Apr 20, 2024  
2019-2020 Graduate Academic Catalog 
    
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2019-2020 Graduate Academic Catalog [ARCHIVED CATALOG]

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ME 514 - Thermodynamic Applications

3 lecture hours 0 lab hours 3 credits
Course Description
This course deals with power and refrigeration cycles with an emphasis on applications of thermodynamic principles to engineering systems. Topics include gas mixtures, engine power cycles, and combustion. Design projects and laboratory demonstrations are used to illustrate the application of thermal-fluid analysis to systems and devices such as vapor compression refrigeration, internal combustion engines, cogeneration systems, fuel cells and solar energy systems. A graduate student presentation or report on a relevant topic is also required. (prereq: graduate standing, CH 200, ME 3102, ME 318)
Course Learning Outcomes
Upon successful completion of this course, the student will be able to:
  • Analyze Otto and diesel cycles
  • Perform 1st law analysis of combustion processes
  • Perform basic integrated thermal systems design
  • Apply 1st and 2nd law to real systems
  • Demonstrate the principles of thermodynamics and heat transfer in the laboratory. A few of the following experiments will be selected for analysis: power cycles and refrigeration cycles, solar photovoltaic systems, solar thermal systems, and cogeneration systems
Prerequisites by Topic
  • First and Second Laws of Thermodynamics
  • Ideal gas and incompressible liquid models, steam tables
  • Rankine, refrigeration, and Brayton cycles
  • Heat transfer- conduction, convection, radiation
Course Topics
  • Internal combustion cycles (Otto and diesel) cycles
  • Reacting mixtures (combustion processes)
  • Design project(s)
  • Additional topics (compressible flow, cogeneration, psychrometrics, solar energy systems, fuel cells) chosen by instructor
Laboratory Topics
  • Internal combustion engine analysis
  • Combustion analysis
  • Refrigeration cycle
  • Heat transfer: conduction, convection, radiation
  • Cogeneration
  • Solar thermal energy systems
  • Solar photovoltaic energy systems
  • Fuel cells
Coordinator
Dr. Subha Kumpaty


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