COURSE SYLLABUS

HEAT TRANSFER

1	Course Title:	HEAT TRANSFER
2	Course Code:	MAK3005
3	Type of Course:	Compulsory
4	Level of Course:	First Cycle
5	Year of Study:	3
6	Semester:	6
7	ECTS Credits Allocated:	6
8	Theoretical (hour/week):	4
9	Practice (hour/week) :	0
10	Laboratory (hour/week) :	0
11	Prerequisites:	-
12	Recommended optional programme components:	None
13	Language:	Turkish
14	Mode of Delivery:	Face to face
15	Course Coordinator:	Doç. Dr. GÖKHAN SEVİLGEN
16	Course Lecturers:	Prof.Dr.Muhsin KILIÇ Prof.Dr.Akın B. ETEMOĞLU Prof.Dr.Abdulvahap YİĞİT
17	Contactinformation of the Course Coordinator:	e-posta: can@uludag.edu.tr telefon: 0 224 2941957 adres: UÜMMF, Makine Müh. Bölümü
18	Website:
19	Objective of the Course:	The primary objective of this course is to give students knowledge about heat transfer operations in real-world engineering applications. 1. To train students in understanding of the basic principles of heat transfer applications. 2. To provide knowledge about economical, environmental and ethical effects of heat transfer operations
20	Contribution of the Course to Professional Development

Learning Outcomes:

1	To be informed of heat transfer principles, importance and the application field in engineering. ;
2	Knows the heat transfer characteristics of materials and the heat transfer methods.;
3	Solves the steady state conduction heat transfer problems.;
4	Learns the analyzing procedure of heat conduction in transient conditions.;
5	Learns analyze and design techniques of heat convection and its applications.;
6	Learns the calculations and design procedure of heat exchangers.;
7	Learns the relationship between heat transfer and energy efficiency.;

22	Course Content:

Week	Theoretical	Practical
1	Introduction, course objectives, motivation, application areas of heat transfer
2	Modes of heat transfer
3	Finding out the heat conduction equations in cartesian, cylindrical and spherical coordinates, definition of boundary and initial conditions
4	Steady-state heat conduction, composite systems, internal heat generation systems
5	Transient heat conduction (lumped systems analysis)
6	Transient heat conduction in large plane walls, long cylinders and spheres
7	Heat convection: introduction, derivation of mass, momentum and energy equations. Definition of basic parameters in heat convection
8	Heat transfer by forced convection on surfaces and its applications
9	Course Review and Midterm exam
10	Heat transfer by forced convection in pipes and channels and its applications
11	Natural convection and applications
12	Heat exchangers: definition, classification, performance parameters
13	Heat exchangers applications and design criteria
14	Radiation heat transfer

23	Textbooks, References and/or Other Materials:	1. Kılıç, M., Yiğit, A. 2004. ISI TRANSFERİ, Alfa Yayınevi, Bursa, 467 s. 2. Y.A.Çengel, Heat Transfer – A Practical Approach, McGraw-Hill. Singapore, 932 p. 3. F.P. Incropera, D.P. DeWitt, Fundamentals of Heat and Mass Transfer, John Wiley and Sons, Inc. 880 p.
24	Assesment

TERM LEARNING ACTIVITIES	NUMBER	PERCENT
Midterm Exam	1	30
Quiz	1	10
Homeworks, Performances	0	0
Final Exam	1	60
Total	3	100
Contribution of Term (Year) Learning Activities to Success Grade		40
Contribution of Final Exam to Success Grade		60
Total		100
Measurement and Evaluation Techniques Used in the Course
Information

ECTS / WORK LOAD TABLE

CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS

LO: Learning Objectives

PQ: Program Qualifications

Contribution Level:

1 Very Low

2 Low

3 Medium

4 High

5 Very High