Course Information

Course Name	Turkish	Isı Geçişi
	English	Heat transfer
Course Code	UZB 232	Credit	Lecture (hour/week)	Recitation (hour/week)	Laboratory (hour/week)
Semester	2	3	3	-	-
Course Language		Turkish
Course Coordinator		Ahmet Cihat Baytaş
Course Objectives		Main objective of this course is to introduce the heat transfer mechanisms and improving ability of solving the heat transfer problems analtically and numerically.
Course Description		Heat transfer forms and fundamental laws. General formulation of heat transfer, numerical formulation. Heat transfer coefficient. 1- D heat transfer in continuous form. 1-D heat transfer in discrete form. Heat transfer in blades. The concept of thermal boundary layer. Forced convection. Natural convection. Dimensional analysis. Integral and numerical solution. Radiation heat transfer: Blackbody radition. Radiant heat transfer between black surfaces. View factor. Gray surfaces. Radiant heat transfer between gray surfaces. Net radiation method. Electrical analogy. Gas radiation. Heat exchangers: Analysis and design.
Course Outcomes		After completion of this course, the students should be able to: 1.Explain the physical origins of heat transfer, identify important modes of heat transfer in a given situation, and make appropriate assumptions. [a1,e1,h1,i1,j1] 2. Calculate heat transfer rate and temperature distribution in steady-state one-dimensional heat conduction problems. [a3,e3] 3. Sketch temperature profiles in one-dimensional heat transfer, showing the qualitative influence of energy generation, non-planar geometry, or time dependence. [a2] 4. Calculate the rate of steady heat transfer in fins, and unsteady heat transfer in lumped-capacitance and semi-infinite solid problems. [a3,e3] 5. Explain the terms in the governing equations for convective heat transfer. [a1] 6. Obtain the heat transfer coefficients for forced and free convection from correlations. . [b2] 7. Estimate convective transfer rates on the basis of geometric and dynamic similarity, and analogy between different convective transport processes. [a3,e3] 8. Calculate heat transfer rates in external and internal flows, including flat plates, cylinders, pipes, free convection at vertical surfaces. [a3,e3] 9. Explain how radiation can be described based on its wavelength, source, and direction, and explain the basic concepts of blackbody radiation, reflectivity, emissivity, and absorptivity for surface radiation. [a1]
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