Can a better understanding of turbulence improve the performance of energy systems?
Ebenezer (Ekow) Essel
- Assistant Professor
- Department of Mechanical, Industrial and Aerospace Engineering
- turbulence8
- experimental fluid dynamics
- computational fluid dynamics18
- bluff body aerodynamics
- jets
- particle image velocimetry2
- numerical simulation7
- roughness effects
- fluid dynamics9
- fluid mechanics16
- fluid-structure interactions3
- microarray image analysis
- machine learning58
- flows8
- boundary layer effects
- environmental hydraulics2
- building aerodynamics2
- computational aerodynamics3
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Mojtaba Kheiri
fluid-structure interactions, nonlinear aeroelasticity, kite power systems
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Carole El Ayoubi
gas turbine engines, computational fluid dynamics, turbine design
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Moussa Tembely
numerical simulation, multiphase flows, computational fluid dynamics
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Lyes Kadem
cardiovascular health, biomechanics, biomedical engineering
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S. Samuel Li
river dynamics, sediment transport, environmental hydraulics
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Wahid Ghaly
gas turbine engines, aerodynamic inverse shape design, computational fluid dynamics
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Brian Vermeire
computational aerodynamics, future aircraft, computational fluid dynamics
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Georgios H. Vatistas
human physiology, liquid sloshing, vortex dynamics
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Simone Brugiapaglia
data science, computational mathematics, numerical analysis
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Marius Paraschivoiu
computational fluid dynamics, hydrogen technology, wind energy
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Hoi Dick Ng
thermofluids, combustion, renewable energy
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Ted Stathopoulos
building aerodynamics, wind engineering, buildings
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Ida Karimfazli
complex fluids, fluid mechanics, heat and mass transfer
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Jason Bramburger
nonlinear dynamics, complex dynamic systems, bifurcation analysis
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Jerin John
aerospace, rocket propulsion, spacecraft and satellites
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Hany Gomaa
fluid mechanics, microfluidics, complex fluids
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Krzysztof Skonieczny
planetary rovers, robotics, vehicle-terrain interactions
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Pascale Biron
river dynamics, fish habitats, geomorphology
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Charles Basenga Kiyanda
thermofluids, mathematical modeling, shock waves