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Graduate Courses Taught
· Principles of Heat Transfer
· Computational Heat and Fluid Flow
· Combustion Processes II or Computational Combustion
· Finite Difference Methods in Engineering
· Computational Fluid Dynamics
The first two courses
were developed and they are required by all graduate students in thermal
sciences. The course on Combustion II was developed to introduce advanced
computational concepts in combustion including use of commercial software.
Undergraduate Courses Taught
· Design of Thermal-Fluid Systems
· Senior Design Practicum (Energy Systems)
· Numerical Methods in Engineering
· Thermodynamics I
· Thermodynamics II
· Introduction to Fluid Mechanics
· Introduction to Heat Transfer
· Air Conditioning Systems
Recently taught courses include two design courses: Design of Thermal Fluid Systems, and Senior Design Practicum. The latter course involves industry sponsored team projects requiring design and prototyping. Recent projects include:
-Bird’s Eye View, Sutton Avian Research Center, Best Project Award, 1st Place, 2004
-Automation of Air Entrainment Device, Halliburton, patent in progress, 2004
-Flowtran,
- Proppant
Delivery System Design: Schlumberger,
- Air entrainment measurements in
slurries, Halliburton,
- SureFlow short circuit identification, International Environmental Corp, 2003
- Heat-pipe air-conditioning system, ASHRAE, 2003
- Heat exchanger coil testing, York International, Special recognition from the sponsor, 2003
- Fuel cell kerosene pre-burner, University of Oklahoma, Best Project Award, 1st Place, 2002
- Automated measurements in an
instructional diesel engine,
- Pitot-static Tube Calibration System for B-1 Bomber Aircraft, Later on adapted by Air Force, 2001
- Aircraft fuel flow meter calibration test stand, Tinker Air Force Base, 2001
- Design/construction of a Super Gas fuel station, University of Oklahoma/OCAST, 2000
- Sabatier reactor for in-situ fuel utilization on Mars, 2000
- Air-cycle cooling system, 2000