Computational Fluid Dynamics: computational algorithms, intersection among fluid dynamics, nonlinear dynamical system, control theory, thermal and water management in polymer electrolyte fuel cells, structure of chemically reacting flow, catalytic combustion, micro-propulsion, laser diagnostics, supersonic combustion, modeling and simulation of multiphysics turbulent flows, reactive flows, radiative heat transfer, and multi-phase combustion.
3
computational dynamics|computational fluid dynamics|emeritus faculty|Energy Systems|physical fluid dyanmics|propulsion system nozzles
thomas.barber@uconn.edu
active faculty|computational fluid dynamics|Current|Energy Systems|Robotics, Dynamics, Sensing and Control
chang_liu@uconn.edu
aerospace applications|complex fluid dyanmics|computational fluid dynamics|Current|Multi-physics computational modeling
georgios.matheou@uconn.edu
computational fluid dynamics|Current|Energy Systems|fuel cells|Multi-physics computational modeling|multi-scale computational modeling|multi-scale modeling|multiscale modeling|polymer electrolyte fuel cells|transport phenomena|water management
ugur.pasaogullari@uconn.edu
active faculty|computational fluid dynamics|computational fluid mechanics|computational mechanics|Current|Energy Systems|fluid mechanics|Multi-physics computational modeling|transport phenomena|turbulent combustion|turbulent combustion modeling
reza.sheikhi@uconn.edu
combustion|computational fluid dynamics|Current|Energy Systems|fuel chemistry|laser diagnostics
chih-jen.sung@uconn.edu
computational fluid dynamics|Current|Energy Systems|radiative heat transfer|turbulent combustion modeling|uncertainty quantification
xinyu.zhao@uconn.edu
