At the end of this course, the students; 1) Ability to apply knowledge of mathematics, science, and engineering 2) Ability to design and conduct experiments, as well as to analyze and interpret data 3) Abilityto design a system, component, or process to meet desired needs with inrealistic 4) Ability to function on multidisciplinary teams 5) Ability to identify, formulate, and solve engineering problems 6) The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context 7) Ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.
MODE OF DELIVERY
Face to face
PRE-REQUISITES OF THE COURSE
Yes(ME207)
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
COURSE DEFINITION
Steady state and transient heat transfer in one and two dimensional systems. Thermal resistance, conduction. Heat transfer from extended surfaces, fins and plate channels . The analysis of heat source in thermal systems, Numerical methods. Reynolds number. Heat convection, boundary conditions, free and forced convection. Thermal radiation.
COURSE CONTENTS
WEEK
TOPICS
1st Week
1st Week Introduction to heat transfer, conduction, convection and radiation concepts
2nd Week
2nd Week Conductivity coefficient, heat transfer equation, initial and boundary conditions
3rd Week
3rd Week One dimensional steady heat conduction
4th Week
4th Week Two dimensional heat conduction
5th Week
5th Week Transient heat conduction
6th Week
6th Week Heat convection and boundary conditions
7th Week
7th Week Laminar and turbulent flows, convection coefficients
8th Week
8th Week Forced convection, flow around cylinder, sphere and bunch of tubes
9th Week
9th Week Flow in pipes and ducts, friction coefficient, fully developed flows
10th Week
10th Week Evaluation of laminar and turbulent flows in pipes and ducts
11th Week
11th Week Natural convection
12th Week
12th Week Emprical relations for natural convection along a vertical plate
13th Week
13th Week Emprical relations for flows around cylinders and spheres
14th Week
14th Week Thermal radiation
RECOMENDED OR REQUIRED READING
Holman, J.P., (2005) Heat and Mass Transfer 9th Ed. John Wiley and Sons. Çengel, Y.A., (2004) Heat Transfer, Mc Graw Hill Yüncü, H., Kakaç, S., (2000) Temel Isı Transferi, Bilim yayınları.
PLANNED LEARNING ACTIVITIES AND TEACHING METHODS
Lecture
ASSESSMENT METHODS AND CRITERIA
Quantity
Percentage(%)
Mid-term
1
35
Assignment
1
10
Quiz
1
10
Total(%)
55
Contribution of In-term Studies to Overall Grade(%)
55
Contribution of Final Examination to Overall Grade(%)
45
Total(%)
100
ECTS WORKLOAD
Activities
Number
Hours
Workload
Midterm exam
1
2
2
Preparation for Quiz
14
,5
7
Individual or group work
14
2
28
Preparation for Final exam
14
1
14
Course hours
14
4
56
Preparation for Midterm exam
7
1
7
Laboratory (including preparation)
3
2
6
Final exam
1
3
3
Homework
Project
1
24
24
Quiz
6
,4
2,4
Total Workload
149,4
Total Workload / 30
4,98
ECTS Credits of the Course
5
LANGUAGE OF INSTRUCTION
English
WORK PLACEMENT(S)
No
KEY LEARNING OUTCOMES (KLO) / MATRIX OF LEARNING OUTCOMES (LO)
