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Course Criteria
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3.00 Credits
Fundamental principals of combustion theory and their applications in different engineering problems such as furnaces, automotive engines, gas turbines, and rockets. Topics covered include thermochemistry, fuels, chemical kinetics, conservation equations for reacting flows, premixed and diffusion flames, droplet burning, and pollutant emissions, introduction to numerical modeling of combustion and combustion measurement techniques. Prerequisite: Fluid Mechanics, Heat Transfer, Thermodynamics Offered: Other
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3.00 Credits
Fundamentals of energy conservation and management, energy audit procedure and methodology, energy conservation analysis based on calculation of heat transfer, thermodynamics and economics, potential energy saving opportunities in different industrial areas, technologies to improve energy efficiency. Prerequisite: Fluid Mechanics, Heat Transfer, Thermodynamics.
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3.00 Credits
The importance and fundamental consideration of gas turbines heat transfer and cooling are introduced. Different aspects of internal cooling and film cooling technologies are discussed. State-of-the-art experimental design and numerical modeling related to gas turbines heat transfer and cooling are presented. Prerequisites: MEEN 3310, MEEN 3311 Offered: Other
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3.00 Credits
This course deals with energy resources, energy conversion, and energy conseration. Topics covered include different types of energy resources and their uses, different types of energy conversion technology such as fuel cells, thermoelectric, solar energy conversion, and energy conservation technologies such as pinch technology and cogeneration. Current status and future challenges of energy generation and conservation including critical issues such as air pollution, smog and greenhouse effects and NOx emissions will also be discussed. Offered: Summer
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0.00 - 3.00 Credits
Introduction to ProEngineer. The analysis and the utilization of state of the art computer hardware and software to solve the problems associated with the utilization of computers in both graphics and engineering design problems. Prerequisite: Graduate standing in the College of Engineering and consent of the instructor. Offered: Fall
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0.00 - 3.00 Credits
Introduction to ProEngineer. The analysis and the utilization of state of the art computer hardware and software to solve the problems associated with the utilization of computers in both graphics and engineering design problems. Prerequisite: Graduate standing in the College of Engineering and consent of the instructor. Offered: Fall
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3.00 Credits
Deformation and Stress analysis, mathematical preliminaries (tensor basics, variational method), strain-displacement relations in general, theory of linear elasticity and energy methods. Offered: Fall, Spring
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3.00 Credits
Technology requirements and trends of microelectronics packaging and microsystems, device scaling, multilayered interconnect structures, packaging material properties and applications, electromigration, thermal/mechanical properties reliability. Offered: Fall, Spring
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3.00 Credits
Stress analysis of cracked elastic and inelastic solids; fundamental principals of fracture mechanics in mechanical design and engineering applications; failure criteria for brittle and ductile materials; low-cycle and high-cycle fatigue and fatigue mechanisms. Offered: Fall, Spring
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3.00 Credits
Finite element method in the study of the static response of complex structures and of continua; applications to field problems, energy & variation methods emphasized and ANSYS software introduced. Offered: Fall, Spring
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