Heat Transfer Equations and Solution Methods
Mathematics
Institute of Natural and Applied Sciences
Second Cycle (Master's Degree)
| Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
|---|---|---|---|---|---|---|
| Heat Transfer Equations and Solution Methods | MAT512 | Elective | Master's degree | 1 | Fall | 8 |
Name of Lecturer(s)
Prof. Dr. Vildan GÜLKAÇ
Learning Outcomes of the Course Unit
1) Explain heat and temperature.
2) Determine the heat transfer equation.
3) Explain the notion of heat and mass transfer.
4) Calculate the laplace transformation for the heat transfer equation .
5) Expound analytic solution for the heat transfer equation.
Program Competencies-Learning Outcomes Relation
| Program Competencies | ||||||||
| 1 | 2 | 3 | 4 | 5 | 6 | 7 | ||
| Learning Outcomes | ||||||||
| 1 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
| 2 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
| 3 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
| 4 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
| 5 | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
Mode of Delivery
Face to Face
Prerequisites and Co-Requisites
None
Recommended Optional Programme Components
Not Required
Course Contents
This course provides candidates with in-depth knowledge on finite-diffrence approximations to derivatives, parabolic equations, hyperbolic equations, elliptic equations.
Weekly Schedule
1) The diferential equations of the heat conduction2) Heat conduction equations in different Otrhogonal coordinate sysytems
3) Boundary conditions, homogen and non homogen equations, dimensionless heat equations
4) Seperation of variables method
5) Seperation of variables method
6) SePeration of variables method
7) Practices of Green's function
8) Midterm examination/Assessment
9) Approximate analytical methods
10) Aproximate analytical methods
11) Aproximate analytical methods
12) Phase chance problems
13) Phase-Change problems
14) Nonlinear problems
15) Exercises
16) Final examination
Recommended or Required Reading
1- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
2- John C. Strikwerda
Finite Difference Schemes and Partial Differential Equations, 2nd Edition
3- David W. Hahn ,M. Necati Ozisik , Heat Conduction [Hardcover]
4- Jiji, Latif M.,Heat Conduction
5- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
6- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
7- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
8- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
9- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
10- Heat Conduction, M. Necati Özışk, A Wiley-Interscience publication.
Planned Learning Activities and Teaching Methods
1) Lecture
2) Discussion
3) Demonstration
4) Group Study
5) Problem Solving
Assessment Methods and Criteria
Contribution of Semester Studies to Course Grade |
50% |
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Contribution of Final Examination to Course Grade |
50% |
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Total | 100% | ||||||||||||||||||||
Language of Instruction
Turkish
Work Placement(s)
Not Required