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Course Criteria
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3.00 Credits
(2-3-3) This course involves using material from prior coursework in individual student projects. Prerequisites: MET 218, MET 315. Pre- or corequisite: MET 316.
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3.00 Credits
(3-0-3) Compares available energy resources by application of laws and principles of thermodynamics. Provides computational skills for assessment of a given resource with respect to a given application. Develops understanding of energy economics. Prerequisites: ENGR 355, MET 326.
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3.00 Credits
(2-3-3) Application of thermodynamics and fluid mechanics to the analysis of flow of both ideal and real gasses in pipes, nozzles, diffusers, compressors and turbines. The course also emphasizes the use of appropriate instrumentation. Prerequisites: MET 218, MET 313, MET 363.
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3.00 Credits
(2-3-3) An introductory course on the experimental techniques used in wind tunnel testing of aerodynamic shapes. Includes operating characteristics of wind tunnels, the characteristics of and use of models and model instrumentation, and the development of analytical techniques for reduction of wind tunnel data. Prerequisites: ENGR 355, MET 218, MET 363.
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3.00 Credits
(2-3-3) A mechanical approach to industrial hydraulic applications with emphasis on selection and function of hardware and interfacing of hydraulic systems with mechanical, fluidic and electrical/ electronic controls. Prerequisites: MET 218, MET 363.
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3.00 Credits
(2-3-3) Application of laws and principles of thermodynamics to performance testing of heat engines. Teaches measurement of power, determination of efficiency, preparation of heat balances, analysis of combustion products, and preparation of engineering reports. Prerequisites: MET 313, MET 363.
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3.00 Credits
(2-3-3) Heating, ventilating, and air conditioning. Application of laws and principles of thermodynamics to analysis, design, and control of mechanically-controlled environments for human comfort, animal health, and food preservation. Teaches computation of heating and cooling loads, humidity control, heating, and refrigeration. Prerequisites: ENGR 355, MET 323.
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3.00 Credits
(3-0-3) An introduction to control systems. Both classic control theory and modern digital process control are considered. Topics include block diagrams, mathematical models, transfer functions, LaPlace transforms, frequency response along with control components and digital controllers. Prerequisites: ENGR 212, ENGR 236, ENGR 355, MET 218, MET 363.
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2.00 Credits
(1-3-2) A study of experimental heat transfer. Methods and instrumentation used for investigating heat transfer systems will be considered. Laboratory investigations include studies of heat exchangers, forced and free convection experiments, and determination of radiation and convection coefficients. Prerequisites: MET 323, MET 363.
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3.00 Credits
(3-0-3) Introduction to construction, operation, and theory of reciprocating and turbine engines. Students will learn engine design, history of development, theory and practice of operation. Prerequisites: MET 218, MET 313, MET 315.
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