/DFD Gallery of Fluid Motion Contest Winner, American Physical Society, 61st APS/DFD meeting, San Antonio, Texas. Video entry: “Why don't mackerels swim like eels? The role of form and kinematics on the hydrodynamics of undulatory swimming”
2008: James L. Record Professorship, Department of Civil Engineering, University of Minnesota
1999: Early CAREER Award from the National Science Foundation

Research

Sotiropoulos has made seminal contributions in computational fluid dynamics, spanning a broad range of topics in turbulence, vortex dynamics, flow-structure interactions, and chaotic dynamics.  His work has been inherently interdisciplinary and impacted numerous fields in civil engineering, mechanical engineering, biomedical engineering, and aquatic biology.  He has developed the Curvilinear Immersed Boundary method for solving the Navier-Stokes equations in domains with arbitrarily complex deformable objects with fluid-structure interaction. His numerical methods have been integrated with novel experiments to enable high-fidelity numerical simulations of real-life fluid mechanics problems in areas such as wind and tidal energy systems, river hydromechanics and morphodynamics, fish swimming, and hemodynamics of native and prosthetic heart valves. Sotiropoulos is the developer of the open source Virtual Flow Simulator CFD code, which is used by industry to optimize wind farms and tidal energy projects and assess and mitigate the risk of extreme river flooding on transportation infrastructure.