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Course Criteria
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0.00 - 3.00 Credits
Theory of fracture mechanics with engineering applications, stress analysis using finite element analysis (FEA) with emphasis on the cracked structures. Prerequisites: CVEN 2372, MEEN 3320 or equivalent Offered: Fall
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0.00 - 3.00 Credits
Theory of fracture mechanics with engineering applications, stress analysis using finite element analysis (FEA) with emphasis on the cracked structures. Prerequisites: CVEN 2372, MEEN 3320 or equivalent Offered: Fall
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3.00 Credits
Mathematical modeling of various systems, transient and steady-state response, frequency response analysis, root-locus, stability, control system design, steady-states representations, controllability and observability and design of system in state space. Offered: Other
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3.00 Credits
This course deals with the theory, design and simulation of internal combustion engines. The theory of internal combustion engines covers thermodynamic and fuel-air cycles, fuels and their properties, intake and exhaust flows, combustion and pollutant emissions, heat transfer and modeling of IC engines. IC engine simulation software will be used to solve practical IC engine problems. Current status and future challenges of IC engines will also be discussed. Offered: Other
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3.00 Credits
Flow problems encountered in the design of water, gas and steam turbines, contrifugal and axial-flow pumps and compressors, aerothermodynamic design of gas turbines. Prerequisite: MEEN 3311 and MEEN 3380 Offered: Other
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0.00 - 3.00 Credits
This is an introductory course of Computational Fluid Dynamics (CFD). It will cover the basic concepts underlying the computational fluid dynamics including derivation of governing equations, discretization, grid generation, applications or numerical methods, error reduction, and solution testing, and interpretation of numerical results. Commercial CFD software packages will be used to solve practical engineering fluid dynamics problems. Prerequisites: MEEN 3310, MEEN 3311, MEEN 3340 Offered: Other
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0.00 - 3.00 Credits
This is an introductory course of Computational Fluid Dynamics (CFD). It will cover the basic concepts underlying the computational fluid dynamics including derivation of governing equations, discretization, grid generation, applications or numerical methods, error reduction, and solution testing, and interpretation of numerical results. Commercial CFD software packages will be used to solve practical engineering fluid dynamics problems. Prerequisites: MEEN 3310, MEEN 3311, MEEN 3340 Offered: Other
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3.00 Credits
This course covers the fundamental principles of combustion theory and introduces the use of these principles in different engineering applications such as furnances, 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. Numberical modeling of combustion and combustion measurement techniques will be introduced. Prerequisite: MEEN 3310, MEEN 3311, MEEN 3380 Offered: Other
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3.00 Credits
Different types of energy resources and their uses, different types of energy conversion technology such as fuel cells, thermoelectric, and solar energy conversion, and energy conservation technologies such as pinch technology and cogeneration, current and future challenges of energy generation and conservation, environmental issues such as air pollution, smog and greenhouse effects, and NOx emissions. Prerequisite: MEEN 3310, MEEN 3311, MEEN 3380 Offered: Other
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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 modelling of combustion and combustion measurement techniques. Prerequisites: Fluid Mechanics, Heat Transfer, Thermodynamics Offered: Other
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