Can we predict how a material will behave under very high pressures and temperatures?
Charles Basenga Kiyanda
- Assistant Professor
- Department of Mechanical, Industrial and Aerospace Engineering
- thermofluids5
- mathematical modeling17
- shock waves2
- combustion2
- mathematical physics3
- thermodynamics3
- fluid mechanics15
- non-ideal mixtures
- computational fluid dynamics15
- computational thermodynamics2
- software engineering27
- nonlinear science2
- detonation waves
- explosions2
- propulsion systems2
- scientific workflows3
- open source software7
- open data6
- compressible simulations2
- compressible flows2
-
Hoi Dick Ng
thermofluids, combustion, renewable energy
-
Carole El Ayoubi
gas turbine engines, computational fluid dynamics, turbine design
-
Ida Karimfazli
complex fluids, fluid mechanics, heat and mass transfer
-
Marius Paraschivoiu
computational fluid dynamics, hydrogen technology, wind energy
-
Georgios H. Vatistas
human physiology, liquid sloshing, vortex dynamics
-
Wahid Ghaly
gas turbine engines, aerodynamic inverse shape design, computational fluid dynamics
-
Hany Gomaa
fluid mechanics, microfluidics, complex fluids
-
Mojtaba Kheiri
fluid-structure interactions, nonlinear aeroelasticity, kite power systems
-
Steve Shih
microfluidics, synthetic biology, biofuels and biochemicals
-
Tomasz Neugebauer
digital libraries, open access, metadata
-
Yan Liu
big data, distributed/parallel systems, deep learning
-
Samuel Li
river dynamics, sediment transport, environmental hydraulics
-
Tristan Glatard
big data, distributed/parallel systems, cloud computing
-
Ali Dolatabadi
surface engineering, thermal spray coatings, droplet transport
-
Emad Shihab
software engineering, mining software repositories, mobile apps
-
Lyes Kadem
cardiovascular health, biomechanics, biomedical engineering
-
Mamoun Medraj
thermodynamics of materials, metals, metallic glass