Code of course & Name

:

0502506 Heat Transfer  

Type of Course

:

Compulsory

Prerequisite/Recommended 

:

Recommend take Thermodynamic I - II and Fluid Mechanic I course.

Semester

:

Fall Semester

Credit

:

3+0+3

Coordinate of course

:

Dr. Rafet Karadağ and Research Asst. Yusuf Işıker

Division/Department/Program

:

Mechanical Engineering

Instructor

:

Prof. Dr. Bülent Yeşilata

Room/Number classroom

:

MM2

Time of course

:

Tuesday (09-12)

Meeting time

:

Tuesday (08-09)

Groups

:

one group

Objective of the Course

:

Learn techniques of heat transfer and thermal projects

Course Contents

:

Introduction to Heat Transfer: Physical origin and type of heat transfer, Equations of heat transfer quantity (convection, conduction, radiation), Control volume and control surface energy conservation, basic of heat transfer analysis. Heat Transfer Mechanism with Convection: Flux of heat, thermal characteristics of material (convection of heat, coefficients of heat diffusion), derive of general heat convection equation, condition of limit and first time. Application of Heat Transfer with Convection: Analysis of a dimension determined heat convection (plane wall, cylinder and sphere), analysis of heat production available systems, analysis of heat transfer at winged surface, introduction to two dimension determined heat convection problem and solution method (method of graphics and finite difference), solution of dependent to time heat method convection and thermal capacitance, method of solution and convection+conduction include systems. Heat Transfer Mechanism with Conduction: Basic parameter (coefficient of local and average conduction, hydrodynamic and thermal boundary layers, coefficient of laminar and turbulent flow). Dimension number and important. Application of Heat Transfer with Conduction: Empirical method and formulate, problem of upper surface flow at the solution (upper of surface, perpendicular flow of cylinder and sphere), perpendicular flow of bunch pipe, solution of in the pipe flow (average velocity/ concept of heat and complete developed district, problem of cylindrical / non-cylindrical and annular in the canal flow), free conduction, boiling and condense, converter of heat. Analysis of heat transfer with radiation: concept of basic radiation and calculation of heat radiation   between surface 

Textbook/Recommended

Reading

:

 [1] F. P. Incorpera ve D. P. De Witt,  Fundamentals of Heat and

Mass Transfer, 4rd Edition, John Wiley & Sons, Inc,

Newyork/NY, USA, 1996.

[2] Isı Transferine Giriş I: Isı İletimi, Sadık Kakaç

[3] Isı Transferi, Tuncay Yılmaz

[4] Isı Transferi, Gürbüz Atagündüz.

[5] Isı Transferi Ders Notları, Doç. Dr. B. Yeşilata

Link of Universities

Lehigh Mechanical Engineering

http://www3.lehigh.edu/engineering/meche/

MIT Mechanical Engineering

http://www-me.mit.edu

Purdue Mechanical Engineering

http://me.www.ecn.purdue.edu/ME/

Stanford Mechanical Engineering

http://me.stanford.edu/

Semester Teaching Plan

Week

Subject

1

Introduction to Heat Transfer: Physical origin and type of heat transfer, Equations of heat transfer quantity (convection, conduction, radiation), Control volume and control surface energy conservation, basic of heat transfer analysis.

2

Heat Transfer Mechanism with Convection: Flux of heat, thermal characteristics of material (convection of heat, coefficients of heat diffusion), derive of general heat convection equation, condition of limit and first time.

3

Application of Heat Transfer with Convection: Analysis of a dimension determined heat convection for plane of wall (dispersion of warmth, resistance of thermal, composite of wall) 

4

 Application of Heat Transfer with Convection: Analysis of a dimension determined heat convection for radial systems (dispersion of warmth, resistance of thermal, composite of wall, critical of isolation radial) 

5

Application of Heat Transfer with Convection: analysis of heat production available systems for plane wall and radial systems, introduction to heat transfer on winged surface

6

Midterm exam

7

Applications of Heat Transfer with Convection: analysis of heat transfer on winged surface (general winged heat transfer equation, winged application with uniform cross-section, performance of winged, yield of total surface)

8

Application of Heat Transfer with Convection: Solution of dependent to time heat method convection and thermal capacitance

9

Heat Transfer Mechanism with Conduction: Basic parameter (coefficient of local and average conduction, hydrodynamic and thermal boundary layers, coefficient of laminar and turbulent flow). Dimension number

10

Application of Heat Transfer with Conduction: Empirical method and formulate, problem of upper surface flow at the solution (upper of surface, perpendicular flow of cylinder and sphere)

11

Application of Heat Transfer with Conduction: Perpendicular flow of bunch pipe, solution of in the pipe flow (average velocity/ concept of heat and complete developed district, flow problems of cylindrical / non-cylindrical and annular in the canal flow )

12

Application of Heat Transfer with Conduction: heat transfer with introduction of free conduction, boiling and condense

13

Application of Heat Transfer with Conduction: heat transfer with introduction of free conduction, boiling and condense.

14

Application of Heat Transfer with Conduction: Converter Heat and analysis

Form of Assessment

One written midterm exam (40% ); one written final exam (60%)