Prerequisites
- Mathematics: Calculus I+II+III and Differential Equations
- Computer programming capability.
Required Courses—12 Credit Hours
- GEEN 6301: Applied Mathematics for Engineers (3 Cr)
- MEEN 6302: Computer Aided Engineering (3 Cr)
- MEEN 6303: Design of Experiments (3 Cr)
- GEEN 6304: Interdisciplinary Research and Seminar (3 Cr)
Restricted Electives
Thesis option (12 Credit Hours): select 4 courses from either Thermo-fluids track or Mechanical track.
Non - Thesis option (15 Credit Hours): Select 5 courses from either Thermo-fluids track or Mechanical track.
THERMO-FLUIDS TRACK
- MEEN 6311: Advanced Fluid Mechanics (3 Cr)
- MEEN 6312: Advanced Heat Transfer (3 Cr)
- MEEN 6313: Computational Fluid Dynamics (3 Cr)
- MEEN 6314: Design of Heating Ventilation and Air Conditioning Systems (3 Cr)
- MEEN 6315: Gas Turbines Technology (3 Cr)
- MEEN 6316: Thermal Power Plants (3 Cr)
- MEEN 6317: Renewable Energy Technology (3 Cr)
- MEEN 6318: Advanced Thermodynamics(3 Cr)
- MEEN 6319: Energy Conservation (3 Cr)
- MEEN 6320: Advanced Turbo-Machinery (3 Cr)
- MEEN 6321: Desalination (3 Cr)
- MEEN 6329: Special Topics in Thermofluid (3 Cr)
MECHANICAL SYSTEM TRACK
- MEEN 6341: Experimental Mechanics (3 Cr)
- MEEN 6342: Mechanical Vibration (3 Cr)
- MEEN 6343: Finite Element Analysis (3 Cr)
- MEEN 6344: Digital Control Systems (3 Cr)
- MEEN 6345: Advanced Systems Dynamics and Control (3 Cr)
- MEEN 6346: Advanced Dynamics of Mechanical Systems (3 Cr)
- MEEN 6347: Advanced Mechanics of Materials (3 Cr)
- MEEN 6348: Advanced Engineering Materials (3 Cr)
- MEEN 6349: Advanced Corrosion Analysis (3 Cr)
- MEEN 6350: Advanced Manufacturing Processes (3 Cr)
- MEEN 6351: Fracture Mechanics (3 Cr)
- MEEN 6352: Non-Destructive Testing and Evaluation (3 Cr)
- MEEN 6353: Tribology (3 Cr)
- MEEN6354: Reverse Engineering and Rapid Prototyping (3 Cr)
- MEEN 6359: Special Topics in Mechanical (3 Cr)
Thesis Option—6 Credit Hours
MEEN 6399: Thesis (6 Cr)
Non-Thesis Option—3 Credit Hours
MEEN 6398: M.Sc. Project (3 Cr)
Independent Learning
The Independent Learning Requirement is met successfully by completing one or more of the following:
- Interdisciplinary Research and Seminar
- Special Topics in Thermofluid
- Special Topics in Mechanical
- M.Sc. Project
- The master thesis for thesis option