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Course Criteria
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3.00 Credits
3 hrs. A study of synthesis of gas turbine design under the constraints of power plant system integration or airframe integration. Definitions of system requirements, preliminary configuration analysis and engine sizing; inlet preliminary design; compressor, combustor, turbine and nozzle design; co-generation and heat recovery considered for stationary power plants.; engine on and off design performance simulation; installed thrust and system interference effects; noise sources and noise control are covered. Prerequisites: ME 311 and ME 320 ( Offered - consult advisor)
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3.00 Credits
3 hrs. A study of refrigeration cycles, psychrometrics, thermal comfort, ventilation, duct design, equipment sizing, energy recovery, and solar design concepts. Prerequisites: ME 310 and ME 312 ( Offered - consult advisor)
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3.00 Credits
3 hrs. A study of the fundamental theory of one-dimensional gas dynamics: Isentropic flow, flow in converging-diverging nozzles, shock propagation, normal and oblique shock theory, Prandtl-Meyer expansions, Fanno line flow, and measurement methods. Prerequisites: ME 310 and ME 360 ( Offered - consult advisor)
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3.00 Credits
- 3 hrs. Application of engineering mechanics and strength of materials to the analysis. Synthesis, and design of machine elements (design of screws, fasteners, and connections; design of welded, brazed, and bonded joints; mechanical springs; bearings; gears; shafts; design of clutches, brakes, couplings, and flywheels); theories of failure, stress concentrations, fatigue life, and thermal stresses; consideration of economics and safety; projects in creative mechanical design; design case studies. Prerequisite: ME 231
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3.00 Credits
3 hrs. (Lec. 3). A study of the design synthesis and methods; strength design of mechanical structures and components; optimization and reliability principles; and computer-aided design techniques. Emphasis is on modeling synergistic processes for manufacture. Prerequisites: ME 370 and ME 320 ( Offered - consult advisor) Co-requisite ME 432L
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1.00 Credits
1 hrs. (Lab 3 hrs.) Laboratory supporting design work for ME 432. Co-requisite: ME 432
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2.00 Credits
2 hrs. (Lec 2 hrs.). Amplification of knowledge of linear system properties gained from previous courses to accomplish modeling, identification, and feedback control of dynamic systems. Both classical and state feedback control concepts are developed in this course. Digital control theory and analysis are also applied to systems composed of linear elements. Laboratory experiments are hardware applications that verify these concepts using both analog and digital computers as appropriate. Prerequisites: ME 301 and EE 201 ( Offered - consult advisor) Corequisite ME 451L
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1.00 Credits
1 hrs. (Lab 3 hrs.) Supports projects and practices in ME 451. Corequisite ME 451.
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2.00 Credits
2 hrs. (Lec. 1 hr., Lab 1 hr.) Design or comprehensive analysis and development of an engineering product or process. The student is required to give an oral presentation of his work and submit an approved typewritten technical report. Prerequisites: Senior Standing and consent of instructor ( Offered - consult advisor)
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3.00 Credits
3 hrs. (Lec 3 hrs.) The systems engineering process is defined and investigated in this course. Among the topics introduced and studied are conceptual, preliminary, and detail design concepts using modern tools such as CAD, optimization, and systems test and evaluation in completing designs built for increased reliability, maintainability, and supportability. Environmental and social impact and life-cycle costs are also introduced. Prerequisites: ME 300 and ME 370 ( Offered - consult advisor)
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