At the end of this course, the students; 1) An ability to use and derivate heat conduction equations 2) Learning Separation of variables, Integral, Laplace Transform and Numerical Methods, Integral and Variation Methods to solve problems in cartesian, cylindrical and spherical coordinates 3) Application of heat conduction equations to actual engineering problems
MODE OF DELIVERY
Face to face
PRE-REQUISITES OF THE COURSE
No
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
None
COURSE DEFINITION
This course includes; Continuum Concept, Formulation of steady and unsteady heat conduction problems for solution, Orthogonal Functions and Fourier Expansions, analytical and numerical solution methods of heat transfer problems.
COURSE CONTENTS
WEEK
TOPICS
1st Week
Introduction
2nd Week
General information about heat transfer
3rd Week
Solution of elementary problems in heat conduction
4th Week
Steady state one dimensional heat conduction problems
5th Week
Steady state one dimensional heat conduction problems
6th Week
Serial solution of heat conduction problems
7th Week
Bessel Differential Equations and Bessel Functions
8th Week
Examination
9th Week
Two and Three Dimensional Heat Conduction Equations
10th Week
Unsteady Heat Conduction: Solutions with Seperation of Variables
11th Week
Solutions with Integral Transforms
12th Week
Solutions with Laplace Transforms
13th Week
Other Solution Techniques
14th Week
Other Solution Techniques
RECOMENDED OR REQUIRED READING
Kakaç, S. and Yener,Y., (1993), Heat Conduction, Third Edition, Philadelphia, Pa:Taylor and Francis Genceli F. O., (2000), Çözümlü Isı İletim Problemleri, İstanbul, Birsen Publisher Özişik, Necati M., (1993)Heat Conduction, 2nd Edition, John Wiley and Sons,
PLANNED LEARNING ACTIVITIES AND TEACHING METHODS
Presentation,Lecture,Questions/Answers
ASSESSMENT METHODS AND CRITERIA
Quantity
Percentage(%)
Mid-term
1
35
Assignment
5
10
Presentation of Case Study
1
5
Total(%)
50
Contribution of In-term Studies to Overall Grade(%)
50
Contribution of Final Examination to Overall Grade(%)
50
Total(%)
100
ECTS WORKLOAD
Activities
Number
Hours
Workload
Midterm exam
1
3
3
Preparation for Quiz
Individual or group work
14
3
42
Preparation for Final exam
1
60
60
Course hours
14
3
42
Preparation for Midterm exam
1
30
30
Laboratory (including preparation)
Final exam
1
3
3
Homework
5
20
100
Presentation (including preperation)
1
30
30
Total Workload
310
Total Workload / 30
10,33
ECTS Credits of the Course
10
LANGUAGE OF INSTRUCTION
Turkish
WORK PLACEMENT(S)
No
KEY LEARNING OUTCOMES (KLO) / MATRIX OF LEARNING OUTCOMES (LO)