John Dabiri currently holds the title of Centennial Chair Professor at the California Institute of Technology. He is also director of the Biological Propulsion Laboratory, and holds positions on the editorial boards of Journal of Fluid Mechanics and the Journal of the Royal Society Interface. Dabiri earned his bachelor of science in mechanical and aerospace engineering in 2001 at Princeton University, and his MS in aeronautics in 2003 and Ph.D. in bioengineering in 2005 at the California Institute of Technology.
Dabiri is an aeroscience and bioengineer, best known for his work in fluid mechanics, flow physics, and theoretical engineering. In particular, Dabiri is known for his groundbreaking work that draws on biology to better understand fluid dynamics. Analyzing the movement of jellyfish and schooling fish, Dabiri has produced research with profound implications for the efficient design and repair of things ranging from wind turbines to the muscles of the human heart. His designs have also been used in underwater naval craft. Lately, his work has focused on biological reverse engineering, with the goal of “building” living and functioning jellyfish from lab-synthesized tissues.
For his work, Dabiri has received numerous awards and honors, including a MacArthur Fellowship, an Office of Naval Research Young Investigator Award, a Presidential Early Career Award for Scientists and Engineers, fellowship with the American Physical Society, and the Eugene L. Grant Award for Excellence in Teaching.
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John Oluseun Dabiri is a Nigerian-American aeronautics engineer and the Centennial Chair Professor at the California Institute of Technology , with appointments in the Graduate Aerospace Laboratories and Mechanical Engineering. His research focuses on unsteady fluid mechanics and flow physics, with particular emphasis on topics relevant to biology, energy, and the environment. He is best known for his research of the hydrodynamics of jellyfish propulsion and the design of a vertical-axis wind farm adapted from schooling fish. He is the director of the Biological Propulsion Laboratory, which examines fluid transport with applications in aquatic locomotion, fluid dynamic energy conversion, and cardiac flows, as well as applying theoretical methods in fluid dynamics and concepts of optimal vortex formation.Source: Wikipedia
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