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ME 539: Boundary Elements I
3.00 Credits
University of South Alabama
Fundamental concepts of the boundary element method of numerically solving partial differential equations. Application to potential flow problems in heat transfer. This course is dual listed with an equivalent 400 level mechanical engineering course. Requires special permission of instructor.
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ME 539 - Boundary Elements I
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ME 540: Advanced Heat Transfer
3.00 Credits
University of South Alabama
Steady and transient conduction, external and internal forced convection, natural convection, radiation with participating media, boiling heat transfer, Stefan condition. Prerequisite: Consent of instructor.
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ME 540 - Advanced Heat Transfer
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ME 541: Conduction Heat Transfer
3.00 Credits
University of South Alabama
Closed form analytical and approximate numerical solutions of one, two- and three-dimensional steady state and transient problems in conduction heat transfer. Prerequisites: MA 507, Consent of instructor.
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ME 541 - Conduction Heat Transfer
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ME 542: Convection Heat Transfer
3.00 Credits
University of South Alabama
Fundamental laws of motion and energy balance for a viscous fluid, classical solution of the Navier-Stokes and energy equations, laminar/turbulent hydrodynamic and thermal boundary layers, convection heat transfer in laminar/ turbulent internal flows. Prerequisites: EG 360, ME 317, Consent of instructor.
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ME 542 - Convection Heat Transfer
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ME 543: Radiation Heat Transfer
3.00 Credits
University of South Alabama
Blackbody radiation, diffuse-gray surfaces, radiative exhange in a multi-surface enclosure, gas radiation in enclosures with participating media, introduction to available numerical methods. Prerequisites: ME 317, Consent of instructor.
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ME 543 - Radiation Heat Transfer
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ME 544: Heat Trans - Change of Phase
3.00 Credits
University of South Alabama
Boiling heat transfer and critical heat flux, condensation heat transfer, Stefan problem, freezing and melting, ablation, introduction to available numerical techniques. Prerequisites: ME 540 or ME 542, Consent of instructor.
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ME 544 - Heat Trans - Change of Phase
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ME 545: Exp Fluid Mech and Heat Trans
3.00 Credits
University of South Alabama
Uncertainty analysis, system response, sampling theory and FFT, differential pressure measurement and multi-hole probes, thermo-couple and RTD, thermal anemometry, LDV and other non-intrusive optical methods, flow visualization. Prerequisites: EG 360, ME 316, ME 317, Consent of instructor
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ME 545 - Exp Fluid Mech and Heat Trans
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ME 550: Combustion
3.00 Credits
University of South Alabama
Introduction to the theory of combustion processes, chemical equilibrium, adiabatic flame temperature, reaction kinetics, flame structure. This course is dual-listed with an equivalent 400-level mechanical engineering course. Prerequisites: ME 312, Consent of instructor.
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ME 550 - Combustion
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ME 551: Classical Thermodynamics
3.00 Credits
University of South Alabama
Postulational treatment of the physical laws of equilibrium, equations of state, processes, equilibrium, stability, reactive systems, phase transition. Prerequisite: Consent of instructor.
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ME 551 - Classical Thermodynamics
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ME 552: Statistical Thermodynamics
3.00 Credits
University of South Alabama
Principles of kinetic theory, quantum mechanics, and statistical mechanics with particular reference to thermodynamic systems. Conclusions of classical thermodynamics are established from the microscopic viewpoint. Prerequisite: Consent of instructor.
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ME 552 - Statistical Thermodynamics
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