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Dersin Bilgileri

Dersin Adı
Türkçe Isı geçişi
İngilizce Heat Transfer
Dersin Kodu
UZB 317E Kredi Ders
(saat/hafta)
Uygulama
(saat/hafta)
Labratuvar
(saat/hafta)
Dönem 6
- 2 1 -
Dersin Dili İngilizce
Dersin Koordinatörü Ali Kodal
Ali Kodal
Dersin Amaçları Main objective of this course is to:
1. Explain the physical origins of heat transfer, identify important modes of heat transfer in a given situation, and make appropriate assumptions
2. Improving ability of solving the heat transfer problems analytically and numerically.
Dersin Tanımı 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 radiation. 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.
Dersin Çıktıları Student, who passed the course satisfactorily can:
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,f1,i1,k1]
3. Sketch temperature profiles in one-dimensional heat transfer, showing the qualitative influence of energy generation, non-planar geometry, or time dependence. [a1,f1,i1,k1]
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 convection from correlations.[b2,f1,i1,k1]
7. Estimate convective transfer rates on the basis of geometric and dynamic similarity, and analogy between different convective transport processes. [a1,e3]
8. Explain how radiation can be described based on its wavelength, source, and direction. [a1]
9. Apply the laws of radiation to compute heat transfer rates for surfaces, such as black bodies and diffuse gray surfaces, with appropriate approximations. [a2,e3,f1,i1,k1]
Önkoşullar UCK205 or UCK205E
Gereken Olanaklar
Diğer
Ders Kitabı Heat and Mass Transfer, Fundamentals and Applications 6ed Yunus A. Cengel, Afshin J. Ghajar McGraw Hill 2020.
Diğer Referanslar Fundamentals of Heat and Mass Transfer 7ed Theodore L. Bergman, Adrienne S. Lavine, Frank P. Incropera,David P. Dewitt, John Wiley and Sons 2011.
 
 
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