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Course Information

Course Name
Turkish Isı Transferi
English Heat Transfer
Course Code
KMM 321E Credit Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester 5
3 3 - -
Course Language English
Course Coordinator Şerife Birgül Ersolmaz
Hüsnü Atakül
Course Objectives 1. To introduce the meaning of the terminology and physical principles of heat transfer.
2. To train students to identify and describe appropriate transport phenomena (fluid mechanics, heat and mass transfer) for any process or system involving heat transfer (in engineering and everyday life).
3. To show students how to use required inputs for computing heat transfer rates and/or material (solid, liquid, gas) temperatures.
4. To show students how to develop representative models of real processes and systems and draw conclusions concerning process/systems design or performance from the related analyses.
5. To provide experience to work in teams.
Course Description Basic concepts of thermodynamics and heat transfer. Heat conduction equation. Steady heat conduction. Transient heat conduction. Forced convection. Natural convection. Boiling and Condensation. Heat Exchangers.
Course Outcomes Upon completion of this course, a student should be able to:
1. Define, describe, and apply the basic concepts (terminology, modes and equations) of conduction, radiation, and convection heat transfer.
2. Apply laws of conservation of energy (formulate appropriate mathematical models and associated initial and boundary conditions) to thermal systems and heat transfer problems involving conduction, radiation, and/or convection heat transfer.
3. Formulate and solve steady-state one-dimensional conduction heat transfer problems including fins to calculate the temperature distribution and heat transfer rate, and evaluate the significance of results.
4. Formulate and solve transient one-dimensional heat conduction problems in different geometries using lumped system approach or one-term approximation of separation of variables solution; and in large mediums using similarity variable.
5. Demonstrate an understanding of the fundamentals of the relationship between fluid flow and convection heat transfer and apply empirical correlations for both forced and free (natural) convection to determine values for the convection heat transfer coefficient and calculate heat transfer rate.
6. Determine engineering design quantities (power requirements, cost, insulation thickness, etc.) required for design of thermal engineering devices and systems and apply engineering judgment.
7. Analyze and design heat exchangers to calculate heat transfer area and the outlet temperatures of the hot and cold streams.
8. Work as a team member in the same discipline to solve heat transfer problems in engineering.
Pre-requisite(s) TER201 or KIM252 and AKM202E or AKM204 or AKM204E
Required Facilities
Other
Textbook Heat and Mass Transfer: Fundamentals and Applications, Yunus A. Çengel and Afshin J. Ghajar, Fourth Edition, McGraw Hill, 2011.
Other References 1. Fundamental of Heat and Mass Transfer (6th edition), by F. P. Incropera and D. P. Dewitt, T. L. Bergman, A. S. Lavine, John Wiley & Sons, NY, 2007.
2. Heat Transfer (10th edition) by J. P. Holman, McGraw Hill, NY, 2009.
 
 
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