Teaching

University of Tennessee at Chattanooga

• Thermodynamics (ENME 3030)
  • Summary: Classical thermodynamics with emphasis on first and second laws of thermodynamics. Property relationships, chemical equilibrium, and cycle analysis.
    
  • Textbook: Thermodynamics: An Engineering Approach, Ninth Edition, Cengel, Y., Boles, M., and Kanoglu, M., McGraw Hill, 2019.
  • Semesters: Fall 2019, Spring 2020, Fall 2020, Spring 2021, Fall 2021

• Mechanical Engineering Thermodynamics (ENME 3040)
  • Summary: A continuation of ENCH 3030/ENME 3030 (Thermodynamics) course with an emphasis on mechanical engineering applications that involve energy (availability), power and refrigeration cycles, gas-vapor mixtures (psychometrics), and chemically reacting gases (combustion).
  • Textbook: Thermodynamics: An Engineering Approach, Ninth Edition, Cengel, Y., Boles, M., and Kanoglu, M., McGraw Hill, 2019.
  • Semesters: Fall 2021, Spring 2022, Fall 2022

• Fluid Mechanis (ENME 3070)
  • Summary: Fluid statics and kinematics; fluid dynamics including Bernoulli, continuity and momentum equations; fluid measurements; viscosity; compressible and incompressible flow; laminar and turbulent flow; flow in pipes and open channels; model studies; lift and drag.
    
  • Textbook: Fluid Mechanics, Second Edition, Hibbelar, R. C., Pearson, 2018.
  • Semesters: Spring 2020, Fall 2022, Spring 2023

• Viscous Flow Theory (ENME 5350)
  • Summary: Physical and theoretical aspects of viscous fluid flow, from a perspective that provides fundamental background for computational simulation of viscous flows; development of mass, momentum and energy conservation equations for a Newtonian fluid; introduction to Cartesian tensors; development of boundary-layer theory; introduction to inviscid flow analysis; classical analytical solutions and experimental measurements for fluid flow problems; three-dimensional primary and secondary flows.
  • Textbook: Viscous Fluid Flow, Third Edition, by Frank M. White, McGraw Hill Publishing.
  • Semesters: Spring 2021, Spring 2023

Georgia Institute of Technology

• Computational Fluid Dynamics (AE 6042)
  • Summary: Finite-difference, finite volume methods for solution of Navier-Stokes and Euler equations. Classification of equations, stability, grids, boundary conditions, implicit and explicit methods, turbulence modeling
    
  • Textbook: Computational Fluid Mechanics and Heat Transfer, Third Edition, Pletcher, R.H., Tannehill, J.C., and Anderson, D.A., CRC Press: Taylor and Francis Publishers, 2013.
    
  • Semesters: Spring 2017 and Spring 2018