Classes
Currently Teaching
MAE 633: Computational Fluid Dynamics (Graduate Level)
This course is an intermediate-level graduate course on computational fluid dynamics (CFD) primarily based upon finite difference and finite volume methods applied to fluid flow and heat transfer problems in engineering. The students will have access to the commercial code ANSYS Fluent. They will also develop their own programs for solving heat transfer and fluid flow problems. The course will introduce methods for discretization, review numerical methods for solving systems of equations, techniques for grid development, and solution analysis. Techniques for modeling turbulence will also be discussed.
MAE 336: Compressible Aerodynamics
This course covers the fundamental concepts of compressible aerodynamic theory; including an introduction to hypersonic flow. Topics include analysis and design of compressible, inviscid flows, isentropic flow, shock waves, Prandtl-Meyer expansions, and supersonic nozzles and diffusers. The course will also identify aspects of airfoils in compressible flows, including small perturbation theory. Student Composition: Juniors and Seniors with major field of study in Aerospace Engineering.
Past Taught
MAE 433: Computational Fluid Dynamics (Fall 2021)
Introduction to modern computational fluid dynamics. Development and implementation of finite- difference schemes for numerical flow solution. Grid Generation. Explicit, implicit, and iterative techniques. Emphasis on applications. Validation and verification of solution. Student Composition: Seniors and Graduate Students with major field of studies in Aerospace Engineering and Mechanical Engineering.
MAE 335: Incompressible Aerodynamics (Fall 2021)
MAE 335 covers the fundamentals of flowing fluids that can be treated as incompressible. Topics include what it means to be incompressible, analyzing the dynamics of fluid flow fields, ideal fluid flow, and viscous boundary layers. In this course, we will also cover airfoil theory as well as finite-wing theory. Student Composition: Juniors and Seniors with major field of study in Aerospace Engineering.
MAE 335 Fall 2021 SyllabusMAE 215: Introduction to Aerospace Engineering (Fall 2021)
Fundamental physical quantities of a flowing gas, standard atmosphere, basic aerodynamic equations, airfoil nomenclature, lift, drag and aircraft performance. Digital computer usage applied to aerodynamic and performance problems and aircraft design. Student Composition: Freshman and Sophomores with major field of study in Aerospace Engineering.
MAE 322: Thermal and Fluids Laboratory (Spring 2020)
Experiments demonstrating fundamental concepts of thermal-fluid systems; hydrostatics, dynamic pressure forces, dimensional analysis, pipe pressure losses, drag on external bodies, flow measurements devices, engine performance, fan and turbine performance, saturated vapor curve determination. Student Composition: Sophomores, Juniors, and Seniors with major field of studies in Aerospace Engineering and Mechanical Engineering
MAE 320: Thermodynamics (Summer 2017)
Principles of thermodynamics; properties of ideal gases and vapors; closed and control volume system; first and second laws of thermodynamics; entropy and entropy generation; basic gas and vapor cycles; basic refrigeration cycles. Student Composition: Sophomores, Juniors, and Seniors with major field of studies in Aerospace Engineering, Civil Engineering, Industrial Engineering, Mechanical Engineering, and Mining Engineering.
MAE 331: Fluid Mechanics (Fall 2016)
Fluid statics, laminar and turbulent flow of compressible and incompressible fluids, flow measurements, open channel flow, and kinetics of fluids. Student Composition: Sophomores, Juniors and Seniors with major field of studies in Aerospace Engineering, Industrial Engineering, Mechanical Engineering, Mining Engineering, and Petroleum and Natural Gas Engineering.MAE 241: Statics (Spring 2020)
Engineering applications of force equilibrium. Vector operations, couples and moments, resultants, centers of gravity and pressure, static friction, free-body diagrams, trusses and frames. Student Composition: Freshman, Sophomores, Juniors, and Seniors with major field of studies in Aerospace Engineering, Biomedical Engineering, Chemical Engineering, Civil Engineering, Computer Science, Electrical Engineering, Industrial Engineering, Mechanical Engineering, and Mining Engineering.